"Patients with progressive autonomic dysfunction (including diabetes) have little or no increase in plasma noradrenaline and this correlates with their orthostatic intolerance (Bannister, Sever and Gross, 1977). In patients with pure autonomic failure, basal levels of noradrenaline are lower than in normal subjects (Polinsky, 1988). Similar low values are observed in patients with sympathectomy and in patients with tetraplegia. (p.51)
The finger wrinkling response is abolished by upper thoracic sympathectomy. The test is also abnormal in some patients with diabetic autonomic dysfunction, the Guillan-Barre syndrome and other peripheral sympathetic dysfunction in limbs. (p.46)
Other causes of autonomic dysfunction without neurological signs include medications, acute autonomic failure, endocrine disease, surgical sympathectomy . (p.100)
Anhidrosis is the usual effect of destruction of sympathetic supply to the face. However about 35% of patients with sympathetic devervation of the face, acessory fibres (reaching the face through the trigeminal system) become hyperactive and hyperhidrosis occurs, occasionally causing the interesting phenomenon of alternating hyperhidrosis and Horner's Syndrome (Ottomo and Heimburger, 1980). (p.159)
Disorders of the Autonomic Nervous System
By David Robertson, Italo Biaggioni
Edition: illustrated
Published by Informa Health Care, 1995
ISBN 3718651467, 9783718651467"
Sunday, 30 November 2014
Patients with surgical sympathectomies have low plasma levels of DA and NE [49], whereas EPI:NE ratios are increased
Patients with surgical sympathectomies have low plasma levels of DA and NE [49], whereas EPI:NE ratios are increased (unpublished observations), suggesting decreased sympathetically mediated exocytosis and compensatory adrenomedullary activation.
Catecholamines 101, David S. Goldstein Clin Auton Res (2010) 20:331–352
sympathectomy results in a pronounced increase of cerebrospinal fluid production
Electrical stimulation of the sympathetic nerves, which originate in the superior cervical ganglia, induces as much as 30% reduction in the net rate of cerebrospinal fluid (CSF) production, while sympathectomy results in a pronounced increase, about 30% above control, in the CSF formation. There is strong reason to believe that the choroid plexus is under the influence of a considerable sympathetic inhibitory tone under steady-state conditions.
Saturday, 29 November 2014
"Sympathectomy is a destructive procedure that interrupts the sympathetic nervous system"
Cervico-thoracic or lumbar sympathectomy for neuropathic pain | Cochrane Summaries: "Sympathectomy is a destructive procedure that interrupts the sympathetic nervous system. Chemical sympathectomies use alcohol or phenol injections to destroy sympathetic nervous tissue (the so-called "sympathetic chain" of nerve ganglia). Surgical ablation can be performed by open removal or electrocoagulation (destruction of tissue with high-frequency electrical current) of the sympathetic chain, or by minimally invasive procedures using thermal or laser interruption. Nerve regeneration commonly occurs following both surgical or chemical ablation, but may take longer with surgical ablation.
This systematic review found only one small study (20 participants) of good methodological quality, which reported no significant difference between surgical and chemical sympathectomy for relieving neuropathic pain. Potentially serious complications of sympathectomy are well documented in the literature, and one (neuralgia) occurred in this study.
The practice of sympathectomy for treating neuropathic pain is based on very weak evidence. Furthermore, complications of the procedure may be significant."
'via Blog this'
This systematic review found only one small study (20 participants) of good methodological quality, which reported no significant difference between surgical and chemical sympathectomy for relieving neuropathic pain. Potentially serious complications of sympathectomy are well documented in the literature, and one (neuralgia) occurred in this study.
The practice of sympathectomy for treating neuropathic pain is based on very weak evidence. Furthermore, complications of the procedure may be significant."
'via Blog this'
Sunday, 16 November 2014
The biology and control of surface overhealing
Lesions of “surface overhealing” include keloid, hypertrophic scar, and burn scar. All are characterized by overabundant collagen deposition. The biology of these lesions is reviewed, suggesting that abnormal collagen metabolism results from alterations in the inflammatory/immune response. Practical and theoretical treatment plans are outlined based on methods that alter collagen metabolism, the inflammatory/immune system or rely on physical alterations (surgery, pressure).
http://www.springerlink.com/content/3g2mr5r32m438125/
Monday, 10 November 2014
Blood diverted from muscle to skin after sympathectomy
However, the clinical results of both surgical and neurolityc sympathectomy are uncertain. Indeed these procedures lead to a redistribution of the blood flow in the lower limbs from the muscle to the skin, with a concomitant fall of the regional resistance, mainly in undamaged vessels. The blood flow will be diverted into this part of the vascular tree, so that a "stealing" of the blood flow may occur.
Vito A. Peduto, Giancarlo Boero, Antonio Marchi, Riccardo Tani
Bilateral extensive skin necrosis of the lower limbs following prolonged epidural blockade
Anaesthesia 1976; 31: 1068-75.
Wednesday, 5 November 2014
sympathectomy must somehow quiet the contralateral spread of spinal cord hyperexcitability underlying mirror-image pain
Blocking sympathetic function, whether by surgical sympathectomy, systemic phentolamine, or systemic guanethidine, relieves partial nerve injury-induced neuropathic pain in laboratory animal models as well as humans (8, 35, 146, 239, 278). Indeed, sympathectomy does not just relieve pathological pain in the body region ipsilateral to the CRPS-initiating event; rather, it also relieves pain arising from anatomically impossible mirror-image sites, that is, the identical body region contralateral to the initiating event (278). Thus sympathectomy must somehow quiet the contralateral spread of spinal cord hyperexcitability underlying mirror-image pain.
Alterations in sympathetic fibers rapidly follow peripheral nerve injury. This occurs as sprouting of sympathetic fibers, creating aberrant communication pathways from the new sympathetic terminals to sensory neurons (35). Sympathetic sprouting has been documented in the region of peripheral terminal fields of sensory neurons (262), at the site of nerve trauma (57), and within the dorsal root ganglia (DRG) containing cell bodies of sensory neurons (248, 343). Each of these sites develops spontaneous activity and sensitivity for catecholamines and sympathetic activation (8, 53).
The clearest evidence that immune activation participates in sympathetic sprouting comes from studies of the DRG. DRG cells receive signals that peripheral nerve injury has occurred via retrograde axonal transport from the trauma site. These retrogradely transported signals trigger sympathetic nerve sprouting into DRG (205, 308). As a result of nerve damage-induced retrogradely transported signals, glial cells within the DRG (called satellite cells) proliferate (248) and become activated (343); macrophages are recruited to the DRG as well (63, 176). In turn, the activated satellite glial cells (and, presumably, the macrophages) release proinflammatory cytokines and a variety of growth factors into the extracellular fluid of the DRG (206, 246 –248, 258, 277, 308, 358). These substances stimulate and direct the growth of sympathetic fibers, which form basket-like terminals around the satellite cells that, in turn, surround neuronal cell bodies (247, 248, 343).
Until recently, the sympathetic sprouting, rather than the glial (satellite cell) activation, has attracted the attention of pain researchers. The satellite cells were ignored as they were thought to be irrelevant to the creation of exaggerated pain states. However, it may be speculated that the satellite cells, rather than the sympathetic sprouts, have the most impact on pain.
Physiol Rev • VOL 82 • OCTOBER 2002 • www.prv.org
Beyond Neurons: Evidence That Immune and Glial Cells
Contribute to Pathological Pain States
LINDA R. WATKINS AND STEVEN F. MAIER
Department of Psychology and the Center for Neuroscience,
University of Colorado at Boulder, Boulder, Colorado
RA, lupus and other connective tissue disorders may have abnormalities of sympathetic postganglionic function
Rheumatoid arthritis, systemic lupus erythematosus, and other connective tissue disorders may have abnormalities of sympathetic postganglionic function. Some of these patients may have autoantibodies to ganglionic acetylcholine receptors. Autoimmune thyroiditis, as with chronic thyroiditis and Hashimoto thyroiditis, can be associated with some features of Sjögren syndrome such as xerostomia. Patients with systemic sclerosis and mixed connective tissue disorder may have abnormalities of autonomic functioning of esophageal motor activity.
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