Signals from skin mechanoreceptors used in control of a hand grasp neuroprosthesis

A Inmann; M Haugland; J Haase; F Biering-Sørensen; T Sinkjaer

doi:10.1097/00001756-200109170-00013

Signals from skin mechanoreceptors used in control of a hand grasp neuroprosthesis

A Inmann, M Haugland, J Haase, F Biering-Sørensen, T Sinkjaer

15 Citationer (Scopus)

Abstract

We used signals from tactile mechanoreceptors in the skin of the index finger, recorded with an implanted cuff electrode, to automatically control grasp force in a hand grasp neuroprosthesis. Phasic events in the recorded nerve signal, related to mechanical events on the skin, were used to adjust electrical stimulation of hand muscles without any prior knowledge about muscle strength and properties of a held object. A simulated eating task was used to evaluate the hand grasp neuroprosthesis. When using the neuroprosthesis with feedback from natural sensors, the average grasp force could be reduced in comparison to not using feedback. Reducing grasp force is considered a major factor to decrease muscle fatigue, allowing a prolonged use of the hand grasp neuroprosthesis.

Originalsprog	Engelsk
Tidsskrift	NeuroReport
Vol/bind	12
Udgave nummer	13
Sider (fra-til)	2817-20
Antal sider	4
ISSN	0959-4965
DOI	https://doi.org/10.1097/00001756-200109170-00013
Status	Udgivet - 17 sep. 2001
Udgivet eksternt	Ja

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10.1097/00001756-200109170-00013

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title = "Signals from skin mechanoreceptors used in control of a hand grasp neuroprosthesis",

abstract = "We used signals from tactile mechanoreceptors in the skin of the index finger, recorded with an implanted cuff electrode, to automatically control grasp force in a hand grasp neuroprosthesis. Phasic events in the recorded nerve signal, related to mechanical events on the skin, were used to adjust electrical stimulation of hand muscles without any prior knowledge about muscle strength and properties of a held object. A simulated eating task was used to evaluate the hand grasp neuroprosthesis. When using the neuroprosthesis with feedback from natural sensors, the average grasp force could be reduced in comparison to not using feedback. Reducing grasp force is considered a major factor to decrease muscle fatigue, allowing a prolonged use of the hand grasp neuroprosthesis.",

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author = "A Inmann and M Haugland and J Haase and F Biering-S{\o}rensen and T Sinkjaer",

year = "2001",

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TY - JOUR

T1 - Signals from skin mechanoreceptors used in control of a hand grasp neuroprosthesis

AU - Inmann, A

AU - Haugland, M

AU - Haase, J

AU - Biering-Sørensen, F

AU - Sinkjaer, T

PY - 2001/9/17

Y1 - 2001/9/17

N2 - We used signals from tactile mechanoreceptors in the skin of the index finger, recorded with an implanted cuff electrode, to automatically control grasp force in a hand grasp neuroprosthesis. Phasic events in the recorded nerve signal, related to mechanical events on the skin, were used to adjust electrical stimulation of hand muscles without any prior knowledge about muscle strength and properties of a held object. A simulated eating task was used to evaluate the hand grasp neuroprosthesis. When using the neuroprosthesis with feedback from natural sensors, the average grasp force could be reduced in comparison to not using feedback. Reducing grasp force is considered a major factor to decrease muscle fatigue, allowing a prolonged use of the hand grasp neuroprosthesis.

AB - We used signals from tactile mechanoreceptors in the skin of the index finger, recorded with an implanted cuff electrode, to automatically control grasp force in a hand grasp neuroprosthesis. Phasic events in the recorded nerve signal, related to mechanical events on the skin, were used to adjust electrical stimulation of hand muscles without any prior knowledge about muscle strength and properties of a held object. A simulated eating task was used to evaluate the hand grasp neuroprosthesis. When using the neuroprosthesis with feedback from natural sensors, the average grasp force could be reduced in comparison to not using feedback. Reducing grasp force is considered a major factor to decrease muscle fatigue, allowing a prolonged use of the hand grasp neuroprosthesis.

KW - Adult

KW - Afferent Pathways/physiology

KW - Artificial Limbs

KW - Biomechanical Phenomena

KW - Electric Stimulation Therapy/instrumentation

KW - Electrodes/standards

KW - Feedback/physiology

KW - Hand Strength/physiology

KW - Humans

KW - Male

KW - Mechanoreceptors/physiology

KW - Motor Skills/physiology

KW - Muscle Contraction/physiology

KW - Muscle Fatigue/physiology

KW - Neural Conduction/physiology

KW - Reaction Time/physiology

KW - Signal Transduction/physiology

KW - Skin/innervation

KW - Spinal Cord/physiology

KW - Spinal Cord Injuries/pathology

KW - Touch/physiology

U2 - 10.1097/00001756-200109170-00013

DO - 10.1097/00001756-200109170-00013

M3 - Journal article

C2 - 11588583

SN - 0959-4965

VL - 12

SP - 2817

EP - 2820

JO - NeuroReport

JF - NeuroReport

IS - 13

ER -

Signals from skin mechanoreceptors used in control of a hand grasp neuroprosthesis

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