Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/the-organization-of-the-dorsal-root-entry-zone-in-cats-and-monkeys-v8Zwop2BMU
References (26)
-
D. Spivy, J. Metcalf (1959)
Differential effect of medial and lateral dorsal root sections upon subcortical evoked potentials.Journal of neurophysiology, 22 4
-
(1963)
Electron microscopic observations on the dorsal root-spinal cord junction -
M. Sindou, G. Fischer, A. Goutelle, L. Mansuy (1974)
[Selective surgery of posterior nerve roots. First results of surgery for pain].Neuro-Chirurgie, 20 5
-
Nathaniel Ej (1963)
PEASE DC: DEGENERATIVE CHANGES IN RAT DORSAL ROOTS DURING WALLERIAN DEGENERATION.Journal of Ultrastructure Research, 52
-
P. Wall (1962)
The origin of a spinal‐cord slow potentialThe Journal of Physiology, 164
-
R. Walter (1914)
An experimental study of lissauer's tract and the dorsal rootsJournal of Comparative Neurology, 24
-
(1970)
S. L. Palay and H. F. Webster -
M. Sindou, C. Quoex, C. Baleydier (1974)
Fiber organization at the posterior spinal cord‐rootlet junction in manJournal of Comparative Neurology, 153
-
S. Ranson, P. Billingsley (1916)
THE CONDUCTION OF PAINFUL AFFERENT IMPULSES IN THE SPINAL NERVES: Studies in Vasomotor Reflex Arcs. IIAmerican Journal of Physiology, 40
-
Bechterew (1888)
Ueber die hinteren Nervenwurzeln, ihre Endigung in der grauen Substanz des Ruckenmarkes und ihre centrale Fortsetzung im LetzterenAmerican Journal of Psychology, 1
-
O. Hyndman, J. Wolkin (1943)
ANTERIOR CHORDOTOMY: FURTHER OBSERVATIONS ON PHYSIOLOGIC RESULTS AND OPTIMUM MANNER OF PERFORMANCEJournal of Nervous and Mental Disease, 50
-
(1974)
La radicellotomie posterieure selective. Premiers resultats dans la chirurgie de la doreleur -
(1942)
Lissauer's tract section: contribution to chordotomy for relief of pain -
B. Rexed (1954)
A cytoarchitectonic atlas of the spinal coed in the catJournal of Comparative Neurology, 100
-
N. Viner (1928)
The Anatomy of the Nervous System.Canadian Medical Association Journal, 18
-
S. Ranson (1913)
The course within the spinal cord of the non‐medullated fibers of the dorsal roots: A study of Lissauer's tract in the catJournal of Comparative Neurology, 23
-
F. Kerr (1975)
Neuroanatomical substrates of nociception in the spinal cordPAIN, 1
-
(1885)
Beitrag zur pathologischen Anatomie der Tabes dorsalis und zum Faserverlauf in menschlichen Ruckenmark -
J. Steer (1971)
Some observations on the fine structure of rat dorsal spinal nerve roots.Journal of anatomy, 109 Pt 3
-
H. Walls (1949)
Photography in Forensic ScienceNature, 164
-
Heinrich Lissauer (1952)
The tract of lissauer and its possible relation to the pain pathwayJournal of Comparative Neurology, 96
-
J. Szentágothai (1964)
Neuronal and synaptic arrangement in the substantia gelatinosa rolandiJournal of Comparative Neurology, 122
-
A. Kölliker
Zur feineren Anatomie des centralen Nervensystems -
S. Ranson (1914)
The tract of Lissauer and the substantia gelatinosa RolandiAmerican Journal of Anatomy, 16
-
H. Gamble (1964)
COMPARATIVE ELECTRON-MICROSCOPIC OBSERVATIONS ON THE CONNECTIVE TISSUES OF A PERIPHERAL NERVE AND A SPINAL NERVE ROOT IN THE RAT.Journal of anatomy, 98
-
11614-03 to Doctor H. J. Ralston 111. LITERATURE CITED
- Publisher
- Wiley
- Copyright
- "Copyright © 1977 Wiley Subscription Services, Inc., A Wiley Company"
- ISSN
- 0021-9967
- eISSN
- 1096-9861
- DOI
- 10.1002/cne.901740104
- pmid
- 405405
- Publisher site
- See Article on Publisher Site
Abstract
In five adult cats and three adult monkeys the dorsal rootlets at cervical and various lumbar levels were examined by both light and electron microscopy. In both species, the rootlets could be divided into three anatomically distinct parts: a peripheral, a transitional, and a central zone. The anatomy of the peripheral and transitional parts of the cat were identical with those of the monkey. The peripheral part of the rootlet in both these species had many of the ultrastructural characteristics of a peripheral nerve: and, as in the peripheral nerve, the small caliber axons were randomly distributed throughout the rootlet. In the transitional part of the rootlet, where the anatomical characteristics change to those typifying the tracts of the central nervous system, the unmyelinated axons and small caliber myelinated axons become organized into bundles at the periphery of the fascicles of large myelinated axons. In the central part there were differences between the two species in the distribution of the unmyelinated axons. In the cat no reorganization of the fibers of the central part of the rootlet could be found: the rootlets entered the cord and passed through the dorsal part of Lissauer's tract, and the bundles of unmyelinated axons simply merged with the tract as they came into contact with it. In the monkey, however, the dorsal root enters dorsal to Lissauer's tract and as each part of the rootlet passed from transitional to central, the small caliber axons took a ventrolateral course within the rootlet. As the rootlet merged with the dorsal columns, these axons formed a single bundle on the ventral and lateral surface of the rootlet which then merged with Lissauer's tract. These results indicate that a “lateral division” of the dorsal root is present in the monkey, but not the cat.
Journal
The Journal of Comparative Neurology – Wiley
Published: Jan 1, 1977