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Compartmentalization of the cervicocollic reflex in cat splenius muscle (1983)

Ezure, K. ; Fukushima, K. ; Schor, R. H. ; [et al.]

Springer

Experimental brain research 51 (1983), S. 397-404

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ISSN: 1432-1106

Keywords: Cervicocollic reflex ; Muscle Compartmentalization

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We have examined the cervicocollic reflex (CCR), evoked by horizontal rotation of the head of decerebrate cats, in the dorsal neck extensor muscle splenius. This muscle is divided into compartments which are innervated by three or four spinal segments; an analogous Compartmentalization may be observed in the CCR. When the CCR is evoked by rotation of the head about a vertical axis centered over C1–C2, the modulation of EMG activity is higher in the rostral than in the caudal compartments; in some cases, the rostral compartments can be modulated selectively. The rostrocaudal gradient of modulation is absent if the axis of rotation is shifted caudally to C4–C5. In muscles which had been completely detached from their origin and insertion, the pattern of activation of the CCR was similar to that observed in intact muscle, although the gain of the reflex fell by two thirds. This suggests that significant inputs to this reflex arise both from within splenius itself and from receptors outside this muscle. The typical CCR disappears if the C1–C4 dorsal roots ipsilateral to splenius are cut; furthermore, the reflex appears normal in animals with spinal transections above C1. A significant component of the CCR in splenius appears to be a segmental stretch reflex, originating partly in splenius and partly from receptors outside the muscle.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237876

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Effects of muscle and cutaneous hindlimb afferents on L4 neurons whose activity is modulated by neck rotation (1989)

Yates, B. J. ; Kasper, J. ; Wilson, V. J.

Springer

Experimental brain research 77 (1989), S. 48-56

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ISSN: 1432-1106

Keywords: Neck reflexes ; L4 interneurons ; Group II input

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We recorded extracellularly, in decerebrate, labyrinthectomized cats, from spontaneously active L4 neurons whose activity was modulated by head rotation, and studied the effects of stimulation of ipsilateral hindlimb nerves. Rotation of the head about the longitudinal (roll) axis was more effective than rotation about the transverse (pitch) axis or vertical (yaw) axis for this group of neurons. Most units received convergent excitatory or inhibitory inputs from several nerves, with excitation being more prominent. The most effective muscle nerves were quadriceps (37/43 neurons), sartorius (19/21) and tibialis anterior (17/ 35); stimulation of biceps posterior-semitendinosus, biceps anterior-semimembranosus, or gastrocnemius rarely influenced the firing of the neurons. Group I effects were present in only a small fraction of neurons; however, short latency (central latency ≤ 5 ms) group II effects were observed in almost one-third. Longer latency group II as well as group III inputs were also common. All neurons received inputs from mixed and cutaneous nerves which usually had low thresholds and central latencies 〉 5 ms. Most recording sites were in medial lamina VII or lamina VIII; some of the units were identified by antidromic stimulation as propriospinal neurons which projected to the lumbar enlargement.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00250566

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Labyrinthine influence on cat forelimb motoneurons (1975)

Maeda, M. ; Maunz, R. A. ; Wilson, V. J.

Springer

Experimental brain research 22 (1975), S. 69-86

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ISSN: 1432-1106

Keywords: Labyrinth ; Forelimb motoneurons ; Lateral vestibulospinal tract

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Intracellular responses in forelimb motoneurons to electrical stimulation of the whole labyrinth and of individual semicircular canal nerves were studied in decerebrated, unanesthetized cats. 2. Stimulation of the whole labyrinth typically produced EPSPs, usually bilaterally, in forelimb extensor (LON, LAT, MED) and shoulder (SI) motoneurons and bilateral IPSPs in forelimb flexor (BIC) motoneurons. 3. Latencies of PSPs indicated that most of those in extensor motoneurons were trisynaptic and many seen in flexor motoneurons may involve four synapses. 4. In the cells sampled, stimulation of the anterior, horizontal or posterior canal nerves often evoked EPSPs in extensor and IPSPs in flexor motoneurons, both ipsi-and contralaterally. Responses to canal stimulation were weaker and more variable than those to stimulation of the whole nerve. 5. Transection of the MLF in the lower medulla had no effect on PSPs evoked in forelimb motoneurons. Lesions in the medulla in the area of the LVST greatly reduced the occurrence of contralateral EPSPs in extensor and IPSPs in flexor motoneurons. The pathway linking labyrinths to forelimb motoneurons therefore appears to include the LVST. Hemisection shows that the pathway to contralateral motoneurons descends in the cord on the side of the stimulated labyrinth before crossing to influence these cells. 6. Labyrinthine control of forelimb motoneurons is less direct than control of neck and back motoneurons. It is suggested that the interneuron in the pathway to forelimb motoneurons is the site of integration of labyrinthine with other reflexes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235412

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