Anatomical Variations in the Communicating Rami of the Upper Thoracic Sympathetic Ganglia Related to the Essential Palmar Hyperhidrosis.
- Author:
Hyun Min CHO
1
;
Kil Dong KIM
;
Sak LEE
;
Kyung Young CHUNG
Author Information
1. Department of Thoracic and Cardiovascular Surgery, Yonsei University College of Medicine, Seoul, Korea. kychu@yumc.yonsei.ac.kr
- Publication Type:Original Article
- Keywords:
Hyperhidrosis;
Anatomy;
regional
- MeSH:
Adult;
Brachial Plexus;
Cadaver;
Female;
Ganglia, Sympathetic*;
Ganglion Cysts;
Hand;
Humans;
Hyperhidrosis*;
Incidence;
Intercostal Nerves;
Recurrence;
Ribs;
Spinal Nerves
- From:The Korean Journal of Thoracic and Cardiovascular Surgery
2003;36(3):182-188
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
BACKGROUND: Although ramicotomy (division of the rami communicantes of the thoracic sympathetic ganglia) is a selective and physiological surgical method for essential hyperhidrosis, it has some problems such as higher recurrence rates and the different surgical results among the patients and between left and right sides in the same individual. As one of the factors that are related to the differences in surgical result and recurrences, we investigated the anatomical variations of the rami communicantes. The purpose of this study is to help develop new surgical methods to decrease surgical differences among the patients or between the left and right sides of the same individual and recurrence rates in the clinical application of ramicotomy. MATERIAL AND METHOD: We dissected 118 thoracic sympathetic chains in 59 adult Korean cadavers (male: 33, female: 26) to examine the anatomical variations of the rami communicantes from the second to the fourth thoracic sympathetic ganglia that have major components innervating to the hands. After the dissection of bilateral thoracic sympathetic chains, we compared the anatomy of left and right sides and examined the anatomical variations of rami communicantes. RESULT: The number and variation of communicating rami connecting the spinal nerves and the second sympathetic thoracic ganglion were much larger than lower levels. There was considerably less variability in the anatomy of the rami communicantes at successive levels. Among the 59 cadavers dissected, only 14.3% (9/59) had similar anatomy of thoracic sympathetic chains at both sides. As the components related to the essential palmar hyperhidrosis, intrathoracic nerve of Kuntz from the second thoracic sympathetic ganglion to the first intercostal nerve or brachial plexus were observed in 55.9% (66/118). The incidence of descending rami communicates from the second thoracic sympathetic ganglion to the third intercostal nerve and from the third thoracic sympathetic ganglion to the fourth intercostal nerve were 49.2% (58/118) and 28.0% (33/118). And the incidence of ascending rami communicates from the third thoracic sympathetic ganglion to the second intercostal nerve and from the fourth thoracic sympathetic ganglion to the third intercostal nerve were 6.8% (8/118) and 3.4% (4/118), respectively. CONCLUSION: Based on the various anatomical evidences of the rami communicantes from this study, only the ramicotomy at the third sympathetic ganglion level is insufficient for the treatment of the essential palmar hyperhidrosis to decrease the difference of surgical results and recurrences. When one is planning to perform the ramicotomy for the essential palmar hyperhidrosis, it is advantageous to divide the intrathoracic nerve of Kuntz on the second rib and the descending or ascending rami communicantes on the third and the fourth ribs as well as all the communicating rami from the third sympathetic ganglion.