SU1602459A1 - Device for determining characteristics of crus muscle contruction - Google Patents

Abstract

The invention relates to the field of medicine, can be used in the diagnosis of neuromuscular diseases, in physiology and sports medicine, and allows the diagnostic capabilities to be expanded by standardizing research conditions in various subjects and improving the accuracy of registration. The means of fastening the legs are made in the form of a pedal 1 connected to the platform 8, which is rotatably attached and fixed to the frame 9. On the frame 9 there are mounted longitudinal guides 11 through which the rod runners 12 are passed, with the ends rigidly fixed in the transverse guides 14 associated with the strap 16. Through the guides 14, the force axis 15 is passed, fixed at the ends in the sidewalls 18. The sidewalls 18 are perforated sectors attached on one side to the seat base 26, and on the other to telescopic struts 21. loizmeritelny member includes a resilient ravine 5 with glued strain gauges. The ends of the beams 5 are clamped between the core elements. The transmission mechanism includes a collar 6 and gland screws 4, 32 and is rigidly connected on one side with the pedal 1, on the other - with the center of the beam 5. 2 Il.

Description

The invention relates to medicine and can be used in the diagnosis of musculoskeletal diseases, human physiology and sports medicine.

The purpose of the invention is to expand diagnostic capabilities by standardizing research conditions in various subjects and improving the accuracy of registration.

FIG. 1 shows schematically the proposed device, a general view; in fig. 2 - load element.

The device contains a pedal 1 connected via axles 2 (on bearings), a fastening assembly 3, a screw 4, a beam-shaped sensing element 5 and corresponding fastening assemblies: a collar 6 and screws 7 with a platform 8. A pedal with a platform is a movable system which has the ability to vary the angle of inclination of the pedal with respect to the frame 9 around the axes 2 and fasten in position with screws 10 in the slots of the platform 8. On the frame 9 are fixed four longitudinal guides 11 through which pass the rod runners 12 required to moveframe with platform along the runners. The frame is fixed to the skid x using screws 13. In turn, the ends of the skids are rigidly fixed in the transverse guides 14 mounted on the axle 15, which allows the frame and the pedal to be moved in the horizontal direction along the axis. Slatted plate 16 with stiffeners 17 gives the necessary rigidity to the entire system. The ends of the axle 15 are fastened to the sidewalls 18 with bolts 19, the sidewalls with screws 20 are fastened to telescopic pillars 21 inserted into the cups 22. Screws 23, holes 24 and 25 allow you to adjust the position of the system in the vertical and horizontal planes relative to the chair 26 associated with the sidewalls 18 through the axes 27, Bracket 28

and straps 29 are needed to mount and secure the patient's foot.

The device of the strain gauge force sensor is shown in close-up in FIG. 2 and includes an elastic beam 5, with resistance strain gauges 30 glued to it. The ends of the beam are clamped with screws 7 between the rod elements 31. Such fastening eliminates tensile and compression deformations along the axis of the beam and allows strain gauges to register only pure bending deformations. A better application of strain gauges is also facilitated by the point application of force in the center of the beam perpendicular to its axis, which is provided by two screws 4 and 32 and clamp 6. The strain gages are connected to a bridge circuit and connected to a strain gauge and recorder (not shown). The attachment unit 3 serves to transfer the force of the pedal through the screw 4 to the beam 5.

The device works as follows.

The patient is placed in the chair, Depending on the position of the back of the chair, the patient can assume a horizontal (recumbent) or sitting position. The patient's lower leg is placed on frame 9, and the foot is placed on pedal 1. At this, the foot rests on the bracket 28. The foot is fixed by belts 29. Moving the platform 8 relative to the frame 10 along the slot and fixing it with a screw 10 allows you to change the angle of inclination of the foot (relative to tibia) from O to 30 ° in both directions relative to the initial position. At the same time, depending on the length of the patient's foot, the frame with the platform and pedal is moved along the skid m 12 and fixed in the guides with 11 screws 13. When examining the right or left limb of the same patient, the skid with the fixed frame must be moved along axis 15 right or left. At the same time, the selected position is fixed with bolts 17. Racks 21, glasses 22, screws

23 allows the height of the entire system to be adjusted by changing the angle of inclination of the knee joint. For the same purpose, sidewalls 18 with holes 24 are used, in which axle 15 is fastened with screws 19.

The contraction developed by the calf muscle in response to electrical stimulation is transmitted through pedal 1 and screw 4 to elastic beam 5 and using strain gages 30 is converted into electrical signals scalable by a strain gauge amplifier, for example, Topaz 3-01 and recorded an oscilloscope or an automated computer-based system.

Using the device, more than 400 patients with various neuromuscular diseases were examined. The quantitative amplitude and density characteristics of muscle contraction obtained using the device were compared with those of the control group of the subjects (100 people). The studies confirmed the high diagnostic value of the indices and the accuracy of the analysis of mechanomiographic signals. The use of computers made it possible to analyze valuable speed indicators inaccessible to the manual method, accelerate isothermal muscle contraction, and reduce the time of examination of patients.

The proposed device is reliable, convenient and easy to use.

0

five

0

Claims (1)

Apparatus of the Invention A device for determining the characteristics of the contraction of the muscles of the human lower leg, comprising means for attaching the leg through a transmission mechanism associated with a measuring element, in order to expand diagnostic capabilities by standardizing the conditions of conducting research on various subjects and improving the accuracy registration, the means of fastening the legs are made in the form of a pedal with straps, through the axes on bearings connected to the platform, which can be rotated and fixed The chassis is connected to the frame, with longitudinal guides mounted on the frame, through which the rod runners parallel to the longitudinal axis of the frame are passed, with the ends rigidly fixed in transverse guides connected to the slotted and bolted plank through the transverse guides of the force axis that is fixed on the ends in the sidewalls made in the form of perforated sectors, on one side connected to the seat base, and on the other side to telescopic drains, the force-measuring element includes an elastic beam with glued on it its strain gauges, the ends of the beam are clamped between the core elements by means of attachment points connected to the platform, and the transmission mechanism consists of a yoke and gland screws and is rigidly connected to the pedal on one side and to the center of the beam on the other.