Sympathetic nerve pathways to the human heart, and their variations.

Stimulated by the needs of surgery, common variations in the sympathetic pathways to the heart have acquired a practical significance. The cervical and upper thoracic sympathetic trunk was dissected on 24 sides in human fetuses at term, and the cardiac rami together with their communications studied and illustrated. To enable us to classify the cervical rami according to their sites of origin, the cervical sympathetic trunk was subdivided midway between ganglia into portions called ganglionic divisions; these divisions keeping the names applied to the ganglia in the Nomina Anatomica. Intermediate ganglia were found on the visceral outflow of the sympathetic trunk and are referred to as “distal intermediate ganglia” to distinguish them from the intermediate ganglia that have been described proximal to the sympathetic trunk. Thoracic cardiac rami were almost invariably present, the third and fourth thoracic ganglia most frequently providing substantial contributions. Some thoracic cardiac rami were traced as far as the left anterior descending coronary plexus. The question of bilateral symmetry was also examined. Whilst a variety of features are commonly present on both sides, the first dissection in a cervicothoracic sympathectomy is no reliable guide to the detailed anatomy of the second side. The sympathetic pathways to the heart are extremely variable in their topography, and the diversity of arrangements encountered accounts for the morphological contradictions in the literature. So numerous are the possible variations that the outcome of a sympathectomy is unpredictable. Where denervation is incomplete, collateral sprouting and regeneration of nerves could even lead to hyperstimulation via the sympathetic pathways.

[1]  L. Palumbo,et al.  Anterior transthoracic upper dorsal sympathectomy; current results. , 1966, Archives of surgery.

[2]  N. Mizeres The cardiac plexus in man , 1963 .

[3]  L. Guth,et al.  Selectivity in the re-establishment of synapses in the superior cervical sympathetic ganglion of the cat. , 1961, Experimental neurology.

[4]  I. Jit,et al.  Observations on the anatomy of the human thoracic sympathetic chain and its branches: with an anatomical assessment of operations for hypertension. , 1960, Journal of the Anatomical Society of India.

[5]  J. D. Boyd Intermediate sympathetic ganglia. , 1957, British medical bulletin.

[6]  J. W. Thompson,et al.  Collateral sprouting in response to injury of the autonomic nervous system, and its consequences. , 1957, British medical bulletin.

[7]  J. Pick The Identification of Sympathetic Segments , 1957, Annals of surgery.

[8]  R. F. Becker,et al.  The cervical sympathetic ganglia , 1957, The Anatomical record.

[9]  H. H. Hoffman An Analysis of the Sympathetic Trunk and Rami in the Cervical and Upper Thoracic Regions in Man , 1957, Annals of surgery.

[10]  J. White The neurosurgical treatment of angina pectoris. , 1956, Journal of chronic diseases.

[11]  G. Mitchell Anatomy of the autonomic nervous system , 1953 .

[12]  J. White,et al.  THE SURGICAL RELIEF OF SEVERE ANGINA PECTORIS: METHODS EMPLOYED AND END RESULTS IN 83 PATIENTS , 1948, Medicine.

[13]  T. Skoog Ganglia in the communicating rami of the cervical sympathetic trunk. , 1947, Lancet.

[14]  S. Zuckerman Observations on the Autonomic Nervous System and on Vertebral and Neural Segmentation in Monkeys. , 1938 .

[15]  W. Garrey,et al.  CARDIAC INNERVATION: EXPERIMENTAL AND CLINICAL STUDIES , 1933 .

[16]  P. D. White,et al.  Angina Pectoris: Treatment with Paravertebral Alcohol Injections , 1928, Edinburgh Medical Journal.

[17]  A. Hovelacque Anatomie des nerfs craniens et rachidiens et du système grand sympathique chez l'homme , 1927 .

[18]  Cunningham Dj Notes on the Great Splanchnic Ganglion. , 1875 .