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Thoracic splanchnic nerves: implications for splanchnic denervation

Published online by Cambridge University Press:  28 November 2001

N. NAIDOO
Affiliation:
Faculty of Health Sciences, Department of Anatomy, University of Durban-Westville
P. PARTAB
Affiliation:
Faculty of Health Sciences, Department of Anatomy, University of Durban-Westville
N. PATHER
Affiliation:
Faculty of Health Sciences, Department of Anatomy, University of Durban-Westville
J. MOODLEY
Affiliation:
Faculty of Medicine, Department of Surgery, University of Natal, Durban, South Africa
B. SINGH
Affiliation:
Faculty of Medicine, Department of Surgery, University of Natal, Durban, South Africa
K. S. SATYAPAL
Affiliation:
Faculty of Health Sciences, Department of Anatomy, University of Durban-Westville
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Abstract

Splanchnic neurectomy is of value in the management of chronic abdominal pain. It is postulated that the inconsistent results of splanchnicectomies may be due to anatomical variations in the pattern of splanchnic nerves. The advent of minimally invasive and video-assisted surgery has rekindled interest in the frequency of variations of the splanchnic nerves. The aims of this study were to investigate the incidence, origin and pattern of the splanchnic nerves in order to establish a predictable pattern of splanchnic neural anatomy that may be of surgical relevance. Six adult and 14 fetal cadavers were dissected (n = 38). The origin of the splanchnic nerve was bilaterally asymmetrical in all cases. The greater splanchnic nerve (GSN) was always present, whereas the lesser splanchnic nerve (LSN) and least splanchnic nerve (lSN) were inconsistent (LSN, 35 of 38 sides (92%); LSN, 21 of 38 sides (55%). The splanchnic nerves were observed most frequently over the following ranges: GSN, T6–9: 28 of 38 sides (73%); LSN, when present, T10–11: (10 of 35 sides (29%); and lSN, T11–12: 3 of 21 sides (14%). The number of ganglionic roots of the GSN varied between 3 and 10 (widest T4–11; narrowest, T5–7). Intermediate splanchnic ganglia, when present, were observed only on the GSN main trunk with an incidence of 6 of 10 sides (60%) in the adult and 11 of 28 sides (39%) in the fetus. The higher incidence of the origin of GSN above T5 has clinical implications, given the widely discussed technique of undertaking splanchnicectomy from the T5 ganglion distally. This approach overlooks important nerve contributions and thereby may compromise clinical outcome. In the light of these variations, a reappraisal of current surgical techniques used in thoracoscopic splanchnicectomy is warranted.

Type
Research Article
Copyright
© Anatomical Society of Great Britain and Ireland 2001

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