On the Origins of Dorsal Root Potentials

Lloyd, David P. C.; McIntyre, A. K.

doi:10.1085/jgp.32.4.409

Cited by 153 publications

(80 citation statements)

References 17 publications

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“…It has been called the focal synaptic potential in order to distinguish it from synaptic potentials recorded by other techniques where the recording was intracellular or after electrotonic spread along the motor axons to the ventral root. However, Lloyd & McIntyre (1949) and Lloyd (1952 a, b) regard it as having a presynaptic origin, an interpretation that will be further considered in the Discussion.…”

Section: Resultsmentioning

confidence: 89%

Spinal cord potentials generated by volleys in the large muscle afferents

Eccles¹,

Fatt²,

Landgren³

et al. 1954

The Journal of Physiology

157

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It has now been established that the large muscle afferent fibres, i.e. the group I afferent fibres of muscle nerves, are separable into two quite distinct groups, I a and I b, the former arising from the annulo-spiral endings of the muscle spindles, the latter from the Golgi tendon organs (Matthews, 1933; Bairker, 1948; Hunt & Kuffler, 1951; Hunt, 1952 Hunt, , 1953. Furthermore, impulses in the group Ia and Ib afferent fibres have quite distinct actions within the spinal cord (Granit, 1950(Granit, , 1952Laporte & Lloyd, 1952;Bradley & Eccles, 1953; Hunt & Kuffler, 1951; Hunt, 1952 Renshaw, 1946) has shown that with microelectrode recording it is possible to identify the pre-and post-synaptic components of the monosynaptic myotatic reflex, and to subdivide the total central delay of this reflex into a pre-synaptic conduction time, a true synaptic delay in the initiation ofthe synaptic potential, and finally post-synaptic events.The present investigation is an extension of this earlier work; not only is there a study of the time relations of the synaptic events evoked by group Ia and I b afferent volleys, but there has been approximate mapping of the potential fields generated in the spinal cord by their respective synaptic actions. In 1945 Campbell published elaborate maps of the potential fields generated in the spinal cord by an afferent volley, but unfortunately this volley was com-

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Section: Resultsmentioning

confidence: 89%

Spinal cord potentials generated by volleys in the large muscle afferents

Eccles¹,

Fatt²,

Landgren³

et al. 1954

The Journal of Physiology

157

View full text Add to dashboard Cite

show abstract

“…This assumption does not seem very convincing in view of the present finding that the DRP is well preserved for days and may become even higher in the isolated preparations, at a time when the VRP has disappeared. It must be admitted, considering the occlusion and asphyxia experiments (Lloyd & McIntyre, 1949;Eisenman & Rudin, 1954), that the DRP is the resultant of two or more components with different origins in the spinal cord. But since there is no visible decrease of the DRP when all the ventral part of the cord and a great part of the dorsal regions are cut away, it must be concluded that the DRP originates in a small region of the uppermost dorsal levels of the spinal cord.…”

Section: Discussionmentioning

confidence: 99%

“…The slow responses from the surface of the cord, according to the observations of Gasser & Graham (1933) and Hughes & Gasser (1934), consist of a negative deflexion with an approximate duration of 10 msec followed by a longer but lower wave lasting 80-100 msec. Dorsal root potentiafs (DRP), investigated systematically by several workers (Barron & Matthews, 1938 a, b;Eccles & Malcolm, 1946;Bremer & Bonnet, 1949;Lloyd & McIntyre, 1949) are mainly negative deflexions with a duration of more than 100 msec for mammals and 250 msec for the frog. Different time-courses were found for the ventral root potentials (VRP), which proved to be less constant than the DRP (Barron & Matthews, 1938a; Eccles, 1946;Bonnet & Bremer, 1952).…”

mentioning

confidence: 99%

Slow potentials in the dorsal parts of the isolated spinal cord and their relation to dorsal root potentials

Göpfert¹

1956

The Journal of Physiology

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“…By the same time Bonet and Bremer suggested that the activity was a consequence of activation of secondary neurons 12 . Although apparently most of the authors favored the secondary neuron suggestion, there seemed to be a general agreement "that the major part of this potential represents the electrotonic potential spread out along the primary afferent fibres …" 8 .…”

Section: Dorsal Root Reflex (Drr)mentioning

confidence: 95%

“…It is interesting to call attention to the fact that the DRP may present smaller inflections that together with the main negative peak were named DRP I, II, III, IV, V and VI 12,13 . DRP I-III represents the afferent nerve potential, DRP IV and VI are of uncertain origin and DRP V is the potential discussed in the present work (and usually called DRP) ( Figure 2).…”

Section: Dorsal Root Reflex (Drr)mentioning

confidence: 99%

The Potentials Recorded Around the Spinal Cord: Different Sides of the Same Dice

Giuliano¹,

Nunes²,

Manzano³

2013

RNC

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Introduction. Clinical Neurophysiology is strongly based on the interpretation of electric potential fields. Such interpretations may sometimes create different conceptual objects that over time end up as different sides of the same phenomenon. An instructive example is represented by the potential fields recorded around the spinal cord viewed from a historical perspective. Method. A brief historical account is given of the potentials recorded around the spinal cord. Results. Dorsal root reflex, dorsal root potential, cord dorsum potential and primary afferent depolarization are described. Conclusion. all these potentials are mainly different aspects of the same generatorthe segmental spinal cord activities -secondary to the recordings by different leads. Keywords. Evoked Potentials RESUMOIntrodução. A Neurofisiologia Clínica é pesadamente baseada na interpretação de campos elétricos de potencial. Tais interpretações podem por vezes criar objetos conceituais diferentes que com o tempo acabam mostrando-se como diferentes aspectos do mesmo fenômeno. Um exemplo ilustrativo é representado pelos campos de potenciais ao redor da medula espinhal sob uma perspectiva histórica. Método. Uma breve revisão histórica é feita dos potenciais registrados ao redor da medula espinhal. Resultados. São descritos o reflexo da raiz dorsal, o potencial da raiz dorsal, o potencial de dorso medular e a despolarização aferente primária. Conclusão. Estes potenciais são predominantemente diferentes aspectos do mesmo gerador -as atividades segmentares medulares -secundários ao registro por diferentes montagens.

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On the Origins of Dorsal Root Potentials

Cited by 153 publications

References 17 publications

Spinal cord potentials generated by volleys in the large muscle afferents

Spinal cord potentials generated by volleys in the large muscle afferents

Slow potentials in the dorsal parts of the isolated spinal cord and their relation to dorsal root potentials

The Potentials Recorded Around the Spinal Cord: Different Sides of the Same Dice

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