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Vibration-evoked responses from lamellated corpuscles in the legs of kangaroos (1986)

Gregory, J. E. ; McIntyre, A. K. ; Proske, U.

Springer

Experimental brain research 62 (1986), S. 648-653

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ISSN: 1432-1106

Keywords: Receptors ; Afferent ; Pacinian ; Marsupials ; Sensory

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A group of lamellated corpuscles are present in the interosseous region of the legs of macropod marsupials. Structurally, they are similar to, but simpler than the Pacinian corpuscles of eutherian mammals, in having fewer lamellae. Responses of mechanoreceptors with axons coursing in the interosseous nerve were recorded from filaments, containing single functional units, dissected from the sciatic nerve of the wallaby Thylogale billardierii. The receptors were all maximally sensitive to stimuli applied in the interosseous region, where the cluster of lamellated corpuscles is located. Most units had low mechanical thresholds and were sensitive to sinusoidal vibration over a wide range of frequencies. Functional properties generally resembled those of eutherian Pacinian corpuscles, but the marsupial receptors were less rapidly adapting. The afferent nerve fibres conducted at 45 to 60 ms−1, while the diameter of axons in the osmium-stained interosseous nerve ranged between 7.5 and 12 μm. It is suggested that one important function of the receptors might be the detection of ground-borne vibration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236045

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Slowing of the discharge of secondary endings of cat muscle spindles during fusimotor stimulation (1990)

Gioux, M. ; Petit, J. ; Proske, U.

Springer

Experimental brain research 83 (1990), S. 164-171

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ISSN: 1432-1106

Keywords: Muscle spindle ; Fusimotor ; Afferent ; Intrafusal contraction ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Responses of secondary endings of muscle spindles of the peroneus tertius muscle of the anaesthetized cat have been recorded during repetitive stimulation of functionally single fusimotor fibres that produced slowing of the discharge. In a sample of 125 pairs of single fusimotor fibres and secondary spindle afferents 5 examples of slowing were seen. The amount of slowing became less at longer muscle lengths. Conditioning the spindle by stimulating the muscle nerve at fusimotor strength, at a length 2.5 mm longer than the test length, and then returning to the test length 3 seconds later led to a greater degree of slowing of the discharge than after conditioning stimulation at the test length. With one exception, responses to muscle stretch were reduced during stimulation of a fusimotor fibre that produced slowing. On two occasions stimulating a fusimotor fibre that produced slowing of the response of one secondary ending, led to excitation of two other endings. Two possible explanations for the generation of slowing responses have been considered. The first is that the slowing is the result of contraction of the region of intrafusal fibre directly underlying the secondary sensory ending. The second, which we favour since it accounts for the facts more adequately, is that slowing is the result of shortening of the region of nuclear chain fibres on which the sensory ending lies, produced by movement in an adjacent nuclear bag fibre.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00232205

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Errors in force estimation can be explained by tendon organ desensitization (1990)

Thompson, S. ; Gregory, J. E. ; Proske, U.

Springer

Experimental brain research 79 (1990), S. 365-372

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ISSN: 1432-1106

Keywords: Tendon organ ; Tension ; Proprioception ; Contraction ; Afferent ; Human

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Here we report observations on the sense of muscle tension in human subjects and compare them with responses of tendon organs in cat hindlimb muscles. Human subjects learned under visual guidance to estimate a 4% maximum voluntary contraction (m.v.c.) of elbow flexors of one arm. When they were able to reproduce this force reliably without visual feedback, they repeated the estimation immediately after a 5 second m.v.c or a 5 second period of relaxation. In a second experiment the 4% m.v.c was generated under visual control with one arm, and matched with the other, test arm, without visual feedback. The matching task was then repeated after test arm conditioning. In both experiments subjects reported an accurate match using significantly more than the reference force (“overmatched”) after an m.v.c. The overmatching was greatest during the first 5 second period following the conditioning contraction, and during the subsequent 20 seconds it gradually declined to near reference levels. The size of the matching error was directly proportional to the duration of the conditioning contraction. In the first experiment extension of the arm immediately following conditioning increased the error, in the second it slightly decreased it, although tension continued to be overmatched. In a series of experiments on the soleus muscle of anaesthetised cats responses of tendon organs to 10% of maximum contraction were seen to drop sharply when preceded by a conditioning maximum contraction. The time course of recovery was comparable to the decline in matching error in the human experiments. In conclusion, one explanation for the error in force matching seen in human subjects after an m.v.c is that sensitivity of tendon organs has been lowered as a result of the activity generated during the conditioning contraction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00608246

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