UA113137U - METHOD OF ASSESSMENT OF LIMIT FUNCTIONAL CONDITION IN CONTRACT CONDITIONS - Google Patents

Abstract

The method of evaluating the functional condition of the limb under contracting conditions involves installing the limb segment in a position convenient for examining the contracture, determining the amount of effort applied to the investigated limb segment by a muscle-muscle tester installed between the limb segment of the patient and the operator's arm, performing the patient's motion of the joint, registration of this angle of bending by means of a goniometer, and additionally record the maximum possible passive movements of the joint and resistance of tissues, amplitude movements with the help of a goniometer, transmit the obtained indicators to the software and computer complex and evaluate the contract status after them.

Description

The useful model belongs to the medical field, namely orthopedics, traumatology, physical and medical rehabilitation, neurology, physiology. One of the important characteristics of contractures is the resistance of the contracture to external force influence. The method of assessing the functional state of the limb in conditions of contracture allows to determine the functional state of the joint, as well as the prospects and terms of complex restorative treatment of patients with post-traumatic and post-operative contractures.

There is a known method of diagnosing knee joint contracture (1), which includes placing the patient in a position of relaxation of the muscles of both lower limbs under the influence of his own weight, visual comparison of the spatial position of anatomical landmarks (top of the front surface of the knee joint or calcaneus) on the sick and healthy limbs If differences are detected, the presence of knee joint contracture is diagnosed. The disadvantage of this method is its subjectivity, locality, and limited ability to diagnose only dysfunctions of at least 10 95 of the normal range of motion.

There is a known method of assessing the functional state of the limb in conditions of contracture using the VIOREX apparatus (USA) |2). The method includes determining the amplitude of limb movements and muscle strength of the studied segment. The patient is placed in a chair with the possibility of fixing the trunk and the proximal segment of the examined limb. The distal segment is fixed in a separate attachment on the power unit that moves the limb. The method allows with sufficient accuracy to register the angles of movement of the limb, the force of movement resistance in passive mode, muscle strength.

The disadvantage of the known method is the use of a large-sized device, which requires a separate room, as well as the rather high cost of the device, which makes it possible to use it in most rehabilitation centers and laboratories, as well as the difficulty of locating patients with severe pathology in it.

There is a well-known method of assessing contracture resistance to external influences using a special contracturometer device |З|, which we took as a prototype containing a tare spring mounted in a plastic body of the device, equipped with a handle and a movable cylindrical rod that ends with an oval-shaped tip. Pressing the tip of the device on a segment of the patient's limb leads to the movement of the rod and compression of the spring, the degree of deformation of which is displayed on the scale located on

From the device body. The branches of the protractor are fixed on the limb segments with the help of clamps.

The nature of the contracture is usually determined subjectively by performing a passive movement in the contracted joint. The extremity is placed in a position convenient for measuring the contracture. The operator tries to correct the contracture with the help of a device attached to the distal part of the segment. With a conventional compressive force of 5 kg, the spring is deformed. The degree of displacement of the arrow corresponds to the amount of resistance of the periarticular tissues.

The disadvantage of the known method is a limited range of applications, since it can be used to determine only amplitude changes in the joint, the impossibility of measuring muscle strength, since the design of the device does not allow clearly registering and storing the received data in electronic form. At the same time, there is no software for forming a database with subsequent processing of results and their monitoring.

The useful model is based on the task of improving the method of assessing the functional state of the limb in conditions of contracture by using a manual muscle tester and protractor to measure the angles of movement in the limb segment and computer processing of the received data, which allows to assess the characteristics of the contracture, the state of periarticular tissues, including muscle strength, contracture resistance to external corrective action, its resistance.

The task is solved by the fact that in the method of assessing the functional state of the limb in conditions of contracture, which includes setting the limb segment in a position convenient for contracture research, determining the amount of effort applied to the examined limb segment with a manual muscle tester installed between the patient's limb segment and the operator's hand, the patient's performance of the maximum active movement of the joint, registration of this bending angle using a protractor, according to a useful model, additionally register the maximum possible passive movements of the joint and tissue resistance, the amplitude of movement using the protractor, transfer the obtained indicators to the software-computer complex and the condition of the contracture is assessed according to them.

Registration of the maximum possible passive movements of the joint due to tissue resistance makes it possible to assess the condition of periarticular tissues, including muscle strength, contracture resistance to external corrective action, resistance.

The use of a software-computer complex provides the possibility of determining the indicators of stability (resistance and flexibility) of joint contracture; strength of individual muscles or muscle groups; torque of individual muscles or muscle groups relative to the joint; the degree and dynamics of disruption of the function of the biochains of the musculoskeletal system of a person, and also allows you to store the received data and monitor the patient's rehabilitation process.

The method of assessing the functional state of the limb in conditions of contracture includes placing the patient in the starting position, individual for each joint, then placing the protractor on the examined segment of the patient, registering the physiological angles of movement in the patient's joint and the strength of tissue resistance, locally holding the muscle tester, the obtained indicators are transferred on the software-computer complex and they assess the state of the contracture.

The method is performed as follows. For example, to study the muscles of the leg flexors, the patient is placed in a prone position, the lower leg of the examined limb is at an angle of 307. Being on the side of the examined limb, the operator fixes the patient's pelvis with one hand. The manual-muscular mechanical force tester is in the operator's free hand and the patient's leg. The patient tries to bend the knee joint. The operator counters the bending of the lower leg. The time of static contraction of the muscle should be at least 3 seconds. At this time, the operator resists to measure the strength of the active muscle, preventing movement of the lower leg. In the second phase of flexion, the doctor uses a hand with a mechanical force sensor to exert pressure on the lower leg that exceeds the strength of the patient's flexors and performs extension in the joint to the initial position. The signal sent from the sensor to the computer complex is fixed and analyzed in the software-computer complex.

At the same time, to assess the condition of the contracture, the limb is placed in a position that is convenient for the study (on the example of a flexion contracture in the knee joint). The patient performs maximum active flexion of the lower leg. The doctor, using a protractor, registers the angle of maximum active bending. The next stage is the movement of the lower leg from the angle of maximum active flexion to the angle of maximum passive flexion, due to tissue resistance.

The operator uses a mechanical force sensor to passively bend the patient's lower leg. At the same time, the patient does not actively resist. We register the amount of passive tissue resistance, as well as, using a protractor, the amplitude of movement between the angle of active and passive bending. In case

Since the contracture is mild, we assess the compliance of the contracture by recording signals from the sensor. If the contracture is severe, we apply a fixed load of 5 kg, 10 kg and record the angle by which the segment of the limb has shifted.

In particular, the measurements make it possible to estimate not only the absolute force in kilograms (kg) or in

Newtons (N), but also to determine the moment of the applied force (Nem) in the working range of motion in contracture conditions. The moment of force is determined by the formula:

MAR, where: E is the force applied to the dynamometer, Pp is the arm of the muscle force.

The received data are registered in the software-computer complex.

We give an example of practical use of the proposed method. Hvory K., born in 1965. Diagnosis: Closed fracture of the lateral condyle of the tibia on the left with displacement of fragments. Condition after surgical treatment. After 1 month after the operation, active bending in the knee joint 257, passive bending, after applying a load of 5 kg - 30", the strength of the leg flexor muscles 4.6 kg. 2 months after the operation, active bending in the knee joint 65", passive bending, after applying a load of 5 kg - 90", the strength of the leg flexor muscles is 14 kg.

The proposed method allows you to quickly and objectively assess the initial state of the periarticular muscles, assess the characteristics of the contracture, the resistance of the contracture to external corrective action. Unlike other hardware methods, the study is performed easily, quickly, with the possibility of examining peri-articular tissues and muscle groups. The method makes it possible to monitor changes in the amplitude and force characteristics of the studied limb during the research process and in the dynamics during the treatment of patients, to predict the speed of recovery processes and the terms of rehabilitation treatment at its various stages. There is also the possibility of using a method of measuring the characteristics of contractures in mobile conditions using a laptop.

Sources of information: taken into account during the examination. 1. Pat. Mo. 2321343 VO. IPC» AbEEIV 5/103, AbI1IV 5/107. A method of diagnosing contractures of the knee joint / A.N. Karalyn (VI), N.M. Yasonov (University of Applied Sciences); Me 2006141435/14, App. 23.11.2006;

Publ. 10.04.2008, Bull. Mo 10. -6 p. 2. Apagem A. (1991). Napa-neiy adupatoteiygu g teazigipd tyvsie 5igepdi / A. Apagemuv // / 60 Nytap Myzsie Repogtapse. - 1991. - Mo. 1. - R. 35-50.

3. Contracturometer for assessing contracture resistance to external influence // (Electronic resource. - Access mode: pyr:/Lumly. togdompik.ty/ Kopigaktiga.

Claims (1)

USEFUL MODEL FORMULA A method of assessing the functional state of a limb in conditions of contracture, which includes placing a segment of the limb in a position convenient for examining the contracture, determining the amount of force applied to the examined segment of the limb by a manual muscle tester installed between the segment of the patient's limb and the hand of the operator, performing by the patient as much as possible active movement of the joint, registration of this angle of bending with the help of a protractor, which is distinguished by the fact that the maximum possible passive movements of the joint and tissue resistance are additionally recorded, the amplitude of movement with the help of a protractor, the obtained indicators are transferred to the software-computer complex and the state of contracture is assessed based on them .