Abstract:
A vaginal speculum arrangement includes a blade system for opening the vagina having a first blade ( 1 ) and a second blade ( 2 ) physically separable from one another, and an injection mechanism for dispensing a diagnostic marker onto the surface of the examined tissue having an injection probe ( 7 ). The direction of application of the diagnostic marker by the injection probe is not influenced by separation of the first and second blades and thus the injection probe ( 7 ) allows for a substantially homogeneous application of the diagnostic marker on a desired area in the examined vaginal or cervical tissue, irrespective of the degree of separation of the blades ( 1,2 ). The probe may be a nozzle generating a desirable injection pattern. The probe may be affixed to an extension rod, which may be mechanically coupled with the speculum blades. Optical, electronic imaging means, illumination means and treatment tools may be mounted onto the extension rod, which rod may be reversibly attached to mechanical positioning systems or to imaging devices used in colposcopy. The speculum arrangement may be used as a tool for diagnostic and screening examinations and for the treatment of cervical and vaginal neoplasias.

Description:
FIELD OF THE INVENTION 
       [0001]    The present invention relates to medical devices, in particular to speculums. More particularly, the present invention relates to a vaginal speculum which incorporates an applicator for the uniform delivery of a standardized dose of a liquid diagnostic marker onto a woman&#39;s lower genital tract. 
       BACKGROUND OF THE INVENTION 
       [0002]    Detection and identification of pathologic alterations of the woman&#39;s low genital track (cervix of the uterus, vagina) involves a series of medical procedures including screening tests (pap-test), tissue examination with the aid of a microscope (colposcopy), biopsy sampling and histology. An abnormal pap-test is followed by colposcopy, where the vagina is opened with the aid of a speculum to allow tissue visualization with the aid of a microscope. In colposcopy, a number of diagnostic markers are applied topically, which alter the optical properties of the tissue, depending on the pathology. Particularly, application of 3-5% acetic acid solution provokes a reversible whitening of the abnormal tissue areas. It has been proved that the degree and the duration of the whitening effect correlates well with the neoplasia grade. The provoked contrast enhancement between normal and abnormal areas provide a valuable means for assisting colposcopic diagnosis and for locating abnormal areas for biopsy sampling and treatment. There is a considerable confidence for the diagnostic value of these diagnostic markers, which has been developed during the 70 years usage of these tests in the clinical practice. 
         [0003]    The employment of marker-based in vivo tests as an alternative to the in vitro pap test for screening cervical pathology has increased in recent years. Marker-based in vivo tests employ a procedure similar to the colposcopy procedure, but typically are performed without the use of a microscope (colposcope). The vagina is opened with the aid of a speculum, which is followed by the application of acetic acid solution onto tissue surface and naked-eye monitoring of the marker-induced alterations in the colour of the examined tissue. This technique is known as speculoscopy. In contrast to the pap-test, speculoscopy offers diagnostic results immediately, which enable the biopsy sampling and/or the treatment of the lesion even during the same consultation. 
         [0004]    One main drawback of both colposcopy and speculoscopy arises from the fact that the quantity of applied marker is not standardized, while the marker administration means and procedures do not ensure its uniform application over the entire area of the examined tissue. In addition, the injection means employed obstruct the rear opening of the speculum, not allowing the monitoring of the effects provoked by the marker during its application and due to this fact critical diagnostic information is missed. Typically, an uncontrolled volume of the marker is applied either by washing the tissue with the aid of a cotton brush, moistened with acetic acid solution, or with the aid of a general purpose, hand held atomizer, which delivers a random quantity of the marker remotely. In some cases more than one injection are performed in a repetitive manner during the evolution of the acetowhitening phenomenon in order to achieve better contrast. 
         [0005]    Clinical research, conducted by the inventor of the present invention, has shown that the monitoring of the effects provoked by the marker, during and after its application, has a great diagnostic value. The same research has also shown that the concentration and the quantity of the marker solution, applied onto the examined tissue are very critical since for a given pathology, different marker doses generate different optical effects, which may cause misdiagnosis. Particularly, for a given tissue pathology, an insufficient marker dose may cause in cancerous lesions an acetowhitening pattern similar to the one provoked by an optimum marker quantity in inflammations and in low grade neoplasias. Similarly, a high marker dose can cause an acetowhitening pattern in inflammations and low grade precancerous lesions typically found in cancerous lesions. Consequently, the lack of an arrangement enabling the standardization of the marker quantity applied onto the tissue surface may result in false positive and/or false negative results, thus, diminishing the diagnostic performance of these tests in terms of both sensitivity and specificity. 
         [0006]    A number of prior art documents disclose various speculum arrangements with imaging and illuminations means integrated with a speculum, but they are characterized by the lack of injection means for applying uniformly a standardized quantity of a diagnostic marker, while simultaneously allowing for the inspection of the optical effects produced by the latter. 
         [0007]    Such prior art documents include GB214913 and GB191027965. These documents disclose a vaginal speculum with incorporated fluid injection means. The purpose of fluid injection means, as described in these documents, is for washing the woman&#39;s low genital tract and it does not offer any standardization of the injected liquid. It is worth noticing that in these prior art documents, washing does not employ a diagnostic marker and therefore it is not intended to assist diagnosis and screening. More importantly, it does not allow for the visualization of the area of interest, since the whole inner space of the speculum is occupied by the fluid injection means and no free space is available allowing observation and insertion of treatment tools. 
         [0008]    Other prior art documents disclose vaginal specula with integrated illumination means for illuminating the vagina. Such specula are disclosed, e.g., in documents GB1408382, U.S. Pat. No. 3,762,400, U.S. Pat. No. 3,851,642. These vaginal specula are intended for the medical examination of the vagina, but they are not accompanied with integrated fluid injection means, necessary for a diagnostic medical examination of the vagina wherein the uniform application of a standard volume of a diagnostic marker is necessary. 
         [0009]    Other prior art described in documents WO9007299, WO9728753, U.S. Pat. No. 4,210,133 and U.S. Pat. No. 4,046,140, discloses vaginal specula with an integrated microscope or camera for observing and/or for capturing images of the cervical tissue. In the described implementations the microscopes or cameras are located within the blades not allowing the insertion of tools for biopsy sampling and treatment simultaneously with the inspection with the aid of a microscope or camera. In addition, the instruments disclosed in the foregoing documents do not allow the injection of diagnostic markers. Finally, the prior art document US20040122327 discloses an uteroscope arrangement including a panoramic lens for viewing the entire uterine cavity in one image that is mounted on an elongated shaft for insertion into the patient&#39;s uterus. One or more transparent inflatable balloons are mounted on the elongated shaft surrounding the optical imaging system. An instrument channel is provided in the shaft of the uteroscope for insertion of instruments, such as a suction tube, external to or in between the transparent inflatable balloons. 
       OBJECTS OF THE INVENTION 
       [0010]    One object of the present invention is to provide a speculum arrangement, integrating means for dispensing uniformly a standardised marker volume, while simultaneously allowing for the visualization and monitoring of the provoked optical effects, for diagnostic and screening purposes and the insertion of treatment tools into the vaginal canal, for biopsy sampling and treatment. 
         [0011]    It is another object of the present invention to provide a speculum arrangement further integrating optical, electronic imaging, and illumination means with a speculum arrangement embodying a diagnostic marker injection mechanism, while simultaneously allowing for the insertion of treatment tools into the vaginal canal. 
         [0012]    It is still another object of the invention to provide a speculum arrangement with an extension shaft, which may be connected with a mechanical support and positioning means, including the ones employed in imaging devices used in colposcopy, for the support and stabilization of the speculum and hands free operation. 
       SUMMARY OF THE INVENTION 
       [0013]    The present invention relates to a vaginal speculum embodying an applicator for the uniform delivery of a standardized dose of a liquid diagnostic marker onto the woman&#39;s lower genital tract. The applicator comprises of a marker container and a mechanism for transferring a desirable quantity of its content to an injection probe for dispensing the marker onto the tissue surface. The probe may be a nozzle generating a desirable injection pattern, depending on the location of the tissues to be examined. The cross section of the injection probe is substantially smaller than the rear opening of the speculum, so that the monitoring of the optical effects provoked to the tissue by the marker and the insertion of treatment tools is not obstructed. 
         [0014]    The probe may be affixed to an extension rod, which may be mechanically coupled with the speculum blades, in such a way that the longitudinal axis of the probe and consequently the injection direction remains stable, independently from the actual opening angle of the blades, determined by the anatomy of the vaginal wall. Optical, electronic imaging means, illumination means and treatment tools may be mounted onto the extension rod, which rod may be detachably attached to mechanical positioning systems or to imaging devices used in colposcopy. 
         [0015]    The disclosed speculum arrangement may be used as a tool for diagnostic and screening examinations and for the treatment of cervical and vaginal neoplasias. 
         [0016]    Thus, according to a first aspect of the invention there is provided a vaginal speculum arrangement comprising, a blade system for opening the vagina having a first blade and a second blade physically separable from one another (and defining a longitudinal symmetry axis between the first and second blades), and an injection mechanism for dispensing a diagnostic marker onto the surface of the examined tissue comprising an injection probe, and characterised in that the (direction of) application of the diagnostic marker by the injection probe is not influenced by separation of the first and second blades and thus the injection probe allows for a substantially homogeneous application of the diagnostic marker on a desired area in the examined vaginal or cervical tissue, irrespective of the degree of separation of the blades. Preferably, the construction allows for easy observation of the desired area through the rear aperture of the blade system, before during and after the injection of the diagnostic marker. This is readily achieved by ensuring that the dimensions of the cross section of the injection probe are substantially smaller than the dimensions of the cross section of the rear aperture of the blade system. 
         [0017]    The injection mechanism may also incorporate a marker container and a means for enabling injection of the marker. Any suitable means may be employed. 
         [0018]    As is described in more detail above, the lack of an arrangement enabling the standardization of the marker quantity applied onto the tissue surface may result in false positive and/or false negative results, thus, diminishing the performance of diagnostic tests in terms of both sensitivity and specificity. The present invention addresses this problem by ensuring that application of the marker through the injection system is not influenced by the movement of the speculum when opening the vagina. Thus, no matter what in use position the speculum adopts (depending upon the anatomy of the individual under investigation), the injection system is still able to deliver the diagnostic marker to a standard area of tissue. 
         [0019]    Also provided by the invention is a vaginal speculum arrangement comprising a blade system for opening the vagina having a first blade and a second blade positionable relative to each other in a plurality of angles and a longitudinal symmetry axis between a distal portion and a proximate portion of each of the first and second blades, and an injection mechanism for dispensing a diagnostic marker onto the surface of the examined tissue having an injection probe having a longitudinal axis, a marker container and a means for enabling injection of the marker, wherein the dimensions of the cross section of the injection probe is substantially smaller than the dimensions of the cross section of a rear aperture of the blade system, and characterised in that a relative position of the longitudinal axis of the injection probe and the longitudinal symmetry axis of the blade system remain substantially fixed for each of the plurality of angles between the first and second blades, and thus the injection probe allows for a substantially homogeneous application of the diagnostic marker on a desired area in the examined vaginal or cervical tissue, irrespective of the opening angle of the blades and allows for observation of the desired area through the rear aperture of the blade system, before during and after the injection of the diagnostic marker. 
         [0020]    The relative position of the longitudinal axis of the injection probe and the longitudinal symmetry axis of the blade system remain substantially fixed for each of the plurality of angles between the first and second blades due to the nature of the mounting of the injection probe on the speculum. Preferably, movement of the blades is controlled by movement of corresponding handles which are connected to the blades and which are manipulated by the user of the device. In one embodiment, the vaginal speculum arrangement further comprises a mechanical support having a shaft with a first shaft end mechanically coupled with the blade system and a second shaft end detachably coupled to the injection mechanism. In a further embodiment, the vaginal speculum arrangement further comprises a mechanical support having a shaft with a first shaft end mechanically coupled with the blade system and a second shaft end detachably coupled to a support member or to an imaging apparatus. The support member may include an articulated arm with a first end portion affixed to a base and a second end portion affixed to a locking mechanism of the shaft. In a still further embodiment, the vaginal speculum arrangement further comprises a mechanical support having a shaft with a first shaft end mechanically coupled with the blade system and the injection probe mounted on a portion of the shaft. 
         [0021]    In one specific embodiment, the first shaft end of said shaft may be jointed with a blade-handle joint of the first blade, and a pin of the blade-handle joint of the second blade moves within a groove, formed along a longitudinal axis of said shaft. According to alternative constructions, the groove may be replaced by any other suitable structure such as a slot for example. Thus, the term “groove” is intended to encompass all functional equivalents. Likewise the pin may be replaced by any other type of structure which is moveable (in stable fashion) along the longitudinal axis of the shaft and thus the term “pin” is intended to encompass all functional equivalents. In a further specific embodiment, in which the blades of the speculum open symmetrically around the speculum&#39;s pivoting joint, the probe is mounted on, either directly or indirectly, the pivot point. Additional structures may be fixed onto the shaft in order to position the injection probe appropriately as would be readily appreciated by the skilled person. 
         [0022]    Whilst the application of diagnostic marker from the injection probe is not influenced by the relative movement of the blades according to the invention, the injection probe may nevertheless be capable of independent movement. Thus, for example, if the blades move vertically and thus remain parallel to one another, the injection probe may be mounted such that it remains in a fixed location between the two blades independent of their degree of separation. This may be achieved through use of a suitable gearing mechanism or a rack and pinion mechanism for example. In a further embodiment, the injection probe may be rotatably mounted on the speculum such that its orientation can be modified manually but remains fixable and independent of the movement of the speculum blades. 
         [0023]    In one preferred embodiment according to the invention, the shaft of the vaginal speculum arrangement comprises a locking mechanism. This locking mechanism may be a separate member that interacts with the shaft to connect the speculum to additional components. In one embodiment, the locking mechanism includes one of a mechanical locking mechanism or a magnetic or an electromagnetic locking mechanism. 
         [0024]    In a further embodiment the injection probe is affixed to said mechanical support in the vicinity of said locking mechanism. 
         [0025]    In a preferred construction, the injection probe comprises a nozzle. Preferably the nozzle comprises a needle nozzle. 
         [0026]    The injection mechanism may comprise a hydraulic pump means for pumping a predetermined volume of a marker into and through the injection probe. Preferably, the predetermined volume of the marker ranges between about 2.5 ml and about 3.5 ml. The marker may be any suitable marker for use in visualization of the tissue of interest. In a preferred embodiment, the marker is acetic acid. Preferably, the marker is between about 3% and about 5% acetic acid solution. 
         [0027]    In a further embodiment, the vaginal speculum arrangement of the invention further comprises a light source. The light source may be affixed to the support member in a vicinity of the shaft locking mechanism. 
         [0028]    The vaginal speculum arrangement of the invention may further comprise an optical element. The optical element may be any of a magnifying optical element, a focusable optical element, an optical filter or a pair of polarizers, one for polarizing the light emitted by the light source and one for polarizing the light reflected by the tissue, having their polarization axes perpendicular to each other. 
         [0029]    Any of the components of the vaginal speculum arrangement, in particular the blade system/shaft/injection probe may be formed from a metallic material. The component parts may be re-usable. In an alternative embodiment, some or all of the components of the vaginal speculum arrangement, in particular the blade system/shaft/injection means include a portion formed from a polymeric compound, such as a plastics material for example. Such components are preferably disposable. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0030]      FIG. 1  illustrates a vaginal speculum arrangement composed by blades and handles, an extension rod mechanically coupled with the blades, an injection probe affixed onto the rod, a liquid marker container, and hydraulic means to enable injection of the marker. 
           [0031]      FIG. 2  illustrates a vaginal speculum arrangement composed of blades and handles, an extension rod mechanically coupled with the blades, and a mechanical support attached to a platform such as the ground or to the examination bed and connected detachably with the extension shaft. Onto the mechanical support and in the vicinity of its connection point with the extension shaft, the following components are mounted: an injection probe, a light source with a removable polarizer and removable rotating imaging polarizer, optical filter means and image magnifying optics. 
           [0032]      FIG. 3  illustrates a rear-view of a speculum in accordance with the teachings of the present invention. 
           [0033]      FIG. 4  illustrates a needle nozzle with a needle having an outside diameter sized to maximize the field-of-view through the rear aperture of a speculum in accordance with the teachings of the present invention. A coupling mechanism is used for connection of the needle nozzle with the tube providing a channel through which the marker flows. 
           [0034]      FIG. 5  illustrates an apparatus for securing a speculum shaft onto an optical imaging system, or onto a base member. 
           [0035]      FIG. 6  is a perspective view of the locking mechanism of  FIG. 5  showing the cam action wedge and its housing in the locking mechanism. 
           [0036]      FIG. 7  illustrates an alternative apparatus for securely connecting a speculum shaft to a support member, such as a base, or to an optical imaging system for example. 
       
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0037]    A Cusco-type speculum is illustrated in the figures for illustrative purposes. Those skilled in the art will appreciate the present invention is not limited to such a speculum, but rather is applicable to any kind of speculum having a mechanical arrangement suitable for opening the vagina to enable the visualization of the tissues composing a woman&#39;s lower genital track. 
         [0038]      FIG. 1  depicts a Cusco-type speculum having two blades ( 1 ,  2 ) connected to each other with the aid of a pivoting joint ( 3 ), located at the rear part of the blades. Each blade is jointed with the corresponding handle ( 4 ,  5 ) with the aid of a pin ( 6 ). The separation distance between the handles ( 4 ,  5 ) becomes maximum when the front parts of the blades ( 1 ,  2 ) are in contact. When the speculum is inserted into the vagina, the blades are in or near contact to each other, for the patient&#39;s comfort. After insertion, the handles ( 4 ,  5 ) are approached to each other, separating the blades ( 1 ,  2 ) and opening the vagina. The blade separation is mechanically locked at a desirable position, determined by the anatomy of the tissue. Then the examination follows involving the application of one or more diagnostic markers and the monitoring of the marker-induced alterations in the properties, e.g., the colour, of the tissue. As has been stated above, the uniform application of a standardized quantity of the diagnostic marker, while simultaneously allowing for the tissue inspection is critical for examination and diagnostic evaluation. 
         [0039]    Uniform and simultaneous application of the marker over the entire area of the examined tissues can be achieved with the aid of a liquid injection mechanism, capable of dispensing the marker from a distance. In the case that the cervix of the uterus is examined, and because of its almost circular shape, a preferable injection pattern is conical with a maximum diameter equal with the diameter of the cervix, which is approximately 2.5-3 cm (1 inch). 
         [0040]    An injection probe ( 7 ) is preferably mounted properly onto a fixed position, so that its injection direction is not affected by the opening angle of the speculum blades ( 1 ,  2 ), which may vary due to the anatomy of the vagina. Such a fixed position cannot be achieved by affixing the injection probe on any of the blades, since by changing their angle the injection direction will change accordingly. Consequently, depending on the blade angle different parts of the tissue will be exposed to a different volume of the marker fluid. 
         [0041]    In the case of a Cusco-type speculum the blades open symmetrically around the speculum&#39;s pivoting joint ( 3 ) which is thus an eligible mount upon which to affix the injection probe ( 7 ). Another solution, comprising another embodiment of the present invention is to affix the injection probe ( 7 ) onto an extension shaft ( 8 ), which is mechanically coupled with the pins ( 6 ) connecting the handles with the blades. The front part of the shaft is jointed with the blade-handle joint of the first blade ( 4 ), while the pin of the blade-handle joint of the second blade ( 5 ) can slide within a groove ( 9 ), formed along the longitudinal axis of the extension shaft ( 8 ). This arrangement ensures that the relative position of the longitudinal axis of the probe ( 10 ) with respect to the longitudinal symmetry axis of the blade system ( 11 ) remains the same for all possible blade angles. Therefore, by properly mounting the injection probe ( 7 ) onto the extension shaft ( 8 ), its longitudinal axis intersects the central area of the examined tissue in all possible relative positions of the blades ( 1 ,  2 ), thus ensuring uniform application of the marker in various anatomic conditions. 
         [0042]    In one embodiment of the present invention, the injection probe ( 7 ) is a nozzle remotely delivering a mist of liquid marker droplets of a desirable size onto the surface of the tissue. The cross section of the injection probe ( 7 ) is substantially smaller that the rear opening of the blade system ( 12 ) and preferably it has a needle nozzle-like shape for the purpose of not obscuring the visualization ( 13 ) of the tissue before, during and after injection and for allowing for the insertion of treatment tools ( 14 ). The liquid marker is transmitted to the injection probe ( 7 ) from a marker container ( 15 ,  16 ) either by permanently or detachably connecting these parts to each other, or through a tube ( 17 ) connecting these parts either permanently or detachably. The injection of the fluid is achieved with the aid of hydraulic pressure manually or otherwise applied. 
         [0043]    In one embodiment of the present invention, the container and the hydraulic means comprise a syringe with a container ( 15 ) and a piston ( 18 ). In another embodiment of the present invention, the container is a bottle ( 16 ) and the hydraulic means is a tube with two one-way valves ( 19  and  20 ) and a piston ( 18 ). When the piston ( 18 ) is pulled out, the liquid fills-up the tube enclosing the piston with a desirable quantity of marker liquid and the valve of the bottle ( 19 ) closes. By pushing the piston in, the tube valve ( 20 ) opens, the bottle valve ( 19 ) closes and the liquid is injected from the injection probe ( 7 ). In one embodiment of the invention, more than one marker staining different features of diagnostic relevance is performed with the arrangement described above either simultaneously or in time sequence. 
         [0044]    Clinical investigations conducted by the inventors of the present invention have shown that the optimum quantity of the marker is a volume of between about 2.5 ml and 3.5 ml. This volume ensures a sufficient and uniform washing of the entire surface of the cervix to produce the diagnostic optical effect. At the same time, this volume is desirable, since it eliminates unwanted accumulation of marker in excess between the lower blade ( 2 ) and the lower part of the examined tissue, which may obscure the visualization of the tissue. 
         [0045]    The vaginal speculum arrangement of the present invention, as illustrated in  FIG. 1 , may be manufactured either in part or in whole either from metallic or from synthetic (plastic, Plexiglas) material. The speculum arrangement of the present invention either in part or in whole, may be either re-usable or disposable. In one embodiment, the speculum arrangement comprising the blade and handle system, the extension shaft onto which the nozzle is affixed, the nozzle mechanically coupled with the syringe pre-filled with the marker, is disposable. 
         [0046]      FIG. 2  depicts another embodiment of the vaginal speculum arrangement. The length of the extension shaft ( 8 ) is determined by the working distance of the optical imaging apparatus employed for the examination the lower part of woman&#39;s genital system, such as cameras, colposcopes etc. and combinations thereof. The extension shaft is detachably connected with these imaging apparatuses, with the aid of a locking mechanism ( 21 ). The locking mechanism ( 21 ) is affixed onto the imaging apparatus and at a proper location so that when the locking mechanism is coupled with the extension shaft, the longitudinal symmetry axis of the blade system ( 11 ) coincides substantially with the bisector of the viewing angle ( 13 ). In another embodiment of this invention, suitable for speculoscopy use, the locking mechanism ( 21 ) is mounted on a mechanical support, which in turn is either affixed onto the examination bed or includes a base ( 23 ) placed on the ground. The mechanical support may be an articulating arm ( 22 ) to facilitate manipulations for the connection of the speculum shaft ( 8 ) with the locking mechanism ( 21 ). 
         [0047]    Onto the mechanical support which may be an articulating arm ( 22 ), and in the vicinity of its connection point with the extension shaft ( 8 ), the following components may be mounted: an injection probe ( 7 ), connected with a marker container ( 15 ,  16 ) either directly or though a tube ( 17 ) and hydraulic means for enabling injection, all having the specifications described above with respect to  FIG. 1 , a light source ( 24 ) with a power supply ( 25 ) and at least one of the following optical elements ( 26 ) interposed in the illumination and imaging ray paths: magnifying and focusing optics, filters and polarizers. The optical elements ( 26 ) may be mounted in a removable manner from the path of the rays, by tilting them left or right. The polarizers may be affixed on a mount allowing the rotation of their polarization axes. 
         [0048]    The cross section of the light source ( 24 ) and illumination optics ( 26 ) is substantially smaller than the rear optical aperture of the blade system ( 12 ) for the purpose of not obscuring the visualization of the tissue. 
         [0049]    The light source ( 24 ) may be a halogen lamp and/or a LED lamp or other suitable light source. When the polarization axis of the imaging polarizer becomes, after rotation, vertical with the polarization axis of the light source, then the surface reflection (glare) is eliminated, resulting in a substantial improvement of the perceived contrast. This facilitates the detection and monitoring of features of diagnostic importance. The perceived contrast is further enhanced with the aid of an optical filter and image magnifying means ( 26 ). 
         [0050]    Once the extension shaft ( 8 ) is connected with the mechanical support, the longitudinal axis of the injection probe may have a fixed relative position with the longitudinal axis ( 11 ) of the blade system, ensuring that the former intersects the central area of the tissue and the uniform application of the marker onto the entire area of the examined tissue. 
         [0051]    The vaginal speculum arrangement of the current invention, illustrated in  FIG. 2 , may be manufactured either in part or in total either from metallic or from synthetic (plastic, Plexiglas) material. The speculum arrangement of the current invention may be in part or include either re-usable or disposable. In one preferable embodiment of the vaginal arrangement as depicted in  FIG. 2 , the blade-handle system with the extension shaft is disposable and the mechanical mount with the components (in part or in whole) mounted on it, is re-usable. 
         [0052]      FIG. 3  illustrates a rear-view of the joined speculum blades ( 1 ,  2 ), the extension shaft ( 8 ) and the nozzle ( 7 ). The dimensions of the cross section ( 40 ) of the nozzle are substantially smaller than the dimensions of the cross section ( 41 ) of a rear aperture ( 42 ) of the blade system, thus allowing for the visualization of the examined area before, during, and after the injection of the marker. 
         [0053]      FIG. 4  illustrates a needle nozzle ( 27 ), with the needle ( 43 ) having an outside diameter sized to maximize the field-of-view through the rear aperture ( 42 ) of the blade system. A coupling mechanism ( 28 ) is used for the connection of the needle nozzle ( 27 ) with the tube ( 17 ) providing a channel for the marker from a container holding the marker to an input orifice of the coupling means ( 28 ). 
         [0054]      FIGS. 5 and 6  illustrate one embodiment of the shaft ( 8 ) in more detail. Those skilled in the art will appreciate the shaft ( 8 ) is not limited to the embodiment illustrated and other shaft configurations are possible. The shaft ( 8 ) illustrated in  FIG. 5  is well suited for use in securing the speculum shaft onto an optical imaging system ( 26 ), onto a base member ( 23 ), or both. In the illustrated embodiment, the distal end ( 29 ) of a speculum shaft ( 8 ) includes a conically tapered slot ( 30 ) in a bottom side. The conically tapered slot ( 30 ) acts as a guide for the proper alignment of the speculum with respect to the external optical system ( 26 ). A securing mechanism engages with the distal end ( 29 ) of the shaft ( 8 ) with an extension pin ( 31 ) that has a dowel pin ( 32 ) having a longitudinal axis perpendicular to the longitudinal axis of the extension pin ( 31 ). The position of the dowel pin ( 32 ) determines the displacement of the speculum from the external optical system. The distal end ( 29 ) of the shaft ( 8 ) engages with the extension pin ( 31 ) using a spring-loaded, cam action wedge ( 33 ). The distal end ( 29 ) of the shaft ( 8 ) also includes a receptacle slot ( 34 ) to mate with the cam action wedge ( 33 ). 
         [0055]    In operation, the shaft ( 8 ) is moved towards the optical system to urge the dowel pin ( 32 ) into contact with the conically tapered groove ( 30 ) in the shaft ( 8 ) until the cam action wedge ( 33 ) mates with the receptacle slot ( 34 ) in the shaft ( 8 ). 
         [0056]    The shaft ( 8 ) is unlocked from the dowel pin ( 32 ) by pressing on a release button ( 35 ) which has the effect of engaging with the cam action wedge ( 33 ). In this state, the receptacle slot ( 34 ) is devoid of a locking member and the shaft ( 8 ) can be removed. The cam action wedge ( 33 ) and the release button ( 35 ) are returned to their normal states due to the action of a spring ( 36 ) housed in the engagement pin ( 31 ). 
         [0057]    In one embodiment, and as shown in  FIG. 7 , the vaginal speculum may be attached to the support with the use of a magnetic locking mechanism. The mechanism may consist of a connecting shaft ( 71 ) with a ferrite insert at the distal end ( 72 ) and a corresponding magnet ( 73 ) housed in the support. The said magnet ( 73 ) may be a permanent magnet, or in another embodiment, an electromagnet. 
         [0058]    The support is designed with a conical inlet ( 74 ) in order to provider accurate alignment, ease of engagement and elimination of unwanted clearances at the junction of the connecting shaft and the support. In the shown arrangement, the magnet ( 73 ) is a permanent magnet. In this arrangement, the vaginal speculum connected to the connecting shaft ( 71 ) is brought into the proximity of the permanent magnet by using the guidance provided by the conical opening in the support. Following usage, the connecting shaft is de-coupled from the support by using an ambidextrous release trigger (not shown) and pulling it. The pivot action of the trigger causes the support—connection shaft connection to be severed. The vaginal speculum and the connection shaft may then be extricated from the support. 
         [0059]    In another embodiment, the magnet used may be an electromagnet whereby the “circuit” is completed upon contact of the inserted ferrite with the corresponding contact point in the support. The release of the connection in this embodiment may be effected by using a wired button to interrupt the circuit allowing the release of the connection shaft from the support.