Source: https://patents.google.com/patent/DE69932091T2/en
Timestamp: 2020-01-21 20:35:26
Document Index: 578342079

Matched Legal Cases: ['art 32', 'art 34', 'art 32', 'arts 302', 'art 302', 'art 701']

DE69932091T2 - Orthesis and method for their use - Google Patents
Orthesis and method for their use
DE69932091T2
DE69932091T2 DE1999632091 DE69932091T DE69932091T2 DE 69932091 T2 DE69932091 T2 DE 69932091T2 DE 1999632091 DE1999632091 DE 1999632091 DE 69932091 T DE69932091 T DE 69932091T DE 69932091 T2 DE69932091 T2 DE 69932091T2
DE1999632091
DE69932091D1 (en
Thomas P. M. D. Atlanta Branch
BRANCH THOMAS PMD
1998-08-10 Priority to US96105P priority Critical
1998-08-10 Priority to US9595298P priority
1998-08-10 Priority to US95952P priority
1998-08-10 Priority to US96104P priority
1999-08-10 Application filed by BRANCH THOMAS PMD filed Critical BRANCH THOMAS PMD
2006-08-03 Publication of DE69932091D1 publication Critical patent/DE69932091D1/en
2007-07-05 Publication of DE69932091T2 publication Critical patent/DE69932091T2/en
2019-11-21 First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=27378029&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=DE69932091(T2) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
These This invention relates generally to orthopedic devices and more particularly on orthopedic Devices designed to increase the size of the Range of motion of a joint through the use of either inflatable and emptied bellows promote.
If a joint is injured, either by accident or one Surgery can form scar tissue that is full Limits the range of motion of the joint. This is obvious an adverse condition and should, if possible, be corrected. Often such correction includes an attempt of the injured or those who help the injured person, the joint step by step (often over a period of months), so that the full extent the movement is finally achieved.
Of the full range of motion of a joint depends on the anatomy of the joint and the genetic basis of each individual. typically, Joints move in two directions, bending and stretching. typically, Bending means bending the joint and stretching the straightening of the joint; according to orthopedic agreement However, there are joints that only bend. The ankle For example, dorsiflexion allows or plantar flexion. Other joints do not bend and stretch only, they rotate. The elbow joint, for example, allows for supination and Pronation, which means a rotation of the hand around the longitudinal axis of the forearm and with it the palm turns up or down.
It There is a need for a category of orthoses that increase the size of the orthosis Promote range of motion of a joint, instead of just a prop to offer. One such set of devices is called Joint Active System Inc. It combines a traditional orthosis with limb cuffs at each of the limb segments with a special hinge joint that holds the two cuffs combines. This special hinge joint has a ratchet system out, which allows the hinge, with a special key or Knob angled or stretched. If the cuffs at each of the limb segments are attached and the hinge is slowly bent, then will forced the joint to flex. In a similar way, the joint becomes stretched as well when the hinge, after moving it to a bent joint was strapped, slowly straightened. This system is on it instructed the patient to strap a cuff to each limb segment. This is difficult, especially if the joint to be treated is the Arm is needed to attach the buckle. Furthermore, the Pressure on each limb segment through each cuff very painful, if the joint is bent or is stretched. After all leaves the ratchet system no immediate release the pressure used to increase the range of motion to force, too.
A another set of devices is manufactured by Dynasplint Inc. These devices are similar to the Joint Active System in that as it is a cuff for every limb segment There is also a special hinge that is designed to be one Increase the range of motion to promote. In the Dynasplint system contains The hinge has a special set of springs that when stretched a small force to bend or stretch on the cuffs exercise. The same objections as with the Joint Active System are also at the Dynasplint. The cuffs are uncomfortable, the Device is difficult to apply and there is no immediate release of the Pressure. In this system, the device must be worn for hours be in order to be effective.
It There are other devices that use inflatable bellows around a joint. They tend to the bellows to use a prop to offer around the joint. Such inflatable bellows will be attached around the joint or in the immediate vicinity of the joint.
Such conventional orthoses can as a prop be designed around a joint. In general, one connects Orthosis a limb segment with another over a joint away. The connection is either rigid or a hinge joint. In this way, orthoses act as a support of the joint as a means, to protect it. General reference is made to U.S. Patent Nos. 5,542,911, 5,378,224, 5,348,530 and 5,730,710.
A particular device that uses inflatable bellows to provide support over the joint is also shown in U.S. Patent No. 5,514,081 to Mann, which uses the inflatable bladder to enclose the elbow joint to provide support for an elbow Contractile flexion (the elbow joint can not be fully stretched). This device places the inflatable bladder over the joint so that when inflated it keeps the elbow in full extension. This device does not seem to contain rigid structural elements. Furthermore, it does not isolate the bladder from the joint at a distance from it, due to the biomechanical forces across the joint away to maximize elbow extension.
The US Pat. No. 3,581,740 has an air bladder that extends over several Fingers of a hand as well as over the wrist extends. When inflating, the hand becomes one moved normally stretched, spread state.
Some Patents according to state The technique uses inflatable elements around a range of motion to achieve in the hand. The US patent No. 4,671,258 uses a cyclic therapeutic joint trainer, by putting one over the joint extending bag is inflated and a spring steel insert The joint bends automatically when the bag is not inflated is. U.S. Patent No. 4,807,606 uses bellows around the joints in the hand around to train the joints. That means the bellows will be successively inflated and deflated with a pumping device, to bend and stretch the joints of the hand.
The U.S. Patent No. 5,056,504 uses the inflatable bladder against a rigid structure to push the fingers in the extension. This However, patent 5,056,504 includes a bellows that extends over the Joint extends, which not only may be painful for the user if the joint has undergone surgery, but also biomechanically not optimally efficient in distribution the forces is, as later will be described with reference to the applicant's patent.
Similar Devices are also disclosed in DE-U-9217225, US-A-5020515 and US-A-5033457.
Therefore it is obvious that there is a need in this field, one improved orthopedic Provide device that can be used to limbs or Straightening joints ("orthoun" means straightening).
Therefore It is obvious that there is a need in this field at one orthopedic Device and the use of the same gives which an optimal Biomechanical power distribution offers.
The The present invention overcomes deficiencies in the prior art Providing an improved orthopedic device.
According to the invention, there is provided an apparatus for applying movement to a limb of a user by movement of a joint, the apparatus comprising:
an inflatable element including an inflatable bladder, said inflatable element being spaced from said hinge during use;
a flexible band attached to said inflatable element; and
a device operatively associated with said inflatable bladder for inflating and deflating said inflatable element such that when said inflatable element is inflated, said flexible strap is placed under increasing tension to cause said inflatable element to inflate said joint is moved.
As described in more detail, includes an embodiment of the present invention Invention a structural main part, an inflatable element, a flexible band designed to fit between the main structural part and the inflatable element, and an inflator to inflate the inflatable element so that it increases in size, allowing the inflatable element when the inflatable element is inflated will, who has an urge to press against the extremity, so that the extremity in the direction of the said main body pushed and the joint is moved. Other embodiments of the invention are described, as well as a method, an orthopedic device to the extremity of a user.
It Another object of the present invention is an orthopedic device to provide the optimal biomechanical application and Distribution of the power offers.
It Another object of the present invention is an orthopedic device to provide that is easy to use.
It Another object of the present invention is an orthopedic device to provide that is easy to manufacture.
It Another object of the present invention is an orthopedic device provide that does not exert direct pressure on the joint itself.
It Another object of the present invention is an orthopedic device to provide that cost-effectively manufacture and use is.
It Another object of the present invention is an orthopedic device to provide that is efficient in their use of forces.
It is another object of the present invention to provide an orthopedic device len, which has an increased reliability.
It Another object of the present invention is an orthopedic device provide that is easy to put on and remove.
It Another object of the present invention is an orthopedic device to provide an immediate release of the pressure.
It Another object of the present invention is an orthopedic device to provide that allows a high force application.
It Another object of the present invention is an orthopedic device to provide an efficient force application allows.
It Another object of the present invention is an orthopedic device provide that exerts pleasant pressure.
It Another object of the present invention is an orthopedic device which is lightweight and easy to carry.
It Another object of the present invention is an orthopedic device to provide that used in conjunction with a crutch as a structural support can be.
Other Objects, characteristics and advantages of the present invention will become in reading the following detailed description of the preferred embodiment of the invention in conjunction with the drawing and the appended claims.
1 is the front view of a knee extension assembly 10 and an ankle support member 30 , used in conjunction with a conventional crutch 12 ,
2 is a side view of the elements 10 . 12 , used by a vehicle 15 ,
3 is a plan view transverse to the longitudinal axis of the crutch and the leg of the carrier of 2 , where the section through the inflatable bellows 22 and the bag containing it 24 was laid.
4 is another cross section of the arrangement of 1 but this time the cut became just above the ankle support 30 made.
5 shows a front view of another embodiment 200 of the invention, which is an arm orthosis.
6 is a side view of a third embodiment 300 of the present invention, which is an orthopedic device for extending the forearm relative to the upper arm from position 1 to position 2.
7 FIG. 4 is an illustrative exploded view of the device. FIG 300 from 6 , where the from the tapes 325 and the inflatable element 324 (which includes an air bladder in a fabric bag) existing part of the main body of the device 300 is detached.
8th is a front view of a fourth embodiment of the present invention, which is an apparatus 400 is that in connection with a user 415 is used to allow an external rotation of the shoulder.
9 is a top view of some parts of 8th ,
10 FIG. 10 is a plan view of a fifth embodiment of the present invention, which is a device. FIG 500 is that allows external rotation of the shoulder in another area.
11 is a front view of a sixth embodiment of the present invention, which is a device 600 is that allows the spread of the shoulder.
12 is a side view of a seventh embodiment of the present invention, which is a device 700 to flex the elbow.
13 is a side view of an eighth embodiment of the present invention, which is a device 800 which alternately and continuously promotes dorsiflexion and plantar flexion.
14 is a side view of a ninth embodiment of the present invention, which is a device 900 which allows dorsiflexion of the ankle by holding the foot and using the inflatable element to pull the ankle into dorsiflexion. This apparatus 900 includes a mainly flat base 901 , an inflatable element 920 , and a corresponding "floating" Jochbauteil 930 holding the foot as described in more detail below.
15 and 16 show a back and a vertical plan view of parts of the device according to 14 ,
17 is a side view of a tenth embodiment of the present invention, which is a device 1000 which allows dorsiflexion of the ankle by holding the foot and using the inflatable element to pull the ankle into dorsiflexion. This device 1000 has a mainly rigid component 1001 on top of a "slipper" component 1002 with an open back resembling a front vertical flap 1003 extending from the top of the "slipper" component along the tibia of the wearer 1015 extends upwards.
18 is a side view of an eleventh embodiment of the present invention, which is another orthosis 1100 which can be used to cause dorsiflexion of the ankle. This device 1100 has a base 1101 , a cuff attached to the base 1102 , an optionally positionable foot plate 1103 , an inflatable element 1120 and connecting bands 1125 on.
19 is an illustrative view 1200 a pair of body parts (such as a thigh and lower leg, or a forearm and a forearm), and how such parts can be held by the above-described "three-point" force arrangement Such an arrangement according to the invention provides optimally efficient biomechanical force application, By positioning the inflatable component as far away as possible from the fulcrum, let the fulcrum be the hinge (as in 6 shown), or the contact point of the body part and the main structural part is (see 2 ).
20 and 21 are each a pictorial view and a front view of a forearm supination and Unterarmpronationsvorrichtung 1300 that a base 1301 , left and right base bars 1302L respectively 1302R , an inflatable component 1320 , Straps 1325 , a retaining sleeve 1327 , and a glove arrangement 1350 with a thumb fixator 1351 having.
It Reference is now made to the figures in which by the similar views similar reference numerals similar Designate elements.
The Application will be with reference to various embodiments explained be the common inventive concepts or alternatively each may have individual inventive concepts.
First embodiment, 1 - 4
1 is a front view of a knee extension assembly 10 and an ankle support member 30 which are used in conjunction with a conventional crutch. 2 is a side view of the elements 10 . 12 . 30 in use by the wearer 15 , 3 For example, the plan view is transverse to the longitudinal axis of the crutch and the leg of the wearer 2 made cross section, wherein the section was made by the inflatable air bellows. 4 is another cross section of the arrangement according to 1 However, this time the cut was directly over the ankle support component 30 performed.
In the 1 The crutch shown is a crutch of ordinary construction, which is a crucial aspect of the present invention in that conventional crutches are readily available on the market. In particular, the present invention adds the use of a knee extension assembly 10 and an ankle support member 30 added.
The knee extension arrangement 10 has an inflatable component 20 , a variety of tapes 25 , and a conventional hand-operated pump 24 with a drain valve 29 on. The inflatable component 20 Can an inflatable bellows 22 who is in a cloth bag 24 is included. The inflatable bellows 24 can, as in other embodiments described herein, by the conventional hand-operated pump 24 inflated and through the drain valve 29 be emptied. The variety of tapes 25 may position the leg between the inflatable member and the crutch while embracing and securing the inflatable member relative to the crutch. The in the 1 - 2 shown arrangement has three bands. However, other bellows or ligament arrangements known in the art may also be used.
The ankle support element 30 has a storage part 32 on and a back part 34 is towards the lower end of the crutch using conventional fastener like 36 attached, but with any suitable attachment of the ankle support member 30 suitable for the crutch. The storage part 32 determines a generally upward (as in 4 storage location designed to accommodate a certain length of the wearer's leg.
It is understood that when inflating the inflatable component 20 A "three-point" power combination is provided that allows for effective extension of the knee by using an optimal, highly efficient, but comfortable biomechanical application of a load allowed. This "three-point" contact arrangement is in 2 illustrated by the force arrows "F1", "F2" and "F3." The force arrow "F1" illustrates the force exerted by the foot support element 30 works upwards on the leg. The force arrow "F2" illustrates the force generated by the inflatable component 20 the knee extension arrangement 10 down on the top of the thigh. It is understood that this force is due to tension in the bands 25 is transferred to the crutch. The force arrow "F3" illustrates the force acting on the leg from the top of the crutch (this may be the padded underarm pad) .This "three-point" method will be described elsewhere in this application with reference to FIG 19 further described.
It is understood that, though 2 the use of the air bladder on the top of the thigh describes that other locations for attaching the air bladder may also be considered; the inflatable bellows can be placed on the knee or shin. However, the present invention demonstrates the possibility of adjusting the placement of the knee extension assembly 10 along the crutch, because from time to time (for example, at the beginning of the treatment) the knee joint may be sensitive to touch and therefore the knee extension assembly may be adjusted to be above the thigh. At the same time, the knee is a desirable site for the application of the load, so that in the course of the treatment, when the knee is no longer so sensitive, the knee extension assembly can be adjusted to be on or at least in close proximity to the knee.
In one embodiment of the present invention, the ankle support member remains 30 at least temporarily attached to the crutch during normal use. The patient can use the crutch in the conventional manner, with the arrangement 10 if desired, carried on the crutch. If an orthopedic session is desired, the patient will typically sit on a chair with the upper (forearm) portion positioned under the corresponding buttock side. The longitudinally extending remainder of the crutch is positioned relatively below the longitudinal extent of the patient's leg, with the ankle support element 30 is positioned under the ankle of the patient. The device 10 will then be like in 2 fixed in position and the adjustable straps are set to a comfortable tension. The bellows is then filled as desired, with the pressure release is available as desired.
The bands are set to have a certain initial Provide amount of pressure, with the final amount of pressure through the Air is provided. It should also be understood that the adjustability of the bands allows different knee positions; it should also be understood that the leg is during the initial Healing sections on the knee may not bend well will be while the leg desirably at the end of the healing period at the knee can be bent substantially straight.
It It should be understood that part of the present invention the use of tapes with Velcro fastening (for example VELCRO) to enable includes a "cocking" function; Function allows a combination of great movements of the body part. It can However, other known from the art clamping arrangements such Friction or other buckles are used without the area to leave this present invention. This applies to the whole description.
As As stated above, the knee extensor according to the present invention Invention for Use in conjunction with a conventional crutch, as in this area known and generally available is provided. It should be understood that such a crutch design also a special crutch, for use with the orthosis according to the present invention was designed specifically, or simply a straight board or each other oblong structural main part can be.
Second Embodiment - 5
5 illustrates the use of a rigid plastic or other suitable material to provide an elongate structural body 210 which can be attached to the underside of the arm with its lower end extending beyond the elbow, terminating in a "free end." Near this "free end" are three bands (as shown) 225 attached, which is an inflatable element 220 (an air bladder in a fabric bag) connect to the free end of the elongate member. This component 220 is designed to abut a wearer's forearm so that inflating the air bag contained therein is intended to provide pressure to cause movement as represented by "M." This is commonly referred to as stretching and is desired in some types of orthotics ,
It should be understood that this arrangement is after 5 having the above-described "three-point" force combination 5 however, it is similar to the arrangement 6 and 7 , and the "Three point" force arrangement is regarding 6 be described in more detail.
Third embodiment 6 and 7
6 and 7 show a third embodiment of the present invention, which is an apparatus 300 is designed to be on the arm of a wearer 315 to be attached. 6 should be understood as a simplified version.
The apparatus 300 has a mainly rigid structural framework 301 on, one part supporting the forearm 302 and a part carrying the upper arm 304 includes, by one or more fasteners 306 are connected. Also included are ribbons 325 and an inflatable component 320 which may include an inflatable bladder located in a cloth bag. As with other arrangements described herein, the bands are sewn to the fabric bag in a conventional manner. As elsewhere in this specification, VELCRO type fasteners may be provided for removability and adjustability of the bands.
If desired, optional side flanges (see 7 ) extending upward on each side of the body to receive the forearm as desired.
7 shows the embodiment in slightly greater accuracy than 6 , In 7 are the part that carries the forearm 302 , the part carrying the upper arm 304 and two fasteners 306 shown; it is understood that these in the version shown below 7 all of which are part of a substantially one-piece frame, which in the preferred embodiment is plastic. It should be understood that the part supporting the upper arm is shaped to slightly conform to the surface of the upper arm for convenience, when resting on top of it.
The frame 301 The apparatus may be made of plastic, wood, metal, a metal / fabric sling, or other material (s) suitable for providing the required support. It should be understood that the elements 302 and 305 of the frame 301 could be rigidly interconnected by being part of an overall unitary unit, or alternatively could be part of a multi-part device providing relative adjustment of the parts 302 . 304 as desired.
As in 6 4, it can be seen that the "three-point" force arrangement is reused in this embodiment, as shown by the force arrows "F1", "F2" and "F3". Force arrow "F3" shows the downward force through the inflatable element Force arrow "F2" shows the upward force through the forearm bearing part 302 , Force arrow "F1" shows the downward force through the part supporting the upper arm 304 ,
It should be understood that the elbow may not be able to absorb much pressure during the initial stages of healing, and for this reason, the elbow may be from the forearm-bearing portion 302 be spaced. However, at the end of the healing period, the elbow may rest on the forearm-bearing portion 302 be placed for optimal biomechanical application of the force.
Fourth embodiment - 8th and 9
8th and 9 show an apparatus 400 which need not contain any substantially rigid elements (although one may be used against the abdomen) but the use of an inflatable element 425 and a pair of ribbons 425U . 425L (upper and lower), which are designed together to provide an external rotation of the shoulder. The upper band 425U can be passed around the top of the hull and the arm of a user, leaving the opposite arm free. The lower band 425L Can be attached like a conventional belt around the lower part of the hull. Between the upper and lower band is an inflatable element 424 (A bellows in a bag) attached, the upper end of which is attached to the upper band, and whose lower end is attached to the lower band, wherein the contained bellows for inflation and deflation, as already mentioned above, is designed.
To apply the apparatus, the forearm is placed adjacent the air bladder, and the upper band 425U is held in a suitably tight state to hold the appropriate upper arm on the side of the wearer for optimum biomechanical effect. The air bladder is then inflated, causing external rotation of the shoulder. As will be appreciated, if desired, the air bladder may be deflated as needed to remove the device or to relieve pain.
It It should be understood that other arrangements for holding the Arms on the side of the user may also be considered, as well as but not limited on, a cuff (not shown) that takes up the arm, it him but allows to rotate while he to the body is bound.
Fifth embodiment - 10
As in 10 shown, the "two-band" device can after 7 be supplemented by a foam block or wedge to allow a range of movement of the external rotation, which differs from the range of motion of the in the 8th and 9 provided apparatus shown differs.
In this arrangement, the forearm is generally forward and along the conventional line of sight of the user / patient 515 directed, and the inflatable element 524 located between the element of the element and the forearm. It should also be noted that the foam block 550 a separate air bladder could be inflated to the desired size and temporarily closed.
An inward rotation could continue through the use of additional bands 525A and an additional inflatable element 524A (dashed lines) are provided to allow rotation in the direction of the body.
One of the ends of these bands 524A would be attached to the air bladder and its other ends would be relatively secured to the patient's body, preferably approximately at the corresponding shoulder.
Therefore could as required an inward and Foreign Rotation "IR" and "ER" by use a pair of air bellows are provided.
It It should be understood that the ones described above, the two across from attached bellows-containing arrangements are used can, to "CPM", also called "continuous passive Exercise treatment ("continous passive motion ") known to provide.
Sixth Embodiment - 11
11 FIG. 12 illustrates a sixth embodiment not in accordance with the present invention including a pair of horizontally oriented bands. FIG 625U . 625L has, an upper band 625U , which is located at the upper part of the trunk and near the area of the armpit, and being the lower band 625L around the lower torso, just above the belt region is stretched. Between the two bands is a foam block attached, generally under the axillary region of a particular arm of the wearer 615 fits. An inflatable element 624 is mounted between the bottom of the upper arm and the foam block, allowing inflation of the air bladder by the wearer 615 by means of the air pump 628 causes a spreading of the shoulder. Although not shown, it should be understood that a second inflatable member (not shown) with associated straps may be used to effect movement in the opposite direction. A third band leading from shoulder to crotch 626 which extends to below the groin area could also be used to provide support to pull the scapula down. This limits movement to the glenohumeral joint (also known as the arm-scapular joint), as opposed to the acromioclavicular joint.
Seventh Embodiment - 12
This embodiment of the invention comprises a device 700 on, which is a substantially rigid component 701 , an inflatable element 724 and ribbons 725 that the component 701 with the inflatable element 724 connect, used. An additional handband 740 is provided to prevent movement of the inflatable element from its shown position to a position closer to the elbow. Another set of conventional tapes like 750 Can be used to make the part 701 to attach relative to the upper arm.
As you can understand, the bands are 725 by inflating the inflatable element 724 put under tension and a flexion of the elbow is provided.
Eighth embodiment - 13
13 (not in accordance with the present invention) provides the use of an orthopedic device 800 which involves the use of alternate airflow to respective air bladders to achieve a range of motion in, for example, an ankle. This is referred to as the application of "continuous passive motion".
The device has a hard shell boot 810 to be inserted into the lower leg, ankle and foot of a patient. Two air bellows 824U . 824L , (although more bellows could be used) are included inside the boot. One air bladder is located above the foot near the toe region, while the other air bladder is under the foot near the toe region. The "upper" bellows 824U is from the "lower" bellows 824L separately, and the upper and lower bladders can be individually inflated and deflated to create an up and down movement of the foot, which is translated into an up and down motion of the ankle.
It is intended at least two types of To allow diffraction. These two types of flexion are plantarflexion, and the other type is dorsiflexion. In an alternative embodiment, two hinged flaps are also used within the boot cavity, one above the foot and below the upper bladder, and the other below the foot and above the lower bladder. These two flaps are connected to the two bellows such that inflation of the lower bladder forces the lower flap upward causing upward bowing (dorsiflexion) and an increased amount of air in the upper bladder causes downward movement of the upper flap Kind of movement generated.
The two bellows are connected by two corresponding air ducts, each with the other end to a common air source connected. In one arrangement, the lines become individual filled and deflates, causing a double movement.
Ninth Embodiment - 14 - 16
This apparatus 900 has a substantially flat base 901 , an inflatable element 920 , and a "floating" yoke component 930 on.
The essentially flat base 901 has a pair of up-facing holes 902 on (considering 14 ), which is a corresponding pair of down-facing feet 931 take in sliding in, which are directed downwards and to the left obliquely from the inclined yoke plate 930 extend.
bands 925 are between the top of the inclined yoke plate 930 and the inflatable element 920 appropriate. A vertical anchor rope 935 is between the upper end of the inclined yoke plate 930 and the base 901 appropriate.
The inclined yoke plate 930 assigns 950 a tongue-like cushion to provide upholstery for the top of the foot as described below. The tongue-like pillow at 950 is attached to the top of the yoke and can act as a kind of "trampoline" that presses with a dampening effect on the back of the foot.
An air pump 990 with a quick release valve 991 It also includes the air bladder in the fabric bag of the inflatable element 920 inflate and deflate.
Such a yoke concept takes feet of different Size up, because a lot of feet in the be pushed through the inclined yoke plate certain recess can.
After the bands have been properly adjusted to eliminate slack, the inflator is used to inflate the inflatable element 920 inflate the ligaments and put a force on the wearer's calf. This forces the ankle into the desired dorsiflexion.
The down-facing feet 931 stand in the holes 902 instead, they are instead able to slide up or down in it or to "swim." Since the bands are under tension, it is understood that by the inclined yoke plate 930 a force on the top of the foot at the site of the tongue-like cushion 950 is exercised. This causes the foot to be held in place due to the pressure of the yoke on the foot, rather than allowing the heel to move from its position on the base 901 withdraw. A heel cup or stopper may, as in 16 shown by the dashed line may also be used.
The spherically shaped component 950 is designed so that it is possible, the base plate 901 on a flat, supporting surface such as a ground surface so that the spherical shaped component 950 provides a rolling pivot or tipping point around which the base plate 901 can swing. This conveniently allows the lower leg to remain in a substantially constant orientation while the forces in the apparatus force the ankle into the desired dorsiflexion. This can be quite comfortable as it allows the user / patient to sit comfortably while undergoing the procedure.
Tenth embodiment - 17
This device 1000 has a mainly rigid component 1001 on top of a "slipper" component 1002 with an open back resembling a front vertical flap 1003 extending from the top of the "slipper" component along the tibia of the wearer 1015 extends upwards. The forefoot of the wearer may enter the cavity of the "slipper" component 1002 be placed, and an inflatable element 1020 Can be placed behind the calf. This inflatable element is relative to the upper, free end of the front vertical flap 1003 with one or more bands 1025 attached.
After the first setting of the bands 1025 For example, the inflatable element may be inflated with the aid of the air pump, causing the ligaments to be tensioned and the calf pulled forward. This causes the desired dorsiflexion of the ankle.
An optional band at 1035 Can be used to hold the foot in place.
The spherically shaped component 1009 is designed so that it is possible, the substantially rigid component 1001 on a flat, supporting surface such as a ground surface so that the spherical shaped component 1009 provides a rolling pivot or tipping point about which the substantially rigid component 1001 can swing. This conveniently allows the lower leg to remain in a substantially constant orientation while the forces in the apparatus force the ankle into the desired dorsiflexion. As mentioned above, this can be quite comfortable as it allows the user / patient to sit comfortably while undergoing the procedure.
It should be understood that this arrangement 1000 instead of or in combination with the arrangement 14 can be used if the yoke of 14 caused too high pressure.
Eleventh Embodiment 18
18 shows another orthosis 1100 , which can be used to provide dorsiflexion of the ankle. This device 1100 has a base 1101 , a cuff attached to the base 1102 , an optionally positionable foot plate 1103 , an inflatable element 1120 and connecting bands 1125 on.
The optionally positionable base plate 1103 is at the base 1101 mounted with a pivotable connection known in the art, allowing for initial adjustment. However, it should be understood that the pivotal connection when using the orthosis 1100 is fixed, leaving the foot plate 1103 relative to the base 1101 is fixed.
The cuff 1102 is attached to the base, and allows the lower leg of the wearer 1115 , as described below, to slip into it.
After the initial adjustment of the foot plate 1103 and the bands 1125 , becomes the inflatable element 1120 inflated, causing the straps to be put under tension. The inflatable element 1120 press down on the leg, on the front of the lower leg, with the knee angled at approximately 90 °. This causes the lower leg to move down while away from the cuff 1102 to be led. This forces the ankle in the dorsiflexion, as the foot of the wearer against the foot plate 1103 suppressed. The pressure can be reduced as desired.
19 is an illustrative view 1200 of a pair of exemplary limbs (such as upper and lower legs, or upper and lower arms), as well as how such limbs may be received by the "three point" force assembly described above Such an arrangement provides optimally efficient biomechanical application of By attaching the inflatable element as far away as possible from the fulcrum, this fulcrum is the hinge (as in 6 shown), or the contact point between the body part and the component (see 2 ).
Such a combination of the "three-point" force arrangement, the inflatable element, the straps and the main structural part is presented as a significant improvement over the prior art, because pressure is not over exercised the joint becomes, like with a simple "wrapping" or the well-known, mentioned solutions the case is.
20 and 21 are each a pictorial view and a front view of a forearm supination and Unterarmpronationsvorrichtung 1300 , This device has a base 1301 , left and right adjustable base bars 1302L respectively 1302R , an inflatable element 1320 , Ribbons 1325 , a retaining sleeve 1327 , and a glove arrangement 1350 with a thumb fixator 1351 on.
The base 1301 is designed so that it remains stationary and provides support for the other components.
The left and right adjustable base bar 1302L and 1302R are designed so that they can be attached to the base and are adjustable. During use, they are relative to the base 1301 rigidly fixed.
The bands 1325 are between one of the base bars and the rigid bar component 350 appropriate.
The rigid rod component 350 is at the glove arrangement 1350 attached. This attachment may be of temporary nature by means of VELCRO, snap connectors, or even a "clothes peg" arrangement 350 swiveling on the plate 1301 be attached.
The glove arrangement 1350 can be attached to the hand in various ways, but the invention contemplates the insertion of the hand into the glove assembly which is tightened as desired using various straps or straps. The glove assembly has a thumb fuser perpendicular to the longitudinal axis of the forearm 1351 on.
By selectively adjusting the bars and ligaments, supination and pronation of the forearm can be enabled while the glove is resting on the base 1301 rotates.
Even though above a glove arrangement is disclosed, it should be understood that the present invention also the use of the device without considering the glove arrangement. Such considerations close the use of other means of attachment of the rod on Arm with one in which the longitudinal axis of the rod is substantially parallel to the plane of the palm. Such an alternative arrangement has a band around the Hand, over the palm of your hand and around the back of the hand reaches around or a clamp attached to the hand can, or a "thumb-sock" that are used can to pick up the thumb relative to the rod. It should, however be understood that the thumb for optimal biomechanical Effect aligned generally along and parallel to the longitudinal extent of the rod should be.
Possibilities, modifications
It should also be understood that different fluids except atmospheric Air, such as water etc. can be used. Optionally, as well warm or cold fluids that have a certain therapeutic benefit could use become.
Various Types of ribbons known in the art may be used to form the outer boot on the limb of the carrier to hold in place.
It It should be understood that in another arrangement according to the present Invention for achieving an increased mechanical advantage a boot with an angled leg (and thus an exposed upper horizontal surface bidding) could be used. In such an arrangement would the boot one up and over have the knee top going strap, especially when deploying The flexion of the ankle joint of the type "dorsal" is advantageous.
It It should also be understood that the supply of air to the bellows according to the present Invention could be done by automatic means, which in a longer treatment period, such as using periodic inflation and deflation while wearing while the night, can be beneficial.
Farther can allow for manual inflation and deflation specific stretching of tissue by manual inflation and emptying one of the bellows allows become.
Finally is to understand that not necessarily two bellows in the course of a given orthopedic Session to be used; if only one type of movement is desired, around the body part To stretch against the muscle tension, only a bellows can be used become.
As stated above, a structural main part can be used around a structural prop for some the orthopedic discussed here Devices to offer. Such a structural device could be out Plastic, wood, metal, a metal / cloth sling or other or other material (s) suitable for providing the required support to offer. It should be noted that although the structural support need a certain rigidity it will not have to be completely rigid to provide the grip; a certain curvature or bending is possible and may be desired be.
Therefore It can be seen that the present invention is a variety of Devices provides the improvements over orthopedic Devices according to the state to provide the technology.
Even though this invention in specific detail with reference to the disclosed Embodiments described became understandable be that many changes and modifications of the scope of the invention as described in the appended claims, can be affected.
An orthopedic device for providing movement to a limb of a user by the movement of a joint, the device comprising an inflatable element (10). 20 ) with an inflatable bellows ( 22 ), wherein the inflatable element ( 20 ) is spaced from the joint in use; a flexible band ( 25 ) for the inflatable element ( 20 ); and a device ( 28 ) operating with the inflatable bellows ( 22 ) is connected to the inflatable element ( 20 ) inflate and deflate, characterized in that the strap is connected to the inflatable element such that when the inflatable element ( 20 ) is inflated, the flexible band ( 25 ) is placed under increasing tension, causing movement of the joint.
Apparatus according to claim 1, further comprising a quick-release device ( 29 ) for emptying the inflatable element ( 24 ).
Apparatus according to claim 1 or claim 2, further comprising a substantially rigid structural body (10). 12 ); the flexible band ( 25 ) the structural main part ( 12 ) and the inflatable element ( 20 ) such that a part of a limb between the main structural part ( 20 ) and the inflatable element ( 20 ) is insertable; wherein, in use, inflating the inflatable element ( 20 ) tends to press against the extremity so that the extremity is thus directed towards the main body ( 12 ) is forced that the joint is bent.
Apparatus according to claim 3, wherein the structural body ( 12 ) an elongate substantially rigid frame member ( 12 ) and wherein the flexible band ( 25 ) has a first and a second end, wherein the first end is adapted to be connected to the frame element ( 12 ) to be connected; and the second end is adapted to with the inflatable element ( 24 ).
Apparatus according to claim 3 or 4, further comprising a to the frame element ( 12 ) attached ankle support element ( 30 ), wherein, in use, a leg on one side by the inflatable element ( 24 ) and on the other side by the frame element ( 12 ) and the ankle support element ( 30 ) is captured.
Device according to claim 4 or 5, wherein the frame element ( 12 ) comprises a crutch.
Apparatus according to claim 3 for attachment to an arm of a user, the structural body being a substantially rigid structural frame member (10). 302 ) to contact the forearm at a first location on a first side of the arm near the elbow; and the device further comprises an upper arm contacting part ( 304 ) for contacting the upper arm on a second side of the arm, wherein the upper arm contacting part with respect to the frame part ( 302 ), the inflatable element ( 324 ) is adapted to contact the forearm on a second side of the arm so that the elbow joint tends to be stretched.
Device according to claim 7, wherein the upper arm contacting part ( 304 ) is substantially rigid.
Device according to claim 7, wherein the upper arm contacting part ( 304 ) consists of ribbons.
Device according to one of claims 7 to 9, wherein the rigid structural frame part ( 302 ) is designed to contact the elbow.
Apparatus according to claim 3, for providing movement of an ankle of a user, the structural body being a base plate member (10). 901 ) with an upwardly directed oblique recess ( 902 ) having; and a yoke plate ( 930 ) having a yoke adapted to fit over the top of a foot, the lower end of the yoke being adapted to slidably move within the recess; an anchoring tape ( 935 ) between the upper end of the yoke plate ( 930 ) and the base plate element ( 901 ), wherein the inflatable element ( 920 ) is arranged to be located behind the lower leg; and the flexible band ( 935 ) between the yoke plate ( 930 ) and the inflatable element ( 920 ) is arranged; such that upon inflation of the inflatable member, the anchoring band and the flexible band are tensioned and the ankle is flexed in a dorsiflexion with the yoke member pressing down on the foot at the same time to bring it into contact with the base member.
The orthopedic device according to claim 11, wherein the yoke plate ( 930 ) a tongue-like pad ( 950 ) within the yoke hole for contact with the upper foot part.
Device according to claim 11 or 12, wherein the base plate element ( 901 ) further comprises on its underside a spherical element to provide a pivot about which the base plate member can rotate.
Apparatus according to claim 3 for providing movement to an ankle of a user, the structural body being a slipper-like member (10). 1002 ) for receiving a front part of a foot which has a vertical flange part ( 1003 ) extending from the slipper-like part ( 1002 ) extends upward, wherein the inflatable element ( 1020 ) is arranged to be located behind the lower leg; and the flexible band between the inflatable element ( 20 ) and the vertical flange part ( 1003 ), so that, in use, the flexible band is put under tension, and the ankle of the Feet is bent in a Dorsalbeugung.
Apparatus according to claim 14, wherein the slipper-like part ( 1002 ) further has on its lower side a spherical element ( 1009 ) to provide a pivot about which the slipper-like member can rotate.
Apparatus according to claim 3 for providing movement on an ankle to a leg of a user, the structural body being a base frame member (10). 1001 ) with an attached foot receiving element ( 1003 ) to support the foot near the toes, and a clamp ( 1002 ) for picking up the leg; the inflatable element ( 1120 ) is adapted to be located at a forward point of the distal end of the femur, the knee being bent at least 90 °; and the flexible band ( 1125 ) between the inflatable element ( 1120 ) and the base frame element ( 1101 ) is arranged; such that, in use, the flexible band is tensioned with the inflatable element pressing down on the knee, the clamp comprising the leg, and the ankle flexed in dorsiflexion.
Apparatus according to claim 3 for use by a user with one hand, the main body being a base ( 1300 ) having a base part which has an elongated rod element ( 1350 ) having; and a device for such attachment of the rod element ( 1350 ) to the user's hand that the longitudinal axis of the rod element ( 1350 ) is substantially parallel to the palm plane and perpendicular to the longitudinal axis of the forearm; the inflatable element ( 1320 ) on the rod element ( 1350 ) is mounted opposite to the base; and the flexible band ( 1325 ) between the inflatable element ( 1320 ) and the base; such that upon inflation of the inflatable element, the flexible band is tensioned, causing forearm supination or pronation.
Apparatus according to claim 17, further comprising a glove ( 1340 ), the connection between the rod element ( 1350 ) and the user's hand.
Device according to claim 17 or claim 18, wherein the rod element ( 1350 ) at a location remote from the base relative to the base ( 1300 ) is rotatably mounted.
Apparatus according to claim 3, wherein the structural Main body continues to include a clamp.
Apparatus according to claim 3, wherein the structural Body is designed to allow free movement of a joint within one through the body part given framework.
Apparatus according to claim 3, wherein the inflatable Element is arranged such that its inflation no direct Making contact with a joint of a limb.
The device of claim 1 for providing movement to an elbow joint of a user having an upper arm and a forearm, the apparatus further comprising a frame member (10). 701 ), which is adapted to be attached to the upper arm, the inflatable element ( 724 ) is designed to be placed against the forearm, and the band ( 725 ) connects the inflatable element and the frame, this arrangement providing, in use, inflation of the inflatable element tensioning the strap such that the forearm is forced towards the upper arm.
Method according to claim 23, wherein the inflatable element ( 724 ) is designed for direct contact with the forearm.
A method according to claim 23 or 24, wherein the inflatable element ( 724 ) is designed for direct contact with an elbow.
Device according to one of claims 23 to 25, wherein the frame element ( 701 ) continue to use tapes ( 750 ) to attach the frame member to the upper arm.
Method of fitting an orthopedic Device to a limb a user, the method comprising the steps of: Provide an inflatable bellows on a limb at a distance of one Joint; Provide a flexible band that connects to the bellows is, and anchoring the tape such that when emptying the Belgs can be put under tension; Provide one Device for inflating and deflating the bellows; and arrange of the bellows and the belt such that when inflating the bellows the Band is put under increasing tension which ensures that the joint of the extremity is made to move.
The method of claim 27, further comprising the step positioning the bellows and the band such that the joint tends to open.
The method of claim 27 with the wide a step of positioning the bellows and the strap such that the hinge tends to close.
Method according to one of claims 27 to 29 with the other Step that sagging Part of the tape after its positioning is recorded.
Method according to one of claims 27 to 30 with the other Step of providing a substantially rigid structural Main part as anchoring for the band, and such placing of the structural main part against a body part of a User that it opposes an increasing voltage in the band.
DE1999632091 1998-08-10 1999-08-10 Orthesis and method for their use Expired - Lifetime DE69932091T2 (en)
US95952P 1998-08-10
US96104P 1998-08-10
US96105P 1998-08-10
DE69932091D1 DE69932091D1 (en) 2006-08-03
DE69932091T2 true DE69932091T2 (en) 2007-07-05
DE1999632091 Expired - Lifetime DE69932091T2 (en) 1998-08-10 1999-08-10 Orthesis and method for their use
US10012229B2 (en) 2013-12-19 2018-07-03 Other Lab Llc Diaphragm compressor system and method
JPH0211071Y2 (en) * 1986-09-22 1990-03-19
2003-11-19 US US10/720,023 patent/US7479121B2/en not_active Expired - Lifetime
EP1637116A1 (en) 2006-03-22 Walk assisting device
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