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Sensory prosthesis






Iyo Denshi to Seitai Kogaku. Japanese Journal of Medical Electronics and Biological Engineering 20(7): 597-599

Sensory prosthesis



Accession: 044294982

PMID: 7186984



Related references

Highsmith, M.Jason.; Kahle, J.T.; Shepard, N.T.; Kaufman, K.R., 2014: The Effect Of The C-Leg Knee Prosthesis On Sensory Dependency And Falls During Sensory Organization Testing. A mechanistic explanation for previously observed safety improvements with microprocessor-controlled prosthetic knees is needed. A repeated measures design of 15 subjects with unilateral transfemoral amputation was used to assess changes between b...

Tachi, S., 1983: Current status and problems of artificial organs. 11. Sensory prosthesis and sensory substitution systems. Iyo Denshi to Seitai Kogaku. Japanese Journal of Medical Electronics and Biological Engineering 21(5): 400-403

Wiener, Norbert, 1951: Problems of sensory prosthesis. A semi-popular paper, attempting to simplify the mathematical aspects of communication mechanisms and their biological analogies. The question of transmission of a message by voice or by eye from person to person is considered, whether anything co...

Grossman, R.C.; Bosma, J.F., 1963: Experimental oral sensory prosthesis. This instrument was devised to provide electrical stimulation for persons deficient in oral surface perception. It consists of a thin palatal prosthesis, a relay activator circuit, and a standard laboratory stimulator.

Yoshimoto, C., 1984: Sensory prosthesis for the blind and the deaf. Iyo Denshi to Seitai Kogaku. Japanese Journal of Medical Electronics and Biological Engineering 22(6): 401-406

Nightingale J.M., 1988: Sensory control of a multifunction hand prosthesis. The current generation of prostheses that are fitted to limb deficient individuals have only a single degree of freedom which limits their functional range. Furthermore, electrically powered prostheses have a limited user input. Electrical signals...

Shannon G.F., 1979: A myo electrically controlled prosthesis with sensory feedback. An electrically-operated hand, controlled by myopotentials, was fitted with strain gauges in the index finger which measure the gripping force between thumb and index finger. These strain gauges cause an electrical stimulus to be applied to the sk...

Kyberd, P.J.; Chappell, P.H.; Nightingale, J.M., 1987: Sensory control of a multifunction hand prosthesis. The current generation of prostheses that are fitted to limb deficient individuals have only a single degree of freedom which limits their functional range. Furthermore, electrically powered prostheses have a limited user input. Electrical signals...

Wijk, U.; Carlsson, I., 2016: Forearm amputees' views of prosthesis use and sensory feedback. Qualitative descriptive. The lack of sensory feedback in today's hand prostheses has been in focus recently but the amputees' experiences need to be further investigated. To explore forearm amputees' views of prosthesis use and sens...

Clippinger, F.W.; Seaber, A.V.; McElhaney, J.H.; Harrelson, J.M.; Maxwell, G.M., 1982: Afferent sensory feedback for lower extremity prosthesis. Electrical stimulation has been applied to sciatic nerves of patients to achieve sensory feedback after lower limb amputation for periods of up to six years. Patients used the sensory feedback device daily. Pain, infection and electrode displaceme...