scholarly journals Neural-Dural Transition at the Thoracic and Lumbar Spinal Nerve Roots: A Histological Study of Human Late-Stage Fetuses

2016 ◽  
Vol 2016 ◽  
pp. 1-9 ◽  
Author(s):  
Kwang Ho Cho ◽  
Zhe Wu Jin ◽  
Hiroshi Abe ◽  
Shunichi Shibata ◽  
Gen Murakami ◽  
...  
Keyword(s):  
Dorsal Root Ganglion ◽  
Late Stage ◽  
Nerve Root ◽  
Dorsal Root ◽  
Histological Study ◽  
Spinal Nerve ◽  
Nerve Roots ◽  
Artery Of Adamkiewicz ◽  
Lumbar Spinal ◽  
Upper Thoracic

Epidural blocks have been used extensively in infants. However, little histological information is available on the immature neural-dural transition. The neural-dural transition was histologically investigated in 12 late-stage (28–30 weeks) fetuses. The dural sheath of the spinal cord was observed to always continue along the nerve roots with varying thicknesses between specimens and segments, while the dorsal root ganglion sheath was usually very thin or unclear. Immature neural-dural transitions were associated with effective anesthesia. The posterior radicular artery was near the dorsal root ganglion and/or embedded in the nerve root, whereas the anterior radicular artery was separated from the nearest nerve root. The anterior radicular artery was not associated with the dural sheath but with thin mesenchymal tissue. The numbers of radicular arteries tended to become smaller in larger specimens. Likewise, larger specimens of the upper thoracic and lower lumbar segments did not show the artery. Therefore, elimination of the radicular arteries to form a single artery of Adamkiewicz was occurring in late-stage fetuses. The epidural space was filled with veins, and the loose tissue space extended ventrolaterally to the subpleural tissue between the ribs. Consequently, epidural blocks in infants require special attention although immature neural-dural transitions seemed to increase the effect.

Lumbosacral intersegmental epispinal axons and ectopic ventral nerve rootlets

1987 ◽  
Vol 67 (2) ◽  
pp. 269-277 ◽  
Author(s):  
Wesley W. Parke ◽  
Ryo Watanabe
Keyword(s):  
Nerve Root ◽  
Sensory Nerve ◽  
Conus Medullaris ◽  
Spinal Nerve ◽  
Nerve Fibers ◽  
Ventral Horn ◽  
Spinal Nerve Roots ◽  
Nerve Roots ◽  
Content Type ◽  
Almost All

✓ An epispinal system of motor axons virtually covers the ventral and lateral funiculi of the human conus medullaris between the L-2 and S-2 levels. These nerve fibers apparently arise from motor cells of the ventral horn nuclei and join spinal nerve roots caudal to their level of origin. In all observed spinal cords, many of these axons converged at the cord surface and formed an irregular group of ectopic rootlets that could be visually traced to join conventional spinal nerve roots at one to several segments inferior to their original segmental level; occasional rootlets joined a dorsal nerve root. As almost all previous reports of nerve root interconnections involved only the dorsal roots and have been cited to explain a lack of an absolute segmental sensory nerve distribution, it is believed that these intersegmental motor fibers may similarly explain a more diffuse efferent distribution than has previously been suspected.

scholarly journals Acupuncture Analgesia in a Patient with a Lumbar Spinal Nerve Root Schwannoma – A Case Report

2016 ◽  
Vol 2 (1) ◽  
Author(s):  
Panagiotis Zogopoulos ◽  
Anastasios Venetikidis ◽  
Georgios Vretakos ◽  
Dimitrios Rologis
Keyword(s):  
Case Report ◽  
Nerve Root ◽  
Spinal Nerve ◽  
Acupuncture Analgesia ◽  
Spinal Nerve Root ◽  
Lumbar Spinal

scholarly journals Comparison of histological changes of sensory neurons of Dorsal Root Ganglion of spinal nerve in different age groups in rabbits

2015 ◽  
Vol 39 (2) ◽  
pp. 42-46
Author(s):  
Ali Ghanim Al-Okaili
Keyword(s):  
Dorsal Root Ganglion ◽  
Sensory Neurons ◽  
Light Microscope ◽  
Dorsal Root ◽  
Age Factors ◽  
Age Groups ◽  
Spinal Nerve ◽  
Histological Changes ◽  
Made In

     The aim of the study is to compare the histological changes that occur in the sensory neurons of dorsal root ganglion at L6 and L7 levels of the spinal nerve in different age groups in rabbits. Fifteen rabbits were divided into three groups of equal number according to their age (weaning, maturation and adult). Dorsal root ganglion of spinal nerve at L6 and L7 levels were removed and examined histologically under light microscope. Comparison were made in diameters of neurons and their numbers in different age. The results showed a significant (P<0.05) decrease in the number of sensory neurons and a significant (P<0.05) increase in their diameters with advancing age. In conclusion, the structures of sensory neurons are altering by the age factors in which morphology, number, and color of neurons change also.

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