SU940763A1 - Method of leading biopotentials on invalid stump muscles - Google Patents

Description

(used in bioelectric prostheses) are moistened with physiological saline and adhered with adhesive tape on the skin over the indicated muscles. The electrodes are pressed to the skin with a circular rubber cuff. The interelectrode resistance (DC) of both electrodes 2 min after installation is about 600 kΩ. When trying to bend the brush with maximum force, the magnitude of the electrical activity of the radial | -o bend of the brush reaches 250 µV, and that of the ulnar one - 350 µV. To register the electrical activity of the muscles, amplifiers UBP 1-01 “Biofispribor with an input resistance of 1.5 MΩ, with a frequency range of 75 + 10,000 Hz were used. Then, the signal from the node was removed from the electrodes, or at the same time as the input of the prosthesis amplifier, and measured using the setup described. The magnitude of the electrical activity of the muscles at maximum gain under the same conditions becomes significantly smaller as a result of bypassing. Thus, the electrical activity of the radial flexion of the brush instead of 250 µV was only 100 µV, and that of the ulnar - instead of 350 µV - 175 µV. Then both pairs of electrodes were removed. The locations of the electrical activity of the ulnar bend of the hand are taken as controls. On each of the prints on the skin over the radial flexor of the brush, a solution of silver nitrate was applied using a single pencil. After 24 h, the solution-treated places had a dark brown color. According to the method described above, electrodes were again placed at the sites where the electrical activity of the muscles was removed. The interelectrode resistance at the ulnar flexor of kisggy was 200–250 kΩ, and above the radial one — 50 kΩ. The electrical activity of the ulnar flexion of the hand at maximum force on the UBP-1-01 was 400 µV and 200 µV when the prosthetic booster was connected.

Electric (activity of the radial flexion of the hand at maximum effort was 400 µV and 400 µV with a high resistance input when the prosthetic amplifier was connected. The loss of the signal removed to control the prosthesis is absent in the latter case. The positive effect after skin treatment remains 5-7 days described method

reduces the electrode resistance by increasing the conductivity of the stratum corneum of the epidermis. The method allows to improve the control conditions by expanding the dynamic range of the control signal and reducing the energy costs of operators (disabled) to manage bioelectric prostheses, reduce the amount of training needed to prepare the muscles of persons with disabilities to manage bioelectric prostheses and, thus, reduce the time spent by patients in hospital, as well as improve the noise immunity of the control system.

Claims (1)

1. A.V. Bravichev et al. Investigation of the electrical activity of the muscles of shoulder antagonists at discharge by surface electrodes of various designs. Sat “Prosthetics and prosthetic engineering M., TsIIPP, 1975, Vol. 34, p. 107-112.