Intraneural stimulation using wire-microelectrode arrays: analysis of force steps in recruitment curves

Smit, J.P.A.; Rutten, Wim; Boom, H.B.K.

doi:10.1109/iembs.1996.656980

Proceedings of 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society

DOI: 10.1109/iembs.1996.656980

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Intraneural stimulation using wire-microelectrode arrays: analysis of force steps in recruitment curves

J.P.A. Smit

Wim Rutten

H.B.K. Boom

Abstract: -In acute experiments on six Wistar rats, a wiremicroelectrode array was inserted into the common peroneal nerve. A 5-channel array and a 24-channel array were available. Each electrode in the array was used to generate a twitch contraction force recruitment curve for the extensor digitorum Longus muscle. We constructed a histogram of the pooled force steps in all recruitment curves. From a comparison of this experimental histogram with one estimated from literature data, we found that the force steps encounte… Show more

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Multi-microelectrode devices for intrafascicular use in peripheral nerve

Rutten

Proceedings of 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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This minisymposium paper gives an overview of experimental, modeling, design and microfabrication steps which lead towards the University of Twente threedimensional 128-fold silicon microelectrode device. The device is meant for implantation in peripheral nerve for neuromuscular control purposes and is estimated to be able to selectively control 10-20 motor fibres. Also, the potentialities of a n alternative LIGA microfabrication technology are considered.

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Multi-microelectrode devices for intrafascicular use in peripheral nerve

Rutten

Proceedings of 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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Efficiency of endoneural stimulation with 5- to 24-fold multielectrodes

Rutten

Smit²

Proceedings of the 20th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. Vol.20 Biomedi

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Optimal selective stimulation of nerve with endoneurally (intrafascicularly) inserted multi-microelectrodes means that each electrode activates, with its own threshold stimulation current, as few distinct motoneurons as possible, preferibly only one. If the latter is the case, the efficiency of a multi electrode is 100%. However, neighbouring electrodes may control the same motor fiber(s), as there are generally more fibers than electrodes and because the position of fibers is largely unknown. In that case, efficiency is less than 100%. This paper reports on experiments in rat peroneal nerve with 5-and %-fold wire multi micro electrode arrays. The threshold force of the twitch recruitment curve of the corresponding EDL muscle was used to monitor nerve activation. It was found that on average the threshold force efficiency was 0.48 = 48 %. After re-inspection of the data, taking into account that neighbouring electrodes have a higher probability to activate the same motor units, in contrast to distant electrodes, the average efficiency even rises to 81 %. For several reasons, threshold forces do not correspond to motor unit forces, implying that the threshold-forceefficiency can not be regarded as motor-unit-efficiency.

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Intraneural stimulation using wire-microelectrode arrays: analysis of force steps in recruitment curves

Cited by 2 publications

References 2 publications

Multi-microelectrode devices for intrafascicular use in peripheral nerve

Multi-microelectrode devices for intrafascicular use in peripheral nerve

Efficiency of endoneural stimulation with 5- to 24-fold multielectrodes

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