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Linear and nonlinear effects in the interactions of motor units and muscle spindle afferents (1986)

Niemann, U. ; Windhorst, U. ; Meyer-Lohmann, J.

Springer

Experimental brain research 63 (1986), S. 639-649

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ISSN: 1432-1106

Keywords: Motor units ; Muscle spindle afferents ; Nonlinear responses of motor units and spindles

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Successive motor unit (MU) twitches often do not sum linearly. Also, muscle spindle (MS) afferents may react nonlinearly to MU contractions occurring at short intervals. Little data is presently available on the interactions between two (or more) MUs regarding their effects on tension output and MS responses. We have studied these effects in cat Mm. gastrocnemius medialis (MG), soleus and semitendinosus. In adult anaesthetized cats, MUs of the muscle under study were electrically stimulated via their ventral root axons with random sequences of brief pulses having mean rates between 6 and 12 pulses per second. Isometric tension fluctuations were recorded from the muscle under study, and discharge patterns of MS afferents (Ia and group II) were recorded from dorsal root filaments. A crosscorrelation analysis was performed to display linear and nonlinear effects evoked by selected time constellations of MU activations. 1) 18 (67%) of 27 MG MUs showed marked potentiation of the second of two twitches in response to pairs of stimuli separated by 5 to about 25 ms. The remainder of these and 16 of the soleus MUs did not exhibit conspicuous nonlinearities. — 2) MS responses to such pairs of MU activations usually showed a prolonged spindle pause. — 3) About 28% of 36pairs of MG MUs produced twitch tension less than expected for linear summation if activated nearly simultaneously. — 4) If two MUs both produced a spindle pause and possibly a relaxation discharge in an MS afferent, the near-synchronous activation of the units produced respective discharge variations that were less than expected for linear summation. If one MU produced an early discharge, contraction of another MU would often prevent it. — These results are discussed in regard to mechanisms of tremor suppression.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237486

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Windhorst, U. ; Koehler, W. ; Schwarz, C.

Springer

Pflügers Archiv 408 (1987), S. 196-203

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ISSN: 1432-2013

Keywords: Event-related cross-correlation ; Spike train analysis ; Signal transmission ; Motor units ; Muscle spindle afferents

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract A method is presented for computing correlation coefficients of two (or more) output spike trains in temporal relation to one (or more) input event trains. These event-related correlation functions are computed by convolving the output spike trains, represented as point processes, with rectangular pulses of selectable width, and by then calculating linear correlation coefficients for the pairs of amplitude values obtained from the two convolved processes in temporal relation to the input events. The merits of this technique are illustrated on stimulus trains delivered to motor units (MUs) and output spike trains recorded from muscle spindle afferents of the same cat hindlimb muscle. The correlation functions obtained show the temporal course of the correlated firings of the two afferents (mostly Ia afferents from primary muscle spindle endings) as a function of time from MU activation; they are compared with the conventional cross-correlation histograms (CCHs) between afferents and with peri-stimulus time histograms (PSTHs) between stimulus and afferent firing patterns. Stimulus-related cross-correlation functions as displayed here can be calculated for any three spike trains. Possible extensions of the method to larger numbers of input and output channels are also discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00581352

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