Method and apparatus for extremity rehabilitation

Abstract

A lower extremity mobilizer for use in rehabilitation is provided. A seat is slidably maintained upon a base, with a foot support brace being provided at an end of the base to receive the foot of a leg provided for arthrokinematic treatment. A cord and pulley system is provided between the seat and the end of the base. In use, a patient is seated with a foot received by the foot support brace. The patient provides arthrokinematic motion to his leg by pulling himself and the seat toward the end of the device having the foot support brace. The procedure is undertaken in a closed chain motion, with the foot constantly engaging the foot support brace, and is done so as a rate, timing and extent under the control of the patient.

Description

TECHNICAL FIELD

The invention herein resides in the art of therapeutic devices and, more particularly, to an orthosis machine and its method of use. Particularly, the invention relates to a method and apparatus for assisting in the rehabilitation of lower extremity joints following surgery such as knee and hip replacement, ankle surgery, and the like. Specifically, the invention provides a method and apparatus that seeks to mimic the natural knee, hip, and ankle flexion in non-weight bearing use.

BACKGROUND OF THE INVENTION

The joints of lower extremities are often in need of repair through surgical procedures. Quite common among these are hip and knee replacements, although surgery on the ankle is also quite common. Following such surgeries, there is necessarily a period of therapy and rehabilitation, where the repaired joint is mobilized or flexed during the healing process in order to ensure that the joint has recovered properly and provides the patient or individual with as close to a full range of mobility as possible.

In the past, patients would typically engage therapy sessions, during which a therapist would mobilize and manipulate the affected joint while the patient remained otherwise immobile. There is, of course, pain associated with such mobilization and manipulation and patients are often apprehensive of such treatment and urge against the mobilization efforts of the therapist during treatment. To a large extent, the treatment is out of the control of the patient, giving rise to the apprehension and repelling patient reaction.

Previous devices for lower extremity therapy through mobilization have typically functioned in an open chain manner, creating a sliding motion of the tibia around the femur. This is contrary to the natural flexion of the knee, and the same is generally true with the hip and ankle. Such machines and their use are counterproductive to effective therapy and rehabilitation.

DISCLOSURE OF INVENTION

In light of the foregoing, there is a need in the art for a rehabilitation device and its method of use for lower extremity mobilization that seeks to replicate natural knee, hip and ankle flexion during use.

There is further a need in the art for a rehabilitation device and method or use for lower extremity mobilization that is patient driven, eliminating the apprehension of the patient typically encountered during therapy, thereby maximizing the benefits to the patient.

Indeed, there is a need in the art, for a rehabilitation device and its method of use for lower extremity mobilization that mimics natural knee, hip and ankle flexion in non-weight bearing operation.

The present invention seeks to achieve the foregoing needs by recreating the natural lower extremity mechanics through a closed chain motion. Such a closed chain motion of the lower extremity is the transferring of the body around, for example, a fixed foot (similar to squatting) while in a seated position. The arthrokinematics (joint motion) of the knee, for example, is naturally a rolling motion and not a sliding motion. While the previous orthosis machines have functioned in an open chain position and create a sliding motion of the tibia around the femur, the instant invention, presented below, mimics the natural knee, hip and ankle flexion of the body because the only fixed point in implementation of the present invention is the foot, allowing the femur and tibia to roll on each other, mimicking, for example, natural knee flexion and reducing the friction of the unnatural sliding mechanism of the knee.

Another unique aspect of the invention is that it contemplates patient control. As will be seen below, the patient provides the force by selectively pulling on a drive mechanism, eliminating apprehension from the user, since the user or patient controls the amount of force being applied. Patient apprehension about flexing a knee or other repaired joint following surgery has long been a limiting factor in rehabilitation of post-surgical patients. Once the user has direct control or the amount of force flexing the knee, apprehensions are significantly reduced and increased mobility is achieved.

The foregoing and other benefits of the invention are achieved by a lower extremity mobilizer, comprising: a base maintained in an elevated position by support members; a seat slidably maintained upon said base; a foot support brace maintained at first end of said base; and a patient regulated mobilization system interposed between said seat and said first end of said base and accommodating movement of said seat upon said base between a second end and said first end of said base.

Other benefits of the invention are achieved by a method of rehabilitating lower extremities of a patient's body, comprising: seating a patient upon a seat; engaging a first foot of the patient with a first foot support; and allowing the patient to draw the seat from a starting position toward the first foot support at a rate and to a degree determined by the patient, while the patient is seated and the patient's first foot is engaged with the first foot support, recreating natural lower extremity mechanics through closed chain motion.

DESCRIPTION OF DRAWINGS

For a complete understanding of the various benefits, structure and methods of the invention, reference should be made to the following detailed description and accompanying drawings wherein:

FIG. 1 is a perspective view of the rehabilitation device of the invention taken from the seat end of the device;

FIG. 2 is a perspective view of the rehabilitation device of the invention taken from the foot end of the device;

FIG. 3 is an illustrative perspective view of the rehabilitation device of the invention showing the underside of the seat;

FIG. 4 is a side elevational view of the rehabilitation device of the invention showing its use in a starting position;

FIG. 5 is a side elevational view of the rehabilitation device of the invention showing its use in an intermediate position; and

FIG. 6 is a side elevational view of the rehabilitation device of the invention showing the same at an end of a flexure cycle.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENT

Referring now to the drawings and more particularly FIGS. 1 and 2, it can be seen that a rehabilitation device in the form of a lower extremity mobilizer made in accordance with the invention is designated generally by the numeral 10. The rehabilitation device 10 preferably includes a base 12 and support members such as legs 14 at opposite ends or corners to maintain the seat 12 elevated above a floor by a distance on the order of 16″-20″. Side rails 16 are fixed to and extend along opposite edges of the base 12 for receiving and confining a seat 18 therebetween. The seat 18 is preferably provided with a seat back 20, extending at a slight angle rearwardly for patient comfort. An end piece or bracket 22 is secured to an end of the base 12. A pair of foot support braces 24 are appropriately interconnected between the base 12 and the end bracket 22, as shown. The foot support braces 24 are typically angled with respect to the base 12 by an angle on the order of 35°-55°, and preferably 45°. The invention contemplates that the foot support braces 24 may be adjustable, allowing the angle to be selected by the patient or therapist. Any of various methods of adjustability can be employed, such as the use of retractable pins and mating holes between the foot support braces 24, base 12 and end bracket 21, respectively.

Pulley wheels 26, 28 are secured to the end bracket 22, as shown. In similar fashion, a pulley wheel 30 is secured to a front edge of the seat 18, as shown. A cord or rope 32 is strung through the pulley wheels 26, 28, 30, with a first end of the cord or rope 32 being secured to an eyelet 34 on the front edge of the seat 18. According to an embodiment of the invention, the cord or rope 32 passes from the eyelet 34, through the pulley wheel 26, thence through the pulley wheel 30, and finally through the pulley wheel 28, with the opposite end of the cord or rope 32 optionally having a handle 36 or other type of hand securing device present thereon. It will be appreciated that the number of pulley wheels and the mechanical advantage desired may vary.

With reference now to FIG. 3, it can be appreciated that the seat 18 has a plate 38 secured to the bottom thereof. A plurality of vertically oriented casters 40 are secured to the bottom of the seat 18 along the side of the plate 38, as shown. Similarly, a plurality of horizontally oriented casters 42 are secured to the plate 38 along the edge thereof. Desirably, the casters 40, 42 alternate with respect of each other. When the seat 18 is placed upon the base 12, it will be appreciated that the vertically oriented casters 40 are adapted to roll upon the top of the base 12, while the horizontally oriented casters 42 are provided to engage the sides of the rails 16. It will be appreciated, however, that other means such as rails, ways, slides and the like may be employed.

Finally, a stop bar 44 extends across a back end of the base 12 between the side rails 16, to prevent the seat 18 from leaving the base 12 rearwardly. The plate 38 and casters 40, 42, in conjunction with the side rails 16 and stop bar 44 confine the operation of the seat within the perimeters so defined.

With an understanding of the structure of the invention, reference should now be had to FIGS. 4-6, where an appreciation of its utilization may be attained. In a starting position, a patient 50 is seated upon the seat 18 in its rearmost position. The patient's foot 52 is received upon the associated foot support brace 24 with the leg extended with a slight bend, as shown. The joints of the knee 54, ankle 56 and hip 58 are positioned as shown, and it will be appreciated that the foot 52 is maintained upon and against the foot support brace 24 throughout operation such that the therapy is undertaken in a closed chain mode, with the foot always in a support position.

In use, the other leg of the patient may either be placed upon the associated foot support brace 24, or may actually engage the floor.

The patient 50 begins to pull himself forwardly, providing an arthrokinematic motion to the joints of the knee 54 ankle 56 and hip 58 in a closed chain mode. The patient controls the rate at which the movement from FIG. 4 to FIG. 5 is undertaken, and whether it is taken in a single motion or progressively in increments. With the patient being under control of the function of the unit, his/her apprehension is substantially eliminated and the associated pain is reduced.

At FIG. 6, the patient 50 has drawn himself by the cord 32 to the furthermost position in utilization of the device, applying further arthrokinematic motion to the joints of concern. Again, the patient 50 has done this at a rate and over a period of time and using the increments necessary to ensure patient comfort, both mentally and physically.

Upon reaching the position of FIG. 6, the patient may then use his other leg to return to the starting position of FIG. 1. Again, that leg may either push against the floor, or with its associated foot support brace 24. The process may then begin anew, for desired number of repetitions.

Thus it can be seen that the various benefits of the invention have been achieved by the structure and method presented and described above. While in accordance with the patent statutes only the best mode and preferred embodiment of the invention has been presented and described in detail, the invention is not limited thereto or thereby. Accordingly, for an appreciation of the true scope and breadth of the invention, reference should be made to the following claims.

Claims

1. A method of rehabilitating lower extremities of a patient's body, comprising: seating a patient upon an unbiased seat that is freely slidable in a substantially horizontal direction on an elevated base;engaging a first foot of the patient with a first stationary foot support; andallowing the patient to draw the seat in unbiased movement from a starting position toward the first stationary foot support at a rate and to a degree determined by the patient, while the patient is seated and the patient's first foot is continuously engaged with the first stationary foot support, recreating natural lower extremity mechanics through closed chain motion, and wherein the movement of the seat being drawn from said starting position is limited to a linear path in said substantially horizontal direction toward said first stationary foot support that passively moves a lower extremity of the patient to effect recovery of a range of motion of a joint of the lower extremity.

2. The method of rehabilitating lower extremities of a patient's body according to claim 1, further comprising the step of returning the seat toward the starting position.

3. The method of rehabilitating lower extremities of a patient's body according to claim 2, further comprising repeating for a desired number of sequences the foregoing steps for drawing the seat from the starting position toward the first stationary foot support and returning the seat toward the starting position.

4. The method of rehabilitating lower extremities of a patient's body according to claim 3, wherein said step of returning the seat is undertaken by the patient through the use of a second foot of the patient exerting a return force.

5. The method of rehabilitating lower extremities of a patient's body according to claim 4, wherein said return force is exerted against one of a floor and a second stationary foot support.