Surgeons should be aware of adverse effects such as bradycardia

Sympathectomy - a stress response attenuation: Surgeons should be aware of adverse effects such as bradycardia: "Surgeons should be aware of adverse effects such as bradycardia
The heart rate and systolic blood pressure decreased significantly after T2-T3 ganglionectomy.
A prolonged QT interval was also recorded (p<> 0.05). The decrease was significant in the sympathectomy group.
Our study also, it was revealed that sympathectomy significantly prolonged the QT interval.

Surgeons should be aware of adverse effects such as bradycardia during thoracic sympathectomy. This study suggested that careful monitoring was required during thoracic sympathectomy and early postoperative period.


Orhan YÜCEL, MD
GATA, Department of
Thoracic Surgery, Ankara,
TÜRKİYE/TURKEY"

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Sympathectomy interrupts neural messages that ordinarily would travel to many different organs, glands and muscles

Sympathectomy involves dissection of the main sympathetic trunk in the upper thoracic region thus interrupting neural messages that ordinarily would travel to many different organs, glands and muscles. It involves division of adrenergic, cholinergic and sensory fibers which elaborate adrenergic substances during the process of regulating visceral function.
Journal of Applied Sciences Research, 6(6): 659-664, 2010

Vascular sympathetic denervation can lead to degeneration of the smooth muscle of arteries leading to medial arterial calcification and stiffening of the arteries

Sympathetic denervation of the peripheral arterial system may occur quite early in the evolution of neuropathy and has major effects on blood flow and vascular responses and causes structural changes in the arterial wall (Edmonds 2004). Vascular sympathetic denervation can lead to degeneration of the smooth muscle of arteries leading to medial arterial calcification and stiffening of the arteries. This calcification may assume the histological characteristics of bone.

   Unilateral lumbar sympathectomy in humans, both in diabetics and non-diabetics, has been show to result in medial wall calcification on the ipsilateral side (Goebel and Fuessl 1983). Unilateral sympathectomy in animals leads to excess deposition of cholesterol on the operated side and the occurrence of cholesterol sclerosis in the rabbit's aorta was accelerated by removal of the coeliac ganglion (Harrison 1938). Furthermore, in animal models, denervation of smooth muscle leads to striking pathological changes, including atrophy of muscle fibres with foci of degeneration (Kerper and Collier 1926). Arterial calcification in initiated within senescent atrophic smooth muscle (Morgan 1980).

   Medial arterial calcification in the Pima Indians is significantly associated with an increased prevalence of cardiovascular mortality (Everhart et al 1988). Medial calcification may be important factor in development of peripheral vascular disease, which in diabetes shows a predilection for the distal arteries below the knee and is unexplained. Chantelau reported an association of below knee atherosclerosis to medial arterial calcification (Chantelau et al. 1995).

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Autonomic Failure: A Textbook of Clinical Disorders of the Autonomic Nervous System[Hardcover]

Christopher J. Mathias (Author), Roger Bannister (Author)

• Publisher: Oxford University Press, USA; 5 edition (July 24, 2013)
• Language: English
• ISBN-10: 0198566344
• ISBN-13: 978-0198566342

WISW is decreased in diabetic patients and in patients after cervical sympathectomy

Water immersion-induced skin wrinkling (WISW) is depen- dent on intact peripheral sympathetic function. WISW was hypothesized to reflect autonomic function in subjects with- out peripheral neuropathy. We prospectively studied 70 healthy subjects (aged 31 8 8 years, 63% females) without cardiovascular risk factors or neurological disease. All sub- jects underwent short-term heart rate variability (HRV) stud- ies. Time and frequency domain variables were derived in- cluding the HRV index. WISW was graded using a previously validated scale of 1–4 of which 18.6% of subjects exhibited grade 1 (minimal) WISW and 35.7% had grade 2 WISW. On multivariate analysis using the HRV index, WISW was inde- pendently related to height and the HRV index. We conclude that WISW is related to central autonomic function.

Al- though the mechanism is not fully understood, WISW is felt to be caused by passive diffusion of water across the stratum corneum into the sweat ducts, which in turn alters electrolyte balance, decreases membrane stabilization, increases sympathetic neural firing and stimulates vasoconstriction [1–3, 8]. WISW is decreased in diabetic patients and in patients after cervical sympathectomy [4, 9].

Heart rate variability (HRV) is the beat-to-beat varia- tion in cardiac cycle length due to autonomic influence on the sinus node. Decreased HRV is predictive of ad- verse cardiovascular outcomes in a variety of disease states [5]. The influence of the central nervous system ac- tivity on autonomic function suggests that HRV may be a useful prognostic indicator in patients with cerebrovas- cular events [6].

Cardiology 2010;116:247–250 DOI: 10.1159/000316043

Received: May 10, 2010

Accepted after revision: May 28, 2010 Published online: August 18, 2010