PATENT DOCUMENT

Abstract:
The present invention relates to a method of acquiring biomechanical position data for use in postural analysis, the method comprising the steps of:  
     a) selecting a plurality of marker positions referenced with respect to the anatomy of a patient by one of:  
     skin surface features having minimal variability from one patient to the next; and  
     skeletal features palpable from a skin surface of the patient;  
     b) attaching a scanable marker on the patient at each of the marker positions, the step of attaching including palpating the patient to define at least some of the marker positions;  
     c) instructing the patient introduced to stand relaxed and in normal posture; and  
     d) scanning the markers attached to the patient to obtain position data for each of the marker positions.

Full Description:
[0001]    The present invention relates to a system and method for the biomechanically accurate measurement of posture and for providing a patient with a suitable corrective exercise program. More particularly, the present invention relates to a system and method to automatically analyse the location of anatomical markers placed over skeletal landmarks to obtain biomechanical parameters; a system and method that uses these biomechanical data to automatically detect and/or quantify postural deviations from correct anatomical alignment; a system and method to automatically generate corrective exercise routines. The present invention also relates to the use of the Internet to provide a distributed system for patient care involving image acquisition in a clinical environment, data analysis at a central server and communication between the central server and the health-care professional as well as potential follow-up and feedback between the patient and either the health-care professional or the central server or both.  
         BACKGROUND OF THE INVENTION  
       DESCRIPTION OF PRIOR ART  
         [0002]    A tree trunk grows straight up and tree branches are symmetrical around this solid core to provide a “posture” to withstand the effects of wind and gravity. We too have an optimal posture that allows us to function most efficiently. As builders and architects use plum lines to arrange the walls and supporting structures of a home, we use plumb lines to define this ideal postural alignment. In correct posture, a plumb line dropped from you ear will go through your shoulder, the middle of your pelvis, the middle of your knee, and the front of your anklebone. Your head, trunk, pelvis and knees are “stacked” one on top of the other. Deviations from this positioning can have negative consequences to your health and well being, and correcting postural alignment can make a person look and feel better. Ideal or optimal posture minimizes energy expenditure and muscle work necessary to maintain deviant posture in the face of gravitational forces. As patients become more and more proactive in their choice or health care, they will certainly demand amelioration of their disordered posture. For example, lower back pain has often been attributed to abnormal postural relationships between body segments, and is frequently a cause of patient complaints to family care physicians.  
           [0003]    Typically, practitioners are content with a basic appreciation of a client&#39;s posture. Systematic biomechanical analyses are rarely performed because they are time intensive and require specialized equipment. Instead, only qualitative observations are often made. Specialists, such as Chiropractors and physiotherapists are sometimes trained to make postural assessments, often employing qualitative measures to assess posture and determine corrective measures. Practitioners may refer to these specialists, but again, the procedures are time and labor intensive and consequently, are expensive for the patient, who may or may not have insurance to cover these expenses. Further, qualified medical practitioners, such as family practice physicians, may want to perform such analyses but lack the specialized equipment or training to accurately assess posture based on observations alone. Consequently, a cost effective and highly automatic system is needed to assist practitioners in effective assessment and treatment of postural difficulties.  
           [0004]    In 1998, Tonix Santé introduced a biomechanical computation system based on the manual identification of anatomical markers from analog video images. Clinicians manually identified the location of these markers on images and some biomechanical computations were performed. However, it took a long time to place markers because common scotch tape first had to be applied to patients and then markers affixed to this adhesive. There was also no automatic detection of marker placement, no automatic detection of postural deviations, and no automatic generation of exercise routines to ameliorate postural deviations. The placement of anatomical markers on the body&#39;s surface was not based on any established model of ideal postural alignment. In other automated processes for postural evaluation, the markers are placed on the patient&#39;s loose-fitting clothes, such a method lacks precision, because first, it is difficult to determine the location of appropriate structural landmarks through loose-fitting clothing, and the position of the markers may move because clothing can move in relationship to the skin surface. Also, markers can not be safely placed on the patient&#39;s skin because they are not compliant with hypoallergenic requirements.  
           [0005]    Another deficiency of the actual method to evaluate and correct patient&#39;s posture is the loss of control of the health-care practitioner in the treatment given to his or her patient when he or she refers the patient to a specialist such as chiropractor or physiotherapist. The patient has to take several appointments from several potential specialists. Furthermore, no health-care practitioner or specialist alone can benefit from experience with thousands of patients and be able to correlate biomechanical information from these patients with appropriate treatment and results obtained. There is neither a way to share experience in an efficient way between several health-care practitioners and/or specialists treating this many patients. There is also no way to provide a quantified follow-up of progress.  
         SUMMARY OF THE INVENTION  
         [0006]    One aim of the present invention is to provide a process and apparatus to acquire biomechanical position data in selecting marker positions referenced with respect to the patient&#39;s skeletal anatomy by one of skin surface features having minimal variability from one patient to the next and skeletal features palpable from a skin surface of the patient and in attaching a scanable marker on the patient at each of the marker positions, these marker positions being used to calculate the positions of body segments.  
           [0007]    Another aim is to provide a method to analyze these body segment positions to obtain body segment biomechanical parameters and deviations.  
           [0008]    An other aim of the present invention is to provide a method to use these biomechanical deviation values to determine postural deviations and corrective exercises to rectify these deviations.  
           [0009]    Another aim of the present invention is to use the Internet to provide a distributed system for patient care involving image acquisition in a clinical environment, data analysis at a central server and communication between the central server and the health-care professional as well as potential follow-up and feedback between the patient and either the health-care professional or the central server or both.  
           [0010]    In accordance with the present invention there is provided a method of acquiring biomechanical position data for use in postural analysis, this method comprising the steps of:  
           [0011]    a) selecting a plurality of marker positions referenced with respect to an anatomy of a patient by one of:  
           [0012]    skin surface features having minimal variability from one patient to the next; and  
           [0013]    skeletal features palpable from a skin surface of the patient;  
           [0014]    b) attaching a scanable marker on the patient at each of the marker positions, the step of attaching including palpating the patient to define at least some of the marker positions;  
           [0015]    instructing the patient to stand relaxed and in normal posture; and  
           [0016]    c) scanning the markers on the patient to obtain position data for each of the marker positions.  
           [0017]    The method in accordance with a preferred embodiment of the present invention, wherein the patient is scanned from a front, side and rear viewpoints.  
           [0018]    The method in accordance with a preferred embodiment of the present invention, wherein the step of scanning comprises photographing the patient against a backdrop, the markers comprising contrasting visual markers, the backdrop including a plurality of scale and orientation reference marker points.  
           [0019]    The method in accordance with a preferred embodiment of the present invention, wherein the markers comprise an adhesive layer for sticking to the patient.  
           [0020]    The method in accordance with a preferred embodiment of the present invention, wherein the step of photographing comprises using a digital camera with a flash to obtain digital images, the markers comprising retroreflective markers.  
           [0021]    The method in accordance with a preferred embodiment of the present invention, wherein some of the markers are scanned from more than one of the viewpoints and comprise retroreflective spheres.  
           [0022]    The method in accordance with a preferred embodiment of the present invention, wherein the step of instructing the patient to stand relaxed and in normal posture comprises requesting the patient to walk in place prior to standing still.  
           [0023]    The method in accordance with a preferred embodiment of the present invention, wherein the step of scanning comprises automatically recognizing the markers and the reference marker points in the digital images using a computer.  
           [0024]    The method in accordance with a preferred embodiment of the present invention, wherein the computer comprises a user interface and, when the computer recognizes too many or too few of the markers, input is accepted via the user interface to remove or add, with reference to the digital images, the position coordinates of the markers which the computer incorrectly recognized or failed to recognize.  
           [0025]    In accordance with the present invention, there is provided a method for calculating postural deviation values in a patient comprising the steps of:  
           [0026]    a) obtaining position data identifying a position in space of body segments of the patient while standing relaxed and in normal posture, the body segments comprising head-shoulders, shoulders-pelvis, pelvis-hips, hips-knees and knees-ankles;  
           [0027]    b) obtaining height and weight data of the patient;  
           [0028]    c) calculating vertical and horizontal plumb lines using the position data;  
           [0029]    d) calculating for at least some of the body segments an angle of deviation value and distance of deviation value with respect to the plumb lines using the position data.  
           [0030]    The method in accordance with a preferred embodiment of the present invention, wherein the angle and distance of deviation values are referenced with respect to average or normal values.  
           [0031]    The method in accordance with a preferred embodiment of the present invention, further comprising a step of calculating an effective weight or stress of at least one of the body segments using an estimated weight of the at least one body segment and the deviation values.  
           [0032]    The method in accordance with a preferred embodiment of the present invention, wherein the deviation values are calculated for all of the body segments.  
           [0033]    In accordance with the present invention there is provided a method of selecting exercises for improving tonicity and correcting posture in a patient, the method comprising the steps of:  
           [0034]    a) obtaining biomechanical position data of the patient while standing relaxed and in normal posture, the position data indicative of postural problems requiring correction;  
           [0035]    b) ranking the postural deviations by severity and priority;  
           [0036]    c) correlating the position data with exercises for strengthing or stetching specific muscles or muscle groups to obtain ranking data for the exercises;  
           [0037]    d) compiling an exercise program for the patient based on the ranking data.  
           [0038]    The method in accordance with a preferred embodiment of the present invention, wherein the step of compiling comprises manually selecting exercises from a ranked list of exercises.  
           [0039]    The method in accordance with a preferred embodiment of the present invention, wherein the exercises are grouped in sets of exercises each attempting to correct a specific postural deviation, the step of correlating comprising correlating the position data with the sets of exercises, and the exercise program comprising a series of the sets of exercises.  
           [0040]    The method in accordance with a preferred embodiment of the present invention, wherein the exercises are grouped in sets of exercises each attempting to correct a specific postural deviation, the step of correlating comprising correlating the position data with the sets of exercises, and the exercise program comprising a series of the sets of exercises.  
           [0041]    The method in accordance with a preferred embodiment of the present invention, wherein the position data identifies a position in space of body segments of the patient, the body segments comprising head-shoulders, shoulders-pelvis, pelvis-hips, hips-knees and knees-ankles, and the step of correlating comprises:  
           [0042]    a) calculating vertical and horizontal plumb lines using the position data;  
           [0043]    b) calculating for at least some of the body segments an angle of deviation value and distance of deviation value with respect to the plumb lines using the position data;  
           [0044]    c) comparing the deviation values to normal values for the at least some of the body segments to obtain deviation priority values;  
           [0045]    d) ranking the deviation priority values according to an order of severity or importance; and  
           [0046]    e) determining the ranking data based on an association of the exercises with body segment deviations in accordance with the order of severity or importance.  
           [0047]    The method in accordance with a preferred embodiment of the present invention, wherein the step of ranking the deviation priority values according to an order of severity or importance comprises manually selecting deviations to be corrected by the exercise program, the order of severity or importance reflecting those deviations manually selected.  
           [0048]    The method in accordance with a preferred embodiment of the present invention, wherein the exercises are grouped in sets of exercises each attempting to correct a specific postural deviation, and the exercise program comprising a series of the sets of exercises.  
           [0049]    The method in accordance with a preferred embodiment of the present invention, wherein the exercise program is limited to a maximum number of exercises, the step of manually selecting deviations is automatically restricted when a maximum number of exercises corresponding to the selected deviations exceeds the maximum number for the exercise program.  
           [0050]    The method in accordance with a preferred embodiment of the present invention, wherein the step of compiling comprises repeating ones of the exercises corresponding to most severe postural problems regularly throughout the exercise program and including ones of the exercises corresponding to less severe postural problems for only part of the program.  
           [0051]    The method in accordance with a preferred embodiment of the present invention, wherein the step of compiling comprises including ones of the exercises corresponding to moderately severe postural problems more intensively for only part of the exercise program.  
           [0052]    The method in accordance with a preferred embodiment of the present invention, wherein the step of compiling comprises repeating ones of the exercises corresponding to most severe postural problems regularly throughout the exercise program and including ones of the exercises corresponding to less severe postural problems for only part of the program.  
           [0053]    The method in accordance with a preferred embodiment of the present invention, wherein the step of compiling comprises including ones of the exercises corresponding to moderately severe postural problems more intensively for only part of the exercise program.  
           [0054]    The method in accordance with a preferred embodiment of the present invention, further comprising steps of:  
           [0055]    a) obtaining, after completing of the exercise program, new biomechanical position data of the patient while standing relaxed and in normal posture;  
           [0056]    b) evaluating an effectiveness of the exercises in the exercise program for correcting the postural problems; and  
           [0057]    c) adjusting parameters used in the step of correlating for future patients based on the effectiveness evaluated in the previous step.  
           [0058]    The method in accordance with a preferred embodiment of the present invention, wherein the exercise program is repeatedly varied until the effectiveness of the exercises is optimized.  
           [0059]    The method in accordance with a preferred embodiment of the present invention, wherein the steps of correlating, evaluating and adjusting are carried out using a centralized shared database of the parameters used in the step of correlating for a large number of patients.  
           [0060]    The method in accordance with a preferred embodiment of the present invention, wherein the parameters include at least one of age and an activity level of the patient.  
           [0061]    In accordance with the present invention there is provided a method of providing posture health care using a distributed system, the method comprising the steps of:  
           [0062]    a) obtaining personal data of a patient, the personal data including weight, height, gender and activity data of the patient, and obtaining posture anatomical reference position data of the patient at a biomechanical measurement station;  
           [0063]    b) processing the personal and position data using data stored in a remote central database to obtain preliminary postural deviation assessment data;  
           [0064]    c) providing the preliminary postural deviation assessment data to one of a health-care practitioner and the patient;  
           [0065]    d) obtaining corrected postural deviation assessment data from one of the health-care practitioner and the patient; and  
           [0066]    e) modifying the data stored in the central database using the corrected data.  
           [0067]    The method in accordance with a preferred embodiment of the present invention, wherein the preliminary postural deviation assessment data comprises a ranked list of deviations and a preliminary selection of the deviations to be included in a therapeutic exercise program, and the corrected data comprises a corrected selection of the deviations to be included in a therapeutic exercise program.  
           [0068]    The method in accordance with a preferred embodiment of the present invention, wherein:  
           [0069]    the preliminary postural deviation assessment data comprises a set of therapeutic exercises of an exercise program;  
           [0070]    the corrected data comprises new posture anatomical reference position data of the patient obtained after completion of the exercise program; and  
           [0071]    step (e) comprises processing the new reference position data to determine an effectiveness of the therapeutic exercises in correcting postural deviations and modifying accordingly the data stored in the central database.  
           [0072]    The method in accordance with a preferred embodiment of the present invention, wherein:  
           [0073]    step (a) comprises validating completeness of the reference position data at the biomechanical measurement station and transmiting the personal and position data to a central server;  
           [0074]    step (b) is a carried out at the central server;  
           [0075]    step (c) comprises transmitting the preliminary postural deviation assessment data from the central server to one of the health-care practitioner and the patient;  
           [0076]    step (d) comprises transmitting the corrected data to the central server; and  
           [0077]    step (e) is carried out by the central server.  
           [0078]    The method in accordance with a preferred embodiment of the present invention, wherein the biomechanical measurement station includes a health-care practitioner client station in communication with the central server.  
           [0079]    The method in accordance with a preferred embodiment of the present invention, wherein the client station uses a web browser interface to communicate with the central server, the central server providing a secure connection to a biomechanical assessment report web document for the patient.  
           [0080]    For the purpose of the present invention the following terms are defined below.  
           [0081]    The term “anterior view” is intended to mean the view of the front of the body (with the person in anatomical position). The term “lateral view” is intended to mean the view of the patient from the side.  
           [0082]    The term “posterior view” is intended to mean the view of the patient from behind.  
           [0083]    The term “body segment parameters” is intended to mean the spatial coordinates of body segments and key anatomical landmarks taken from the images from the lateral, anterior and posterior views.  
           [0084]    The present invention provides a process and apparatus to acquire patient images rapidly and accurately in a clinical environment, to extract body segment parameters from surface markers, a method for analysing these data to obtain biomechanical parameters and deviations, a method involving the use of these biomechanical parameters and deviations for the detection of postural deviations and the selection of corrective exercices, and the use of Internet to provide a distributed system for patient care involving image acquisition in a clinical environment, data analysis at a central server and communication between the central server and the health-care professional as well as potential follow-up and feedback between the patient and either the health-care professional or the central server or both. The placement of markers based on a well established model of ideal postural alignment is crucial because the placement of markers determines the relative deviation of body segments from vertical and horizontal “plumb” or ideal alignment. The current system uses the most widely used and respected anatomical definition of ideal postural alignment (Kendall, McCreary, &amp; Provance, 1993). And, a sophisticated marker placement system has been designed to place surface markers on locations defining this alignment. The importance of a correct definition of ideal posture is obvious when one is attempting to detect postural deviations. A further crucial difference between the earlier systems and the present invention is the use of scanning technology to automatically detect the location of reflective markers placed on the skin overlying skeletal landmarks. They can be placed directly on the skin because they are made from a hypoallergenic material. Such marker placement is highly important, because it avoids the potential examiner error associated with the manual identification of presumed skeletal landmarks from video images. The current system automatically detects markers, and their locations are transmitted automatically through the web for the calculation of postural deviations. Further differences between earlier state of the art and the current system includes the automatic generation of a personalized exercise plan based on individualized and automatic assessments of patients&#39; biomechanical and postural status.  
           [0085]    As such, the biomechanical knowledge system radically changes the practice of biomechanical analysis by creating an objective and effective methodology that is simple to implement using complex yet innovative technology. We have developed a strong theoretical model of biomechanical function as well as innovative methods for data capture, analysis and adapted exercise routines. Both theoretical and technological aspects of our system have been integrated into a coherent and operational system.  
           [0086]    We have successfully linked a biomechanical assessment of potential postural deviations to the underlying muscular components giving rise to these deviations. We go further by suggesting specific muscular training routines to ameliorate the underlying muscular and postural deviations. This unique theoretical and methodological link will be outlined in more detail below. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0087]    Having thus generally described the nature of the invention, reference will now be made to the accompanying drawings, showing by way of illustration a preferred embodiment thereof, and wherein:  
         [0088]    [0088]FIG. 1: surface anatomical marker locations in the anterior view;  
         [0089]    [0089]FIG. 2: marker positions in the lateral view;  
         [0090]    [0090]FIG. 3: marker positions in the posterior view;  
         [0091]    [0091]FIG. 4: the retroreflective marker sticker construction according to the preferred embodiment;  
         [0092]    [0092]FIG. 5: the retroreflective marker sphere and application sticker assembly according to the preferred embodiment;  
         [0093]    [0093]FIG. 6: the position of the camera and calibration backdrop;  
         [0094]    [0094]FIG. 7: the perspective of the subject relative to the wall and the camera, as well as measures used for calculations;  
         [0095]    [0095]FIG. 8: the flowchart describing the image acquisition and the obtention of the location of anatomical markers;  
         [0096]    [0096]FIG. 9 shows the flowchart describing the process to generate an exercise schedule;  
         [0097]    [0097]FIG. 10: the flowchart describing the overall process of biomechanical assessment, postural deviation detection, exercise generation, feedback from health-care practitioner to patient and follow-up.  
         [0098]    [0098]FIG. 11: the schema server-user;  
         [0099]    [0099]FIG. 12: description of missing marker calculation;  
         [0100]    [0100]FIG. 13: page of the Biomechanical Assessment Report (Biomechanical Assessment Report) with patient&#39;s image, deviations and biomechanical parameters;  
         [0101]    [0101]FIG. 14: page from the Biomechanical Assessment Report with postural deviations and associated exercises and stretching;  
         [0102]    [0102]FIG. 15: page from the Biomechanical Assessment Report with exercise schedule; and  
         [0103]    [0103]FIG. 16: page from the Biomechanical Assessment Report with illustration and description of two of the many possible exercises of the exercise program  
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0104]    In accordance with the present invention, there is provided a system and method using biomechanical analysis to generate a schedule of corrective exercises suitable for a patient&#39;s condition.  
         [0105]    The present invention follows the established biomechanical and clinical principle that resting, standing posture is a composite state made up of the relative position of body segments (e.g., head, trunk, legs) in space and relative to gravity. This is known as static postural alignment. Posture can also be described in terms of muscular balance. Proper posture is the result of symmetrical muscular development and the appropriate interaction of flexor and extensor muscles in a way that suit&#39;s a vertical stance.  
         [0106]    The method described in the present application is based on hypotheses underlying muscular balance, such hypotheses being that:  
         [0107]    All alignment problems yield abnormal tension and constrain the skeleton, joints, ligaments and muscles.  
         [0108]    The study of the relative position of linked body segments reveals muscles that are hyper- or hypo-contracted.  
         [0109]    Alignment and muscular balance are correlated for normal posture.  
         [0110]    Muscular imbalance promotes an increase in the distance of a body segment from correct vertical and horizontal alignment.  
         [0111]    Depending on the deviation, antagonist muscle groups must be strengthened or stretched to achieve correct muscular balance and postural change.  
         [0112]    The inseparable qualities that are alignment and muscular balance are central components of correct body mechanics. A correct vertical stance is the result of a harmonious combination of joint and body segment positions, which in turn stem from an optimal ratio of agonist/antagonist muscles. The energy expenditure required by the muscles is minimal. Therefore, there is an optimal alignment of the body that must take into account all anatomical structures involved in maintaining this alignment. Further, alignment is maximal when the load-bearing structures are also positioned optimally relative to gravity. The sum of forces that act on anatomical structures are balanced if the body is correctly positioned. Daily activities and habits often transform the body from ideal postural alignment independently of disease or structural anomalies. This can have highly negative consequences on daily living, and particularly in terms of the energy necessary to maintain the disordered posture and overlying movements. It is therefore very important to identify and correct these postural deviations.  
         [0113]    The following steps are involved in the postural assessment-postural deviation muscular identification-exercise process. These steps consists of:  
         [0114]    Comprehensive biomechanical analysis  
         [0115]    Identification of postural deviations and ranking by order of priority  
         [0116]    Specification of muscular factors underlying the postural deviations  
         [0117]    Personalised muscular stretching and exercises routines to ameliorate postural deviations that incorporates level of difficulty and order of priority of deviations  
         [0118]    Assessment of client progress by follow-up Biomechanical Assessment Reports and  
         [0119]    Modification of exercise protocol, if necessary.  
         [0120]    The marker construction according to the preferred embodiment is illustrated in FIGS. 4 and 5. There are two types of markers, flat round disks  25  and spheres  30 . The disks  25  and spheres  30  share the same diameter, namely about 2 cm. The spherical and flat markers are placed on the surface of a patient&#39;s body using hypoallergenic adhesive, the markers being placed over skeletal landmarks that define ideal postural alignment. The skeletal landmarks used in the present invention are landmarks which have been recommended by the teachings of Kendall et al. (1993) mentioned above. The adhesive layer  24  is provided on a release sheet  20  with a lift-off tab  24 . The retroreflective disk  25  is already attached to the adhesive sheet  22  which has the same shape as the disk, except for the tab  24 . Due to the double-sided adhesive sheet  22 , the adhesive layer  21  is hypoallergenic and is used to contact the skin or the tight clothing of th patient  36 , while the adhesive layer  23  allows the disk  25  to be held in place or peeled off. When the disk  25  is peeled off, the sheet  22  remains adhered to the patient surface  36 , and exposes the layer  23 . The sphere  30 , having a truncated flat side is adhered to layer  23 , and is thus applied to patient surface  36 . The sphere  30  comprises a wooden core  32  which is dipped in a retroreflective paint (Axon Alert 1460, Axon Aerospace, Greenville, U.S.A.) which forms a coating  34 .  
         [0121]    The disk  25  is cut from stock sheet of retroreflective material made by 3M, namely 3929 Thermal Transfer Printable Retro-Reflective Label Stock and has a thickness of 3 mm. The double-sided adhesive sheet  22  is made by 3M, namely 1522, Double Coated Medical Tape. The adhesive layers  21  and  23  are hypoallergenic, pressure sensitive acrylate adhesive. The coating material  34  comprises 85% solids per weight and the fineness of grind is 200 mesh. The mixing and coating process is as follows. Surfaces to be paint are cleanned and lightly abraded before coating. The spheres are then dipped between 2 to 5 minutes and dryed under normal drying conditions.  
         [0122]    Four digital images are taken of the patient using camera  10  in order to provide a visual image of postural alignment for the patients and health-care professionals and for the automatic detection of body segment parameters. The camera  10  has a standard built-in flash  12  which is set to operate during image acquisition. The intense light form the flash is reflected by the markers  25  and  30  and the markers appear as bright small circles in the acquired images. The high contrast of the markers  25  and  30  with respect to the image of the patient facilitates later automatic recognition of the markers. The placement of markers in the anterior view is shown in FIG. 1. FA02 is a spherical marker placed on the glabella, FA 03  is a spherical marker placed on the middle of the chin and overlying the mental protuberance, FA05 is a spherical marker placed on the right shoulder over the acromion, FA07 is a spherical marker placed on the left shoulder over the acromion, FA 06  is a marker placed on the jugular notch, FA08 is a marker placed over the umbilicus, FA09 is a spherical marker placed on the right anteriosuperior iliac spine, FA11 is a marker placed on the left anterior superior iliac spine, FA 12  is a marker placed on the right wrist over the styloid process of the radium, FA 13  is a marker placed on the left wrest over the styloid process of the radius, FA14 is a marker centered over the right patella, FA15 is a marker centered over the left patella, FA 16  is a marker centered between the right medial and lateral malleoli, FA 18  is a marker centered between the left medial and lateral malleoli, FA19 is a marker placed on the anterior aspect of the right distal phalanx of the great toe and FA20 is a marker placed on the anterior aspect of the left distal phalanx of the great toe.  
         [0123]    The markers on the lateral view are placed as shown in FIG. 2. SD01 is a marker placed on the tragus of the right ear, SD 02  is a spherical marker placed on the glabella, SD 03  is a spherical marker placed on the middle of the chin, and overlying the mental protuberance, SD04 is a spherical marker placed on the right shoulder over the acromion, SD 05  is a spherical marker placed over the right posterior superior iliac spine, SD 08  is a spherical marker placed on the right anteriosuperior iliac spine, SD09 is a marker placed over the greater trochanter, SD10 is a marker placed on Gerdy&#39;s tubercle and SD11 is a marker placed on the transverse tarsal joint.  
         [0124]    The markers on the posterior view are placed as shown in FIG. 3. FP03 is a marker placed over the spinous process of the seventh cervical vertebra, FP04 is a spherical marker placed on the left shoulder over the acromion, FP05 is a spherical marker placed on the right shoulder over the acromion, FP06 is a marker placed over the spinous process of the fifth thoracic vertebra, FP07 is a marker placed over the left posterior superior iliac spine, FP08 is a spherical marker placed over the right posterior superior iliac spine, FP 10  is a marker placed on the left wrist over the styloid process of the ulna, FP 11  is a marker placed on the right wrist over the styloid process of the ulna, FP12 is a marker placed over the center of the left popliteal cavity, FP13 is a marker placed over the center of the right popliteal cavity, FP14 is a marker centered over the left Achilles tendon at the level of the medial malleolus, FP16 is a marker centered over the right Achilles tendon at the level of the medial malleolus, FP17 is a marker centered over the calcaneous of the left foot and FP19 is a marker centered over the calcaneous of the right foot.  
         [0125]    Precise position of the markers is essential for accurate biomechanical assessment and detection of postural deviations. For this, the patient must wear very tight workout clothes to avoid hiding the few landmarks that are potentially covered by clothing. Most markers are placed directly over the body surface. The health-care practitioner must palpate the patient to make sure that the markers are well positionned.  
         [0126]    Shown in FIG. 6 is the position of the camera and calibration backdrop. Pictures are taken with a flash to use the retroreflective property of the markers and make them more apparent on the pictures. The first picture is taken from the lateral view with arms down. The second picture is also from the lateral view but with the proximal arm flexed at 90° to detect the position of markers potentially hidden with the arm down. These values are eventually transferred to the more “natural” lateral image with the arm down. The third and fourth pictures are taken from the anterior and posterior views, respectively. The pictures are taken against a backdrop including a plurality of scale and orientation reference marker points facilitating body segment parameters calculation. Also the patient is instructed to stand in a relaxed and normal posture. To help the patient to adopt the most natural body posture possible, the patient is asked to walk in place prior to standing still.  
         [0127]    The digital images are stored on a flash memory card within the camera and then transferred to a card reader connected to a computer which in turn, is connected to the Internet. The health-care professional can then connect to the central processing server ( 4 ) of FIG. 12 entering on the system web site. First step, the health-care practitionner has to identify client. If the client has his or her first evaluation, personal data (height, weight, gender, age, activity level, preferred unit of measurement) is entered. A client identification number is created to identify client data in the database but protect confidentiality. In the second step, the health-care professional starts the image scanning and biomechanical assessment process. The health-care practitioner select each patient&#39;s images in the directory on the computer. The positions of the anatomical markers that define body segments are scanned and coordinates sent via the Internet to the central server for processing. To protect patient privacy, the images themselves are never sent via the Web, only the coordinates of the markers are transferred.  
         [0128]    The digital location of the markers is supplied and the system receives the scan, validates it and sends back a validation message to the health-care practitioner. The health-care professional receives an error message if insufficient or excessive markers are apparent in the automatic scan. A manual function is provided to correct marker placements, if necessary, and the images are re-scanned. If it is determined that the marker position data obtained from the images is flawed, the health-care professional may again acquire the images, possibly after rechecking the marker positioning. As will be appreciated, when the imaging is complete, and after confirming that the marker positions have been validated, the tabs  24  of the adhesive sheets  22  for the markers  25  and  30  facilitate removal of the adhesive sheets from the clothing or skin  36  of the patient (see FIG. 5). Since a large number of markers needs to be removed, saving time in their removal allows the patient to finish up quicker and change back into his or her clothes.  
         [0129]    The next step is to update credit information, submit it to the system and confirm payment. The system sends back a validation message to the health-care practitioner to proceed.  
         [0130]    Further to that step, biomechanical calculations are executed on the central server ( 4 ) of the FIG. 11.  
         [0131]    The first step is the conversion of images from pixels to actual distances. To do so, the origin is redefined as follow:  
         x   ′     =     x   -     w   2                 y   ′     =       h   2     -   y                           
 
         [0132]    where w=image width  
         [0133]    and h=image height  
         [0134]    Then the image rotation is proceed as follow:  
       dx   =       (       C1x   -   C2x     2     )     +     (       C3x   -   C4x     2     )               dy   =       (       C1y   -   C2y     2     )     +     (       C3y   -   C4y     2     )                 x   ″     =         x   ′               y            -       y   ′               x                        y   ″     =         y   ′               y            -       x   ′               x                                    
 
         [0135]    where d={square root}{square root over (d 2 +dy 2 )} 
         [0136]    with C1, C2, C3 and C4 being calibration points from the backdrop.  
         [0137]    With these calculations it is possible to get coordinate values of the position of anatomical markers relevant to plumb lines in millimetres (or inches with conversion). Shown in FIG. 7 is the perspective needed for this process.  
         [0138]    D=Calibration dimension (mm)  
         [0139]    c=distance of camera from the wall  
         [0140]    s=distance of the subject from the wall  
         D   ′     =     D        (     1   -     s   c       )                 x   ′′′     =         D   ′     d          (       x   ′′     +     w   2       )                 y   ′′′     =       D   d          (       y   ′′     +     h   2       )                             
 
         [0141]    The calculation of (1−s/c) is obtained with the following formulas  
         :     tan        (   α   )         =       dy   s     =     y   c                             
 
       dy   =     yxs   c               Y   ′     =     y   -   dy               y   ′     =     y        (     1   -     s   c       )                             
 
         [0142]    The same calculations may be made with respect to x and the distance d′ can be calculated as:  
         d   ′     =     d        (     1   -     s   c       )                             
 
         [0143]    The calculations made, the coordinates of markers are determined and expressed relative to vertical and horizontal plumb lines. The missing markers positioned in pelvic area are then calculated. Shown below are the equations used to determine marker coordinates and FIG. 12 displays the missing markers on the pelvis area. SD 5 , SD 8 , SV 5  and SV 8  represent the markers on the pelvic area. d is the segment relating SD 5  and SD 8  and b is the segment relating SD 5  and SD 9 . The angle θ is the angle between the markers SD 5  and SD 8 . In reconstructing a right-angle triangle where d is the hypotenuse, w is the leg facing the hypotenuse and h is the remaining leg of the rectangle.  
         [0144]    Plus: FA9(x2″, y2″) and FP9(x1″, y1″)  
         dx−(x2′−x1′)  
           bx =( x 3′− x 1′)  
           dy =( y 2′− y 1′)  
           by =( y 3′− y 1′)  
           h =( y 2″− y 1″)  
           d ={square root}{square root over ( dx   2   +dy   2 )}       b   =         bx   2     +     by   2                     d   →     ·     b   →       =       db                 cos                 θ     =     dxbx   +   dyby               θ   =       cos     -   1            (       dxbx   +   dyby     db     )                 d   2     =         (     x2   -   x1     )     2     +     h   2               x2   =       x1   +           d   2     -     h   2                       or                 x1       =     x2   -         d   2     -     h   2                     y2   =       y1   +     h                 or                 y1       =       y   2     -   h               w   =     x2   -   x1             x3   =     x1   +       b   d          (       w                 cos                 θ     -     h                 sin                 θ       )                 y3   =     y1   +       b   d          (       h                 cos                 θ     +     w                 sin                 θ       )                                 
         [0145]    Marker coordinates are used in the next step to determine a patient&#39;s deviations from optimal alignment. Shown in Table 1 are the calculations necessary to determine postural deviations.  
                           TABLE 1                           Related               Code   body parts   Formula   Units                   FA_ANG1   Shoulders   ARCTAN((FA07Y −   °               FA05Y)/(FA07X − FA05X))       FA_ANG2   Pelvis   ARCTAN((FA11Y −   °               FA09Y)/(FA11X − FA09X))       FA_ANG3   Knees   ARCTAN((FA15Y −   °               FA14Y)/(FA15X − FA14X))       FA_DIST1   Shoulders   ((FA05X + FA07X)/2) −   mm               FA17X       FA_DIST2   Forehead   FA02X − FA17X   mm       FA_DIST3   Navel   FA08X − FA17X   mm       FA_DIST4   Pelvis   FA10X − FA17X   mm       FA_DIST5   Knees   ((FA14X + FA15X)/2) −   mm               FA17X       FA_DIST6   Toes   ((FA20X + FA19X)/2) −   mm               FA17X       FP_ANG_AN1   Left Foot   ARCTAN((FP14X −   °               FP17X)/(FP14Y − FP17Y))       FP_ANG_AN2   Right foot   ARCTAN((FP16X −   °               FP19X)/(FP16Y − FP19Y))       FP_ANG1   Shoulders   ARCTAN((FP05Y −   °               FP04Y)/(FP05X − FP04X))       FP_ANG2   Pelvis   ARCTAN((FP09Y −   °               FP07Y)/(FP09X − FP07X))       FP_ANG3   Knees   ARCTAN((FP13Y −   °               FP12Y)/(FP13X − FP12X))       FP_DIST1   Shoulders   ((FP04X + FP05X)/2) − FP18X   mm       FP_DIST2   7 th     FP03X − FP18X   mm           cervical       FP_DIST3   5 th  dorsal   FP06X − FP18X   mm       FP_DIST4   Pelvis   FP08X − FP18X   mm       FP_DIST5   Knees   ((FP13X + FP12X)/2) − FP18X   mm       FP_DIST6   Ankles   FP15X − FP18X   mm       SD_ANG1   Head-   ARCTAN((SD01X −   °           Shoulders   SD04X)/(SD04Y − SD01Y))       SD_ANG2   Shoulders-   ARCTAN((SD04X −   °           Pelvis   SD07X)/(SD07Y − SD04Y))       SD_ANG3   Pelvis-   ARCTAN((SD07X −   °           Hips   SD09X)/(SD09Y − SD07Y))       SD_ANG4   Hips-Knees   ARCTAN((SD10X −   °               SD09X)/(SD09Y − SD10Y))       SD_ANG5   Knees-   ARCTAN((SD11X −   °           Ankles   SD10X)/(SD10Y − SD11Y))       SD_DIST1   Head   SD01X − SD11X   mm       SD_DIST2   Shoulders   SD04X − SD11X   mm       SD_DIST3   Pelvis   SD07X − SD11X   mm       SD_DIST4   Hips   SD09X − SD11X   mm       SD_DIST5   Knees   SD10X − SD11X   mm                  
 
         [0146]    Deviations from horizontal and vertical alignment, moments of force and reaction forces, and center of gravity are calculated from the biomechanical parameters obtained from the images in the lateral, anterior and posterior views. The deviation values are referenced with respect to body alignment position values. These values are used both in the detection of postural deviations and also as a follow-up tool to assess patient progress after following a corrective exercise plan.  
         [0147]    These values are used as a diagnostic tool and as a way to measure progress in the patient&#39;s condition.  
         [0148]    Constants:  
         [0149]    Head Ratio: RaH=8.4%  
         [0150]    Trunk Ratio: RaT=58.4%  
         [0151]    Gravity: G=9.8 m/s 2    
         [0152]    Global:  
         [0153]    Weight Total: We=Total person mass (kg)  
         [0154]    Weight head: WeH=We*RaH*G  
         [0155]    Weight trunk: WeT=We*RaT*G  
         [0156]    Weight head&amp;trunk: WeHT=WeH+WeT  
         [0157]    Lateral Plane:  
         [0158]    Angle Head:  
       LAnHA   =     ATan        (       SD01X   -   SD04X       SD04Y   -   SD01Y       )                             
 
         [0159]    Moment Head:  
       LMoH   =       WeH   *     (     SD01X   -   SD04X     )       1000                           
 
         [0160]    Reaction Head: LReH=−LMoH*25−WeH  
         [0161]    Reaction Head %:  
       Abs        (       L      Re      H     WeH     )                           
 
         [0162]    Angle Trunk:  
         Angle                   Trunk   :   LAnTI       =     A                   Tan        (       SD04X   -   SD07X       SD07Y   -   SD04Y       )                               
 
         [0163]    Moment Trunk:  
         Moment                   Trunk   :   LMoT       =       WeT   *     (     SD04X   -   SD07X     )       1000                           
 
         [0164]    Reaction Trunk: LReT=−LMoT*20−WeHT  
         [0165]    Reaction Trunk %:  
         Reaction                   Trunk   :     L                 Re                 TP         =     Abs   =     (       L                 Re                 T     WeT     )                             
 
         [0166]    Angle Head&amp;Trunk:  
             Angle                 Head     &amp;          Trunk   :   LAnHA       =     A                   Tan        (       SD01X   -   SD07X       SD07Y   -   SD01Y       )                               
 
         [0167]    Moment Head&amp;Trunk:  
             Moment                 Head     &amp;          Truck   :     L      MoHT         =       WeHT   *     (     SD01X   -   SD07X     )       1000                           
 
         [0168]    Reaction Head&amp;Trunk: LReH=−LMoHT*20−WeHT  
         [0169]    Reaction Head&amp;Trunk %:  
             Reaction                 Head     &amp;          Truck   :     L                 Re                 HTP         =     Abs   (       L                 Re                 HT     WeHT     )                           
 
         [0170]    Front Plane:  
         [0171]    Angle Head:  
         Angle                   Head   :   LAnHA       =     ATan        (       FA02X   -   FA06X       FA06Y   -   FA02Y       )                             
 
         [0172]    Moment Head:  
         Moment                   Head   :              LMoH       =       WeH   *     (     FA06X   -   FA02X     )       1000                           
 
         [0173]    Reaction Head: LReH=−LMoH*25−WeH  
         [0174]    Reaction Head %:  
         Reaction                 Head      %     :                Abs        (       L                 Re                 H     WeH     )                             
 
         [0175]    Angle Trunk:  
         Angle                   Trunk   :   LAnTI       =     A                   Tan        (       FA06X   -   FA10X       FA10Y   -   FA06Y       )                               
 
         [0176]    Moment Trunk:  
       LMoT   =       WeH   *     (     FA10X   -   FA06     )       1000                           
 
         [0177]    Reaction Trunk: LReT=−LMoT*20−WeT  
         [0178]    Reaction Trunk %:  
         L      Re      TP     =     Abs        (       L      Re      T     WeT     )                             
 
         [0179]    Angle Head and Trunk:  
       LAnHTI   =     A                   Tan        (       FA02X   -   FA10X       FA10Y   -   FA02Y       )                               
 
         [0180]    Moment Head and Trunk:  
       LMoHT   =       WeHT   *     (     FA10X   -   FA02X     )       1000                           
 
         [0181]    Reaction Head and Trunk: LReHT=−LMoHT*20−WeHT  
         [0182]    Reaction Head and Trunk %:  
       Abs        (       L      ReH      T     WeHT     )                           
 
         [0183]    The center of gravity projection is calculated as follows:  
         [0184]    X coordinates: ((FA17X−(FA02X+FA 04 X)/2)*WeFAH+(FA17X−(FA07X+FA05X)/2)*WeFAS+(FA17X−(FA11X+FA09X)/2)*WeFAP+(FA17X−(FA14X+FA15X)/2)*WeFAK)/(WeFAH+WeFAS+WeFAP+WeFAK)  
         [0185]    Y coordinates: ((SD11X−SD01X)*WeSDH+(SD11X−SD04X)*WESDS+(SD11X−SD07X)*WeSDP+(SD09X−SD10X)/SQRT((SD10Y−SD09Y){circumflex over ( )}2+(SD09X−SD10X){circumflex over ( )}2)*RATIO_SD_THIGH_LENGTH*Height*WeSDT+(SD10X−SD11X)/SQRT((SD11Y−SD10Y){circumflex over ( )}2+(SD10X−SD11X){circumflex over ( )}2)*RATIO_SD_LEG_LENGTH*Height*WeSDK)/(WeSDH+WeSDS+We SDP+WeSDT+WeSDK)  
         [0186]    Where the parameters used to calculate the center of gravity are described herewith:  
                                       Parameters   Description   View                   WeFAH   Head weight   Anterior       WeFAS   Shoulder weight   Anterior       WeFAP   Pelvis weight   Anterior       WeFAK   Segment weight (whole leg)   Anterior       WeSDH   Head weight   Lateral       WeSDS   Shoulder weight   Lateral       WeSDP   Pelvis weight   Lateral       WeSDT   Thigh weight   Lateral       WeSDK   Segment weight (knee to foot)   Lateral       Ratio_SD_Thigh —     Center of mass for the thigh in %   Lateral       Length   of the segment length       Ratio_SD_Leg —     Center of mass for the leg (knee to   Lateral       Length   foot) in % of the segment length                  
 
         [0187]    These coordinates are then compared to the ideal center of gravity position located on the base of support between the feet.  
         [0188]    When the Biomechanical Assessment is complete (a virtual instantaneous process through the central server), data are transferred back to the health-care practitioner&#39;s computer via the Web. A Biomechanical Assessment Report can then be generated and modified as needed. The health-care practitioner has the possibility to adjust postural deviations based on supplemental information that he or she may have noted during the patient&#39;s examination. Postural deviations are ranked automatically and based on the relative importance of the trunk and head and neck stability on postural function. The top three deviations are selected by default for the treatment, but the health-care practitioner has the possibility to select other deviations. Every change made by the health-care practitioner is identidied in the system to take it into account during further statistical analysis. When the deviations selected for the treatment are confirmed correctives exercises are automatically generated. A ten-week exercise schedule is generated which is, again, modifiable by the health-care practitioner if necessary. Exercises are selected compatible with a patient&#39;s activity level from low, to moderately to highly active. The health-care practitioner also has the opportunity to change exercise selection and/or schedule. The health-care practitioner can ask the system to increase or decrease the difficulty level of the program and generate a new schedule based on the request. The health-care practitioner can also remove or add exercises from the program because he or she thinks that a particular exercise can be harmful to the patient or to place emphasis on a particular deviation correction. Finally, health-care practitioner can reorganize the schedule in changing the order of exercises. Presented in Tables 2 and 3 are lists of deviations that are detectable by the current system, as well as the corrective actions by exercising and stretching to correct these deviations.  
                                     TABLE 2                           Deviations - Exercises link            Deviations   Actions   Exercises       Levels               DIS001   Translation of the                       head to the left           NHLF_L.S   NHFLRO19SR   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHL011SR   Neck lateral flexor stretch   *               NHLO17SR   Assisted neck lateral flexor stretch   2, 3               NHLO24SR   Supine neck lateral flexor stretch   1               NHLRO14SL   Neck flexor, lateral flexor and rotator stretch   1               NHLRO15SR   Neck extensor, lateral flexor and rotator stretch   1               NHLRO18SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHLR020SR   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHXL005SR   Assisted neck flexor and lateral flexor stretch   2, 3               NHXLRO03SR   Neck flexor, rotator and lateral flexor stretch   1               NHXLRO07SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHXLRO08SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3           NHLF_R.C   NHLF010CR   Cervical strengthening   1, 2               NHLF011CR   Supine cervical strengthening   1               NHLF012CR   Cervical strengthening with elastic resistance   2, 3       DIS002   Translation of the           head to the right           NHLF_L.C   NHLF010CL   Cervical strengthening   1, 2               NHLF011CL   Supine cervical strengthening   1               NHLF012CL   Cervical strengthening with elastic resistance   2, 3           NHLF_R.S   NHFLRO19SL   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHL011SL   Neck lateral flexor stretch   *               NHLO17SL   Assisted neck lateral flexor stretch   2, 3               NHLO24SL   Supine neck lateral flexor stretch   1               NHLRO14SR   Neck flexor, lateral flexor and rotator stretch   1               NHLRO15SL   Neck extensor, lateral flexor and rotator stretch   1               NHLR018SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHLR020SL   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHLRO21SL   Neck lateral flexor stretch   2, 3               NHXL005SL   Assisted neck flexor and lateral flexor stretch   2, 3               NHXLRO03SL   Neck flexor, rotator and lateral flexor stretch   1               NHXLRO07SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHXLRO08SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3       DIS003   Protrusion of the head           NHEX.S   NHF009SB   Neck extensor stretch   *           NHFL.C   NHFL001CB   Cervical strengthening   2               NHFLO02CB   Cervical strengthening   *               NHFLO03CB   Supine cervical strengthening   2               NHFLO09CB   Cervical strengthening   2           TRCE.C   TREX002CB   Prone trunk extension   2, 3               TREX007CB   Arm and hip extension   2, 3               TREX010CB   Prone lumbar extension with hands on the lower back   *               TREX011CB   Prone lumbar extension with hands behind your head   2, 3               TREX012CB   Seated lumbar extension   1       DIS004   Posterior deviation           of the head           NHEX.S   NHF009SB   Neck extensor stretch   *           NHFL.C   NHFL001CB   Cervical strengthening   2               NHFLO02CB   Cervical strengthening   *               NHFLO03CB   Supine cervical strengthening   2               NHFLO09CB   Cervical strengthening   2           NHFL.S   NHEX001SB   Neck flexor stretch   1               NHXLRO04SB   Assisted neck flexor stretch   2, 3           TRCE.S   TREX004SB   Standing torso flexion with arms reaching down   *               TREX009SB   Supine back extensor stretch propped up on your   1                   elbows       DIS005   Flexion of the head           NHEX.C   NHEX004CB   Cervical strengthening   1               NHEX005CB   Cervical strengthening   1               NHEX007CB   Cervical strengthening with elastic resistance   2, 3               NHEX008CB   Prone cervical strengthening   2           NHLF_L.S   NHFLRO19SR   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHL011SR   Neck lateral flexor stretch   *               NHLO17SR   Assisted neck lateral flexor stretch   2, 3               NHLO24SR   Supine neck lateral flexor stretch   1               NHLR014SL   Neck flexor, lateral flexor and rotator stretch   1               NHLRO15SR   Neck extensor, lateral flexor and rotator stretch   1               NHLR018SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHLR020SR   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHXL005SR   Assisted neck flexor and lateral flexor stretch   2, 3               NHXLRO03SR   Neck flexor, rotator and lateral flexor stretch   1               NHXLRO07SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHXLRO08SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3           NHLF_R.S   NHFLRO19SL   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHL011SL   Neck lateral flexor stretch   *               NHLO17SL   Assisted neck lateral flexor stretch   2, 3               NHLO24SL   Supine neck lateral flexor stretch   1               NHLRO14SR   Neck flexor, lateral flexor and rotator stretch   1               NHLRO15SL   Neck extensor, lateral flexor and rotator stretch   1               NHLRO18SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHLR020SL   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHLR021SL   Neck lateral flexor stretch   2, 3               NHXL005SL   Assisted neck flexor and lateral flexor stretch   2, 3               NHXLRO03SL   Neck flexor, rotator and lateral flexor stretch   1               NHXLRO07SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHXLRO08SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3           TRCE.C   TREX002CB   Prone trunk extension   2, 3               TREX007CB   Arm and hip extension   2, 3               TREX010CB   Prone lumbar extension with hands on the lower back   *               TREX011CB   Prone lumbar extension with hands behind your head   2, 3               TREX012CB   Seated lumbar extension   1       DIS006   Extension of the head           NHEX.S   NHF009SB   Neck extensor stretch   *           NHFL.C   NHFL001CB   Cervical strengthening   2               NHFLO02CB   Cervical strengthening   *               NHFLO03CB   Supine cervical strengthening   2               NHFLO09CB   Cervical strengthening   2           SCAD.S   SCAD001SB   Scapula adductor stretch with your hands behind   *                   your back               SCAD007SB   Scapula adductor stretch with your arms crossed   1       DIS009   Lateral flexion of the           head to the right           NHLF_L.C   NHLF010CL   Cervical strengthening   1, 2               NHLF011CL   Supine cervical strengthening   1               NHLF012CL   Cervical strengthening with elastic resistance   2, 3           NHLF_R.S   NHFLRO19SL   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHL011SL   Neck lateral flexor stretch   *               NHLO17SL   Assisted neck lateral flexor stretch   2, 3               NHLO24SL   Supine neck lateral flexor stretch   1               NHLRO14SR   Neck flexor, lateral flexor and rotator stretch   1               NHLRO15SL   Neck extensor, lateral flexor and rotator stretch   1               NHLRO18SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHLRO20SL   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHLRO21SL   Neck lateral flexor stretch   2, 3               NHXL005SL   Assisted neck flexor and lateral flexor stretch   2, 3               NHXLRO03SL   Neck flexor, rotator and lateral flexor stretch   1               NHXLRO07SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHXLR008SL   Assisted neck flexor, lateral flexor and rotator stretch   2, 3       DIS010   Lateral flexion of the           head to the left           NHLF_L.S   NHFLRO19SR   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHL011SR   Neck lateral flexor stretch   *               NHLO17SR   Assisted neck lateral flexor stretch   2, 3               NHLO24SR   Supine neck lateral flexor stretch   1               NHLR014SL   Neck flexor, lateral flexor and rotator stretch   1               NHLRO15SR   Neck extensor, lateral flexor and rotator stretch   1               NHLRO18SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHLR020SR   Assisted neck extensor, lateral flexor and rotator   2, 3                   stretch               NHXL005SR   Assisted neck flexor and lateral flexor stretch   2, 3               NHXLRO03SR   Neck flexor, rotator and lateral flexor stretch   1               NHXLRO07SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3               NHXLRO08SR   Assisted neck flexor, lateral flexor and rotator stretch   2, 3           NHLF_R.C   NHLF010CR   Cervical strengthening   1, 2               NHLF011CR   Supine cervical strengthening   1               NHLF012CR   Cervical strengthening with elastic resistance   2, 3       DIS011   Lateral of the trunk           to translation           the left           TRLF_L.C   TRFLO15CL   Isometric abdominal contraction with leg extension   1               TRLF001CL   Lateral flexion with a dumbbell   2, 3               TRLF002CL   Lateral flexion with a dumbbell   2, 3               TRLF003CL   Lateral flexion with a bar   2, 3               TRLF004CL   Lateral flexion with a bar   1               TRLF005CL   Lateral flexion with elastic resistance   *               TRLF008CL   Lateral flexion on an incline bench with arms across   1, 2                   the chest               TRLF009CL   Inclined lateral flexion with crossed arms, holding a   3                   weight           TRLF_R.S   TRLF001SR   Standing lateral trunk flexor stretch   *           TRTE_R.S   TREX004SB   Standing torso flexion with arms reaching down   *               TREX009SB   Supine back extensor stretch propped up on your   1                   elbows       DIS012   Lateral translation of           the trunk to the right           TRLF_L.S   TRLF001SL   Standing lateral trunk flexor stretch   *           TRLF_R.C   TRFLO15CR   Isometric abdominal contraction with leg extension   1               TRLF001CR   Lateral flexion with a dumbbell   2, 3               TRLF002CR   Lateral flexion with a dumbbell   2, 3               TRLF003CR   Lateral flexion with a bar   2, 3               TRLF004CR   Lateral flexion with a bar   1               TRLF005CR   Lateral flexion with elastic resistance   *               TRLF008CR   Lateral flexion on an incline bench with arms across   1, 2                   the chest               TRLF009CR   Inclined lateral flexion with crossed arms, holding a   3                   weight           TRTE_L.S   TREX001SB   Cat stretch   *               TREX004SB   Standing torso flexion with arms reaching down   *               TREX009SB   Supine back extensor stretch propped up on your   1                   elbows       DIS013   Anterior           deviation           HIEX.S   HIEX012SB   Seated bilateral hamstring stretch   *               HIEX013SB   Seated bilateral hamstring stretch   3           HIFL_L.S   HIFLO01SL   Standing hip flexor stretch   2, 3               HIFLO02SL   Standing hip flexor stretch (partial)   1               HIFLO03SL   Standing hip flexor stretch with back leg elevated   3           HIFL_R.S   HIFLO01SR   Standing hip flexor stretch   2, 3               HIFLO02SR   Standing hip flexor stretch (partial)   1               HIFO03SR   Standing hip flexor stretch with back leg elevated   3           SCAD.C   SCAD001CB   Shoulder shrugs with dumbbells held in semi-   3                   supination while inclined               SCAD002CB   Shoulder shrugs with dumbbells held in pronation   3                   while inclined               SCAD003CB   Seated scapular adduction   *           SHAD.S   SHAD001SB   Shoulder adductor stretch   *           TRLE.C   TREX001CB   Kneeling trunk extension   2, 3               TREX002CB   Prone trunk extension   2, 3               TREX007CB   Arm and hip extension   2, 3               TREX010CB   Prone lumbar extension with hands on the lower back   *               TREX011CB   Prone lumbar extension with hands behind your head   2, 3               TREX012CB   Seated lumbar extension   1       DIS014   Posterior deviation           HIFL_L.S   HIFLO01SL   Standing hip flexor stretch   2, 3               HIFLO02SL   Standing hip flexor stretch (partial)   1               HIFLO03SL   Standing hip flexor stretch with back leg elevated   3           HIFL_R.S   HIFLO01SR   Standing hip flexor stretch   2, 3               HIFLO02SR   Standing hip flexor stretch (partial)   1               HIFLO03SR   Standing hip flexor stretch with back leg elevated   3           SCAD.S   SCAD001SIB   Scapula adductor stretch with your hands behind   *                   your back               SCAD007SB   Scapula adductor stretch with your arms crossed   1           TRFL.C   TRFL001CB   Abdominal crunch with feet elevated   1               TRFLO02CB   Abdominal crunch with feet on the ground   1               TRFLO03CB   Abdominal crunch with feet on the ground and   1                   lumbar support               TRFLO04CB   Abdominal crunch with arms crossed and feet   1, 2                   elevated               TRFLO05CB   Abdominal crunch with hands behind the head and   2                   feet elevated               TRFLO06CB   Abdominal crunch with hands behind the head and   2, 3                   feet on the floor               TRFLO07CB   Abdominal crunch with hands behind the head and   2, 3                   feet on the floor               TRFLO08CB   Abdominal crunch with arms overhead and feet   2, 3                   elevated               TRFLO09CB   Abdominal crunch with arms overhead and feet   2, 3                   elevated               TRFLO12CB   Hip raises (lower abdominal crunch)   3               TRFLO13CB   Abdominal crunch with arms extended at the elbows,   2, 3                   pointing forward               TRFLO14CB   Isometric abdominal contraction   1           TRLE.S   TREX001SB   Cat stretch   *               TREX002SB   Supine, knees to chest   1, 2               TREX003SB   Standing torso flexion   1, 2               TREX004SB   Standing torso flexion with arms reaching down   *               TREX006SB   Seated trunk flexion   1               TREX008SB   Seated full forward stretch   1, 2           TRTE.S   TREX001SB   Cat stretch   *               TREX004SB   Standing torso flexion with arms reaching down   *               TREX009SB   Supine back extensor stretch propped up on your   1                   elbows       DIS015   Trunk flexion           HIEX.S   HIEX012SB   Seated bilateral hamstring stretch   *               HIEX013SB   Seated bilateral hamstring stretch   3           HIFL_L.S   HIFLO01SL   Standing hip flexor stretch   2, 3               HIFLO02SL   Standing hip flexor stretch (partial)   1               HIFLO03SL   Standing hip flexor stretch with back leg elevated   3           HIFL_R.S   HIFLO01SR   Standing hip flexor stretch   2, 3               HIFLO02SR   Standing hip flexor stretch (partial)   1               HIFLO03SR   Standing hip flexor stretch with back leg elevated   3           NHEX.S   NHFO09SB   Neck extensor stretch   *           SHAD.S   SHAD001SB   Shoulder adductor stretch   *           TRLE.C   TREX001CB   Kneeling trunk extension   2, 3               TREX002CB   Prone trunk extension   2, 3               TREX007CB   Arm and hip extension   2, 3               TREX010CB   Prone lumbar extension with hands on the lower back   *               TREX011CB   Prone lumbar extension with hands behind your head   2, 3               TREX012CB   Seated lumbar extension   1           TRTE.C   TREX001CB   Kneeling trunk extension   2, 3               TREX002CB   Prone trunk extension   2, 3               TREX007CB   Arm and hip extension   2, 3               TREX010CB   Prone lumbar extension with hands on the lower back   *               TREX011CB   Prone lumbar extension with hands behind your head   2, 3               TREX012CB   Seated lumbar extension   1       DIS016   Trunk extension           NHEX_L.S   NHF009SB   Neck extensor stretch   *               NHFR010SL   Assisted neck extensor, lateral flexor and rotator   *                   stretch           NHEX_R.S   NHF009SB   Neck extensor stretch   *               NHFRO10SR   Assisted neck extensor, lateral flexor and rotator   *                   stretch           SCAB.C   SCAB001CB   Abdominal crunch with hands behind the head and   *                   feet on the floor           SCAD.S   SCAD001SB   Scapula adductor stretch with your hands behind   *                   your back               SCAD007SB   Scapula adductor stretch with your arms crossed   1           TRLF_L.S   TRLF001SL   Standing lateral trunk flexor stretch   *           TRLF_R.S   TRLF001SR   Standing lateral trunk flexor stretch   *           TRTE.S   TREX001SB   Cat stretch   *               TREX004SB   Standing torso flexion with arms reaching down   *               TREX009SB   Supine back extensor stretch propped up on your   1                   elbows       DIS019   Lateral flexion of the           trunk to the right           TRLF_L.C   TRFLO15CL   Isometric abdominal contraction with leg extension   1               TRLF001CL   Lateral flexion with a dumbbell   2, 3               TRLF002CL   Lateral flexion with a dumbbell   2, 3               TRLF003CL   Lateral flexion with a bar   2, 3               TRLF004CL   Lateral flexion with a bar   1               TRLF005CL   Lateral flexion with elastic resistance   *               TRLF008CL   Lateral flexion on an incline bench with arms across   1, 2                   the chest               TRLF009CL   Inclined lateral flexion with crossed arms, holding a   3                   weight           TRLF_R.S   TRLF001SR   Standing lateral trunk flexor stretch   *       DIS020   Lateral flexion of the           trunk to the left           TRLF_L.S   TRLF001SL   Standing lateral trunk flexor stretch   *           TRLF_R.C   TRFLO15CR   Isometric abdominal contraction with leg extension   1               TRLF001CR   Lateral flexion with a dumbbell   2, 3               TRLF002CR   Lateral flexion with a dumbbell   2, 3               TRLF003CR   Lateral flexion with a bar   2, 3               TRLF004CR   Lateral flexion with a bar   1               TRLF005CR   Lateral flexion with elastic resistance               TRLF008CR   Lateral flexion on an incline bench with arms across   1, 2                   the chest               TRLF009CR   Inclined lateral flexion with crossed arms, holding a   3                   weight       DIS021   Translation of the           hip to the left           HIAB_L.C   HIABO01CL   Side lying hip abductor contraction   1               HIABO02CL   Side lying hip abductor contraction   1               HIABO03CB   Bilateral hip abductor contraction   2, 3               HIABO04CL   Unilateral hip abduction exercise   1, 2               HIABO05CL   Supine, anterior, unilateral hip abduction exercise   2, 3                   with an elastic               HIABO06CL   Side lying hip abductor contraction with dumbbells   2, 3               HIABO07CL   Side lying hip abductor contraction with elastic   2, 3                   resistance               HIABO08CL   Side lying hip abductor contraction with added weight   *               HIAB011CL   Standing unilateral hip abduction exercise   2, 3               HIABO12CL   Standing, anterior, unilateral hip abduction exercise   2, 3               HIABO13CL   Standing, posterior, unilateral hip abduction exercise   2, 3           HIAB_R.S   HIABO01SR   Side lying hip abductor stretch   1, 2, 3               HIABO05SR   Standing hip abductor stretch   2, 3               HIABO06SR   Standing hip abductor stretch with lateral flexion   2, 3               HIABO07SR   Standing hip abductor stretch with lateral flexion   *           HIAD_L.S   HIAD005SL   Standing hip adductor stretch   *               HIAD008SL   Kneeling hip adductor stretch   3           HIAD_R.C   HIAD001CR   Side lying isometric hip adduction   *               HIAD002CR   Supine hip adduction with elastic resistance   2, 3               HIAD003CR   Side lying hip adduction   2, 3               HIAD006CB   Supine hip adduction with a ball between the knees   1, 2               HIAD010CB   Supine hip adduction with a ball between the knees   1, 2               HIAD011CR   Side lying hip adduction with a ball placed between   1, 2                   yourfeet               HIAD012CR   Side lying hip adduction with a ball between the   1, 2                   knees and thighs       DIS022   Translation of the           hip to the right           HIAB_L.S   HIABO01SL   Side lying hip abductor stretch   1, 2, 3               HIABO05SL   Standing hip abductor stretch   2, 3               HIABO06SL   Standing hip abductor stretch with lateral flexion   2, 3               HIABO07SL   Standing hip abductor stretch with lateral flexion   *           HIAB_R.C   HIABO01CR   Side lying hip abductor contraction   1               HIABO02CR   Side lying hip abductor contraction   *               HIABO03CB   Bilateral hip abductor contraction   2, 3               HIABO04CR   Unilateral hip abductor exercise   1, 2               HIABO05CR   Supine, anterior, unilateral hip abduction exercise   2, 3                   with an elastic               HIABO06CR   Side lying hip abductor contraction with dumbbells   2, 3               HIABO07CR   Side lying hip abductor contraction with elastic   2, 3                   resistance               HIABO08CR   Side lying hip abductor contraction with added weight   3               HIAB011CR   Standing unilateral hip abduction exercise   2, 3               HIABO12CR   Standing, anterior, unilateral hip abduction exercise   2, 3               HIABO13CR   Standing, posterior, unilateral hip abduction exercise   2, 3           HIAD_L.C   HIAD001CL   Side lying isometric hip adduction   1               HIAD002CL   Supine hip adduction with elastic resistance   2, 3               HIAD003CL   Side lying hip adduction   2, 3               HIAD006CB   Supine hip adduction with a ball between the knees   1, 2               HIAD010CB   Supine hip adduction with a ball between the knees   1, 2               HIAD011CL   Side lying hip adduction with a ball placed between   1, 2                   yourfeet               HIAD012CL   Side lying hip adduction with a ball between the   1, 2                   knees and thighs           HIAD_R.S   HIAD005SR   Standing hip adductor stretch   *               HIAD008SR   Kneeling hip adductor stretch   3       DIS023   Anterior translation           of the hip           HIEX.C   HIEX001CB   Supine pelvic tilt   *           HIFL_L.S   HIFLO01SL   Standing hip flexor stretch   2, 3               HIFLO02SL   Standing hip flexor stretch (partial)   1               HIFLO03SL   Standing hip flexor stretch with back leg elevated   3           HIFL_R.S   HIFLO01SR   Standing hip flexor stretch   2, 3               HIFLO02SR   Standing hip flexor stretch (partial)   1               HIFLO03SR   Standing hip flexor stretch with back leg elevated   3       DIS024   Posterior translation           of the hip           HIEX_L.S   HIEX001SL   Standing hamstring stretch   *               HIEX002SL   Supine hamstring stretch   2, 3               HIEX003SL   Supine hamstring stretch   1               HIEX004SL   Supine hamstring stretch   1               HIEX007SL   Supine hamstring stretch   1               HIEX008SL   Supine hamstring stretch   2, 3               HIEX011SL   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch   *               HIEX013SB   Seated bilateral hamstring stretch   3               HIEX014SL   Standing hamstring stretch   2, 3           HIEX_R.S   HIEX001SR   Standing hamstring stretch   *               HIEX002SR   Supine hamstring stretch   2, 3               HIEX003SR   Supine hamstring stretch   1               HIEX004SR   Supine hamstring stretch   1               HIEX007SR   Supine hamstring stretch   1               HIEX008SR   Supine hamstring stretch   2, 3               HIEX011SR   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch   *               HIEX013SB   Seated bilateral hamstring stretch   3               HIEX014SR   Standing hamstring stretch   2, 3           HIFL_L.C   HIFL001CB   Squat   *               HIFLO02CB   Unilateral squat   *               TRFLO10CL   Abdominal crunch with unilateral hip flexion   2, 3               TRFLO11CL   Abdominal crunch with arms overhead and unilateral   2, 3                   hip flexion               TRFLO12CB   Hip raises (lower abdominal crunch)   3           HIFL_R.C   HIFL001CB   Squat   *               HIFLO02CB   Unilateral squat   *               TRFL010CR   Abdominal crunch with unilateral hip flexion   2, 3               TRFLO11CR   Abdominal crunch with arms overhead and feet   2, 3                   elevated               TRFLO12CB   Hip raises (lower abdominal crunch)   3       DIS025   Anterior pelvic tilt           HIEX.C   HIEX001CB   Supine pelvic tilt   *           HIEX_L.S   HIEX001SL   Standing hamstring stretch   *               HIEX002SL   Supine hamstring stretch   2, 3               HIEX003SL   Supine hamstring stretch   1               HIEX004SL   Supine hamstring stretch   1               HIEX007SL   Supine hamstring stretch   1               HIEX008SL   Supine hamstring stretch   2, 3               HIEX011SL   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch   *               HIEX013SB   Seated bilateral hamstring stretch   3               HIEX014SL   Standing hamstring stretch   2, 3           HIEX_R.S   HIEX001SR   Standing hamstring stretch   *               HIEX002SR   Supine hamstring stretch   2, 3               HIEX003SR   Supine hamstring stretch   1               HIEX004SR   Supine hamstring stretch   1               HIEX007SR   Supine hamstring stretch   1               HIEX008SR   Supine hamstring stretch   2, 3               HIEX011SR   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch   *               HIEX013SB   Seated bilateral hamstring stretch   3               HIEX014SR   Standing hamstring stretch   2, 3           HIFL_L.S   HIFLO01SL   Standing hip flexor stretch   2, 3               HIFLO02SL   Standing hip flexor stretch (partial)   1               HIFLO03SL   Standing hip flexor stretch with back leg elevated   3           HIFL_R.S   HIFLO01SR   Standing hip flexor stretch   2, 3               HIFLO02SR   Standing hip flexor stretch (partial)   1               HIFLO03SR   Standing hip flexor stretch with back leg elevated   3           TRFL.C   TRFL001CB   Abdominal crunch with feet elevated   1               TRFLO02CB   Abdominal crunch with feet on the ground   1               TRFLO03CB   Abdominal crunch with feet on the ground and   1                   lumbar support               TRFLO04CB   Abdominal crunch with arms crossed and feet   1, 2                   elevated               TRFLO05CB   Abdominal crunch with hands behind the head and   2                   feet elevated               TRFLO06CB   Abdominal crunch with hands behind the head and   2, 3                   feet on the floor               TRFLO07CB   Abdominal crunch with hands behind the head and   2, 3                   feet on the floor               TRFLO08CB   Abdominal crunch with arms overhead and feet   2, 3                   elevated               TRFLO09CB   Abdominal crunch with arms overhead and feet   2, 3                   elevated               TRFLO12CB   Hip raises (lower abdominal crunch)   3               TRFLO13CB   Abdominal crunch with arms extended at the elbows,   2, 3                   pointing forward               TRFLO14CB   Isometric abdominal contraction   1           TRLE.S   TREX001SB   Cat stretch   *               TREX002SB   Supine, knees to chest   1, 2               TREX003SB   Standing torso flexion   1, 2               TREX004SB   Standing torso flexion with arms reaching down   *               TREX006SB   Seated trunk flexion   1               TREX008SB   Seated full forward stretch   1, 2       DIS026   Posterior pelvic tilt           HIEX_L.S   HIEX001SL   Standing hamstring stretch   *               HIEX002SL   Supine hamstring stretch   2, 3               HIEX003SL   Supine hamstring stretch   1               HIEX004SL   Supine hamstring stretch   1               HIEX007SL   Supine hamstring stretch   1               HIEX008SL   Supine hamstring stretch   2, 3               HIEX011SL   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch   *               HIEX013SB   Seated bilateral hamstring stretch   3               HIEX014SL   Standing hamstring stretch   2, 3           HIEX_R.S   HIEX001SR   Standing hamstring stretch   *               HIEX002SR   Supine hamstring stretch   2, 3               HIEX003SR   Supine hamstring stretch   1               HIEX004SR   Supine hamstring stretch   1               HIEX007SR   Supine hamstring stretch   1               HIEX008SR   Supine hamstring stretch   2, 3               HIEX011SR   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch   *               HIEX013SB   Seated bilateral hamstring stretch   3               HIEX014SR   Standing hamstring stretch   2, 3           HIFL_L.C   HIFL001CB   Squat   *               HIFLO02CB   Unilateral squat   *               TRFLO10CL   Abdominal crunch with unilateral hip flexion   2, 3               TRFLO11CL   Abdominal crunch with arms overhead and unilateral   2, 3                   hip flexion               TRFLO12CB   Hip raises (lower abdominal crunch)   3           HIFL_R.C   HIFL001CB   Squat   *               HIFLO02CB   Unilateral squat   *               TRFLO10CR   Abdominal crunch with unilateral hip flexion   2, 3               TRFLO11CR   Abdominal crunch with arms overhead and feet   2, 3                   elevated               TRFLO12CB   Hip raises (lower abdominal crunch)   3           TRFL.S   TRFL001SB   Cobra   *           TRLE.C   TREX001CB   Kneeling trunk extension   2, 3               TREX002CB   Prone trunk extension   2, 3               TREX007CB   Arm and hip extension   2, 3               TREX010CB   Prone lumbar extension with hands on the lower back   *               TREX011CB   Prone lumbar extension with hands behind your head   2, 3               TREX012CB   Seated lumbar extension   1       DIS029   Lateral elevation of the           hip to the left           TRFL.S   TRFL001SIB   Cobra   *           TRLE.C   TREX001CB   Kneeling trunk extension   2, 3               TREX002CB   Prone trunk extension   2, 3               TREX007CB   Arm and hip extension   2, 3               TREX010CB   Prone lumbar extension with hands on the lower back   *               TREX011CB   Prone lumbar extension with hands behind your head   2, 3               TREX012CB   Seated lumbar extension   1           TRLF_L.S   TRLF001SL   Standing lateral trunk flexor stretch   *           TRLF_R.C   TRFLO15CR   Isometric abdominal contraction with leg extension   1               TRLF001CR   Lateral flexion with a dumbbell   2, 3               TRLF002CR   Lateral flexion with a dumbbell   2, 3               TRLF003CR   Lateral flexion with a bar   2, 3               TRLF004CR   Lateral flexion with a bar   1               TRLF005CR   Lateral flexion with elastic resistance   *               TRLF008CR   Lateral flexion on an incline bench with arms across   1, 2                   the chest               TRLF009CR   Inclined lateral flexion with crossed arms, holding a   3                   weight           TRTE.C   TREX001CB   Kneeling trunk extension   2, 3               TREX002CB   Prone trunk extension   2, 3               TREX007CB   Arm and hip extension   2, 3               TREX010CB   Prone lumbar extension with hands on the lower back   *               TREX011CB   Prone lumbar extension with hands behind your head   2, 3               TREX012CB   Seated lumbar extension   1       DIS030   Lateral elevation of           the hip to the right           TRFL.C   TRFL001CB   Abdominal crunch with feet elevated   1               TRFLO02CB   Abdominal crunch with feet on the ground   1               TRFLO03CB   Abdominal crunch with feet on the ground and   1                   lumbar support               TRFLO04CB   Abdominal crunch with arms crossed and feet   1, 2                   elevated               TRFLO05CB   Abdominal crunch with hands behind the head and   2                   feet elevated               TRFLO06CB   Abdominal crunch with hands behind the head and   2, 3                   feet on the floor               TRFLO07CB   Abdominal crunch with hands behind the head and   2, 3                   feet on the floor               TRFL008CB   Abdominal crunch with arms overhead and feet   2, 3                   elevated               TRFLO09CB   Abdominal crunch with arms overhead and feet   2, 3                   elevated               TRFLO12CB   Hip raises (lower abdominal crunch)   3               TRFLO13CB   Abdominal crunch with arms extended at the elbows,   2, 3                   pointing forward               TRFLO14CB   Isometric abdominal contraction   1           TRLE.S   TREX001SB   Cat stretch   *               TREX002SB   Supine, knees to chest   1, 2               TREX003SB   Standing torso flexion   1, 2               TREX004SB   Standing torso flexion with arms reaching down   *               TREX006SB   Seated trunk flexion   1               TREX008SB   Seated full forward stretch   1, 2           TRLF_L.C   TRFLO15CL   Isometric abdominal contraction with leg extension   1               TRLF001CL   Lateral flexion with a dumbbell   2, 3               TRLF002CL   Lateral flexion with a dumbbell   2, 3               TRLF003CL   Lateral flexion with a bar   2, 3               TRLF004CL   Lateral flexion with a bar   1               TRLF005CL   Lateral flexion with elastic resistance               TRLF008CL   Lateral flexion on an incline bench with arms across   1, 2                   the chest               TRLF009CL   Inclined lateral flexion with crossed arms, holding a   3                   weight           TRLF_R.S   TRLF001SR   Standing lateral trunk flexor stretch   *           TRTE.S   TREX001SB   Cat stretch   *               TREX004SB   Standing torso flexion with arms reaching down   *               TREX009SB   Supine back extensor stretch propped up on your   1                   elbows       DIS031   Plantar flexion of           the right foot           ANDF_R.C   ANDF001CB   Bilateral toe raises   2, 3               ANDF002CR   Ankle dorsiflexion with elastic resistance   1, 2           ANPF R.S   ANPF001SR   Supine plantar flexor stretch               ANPF002SR   Supine plantar flexor stretch with a towel   2               ANPF003SR   Standing plantar flexor stretch   1, 2               ANPF004SB   Standing bilateral plantar flexor stretch   2       DIS032   Dorsiflexion of           the right foot           ANDF R.S   ANDF001SR   Seated ankle dorsiflexor stretch           ANPF R.C   ANPF001CR   Standing plantar flexor isometric contraction   3               ANPF002CB   Bilateral isometric plantar flexor contraction with a ball   1               ANPF004CB   Standing bilateral plantar flexor strengthening   1, 2               ANPF005CR   Standing plantar flexor strengthening   3               ANPF006CR   Seated plantar flexor strengthening with elastic   1, 2                   resistance       DIS033   Internal rotation           of the right foot           ANEV R.C   ANEVC001 CR   Seated ankle eversion with elastic resistance           HIER R.C   HIER001 CR   Side lying hip abductor f external rotator exercise               HIER002CB   Seated bilateral hip abductor/external rotator exercise               HIER003CR   Side lying hip abductor/external rotator contractions                   with a dumbbell           HIEX L.S   HIEX001SL   Standing hamstring stretch               HIEX002SL   Supine hamstring stretch   2, 3               HIEX003SL   Supine hamstring stretch   1               HIEX004SL   Supine hamstring stretch   1               HIEX007SL   Supine hamstring stretch   9               HIEX008SL   Supine hamstring stretch   2, 3               HIEX011SL   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch (legs apart)               HIEX013SB   Seated bilateral hamstring stretch (legs together)   3               HIEX014SL   Standing hamstring stretch   2, 3               HIEX015SL   Supine hamstring stretch           HIEX R.C   HIEX001CB   Supine pelvic flit               HIEX003CR   Supine pelvic tilt   2, 3               HIEX004CR   Supine pelvic tilt with one leg extended at the knee   3               HIEX005CR   Kneeling hip extensor exercise (leg flexed at the knee)   2               HIEX006CR   Kneeling hip extensor exercise (leg extended)   2, 3           HIFL L.S   HIFL001SL   Standing hip flexor stretch   2, 3               HIFLO02SL   Standing hip flexor stretch (partial)   1               HIFLO03SL   Standing hip flexor stretch with back leg elevated   3           HIFL R.C   HIFL001CB   Squat               TRFLO10CR   Abdominal crunch with unilateral hip flexion   2, 3               ICR   Abdominal crunch with arms overhead and unilateral   2, 3                   hip flexion               TRFLO12CS   Hip raises (lower abdominal contraction)   3       DIS034   External rotation           of the right foot           AKIN R.C   ANINCO01 CR   Seated ankle inversion with elastic resistance           HIER R.S   HIER002SR   Supine hip external rotator stretch   3               HIER003SR   Supine hip external rotator stretch   1               HIER004SR   Supine assisted hip external rotator stretch   1, 2               HIER005SR   Supine assisted hip external rotator stretch   3               HIER006SR   Seated assisted hip external rotator stretch   1               HIER009SR   Supine assisted hip external rotator stretch   2, 3               HIER012SR   Prone hip external rotator stretch           HIE X R.S   HIEX001SR   Standing hamstring stretch               HIEX002SR   Supine hamstring stretch   2, 3               HIEX003SR   Supine hamstring stretch   1               HIEX004SR   Supine hamstring stretch   1               HIEX007SR   Supine hamstring stretch   1               HIEX008SR   Supine hamstring stretch   2, 3               HIEX011SR   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch (legs apart)               HIEX013SB   Seated bilateral hamstring stretch (legs together)   3               HIEX014SR   Standing hamstring stretch   2, 3               HIEX015SR   Supine hamstring stretch           HIFL R.S   HIFIL001SR   Standing hip flexor stretch   2, 3               HIFLO02SR   Standing hip flexor stretch (partial)   1               HIFLO03SR   Standing hip flexor stretch with back leg elevated   3           HIIR R.C   H11RO01CR   Side lying isometric hip adduction and internal rotation               HIIR002CB   Supine knee-to-knee adduction and internal rotation               HIR003CB   Supine hip adduction and internal rotation with a ball   TRFLDI       DIS037   Genu valgum           right           HIAB R.S   HIAB001SR   Side lying hip abductor stretch   1, 2, 3               HIABO05SR   Standing hip abductor stretch   2, 3               HIABO06SR   Standing hip abductor stretch with lateral flexion   2, 3               HIABO07SR   Standing hip abductor stretch with lateral flexion           HIAD R.C   HIAD001CR   Side lying isometric hip adduction               HIAD002CR   Supine hip adduction with elastic resistance   2, 3               HIAD003CR   Side lying hip adduction with elastic resistance   2, 3               HIAD006CB   Supine hip adduction with a ball between the knees   1, 2               HIAD010CB   Supine hip adduction with a ball between the knees   1, 2               HIAD011CR   Side lying hip adduction with a ball placed between   1, 2                   your ankles               HIAD012OR   Side lying hip adduction with a ball between the   1, 2                   knees and thighs       DIS038   Genu valgum left           HIAB L.S   HIAB001SL   Side lying hip abductor stretch   1, 2, 3               HIABO05SL   Standing hip abductor stretch   2, 3               HIABO06SL   Standing hip abductor stretch with lateral flexion   2, 3               HIABO07SL   Standing hip abductor stretch with lateral flexion           HIAD L.C   HIAD001CL   Side lying isometric hip adduction   1               HIAD002CL   Supine hip adduction with elastic resistance   2, 3               HIAD003CL   Side lying hip adduction with elastic resistance   2, 3               HIAD006CB   Supine hip adduction with a ball between the knees   1, 2               HIAD010CB   Supine hip adduction with a ball between the knees   1, 2               HIAD011CL   Side lying hip adduction with a ball placed between   1, 2                   your ankles               HIAD012CL   Side lying hip adduction with a ball between the   1, 2                   knees and thighs       DIS039   Genu varum right           HIAB R.C   HIAB001 CR   Side lying hip abductor contraction   1               HIABO02CR   Side lying hip abductor contraction               HIABO03CB   Seated bilateral hip abduction with elastic resistance   2, 3               HIABO04CR   Side lying hip abduction exercise   1, 2               HIABO05CR   Supine hip abduction exercise with elastic resistance   2, 3               HIABO06CR   Side lying hip abductor exercise with dumbbells   2, 3               HIABO07CR   Side lying hip abductor contraction with elastic   2, 3                   resistance               HIABO08CR   Side lying hip abductor contraction with added   3                   weight               HIABO11CR   Standing hip abduction exercise with elastic   2, 3                   resistance               HIABO12CR   Standing hip abduction exercise with elastic   2, 3                   resistance               HIAB013CR   Standing hip abduction exercise with elastic   2, 3                   resistance           HIAD R.S   HIAD005SR   Standing hip adductor stretch               HIAD008SR   Kneeling hip adductor stretch   3       DIS040   Genu varum left           HIAB L.C   HIA8001CL   Side lying hip abductor contraction   1               HIABO02CL   Side lying hip abductor contraction   1               HIABO03CB   Seated bilateral hip abduction with elastic resistance   2, 3               HIABO04CL   Side lying hip abduction exercise   1, 2               HIABO05CL   Supine hip abduction exercise with elastic resistance   2, 3               HIABO06CL   Side lying hip abductor exercise with dumbbells   2, 3               HIABO07CL   Side lying hip abductor contraction with elastic   2, 3                   resistance               HIAB008CL   Side lying hip abductor contraction with added                   weight               HIABO11CL   Standing tip abduction exercise with elastic   2, 3                   resistance               HIABO12CL   Standing hip abduction exercise with elastic   2, 3                   resistance               HIABO13CL   Standing hip abduction exercise with elastic   2, 3                   resistance           HIAD L.S   HIAD005SL   Standing hip adductor stretch               HIAD008SL   Kneeling hip adductor stretch   3       DISO41   Anterior deviation           of the shoulders           SCAR C   SCAD001CB   Shoulder shrugs with dumbbells held in semi-   3                   supination on an incline               SCAD002CB   Shoulder shrugs with dumbbells held In pronation on   3                   an incline bench               SCAD003CS   Seated scapula adductor exercise           SHFL. S   SHFLO05SB   Assisted shoulder flexor stretch           SHIR. S   SHIR006SR   Bent-over shoulder stretch       DIS042   Posterior deviation           of the shoulders           SCAB. C   SCAB001CB   Abdominal crunch with hands behind your head and                   feet on the floor           SCAD. S   SCAD001 SB   Scapula adductor stretch with both hands behind                   your back               SCAD007SB   Scapula adductor stretch with your arms crossed   1           SHFL. C   SHFL001CB   Standing bilateral shoulder flexor exercise with a ball   1, 2               SHFLO02CB   Standing bilateral shoulder flexor exercise with a ball   1, 2               SHFLO03CB   Shoulder flexor exercise with elastic resistance   1, 2               SHFLO05CB   Forward shoulder flexion with 3 elastics   2, 3               SHFLO06CB   Standing shoulder forward flexion with dumbbells   3               SHFLO07CB   Standing shoulder forward flexion and rotation with   3                   dumbbells           SHIR. C   SHABO03CB   Bilateral shoulder abduction with dumbbells (palms   3                   backward)               SHIR002CB   Prone shoulder internal rotator exercise with bar and                   elastics       DIS043   External rotation of           the left foot           ANIN L.C   ANINCO01CL   Seated ankle inversion with elastic resistance           HIER L.S   HIER002SL   Supine hip external rotator stretch   3               HIER003SL   Supine hip external rotator stretch   1               HIER004SL   Supine assisted hip external rotator stretch   1, 2               HIER005SL   Supine assisted hip external rotator stretch   3               HIER006SL   Seated assisted hip external rotator stretch   1               HIER009SL   Supine assisted hip external rotator stretch   2, 3               HIER012SL   Prone hip external rotator stretch           HIEX L.S   HIEX001SL   Standing hamstring stretch               HIEX002SL   Supine hamstring stretch   2, 3               HIEX003SL   Supine hamstring stretch   1               HIEX004SL   Supine hamstring stretch   1               HIEX007SL   Supine hamstring stretch   1               HIEX008SL   Supine hamstring stretch   2, 3               HIEX011SL   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch (legs apart)               HIEX013SB   Seated bilateral hamstring stretch (legs together)   3               HIEX014SL   Standing hamstring stretch   2, 3               HIEX015SL   Supine hamstring stretch           HIFL L.S   HIFLO01SL   Standing hip flexor stretch   2, 3               HIFLO02SL   Standing hip flexor stretch (partial)   1               HIFLO03SL   Standing hip flexor stretch with back leg elevated   3           HIIR L.C   HIIR001CL   Side lying isometric hip adduction and internal rotation               HIIR002CB   Supine knee-to-knee adduction and internal rotation               HIIR003CB   Supine hip adduction and internal rotation with a ball   ′           Internal rotation of           the left foot           ANEV L.C   ANEVC001 CL   Seated ankle eversion with elastic resistance           HIER L.C   HIER001CL   Side lying hip abductor/external rotator exercise               HIER002CB   Seated bilateral hip abductor/external rotator exercise               HIER003CL   Side lying hip abductor/external rotator contractions                   with a dumbbell           HIEX L.C   HIEX001CB   Supine pelvic tilt               HIEX003CL   Supine pelvic tilt   2, 3               HIEX004CL   Supine pelvic tilt with one leg extended at the knee   3               HIEX005CL   Kneeling hip extensor exercise (leg flexed at the knee)   2               HIEX006CL   Kneeling hip extensor exercise (leg extended)   2, 3           HIEX R.S   HIEX001SR   Standing hamstring stretch               HIEX002SR   Supine hamstring stretch   2, 3               HIEX003SR   Supine hamstring stretch   1               HIEX004SR   Supine hamstring stretch   1               HIEX007SR   Supine hamstring stretch   1               HIEX008SR   Supine hamstring stretch   2, 3               HIEX011SR   Seated hamstring stretch   2, 3               HIEX012SB   Seated bilateral hamstring stretch (legs apart)               HIEX013SB   Seated bilateral hamstring stretch (legs together)   3               HIEX014SR   Standing hamstring stretch   2, 3               HIEX015SR   Supine hamstring stretch           HIFL L.C   HIFL001CB   Squat               TRFLO10CL   Abdominal crunch with unilateral hip flexion   2, 3               TRFL011CL   Abdominal crunch with arms overhead and unilateral   2, 3                   hip flexion               TRFLO12CB   Hip raises (lower abdominal contraction)   3           HIFL R.S   HIFL001SR   Standing hip flexor stretch   2, 3               HIFLO02SR   Standing hip flexor stretch (partial)   1               HIFLO03SR   Standing tip flexor stretch with back leg elevated   3                  
 
         [0189]    [0189]                               TABLE 3                                   Body part   Action code   Description                           Ankle (AN)   ANDL   Ankle dorsiflexion               ANPF   Ankle plantar flexion               ANIN   Ankle inversion               ANEV   Ankle eversion           Elbow (EL)   ELFL   Elbow flexion               ELEX   Elbow extension               ELSU   Elbow supination (of forearm)               ELPR   Elbow pronation (of forearm)           Hip (HI)   HIFL   Hip flexion               HIEX   Hip extension               HIAD   Hip adduction               HIAB   Hip abduction           Knee (KN)   KNEX   Knee extension               KNFL   Knee flexion               KNIR   Knee internal rotation               KNER   Knee external rotation           Neck Head   NHFL   Neck Head flexion           (NH)   NHEX   Neck Head extension               NHFL   Neck Head lateral flexion               NHIR   Neck Head ipsi-rotation               NHCR   Neck Head contra-rotation           Scapula (SC)   SCEL   Scapula elevation               SCDE   Scapula depression               SCAB   Scapula abduction               SCAD   Scapula adduction               SCER   Scapula external rotation               SCIR   Scapula internal rotation               SCAN   Scapula anterior inclination           Shoulder   SHAB   Shoulder abduction           (SH)   SHAD   Shoulder adduction               SHER   Shoulder external rotation               SHFL   Shoulder flexion               SHIR   Shoulder internal rotation               SHEX   Shoulder extention           Trunk (TR)   TRFL   Trunk flexion               TRLF   Trunk lateral flexion               TRLE   Trunk lumbar extension               TRTE   Trunk thoracic extension               TRCE   Trunk cervical extension               TRRO   Trunk rotation           Wrist (WR)   WRFL   Wrist flexion               WREX   Wrist extension               WRAB   Wrist abduction               WRAD   Wrist adduction                        
         [0190]    In a preferred embodiment of the present invention, the system generates a complete list of deviations for the client, in order of corrective priority. Priority is given to those deviations of body segments that are most perturbing to overall postural stability. Severity is also included in the decision making process, and only parameters exceeding critical values from correct vertical or horizontal alignment (of distance or angle) are considered deviations. These critical values were based on consultations with clinicians treating postural disorders and form a preliminary identification of severity. One of the advantages of the current system is that we will have access to large numbers of normative data from which severity rankings can be revised, as necessary. The first three ranked deviations in order of priority are automatically included in the design of the client&#39;s exercise and stretching program. The remaining deviations may be manually selected by the health-care professional based on his or her clinical experience and familiarity with the patient.  
         [0191]    Table 4 shows the priority factors given to postural deviations.  
                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                             TABLE 4                           Deviations            Level   Name   Group   Factor   Priority   Actions   Formula                    Code DIS001            1   Translation of the   Neck Head   50   50   NHLF_R.C, NHLF_L.S   (((FA02X + FA03X)/2) &gt;= FA06X + 10) AND                               (((FA02X + FA03X)/2) &lt; FA06X + 20) AND                               (ABS(FA02X − FA04X) &lt; 10)       2   Translation of the   Neck Head   50   100   NHLF_R.C, NHLF_L.S   (((FA02X + FA03X)/2) &gt;= FA06X + 20) AND                               (ABS(FA02X − FA04X) &lt; 10)            Code DIS002            1   Translation of the   Neck Head   50   50   NHLF_L.C, NHLF_R.S   (((FA02X + FA03X)/2) &lt;= FA06X − 10) AND                               (((FA02X + FA03X)/2) &gt; FA06X − 20) AND                               (ABS(FA02X − FA04X) &lt; 10)       2   Translation of the   Neck Head   50   100   NHLF_L.C, NHLF_R.S   (((FA02X + FA03X)/2) &lt;= FA06X − 20) AND                               (ABS(FA02X − FA04X) &lt; 10)            Code DIS003            1   Protrusion of the h   Neck Head   50   50   TRCE.C, NHEX.S, NHFL.C   (SD01X &gt;= SD04X + 25) AND (SD01X &lt;                               SD04X + 50)       2   Protrusion of the h   Neck Head   50   100   TRCE.C, NHEX.S, NHFL.C   (SD01X &gt;= SD04X + 50)            Code DIS004            1   Posterior deviation   Neck Head   50   50   TRCE.S, NHEX.S, NHFL.S, NHFL.C   (SD01X &lt;= SD04X − 25) AND                               (SD01X &gt; SD04X − 50)       2   Posterior deviation   Neck Head   50   100   TRCE.S, NHEX.S, NHFL.S, NHFL.C   (SD01X &lt;= SD04X − 50)            Code DIS005            1   Flexion of the hea   Neck Head   50   50   TRCE.C, NHFL.C, NHEX.S   (SD02X &gt;= SD03X + 20) AND (SD02X &lt;                               SD03X + 35)       2   Flexion of the hea   Neck Head   50   100   TRCE.C, NHFL.C, NHEX.S   (SD02X &gt;= SD03X + 35)            Code DIS006            1   Extension of the h   Neck Head   50   50   NHEX.C, NHFL.S, TRCE.C   (SD02X &lt;= SD03X − 20) AND                               (SD02X &gt; SD03X − 35)       2   Extension of the h   Neck Head   50   100   NHEX.C, NHFL.S, TRCE.C   (SD02X &lt;= SD03X − 35)            Code DIS009            1   Lateral flexion of t   Neck Head   50   50   NHLF_L.C, NHLF_R.S   (FA02X &lt;= FA04X − 10) AND                               (FA02X &gt; FA04X − 20)       2   Lateral flexion of t   Neck Head   50   100   NHLF_L.C, NHLF_R.S   (FA02X &lt;= FA04X − 20)            Code DIS010            1   Lateral flexion of t   Neck Head   50   50   NHLF_R.C, NHLF_L.S   (FA02X &gt;= FA04X + 10) AND                               (FA02X &lt; FA04X + 20)       2   Lateral flexion of t   Neck Head   50   100   NHLF_R.C, NHLF_L.S   (FA02X &gt;= FA04X + 20)            Code DIS011            1   Lateral translation   Trunk   40   40   TRLF_L.C, TRLF_R.S, TRTE_R.S   (FA06 &gt;= FA10 + 20) AND (ABS(FA05Y −                               FA07Y) &lt; 25) AND                               (FP03 &lt;= FP08 − 20) AND                               (ABS(FP04Y − FP05Y) &lt; 25) AND (FA06 &lt;                               FA10 + 40) AND (FP03 &gt; FP08 − 40)       2   Lateral translation   Trunk   40   80   TRLF_L.C, TRLF_R.S, TRTE_R.S   (FA06 &gt;= FA10 + 40) AND (ABS(FA05Y −                               FA07Y) &lt; 25) AND                               (FP03 &lt;= FP08 − 40) AND                               (ABS(FP04Y − FP05Y) &lt; 25)            Code DIS012            1   Lateral translation   Trunk   40   40   TRLF_R.C, TRLF_L.S, TRTE_L.S   (FA06 &lt;= FA10 − 20)                               AND (ABS(FA05Y − FA07Y) &lt;                               25) AND (FP03 &gt;= FP08 + 20) AND                               (ABS(FP04Y − FP05Y) &lt; 25) AND (FA06 &gt;                               FA10 − 40) AND (FP03 &lt; FP08 + 40)       2   Lateral translation   Trunk   40   80   TRLF_R.C, TRLF_L.S, TRTE_L.S   (FA06 &lt;= FA10 − 40)                               AND (ABS(FA05Y − FA07Y) &lt;                               25) AND (FP03 &gt;= FP08 + 40) AND                               (ABS(FP04Y − FP05Y) &lt; 25)            Code DIS013            1   Anterior deviation   Trunk +   41   41   TRLE.C, HIFL_L.S,   (SD04X &gt;= SD07X + 20)                           HIFL_R.S, HIEX.S,   AND (SD04X &gt; SD07X + 40)                           SHAD.S, SCAD.C       2   Anterior deviation   Trunk +   41   82   TRLE.C, HIFL_L.S,   (SD04X &gt;= SD07X + 40)                           HIFL_R.S, HIEX.S,                           SHAD.S, SCAD.C            Code DIS014            1   Posterior deviation   Trunk +   41   41   TRLE.S, TRTE.S, TRFL.C, SCAD.S,   (SD04X &lt;= SD07X − 20)                           HIFL_L.S, HIFL_R.S   AND (SD04X &gt; SD07X − 40)       2   Posterior deviation   Trunk +   41   82   TRLE.S, TRTE.S, TRFL.C, SCAD.S,   (SD04X &lt;= SD07X − 40)                           HIFL_L.S, HIFL_R.S            Code DIS015            1   Trunk flexion   Trunk   40   40   TRLE.C, TRTE.C, HIFL_L.S,   FALSE                           HIFL_R.S,                           NHEX.S, HIEX.S, SHAD.S            Code DIS016            1   Trunk extension   Trunk   40   40   TRLF_L.S, TRLF_R.S,   FALSE                           TRTE.S, SCAD.S,                           SCAB.C, NHCX_L.S, NHEX_R.S            Code DIS019            1   Lateral flexion of t   Trunk +   41   41   TRLF_L.C, TRLF_R.S   (FA05Y &lt;= FA07Y − 25) AND (FP04Y &gt;=                               FP05Y + 25) AND                               (FA06X &lt;= FA10X − 25) AND                               (FP03X &gt;= FP08X + 25) AND                               (FA05Y &gt; FA07Y − 50)                               AND (FP04Y &lt; FP05Y + 50)                               AND (FA06X &gt;                               FA10X − 50) AND                               (FP03X &lt; FP08X + 50)       2   Lateral flexion of t   Trunk +   41   82   TRLF_L.C, TRLF_R.S   (FA05Y &lt;= FA07Y − 50) AND (FP04Y &gt;=                               FP05Y + 50) AND                               (FA06X &lt;= FA10X − 50) AND                               (FP03X &gt;= FP08X + 50)            Code DIS020            1   Lateral flexion of t   Trunk +   41   41   TRLF_R.C, TRLF_L.S   (FA05Y &gt;= FA07Y + 25) AND (FP04Y &lt;=                               FP05Y − 25) AND                               (FA06X &gt;= FA10X + 25) AND                               (FP03X &lt;= FP08X − 25) AND                               (FA05Y &lt; FA07Y + 50) AND                               (FP04Y &gt; FP05Y − 50) AND (FA06X &lt;                               FA10X + 50) AND (FP03X &gt; FP08X − 50)       2   Lateral flexion of t   Trunk +   41   82   TRLF_R.C, TRLF_L.S   (FA05Y &gt;= FA07Y + 50) AND (FP04Y &lt;=                               FP05Y − 50) AND                               (FA06X &gt;= FA10X + 50) AND                               (FP03X &lt;= FP08X − 50)            Code DIS021            1   Translation of the   Hip   60   60   HIAB_L.C., HIAD_R.C,   (FA10X &gt;= FA17X + 20)                           HIAB_R.S, HIAD_L.S   AND (FA10X &lt; FA17X + 40)       2   Translation of the   Hip   60   120   HIAB_L.C, HIAD_R.C,   (FA10X &gt;= FA17X + 40)                           HIAB_R.S, HIAD_L.S            Code DIS022            1   Translation of the   Hip   60   60   HIAB_R.C, HIAD_L.C,   (FA17X &gt;= FA10X + 20)                           HIAB_L.S, HIAD_R.S   AND (FA17X &lt; FA10X +                               40)       2   Translation of the   Hip   60   120   HIAB_R.C, HIAD_L.C,   (FA17X &gt;= FA10X + 40)                           HIAB_L.S, HIAD_R.S            Code DIS023            1   Anterior translatio   Hip +   61   61   HIEX.C, HIFL_L.S, HIFL_R.S   (SD07X &gt;= SD11X + 20) AND (SD07X &lt;                               SD11X +40)       2   Anterior translatio   Hip +   61   122   HIEX.C, HIFL_L.S, HIFL_R.S   (SD07X &gt;= SD11X + 40)            Code DIS024            1   Posterior translatio   Hip +   61   61   HIFL_L.C, HIFL_R.C, HIEX_L.S,   (SD11X &gt;= SD07X + 20) AND (SD11X &lt;                           HIEX_R.S   SD07X + 40)       2   Posterior translatio   Hip +   61   122   HIFL_L.C, HIFL_R.C,   (SD11X − SD07X + 40)                           HIEX_L.S, HIEX R.S            Code DIS025            1   Anterior pelvic tilt   Hip +   61   61   TRFL.C, HIEX.C, TRLE.S,   (SD07X − SD09X &gt;= 10)                           HIFL_L.S, H   AND (SD07X − SD09X &lt; 20)                           IFL_R.S, HIEX_L.S, HIEX_R.S       2   Anterior pelvic tilt −   Hip +   61   122   TRFL.C, HIEX.C, TRLE.S,   (SD07X − SD09X &gt;= 20)                           HIFL_L.S, HIFL_R.S,                           HIEX_L.S HIEX_R.S            Code DN026            1   Posterior pelvic tilt   Hip +   61   61   TRLE.C, HIFL_L.C,   (SD09X − SD07X &gt;= 10)                           HIFL_R.C, TRFL.S,   AND (SD09X − SD07X &lt;                           HIEX_L.S, HIEX_R.S   20)       2   Posterior pelvic tilt   Hip +   61   122   TRLE.C, HIFL_L.C,   (SD09X − SD07X &gt; 20)                           HIFL_R.C, TRFL.S,                           HIEX_L.S, HIEX_R.S            Code DIS029            1   Lateral elevation o   Hip   60   60   TRLE.C, TRTE.C,   (FA11 − FA09 &gt;= 10)                           TRFL.S, TRLF_R.C,   AND (FA11 − FA09 &lt; 20)                           TRLF_L.S       2   Lateral elevation o   Hip   60   120   TRLE.C, TRTE.C, TRFL.S,   (FA11 − FA09 &gt;= 20)                           TRLF_R.C,                           TRLF_L.S            Code DIS030            1   Lateral elevation o   Hip   60   60   TRLE.S, TRTE.S,   (FA09 − FA11 &gt;= 10)                           TRFL.C, TRLF_L.C,   AND (FA09 − FA11 &lt; 20)                           TRLF_R.S       2   Lateral elevation o   Hip   60   120   TRLE.S, TRTE.S,   (FA09 − FA11 &gt;= 20)                           TRFL.C, TRLF_L.C,                           TRLF R.S            Code DIS031            1   Plantar flexion of t   Unknown   0   0   ANDF_R.C, ANPF_R.S   (SD10X − SD11X &gt;= 20)                               AND (SD10X − SD11X &lt; 40)       2   Plantar flexion of t   Unknown   0   0   ANDF_R.C, ANPF_R.S   (SD10X − SD11X &gt;= 40)            Code DIS032            1   Dorsiflexion of the   Unknown   0   0   ANPF_R.C, ANDF_R.S   (SD11X − SD10X &gt;= 20)                               AND (SD11X − SD10X &lt; 40)       2   Dorsiflexion of the   Unknown   0   0   ANPF_R.C, ANDF_R.S   (SD11X − SD10X &gt;= 40)            Code DIS033            1   Internal rotation of   Ankle +   11   11   HIFL_R.C, HIEX_R.C,   (FA19X − FA16X &gt;= 10)                           HIER_R.C, HIFL_L.S,   AND (FA19X − FA16X &lt;                           HIEX_L.S, ANEV R.C   20)       2   Internal rotation of   Ankle +   11   22   HIFL_R.C, HIEX_R.C,   (FA19X − FA16X &gt;= 20)                           HIER_R.C, HIFL_L.S,                           HIEX_L.S,                           ANEV_R.C            Code DIS034            1   External rotation o   Ankle +   11   11   HIIR_R.C, HIFL_R.S, HIEX_R.S,   (FA16X − FA19X &gt;=10)                           HIER_R.S, ANIN_R.C   AND (FA16X − FA19X &lt; 20)       2   External rotation o   Ankle +   11   22   HIIR_R.C, HIFL_R.S, HIEX_R.S,   (FA16X − FA19X &gt;= 20)                           HIER_R.S, ANIN_R.C            Code DIS037            1   Genu valgum right   Knee   20   20   HIAD_R.C, HIAB_R.S   (FA14X − FA09X &gt;= 10)                               AND (FA14X − FA16X &gt;=                               10) AND ((FA14X −                               FA09X &lt; 20) OR (FA14X −                               FA16X &lt; 20))       2   Genu valgum right   Knee   20   40   HIAD_R.C, HIAB_R.S   (FA14X − FA09X &gt;= 20) AND                               (FA14X − FA16X &gt;= 20)            Code DIS038            1   Genu valgum left   Knee   20   20   HIAD_L.C, HIAB_L.S   (FA11X − FA15X &gt;= 10)                               AND (FA18X − FA15X &gt;=                               10) AND ((FA11X − FA15X &lt; 20)                               OR (FA18X − FA15X &lt; 20))       2   Genu vaigum left −   Knee   20   40   HIAD_L.C, HIAB_L.S   (FA11X − FA15X &gt;= 20)                               AND (FA18X − FA15X &gt;= 20)            Code DIS039            1   Genu varum right   Knee   20   20   HIAB_R.C, HIAD_R.S   (FA09X − FA14X &gt;= 10)                               AND (FA16X − FA14X &gt;=                               10) AND ((FA09X − FA14X &lt; 20)                               OR (FA16X − FA14X &lt; 20))       2   Genu varum right −   Knee   20   40   HIAB_R.C, HIAD_R.S   (FA09X − FA14X &gt;= 20) AND                               (FA16X − FA14X &gt;_                               20)            Code DIS040            1   Genu varum left   Knee   20   20   HIAB_L.C, HIAD_L.S   (FA15X − FA11X &gt;= 10)                               AND (FA15X − FA18X &gt;=                               10) AND ((FA15X − FA11X &lt; 20)                               OR (FA15X − FA18X &lt; 20))       2   Genu varum left −   Knee   20   40   HIAB_L.C, HIAD_L.S   (FA15X − FA11X &gt;= 20)                               AND (FA15X − FA18X &gt;= 20)            Code DIS041            1   Anterior deviation   Shoulder   30   30   SCAD.C, SHFL.S, SHIR.S   (SD04X − SD01X &gt;= 10) AND (SD04X −                               SD07X &gt;= 10) AND                               ((SD04X − SD01X &lt; 20) OR                               (SD04X − SD07X &lt; 20))       2   Anterior deviation   Shoulder   30   60   SCAD.C, SHFL.S, SHIR.S   (SD04X − SD01X &gt;= 20) AND (SD04X −                               SD07X &gt;= 20)            Code DIS042            1   Posterior deviation   Shoulder   30   30   SCAD.S, SHFL.C, SHIR.C, SCAB.C   (SD01X − SD04X &gt;= 10) AND (SD07X −                               SD04X &gt;=10) AND                               ((SD01X − SD04X &lt; 20) OR                               (SD07X − SD04X &lt; 20))       2   Posterior deviation   Shoulder   30   60   SCAD.S, SHFL.C, SHIR.C, SCAB.C   (SD01X − SD04X &gt;= 20) AND (SD07X −                               SD04X &gt;= 20)            Code DIS043            1   External rotation o   Ankle +   11   11   HIIR_L.C, HIFL_L.S, HIEX_L.S,   (FA20X − FA18X &gt;= 10)                           HIER_L.S, ANIN_L.C   AND (FA20X − FA18X &lt; 20)       2   External rotation o   Ankle +   11   22   HIIR_L.C, HIFL_L.S,   (FA20X − FA18X &gt;= 20)                           HIEX_L.S, HIER —L.S,                             ANIN_L.C            Code DIS044            1   Internal rotation of   Ankle +   11   11   HIFL_L.C, HIEX_L.C,   (FA18X − FA20X &gt;= 10) AND                           HIER_L.C, HIFL   (FA18X − FA20X &lt;                           R.C, HIEXR.S, ANEV_L.C   20)       2   Internal rotation of   Ankle +   11   22   HIFL L_C, HIEX_L.C, HIER_L.C,   (FA18X − FA20X &gt;= 20)                           HIFL_R.S, HIEX_R.S, ANEV_L.C                  
 
         [0192]    As stated previously, each deviation is linked to corrective actions and these actions, in turn, are linked to appropriate exercises and stretching routines to treat the deviation. The corrective actions are linked to their deviations by a code that specifies the type of action and exercise required to correct the identified deviation. Every exercise is associated with a level of difficulty from one to three. When beginning a biomechanical assessment, the health-care professional indicates his client&#39;s activity level from one to three (level 1=inactive, level 2=moderately active, level 3=highly active and *=all levels of activity). Only those exercises matching the client&#39;s activity level are selected to treat any particular deviation.  
         [0193]    A client&#39;s exercise schedule is divided into three sessions: the first is of two weeks in duration and the last two are of four weeks duration. When an action group contains numerous exercises, the system always selects only the first three exercises and inserts one into each session. When there is only one exercise applicable, it is included in all three sessions. If there are two exercises applicable, the first is slotted into session 1, and the second one into sessions 2 and 3. There is a maximum of twelve exercises applicable per session. When the system calculates more than twelve exercises applicable per session, the user is requested to delete a deviation. This self-regulating process ensures that the entire 10-week exercise program does not include more than thirty-six exercises, and that not more than 12 are prescribed in one week in order to respect a maximum time budget allowed.  
         [0194]    In one other embodiment of the present invention, an artificial neural network is trained to select exercises based on biomechanical segments points coordinates without passing through all previously shown calculations.  
         [0195]    The patient&#39;s personal information, images, biomechanical assessment, postural deviations, corrective actions and associated exercises and stretches are presented in the Biomechanical Assessment Report that is printed by the practitioner. A page from a sample Biomechanical Assessment Report is presented in FIG. 13. Presented are personal information on the patient ( 1 ), lateral view image of the patient with markers ( 2 ), and biomechanical parameters. Presented in FIG. 14 is a page from the same sample Biomechanical Assessment Report that includes specification of the patient&#39;s postural deviations and the associated exercises and stretching. Presented in FIG. 15 is a page from the Postural Analysis Report that displays the exercise schedule generated in the Biomechanical Assessment process. This figure details the personalized exercise routines for the 10-week treatment period. Finally, presented in FIG. 16 is another page from the Biomechanical Assessment Report illustrating and describing a few of the exercises of the exercise schedule. All of the above information is generated automatically (and modifiable manually) by the system.  
         [0196]    In a preferred embodiment of the present invention, after the patient has completed the exercise routines, he or she can return for a follow-up evaluation. Feedback is given by the health-care pratitionner and new images of the patient are taken in order to reevaluate deviations and priorities. A comparative Biomechanical Assessment Report is generated comparing two assessments. The goal is to assess the effects of treatment and modify the exercise regime, if necessary. A quantified analysis of improvement is therefore provided and both the patient and health-care practitioner can visualize progress towards ideal postural alignment. In another embodiment of the present invention, feedback is provided directly by the patient through the web site, such information being used as a complement in the postural evaluation and in further exercise selection.  
         [0197]    Importantly, all biomechanical data linked to personal information parameters such as height, weight, and age are stored centrally. In one embodiment of the invention, correlation is executed between the personal information parameters, the exercises selected in the Biomechanical Assessment and between the improvement of the patient&#39;s condition. This correlation allows the determination of the exercises which are more efficient for the different elements associated with the patient such as the deviation severity, the age, the gender or the activity level. Parameters used in deviation-exercises correlation are adjusted based on the effectiveness of the exercise program to correct deviations and the exercise program is repeatedly varied until the effectiveness of the exercises is optimized. An important advantage of having calculations performed centrally rather than on locally arranged software, is that improvements and modifications to the system can be made instantaneously across users without delays cause by the more standard transmission of software updates. This is a highly distinguishing aspect of our Biomechanical Assessment system. An additional distinguishing feature is that biomechanical assessments can be peformed at remote locations, as the digital image acquisition can be performed virtually anywhere. Web-based technology is ideally placed to bring cutting-edge health care to potentially disadvantage geographical locations.  
         [0198]    While the invention has been described in connection with specific embodiments thereof, it will be understood that it is capable of further modification and this application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains and as may be applied to the essential features here in before set forth, and as follows in the scope of the appended claims.