RU2811271C1 - Passive orthopaedic aid in form of orthosis attached to hoof - Google Patents

Abstract

FIELD: veterinary medicine.

SUBSTANCE: passive orthopaedic aid in the form of an orthosis fixed to the hoof consists of a horseshoe fixed to the hoof and a protector installed on the horseshoe using screws, made with the possibility of installing spacer bushings with support washers between the horseshoe and the protector. The horseshoe is made of elastomeric material. The horseshoe contains embedded elements to absorb the load from threaded bushings, which have notches on the outer cylindrical part. There are grooves on the surface of the horseshoe for contact with the hoof. There are petals on the outer side of the branches of the horseshoe in the heel part.

EFFECT: physiologically natural support for the limb during movement, reduced amplitude of rotational movements when walking, restored correct biomechanics of movement, creating conditions for the most accelerated formation of a false joint, improved functions of the musculoskeletal system, eliminated pelvic distortions and spinal deformities.

5 cl, 4 dwg

Description

The invention relates to veterinary medicine, in particular to traumatology and orthopedics, restorative medicine and rehabilitation, orthotics and orthotic construction, and is intended to perform the function of supporting an injured limb in order to provide it with a position in space as close as possible to the physiologically natural one.

Description of the technical result when implementing the invention

Field of technology, its level

As a rule, due to the physiological characteristics of the functioning of the musculoskeletal system in horses and ponies, prosthetics of affected limbs (for example, for fractures of the fetlock, metacarpal, metatarsal, radial or tibia bones, for various dislocations, etc.) are not performed. In most cases, the prognosis for treatment is unfavorable and the animal is subject to euthanasia.

However, in some cases, modern advances in the field of materials science make it possible not only to save the life of an animal, but also to provide it with a completely comfortable existence. This turns out to be especially important when breeding animals are injured, the euthanasia of which is accompanied by significant economic losses and impoverishes the gene pool of the breeding stock of domestic stud farms.

One of the cases where the use of an orthosis makes it possible to achieve success in working with an injured animal in the postoperative period is dislocation of the hip joint. Hip dislocation in horses is rare and the prognosis is generally guarded or poor. The disease is characterized by displacement of the femoral head from the glenoid cavity, as well as rupture of the joint ligaments and damage to its capsule. Sometimes there may be fractures of bone structures (acetabulum, head of the femur, etc.), as well as ruptures of ligaments and surrounding muscles with massive hemorrhage. According to existing statistics, foals and ponies are most often susceptible to injury.

The main cause of dislocation of the hip joint is excessive extension of the pelvic limb, which can occur when the animal slips, falls, makes sharp turns and moves on viscous soil (deep snow, marshy terrain).

The main treatment for hip dislocation in horses is to reduce the head of the femur into the socket.

In cases where reduction of the dislocation is not possible, surgical intervention becomes a last resort. The simplest surgical technique involves resection of the femoral head followed by suturing of the joint capsule. In cases where this is possible, between the pelvic bones and the femur, to prevent them from rubbing against each other, a reposition of the deep gluteal muscle or a biceps femoris flap is additionally performed. Subsequently, the animal develops a false joint, which allows the limb to provide sufficient mobility and support function.

Patients who have undergone surgery to resection the femoral head require long-term rehabilitation, the goal of which is maximum restoration and preservation of all locomotor functions of the body: restoration of the amplitude range of motion and load-bearing capacity of the injured limb (its full loading) and general strengthening of the muscle corset. Special attention should be paid to working with proprioceptive deficits, which becomes especially important at the stage when the animal begins to move more and more freely. Proprioceptive training can include walking over obstacles, moving on various terrains (sand, grass, water, uneven ground, etc.) and balance exercises and, in essence, allows the animal to re-form motor skills that compensate for changes in body structure after the injury.

One of the consequences of hip surgery is a noticeable shortening of the operated limb. At the treatment stage, when the majority of manipulations performed on the animal are passive movements (the first week after surgery), a decrease in limb length is not a significant factor. However, in the future, as the animal recovers, when the animal begins to move more and more independently, this factor becomes decisive in order to create conditions under which the kinematics and dynamics of limb movement are ensured as close as possible to the physiological norm. It is very important from the first days to form the correct motor skills in the animal, which is difficult in the case of limbs of different lengths. Thus, the need to use a compensating device - an orthosis - should be considered a prerequisite for the animal’s recovery.

Description of existing technical solutions

An analysis of patent and patent-associated literature did not reveal any analogues to the claimed invention.

The problem that the proposed technical solution is aimed at solving

The problem to be solved by the invention is the creation of a device that is an orthosis that allows, during the recovery of the animal, to support the distal end of the injured limb in a position as close as possible to the physiologically natural one.

From the point of view of therapeutic effectiveness, the orthosis must ensure the fulfillment of all necessary medical indications, high-quality orthopedic correction of the position of the limb relative to the animal’s body, and allow the creation of conditions for the movement of the limb with a given amplitude in the corrected directions. Additionally, the orthosis must ensure that all necessary hygienic requirements are met (be resistant to disinfectant solutions, easy to clean from mechanical contamination, etc.) and be safe.

From a technical point of view, the design of the orthosis should ensure ease of installation and adjustment (adjustment to size), reliable fixation on the limb and be as simple as possible in maintenance, cleaning and repair, and have minimal weight.

The task is achieved as follows.

To minimize the weight of the structure and ensure the necessary hygienic characteristics, the main components of the orthosis are made of polymer materials.

The design of the orthosis consists of a horseshoe and a protector, connected to each other using screws.

The horseshoe is made of elastomer and secured to the hoof using an adhesive composition. The use of elastomer, firstly, allows for easy adjustment of the horseshoe to the hoof, and secondly, at the rehabilitation stage, when the animal begins to move more, due to the shock-absorbing (elastic) properties of the material, it allows reducing the impact load on the injured limb.

Since, due to its nature, the elastomeric material does not allow the possibility of direct mechanical (for example, threaded) fastening of other orthosis design elements to it, the horseshoe contains threaded bushings and inserts. The embedded elements are designed to hold the bushings and redistribute the force that occurs after assembling the threaded connection. Uniform redistribution of force throughout the volume of the horseshoe material eliminates significant local deformations of the material and tearing out of the bushings. Structural plastics or metal alloys, such as aluminum or titanium, are used as materials for embedded parts.

The protector is the supporting part of the orthosis and is in direct contact with the ground. The tread is equipped with radially oriented corrugations (lugs) and a roll, which has the greatest steepness and width in the toe area. The presence of a roll provides the limbs with kinematics of movement close to normal, and the corrugations provide reliable support and high-quality traction with the ground.

If the thickness of the horseshoe and tread is insufficient to regulate the overall height of the orthosis, adjustment to size is performed using a set of plates or spacer bushings.

One of the additional advantages of using polymer materials is the possibility of coloring them in bulk. This makes it possible to produce orthosis elements using dyes (pigments) of bright colors (orange, bright green, etc.), which, in particular, in the case of loss of individual orthosis elements, makes them easier to find.

Description of drawings

The essence of the invention is illustrated by graphic material and the following description.

Fig. 1 - General view of the orthosis and view with exploded parts.

Fig. 2 - Horseshoe design.

Fig. 3 - Method of implementing the invention using spacer plates: general view and view with exploded parts.

Fig. 4 - Method for implementing the invention using spacer bushings: general view and view with parts apart.

Essence (disclosure) of the invention

The orthosis consists (see Fig. 1) of a horseshoe 1 and a protector 4, connected to each other using screws 8. The screws 8 are screwed into threaded bushings 2 (see Fig. 2), which are held in the body of the horseshoe 1 by mortgages 3 There are notches (slots) on the outer cylindrical part of the threaded bushings 2. The inserts 3 are designed to prevent scrolling of the threaded bushings 2 and to increase the area over which, after assembling the orthosis, the traction load from the bolts 8 is distributed.

To adjust the overall height of the orthosis, a set of plates of positions 5 and 6 (see Fig. 3) or spacer bushings 7 with support washers 9 (see Fig. 4) are used. Support washers 9 are necessary to increase the support area of spacer bushings 7. Plate 5 is made solid to prevent soil from packing inside the orthosis structure. In order to minimize the total weight of the structure, plates 6 are made with a through window.

To increase the reliability of fastening the horseshoe to the hoof, there are corrugations on the surface in contact with the hoof, and petals are provided on the outer side of the branches of the horseshoe in its heel part.

The supporting surface of the tread 4 can be made either flat or curved, for example, spherical. In the case of using a tread with a spherical supporting surface, the radius of curvature is selected individually in each case.

The materials for the manufacture of the orthosis are selected in such a way that their specific weight is minimal and does not overly burden the injured limb.

The material of the horseshoe 1 is an elastomeric material such as polyurethane. Working as an elastic shock absorber, horseshoe 1 installed on the hoof softens the shock load that occurs when the animal moves on hard ground. Additionally, the elastic force that arises in the elastomeric material after tightening the screws 8 prevents them from self-unscrewing (locking the threaded connection).

The tread material 4 can be, for example, polyethylene, which, on the one hand, has the necessary strength and wear resistance, and on the other hand, allows for mechanical processing in order to form a lug pattern and roll the toe part.

Plates 5 and 6 can be made, for example, from polymethyl methacrylate by mechanical processing of a sheet blank.

The spacer bushings 7 can be made, for example, from polyamide or polyetheretherketone by machining a round rod.

The inserts 3 and spacer bushings 7 can also be made of metals with low relative density and sufficient strength, for example, aluminum or titanium alloys.

According to the invention, the polymer components of the orthosis can be manufactured by injection molding, reaction injection molding or mechanical processing, with fiber or fabric reinforced structural polymers being preferably used as the material.

The use of the proposed orthopedic product increases the efficiency, comfort and convenience of its use during the rehabilitation of animals after surgery, one of the consequences of which is limb shortening, for example, after resection of the femoral head.

In order to confirm the advantages of the proposed passive orthopedic aid in the form of an orthosis attached to the hoof for the rehabilitation of the animal, it was tested in the field in the treatment of a patient with pelvic pathology after resection of the femoral head.

Example of implementation of the invention

The invention is carried out as follows. The disassembled orthosis is laid out on a stable surface. The hoof is trimmed taking into account the requirements and recommendations of the attending physician. Glue is applied to the corrugated surface of horseshoe 1 and the petals, after which the horseshoe is mounted on the hoof. The horseshoe is placed on the hoof in such a way that the petals in its heel parts fit tightly to the medial and lateral surfaces of the hoof. The hoof preparation technology and gluing technique are determined by the nature of the binder of the adhesive composition and are carried out according to the instructions.

After the adhesive joint has hardened on the horseshoe, the protector 4 is secured using screws 8 and the animal is guided.

If the total thickness of the horseshoe 1 and the protector 4 is not enough to compensate for the shortening of the limb, the required height of the orthosis is gained using plate 5 and plates 6.

If it is necessary to significantly increase the height of the orthosis in order to minimize the total weight of the structure, the plates are replaced with spacer bushings 7 of the required length.

The use of the proposed orthosis is illustrated by a clinical example.

A patient was admitted - a pony, born in 2009. (11 years old at the time of surgery) with dislocation of the hip joint. At rest, the injured limb was in a forced physiologically unnatural position: the knee, fetlock and hoof joints were turned outward, and the tarsal joint was turned inward.

Live weight 156 kg, high fatness - 7/9 on the Henneke scale.

After a clinical examination, based on characteristic symptoms, a diagnosis was made: dislocation of the hip joint. The diagnosis was confirmed by X-ray examination. The prognosis is unfavorable.

For treatment, an initial attempt was made to realign the joint. Manual reduction of the hip joint was performed according to a standard protocol. Despite numerous attempts, it was not possible to reduce the dislocation. Possible causes include excess fat deposition and complete rupture of the ligament. In the current situation, surgical treatment has become a last resort. When making the decision, it was taken into account that the pony is short in stature (95 cm at the withers) and has a low body weight (156 kg), which generally increased the chances of a favorable treatment outcome.

The prescribed surgical treatment consisted of removing the head of the femur. To prevent the development of postoperative complications, non-steroidal anti-inflammatory drugs and systemic antibiotics were administered.

Treatment in the postoperative period consisted of drug treatment, treatment of the surgical wound, monitoring physiological indicators (heart rate, respiratory rate, body temperature, capillary refill rate, color of mucous membranes), performing physical therapy exercises and using the proposed orthosis for the entire period of rehabilitation.

Already in the first week, a gradual decrease in pain was noted (while taking painkillers), a significant decrease in discomfort when walking and fatigue in the evening.

As a result of the treatment undertaken, a good long-term clinical result was obtained. At follow-up examinations 1 and 2 years after surgery, no progression of pelvic distortion, spinal curvature, or croup muscle atrophy was detected in the animal.

Technical result

The technical result of the invention is to provide physiologically natural support for the limb during movement, reduce the amplitude of rotational movements when walking, restore correct biomechanics of movement, create conditions for the most accelerated formation of a false joint, improve the functions of the musculoskeletal system, eliminate pelvic distortions and spinal deformities.

The technical result is achieved by passive correction by attaching an orthosis to the distal limb.

The invention makes it possible to effectively restore dysfunction of the musculoskeletal system, prevent the occurrence of pathological changes in the spinal column caused by pelvic distortion and incorrect posture, restore the biomechanics of movement of the joints of the pelvic limbs, compensate for post-traumatic damage to the joints of the pelvic limbs, restore the correct functioning of the venous pump, and thereby prevent development of atrophy of muscle tissue of the injured limb.

The proposed invention solves the problem of rehabilitation of animals, the successful treatment of which without the use of special devices is almost impossible, which is very important for breeding animals. The invention obtained by the proposed method can be widely used as a means of rehabilitation, both independently and in combination with diagnostic and physiotherapeutic measures, including the use of special equipment, such as shock wave therapy.

The effectiveness and performance of the described invention is confirmed by clinical trials.

Claims (5)

1. A passive orthopedic aid in the form of an orthosis fixed to the hoof, consisting of a horseshoe fixed to the hoof and a protector installed on the horseshoe using screws, made with the possibility of installing spacer bushings with support washers between the horseshoe and the protector, wherein the horseshoe is made of elastomeric material, and The horseshoe contains embedded elements to absorb the load from threaded bushings, which have notches on the outer cylindrical part, while the surface of the horseshoe has grooves for contact with the hoof, and petals are provided on the outer side of the branches of the horseshoe in the heel part. 2. Passive orthopedic aid according to claim 1, characterized in that the embedded elements are made of polymer material. 3. Passive orthopedic aid according to claim 1, characterized in that the protector is made of plastic and equipped with radially oriented corrugations and a roll having a large width and slope in the toe area. 4. Passive orthopedic aid according to claim 3, characterized in that the radially oriented corrugations are made in the form of lugs. 5. Passive orthopedic aid according to claim 1, characterized in that the protector has a flat or curved supporting surface.