Sympathectomy - a medical fraud: 2015

Sympathectomy: a neurocardiologic disorder

Bilateral thoracic sympathectomies or sympathotomies are done for refractory palmar hyperhidrosis [85–87]. Iontophoresis, botulinum toxin injection, and glycopyrrolate cream are alternatives. Because sweating is mediated mainly by sympathetic cholinergic fibers, autonomic neurosurgery is usually effective; however, a variety of expected and unexpected consequences can result, including ectopic (e.g., plantar) hyperhidrosis, gustatory sweating, Horner syndrome, and decreased heart rate responses to exercise. The latter seems to be related to partial cardiac denervation [88]. Anecdotally, fatigue, altered mood, blunted emotion, and decreased ability to concentrate can develop after bilateral thoracic sympathectomies.

β-Adrenoceptor blockers are a mainstay of treatment for CPVT. An automated defibrillator may have to be implanted. Treatment for CPVT also includes left sympathectomy. Such treatment leaves open the theoretical possibilities of denervation supersensitivity of cardiac adrenoceptors and compensatory activation of the adrenomedullary hormonal system; however, plasma levels of catecholamines have not been assessed in CPVT with or without therapeutic cardiac denervation.

Table 1. Neurocardiologic disorders that feature abnormal catecholaminergic function

Disorders where abnormal catecholaminergic function is etiologic Hypofunctional states without central neurodegeneration
Acute, primary
Neurocardiogenic syncope Spinal cord transection Acute pandysautonomia Sympathectomy
Acute, secondary
Drug-related (e.g., alcohol, tricyclic antidepressant, chemotherapy, opiate, barbiturates, benzodiazepines, sympatholytics, general anesthesia)
Seizures
Guillain–Barre syndrome Alcohol

Chronic, primary

Pure autonomic failure
Horner's syndrome
Familial dysautonomia
Carotid sinus syncope

Adie's syndrome Dopamine-β-hydroxylase deficiency
Sympathectomy

http://onlinelibrary.wiley.com/doi/10.1111/j.1755-5922.2010.00244.x/full

https://archive.is/UMW1w

the clinical results of both surgical and neurolityc sympathectomy are uncertain

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.

sympathectomy created imbalance of autonomic activity and functional changes of the intrathoracic organs

Surgical thoracic sympathectomy such as ESD (endoscopic thoracic sympathectic denervation) or heart transplantation can result in an imbalance between the sympathetic and parasympathetic activities and result in functional changes in the intrathoracic organs.

Therefore, the procedures affecting sympathetic nerve functions, such as epidural anesthesia, ESD, and heart transplantation, may cause an imbalance between sympathetic and parasympathetic activities (1, 6, 16, 17). Recently, it has been reported that ESD results in functional changes of the intrathoracic organs.

In conclusion, our study demonstrated that ESD adversely affected lung function early after surgery and the BHR was affected by an imbalance of autonomic activity created by bilateral ESD in patients with primary focal hyperhidrosis.
Journal of Asthma, 46:276–279, 2009
http://informahealthcare.com/doi/abs/10.1080/02770900802660949

Sympathectomy at the level of the T2 ganglion leads to decreased negative feedback to the hypothalamus

Compensatory sweating was originally thought to be a mechanism of excessive sweating (in an anatomical region with an intact sympathetic nervous system) to maintain a constant rate of total sweat secretion.90 However, this theory was not confirmed by other studies, demonstrating that compensatory sweating represented a reflex action by an altered feedback mechanism at the level of the hypothalamus which is dependent on the level at which sympathetic denervation occurs. Sympathectomy at the level of the T2 ganglion leads to decreased negative feedback to the hypothalamus. When performing a sympathectomy at a lower level, the negative feedback to the hypothalamus is less inhibited, leading to a decrease in compensatory sweating. Chou et al.91 have proposed the term ‘reflex sweating’ to replace compensatory sweating. Other side effects described in a review article by Dumont89 are gustatory sweating, cardiac effects, phantom sweating, lung function changes, dry hands and altered taste. Besides these side effects there are significant risks of complications during and after surgery (arterial or venous vascular injury, pneumothorax, infection, Horner syndrome etc.).

JEADV 2012, 26, 1–8 Journal of the European Academy of Dermatology and Venereology

peripheral sympathectomy causes a dramatic increase in NGF levels in the denervated organs

Increased Nerve Growth Factor Messenger RNA and Protein

Peripheral NGF mRNA and protein levels following
sympathectomy
It has been shown previously that peripheral sympathectomy
causes a dramatic increase in NGF levels in the denervated
organs (Yap et al., 1984; Kanakis et al., 1985; Korsching and
Thoenen, 1985).
Increased ,&Nerve Growth Factor Messenger RNA and Protein
Levels in Neonatal Rat Hippocampus Following Specific Cholinergic
Lesions
Scott R. Whittemore,” Lena Liirkfors,’ Ted Ebendal,’ Vicky R. Holets, 2,a Anders Ericsson, and HBkan Persson
Departments of Medical Genetics and’ Zoology, Uppsala University, S-751 23 Uppsala, Sweden, and *Department of
Histology, Karolinska Institute, S-104 01 Stockholm, Sweden

Sympathectomy reduces emotional, stress-induced sweating indicating that it affects the stress-response

"...for reasons that are not obvious, many patients with facial hyperhidrosis and hyperhidrosis of the feet will benefit from upper thoracic sympathectomy. "

(The Journal of Pain, Vol 1, No 4 (Winter), 2000: pp 261-264)

"Bilateral upper thoracic sympathicolysis is followed by redistribution of body perspiration, with a clear decrease in the zones regulated by mental or emotional stimuli, and an increase in the areas regulated by environmental stimuli, though we are unable to establish the etiology of this redistribution."

(Surg Endosc. 2007 Nov;21(11):2030-3. Epub 2007 Mar 13.)

"Palmar hyperhidrosis of clinical severity is a hallmark physical sign of many anxiety disorders, including generalized anxiety disorder, panic disorder, posttraumatic stress disorder, and especially social phobia.4 These are increasingly well understood and highly treatable neurobiological conditions. They are moderately heritable hard-wired fear responses,5 and are linked to amygdalar and locus coeruleus hyper-reactivity during psycho- social stress.6,7 Anxiety disorders are known to be much more common among women. This is consistent with the finding of Krogstad et al. that among controls sweating was reported more often by men, while among the hyperhidrosis group sweating was reported more often among women."

"A surgical treatment for anxiety-triggered palmar hyperhidrosis is not unlike treating tearfulness in major depression by severing the nerves to the lacrimal glands. We have recently made a similar argument advocating a psychopharmacological, rather then a surgi- cal, first-line treatment for blushing.9"
(Journal Compilation - 2006 British Association of Dermatologists - British Journal of Dermatology 2006, DOI: 10.1111/j.1365-2133.2006.07547.x)

Peripheral, autonomic regulation of locus coeruleus noradrenergic neurons in brain: putative implications for psychiatry and psychopharmacology

the new data seem to allow a better understanding of how autonomic vulnerability or visceral dysfunction may precipitate or aggravate mental symptoms and disorder.

T. H. Svensson1

(1) Department of Pharmacology, Karolinska Institute, Box 60 400, S-104 01 Stockholm, Sweden
Received: 20 June 1986 Revised: 25 November 1986
Psychopharmacology

"Locus coeruleus (LC) is located in the ventrallateral side of the fourth ventricle in the pontine, most of which are noradrenergic neurons projecting to the cortex, cingulate cortex, amygdala nucleus, thalamus, hypothalamus, olfactory tubercles, hippocampus, cerebellum, and spinal cord (Swanson and Hartman, 1975). Norepinephrine (NE) released from the nerve terminal of LC neurons contributes to about 70% of the total extracellular NE in primates brain (Svensson, 1987). It plays important roles not only in arousal, attention, emotion control, and stress (reviewed in Aston-Jones and Cohen, 2005; Berridge and Waterhouse, 2003; Bouret and Sara, 2005; Nieuwenhuis et al., 2005; Sara and Devauges, 1989; Valentino and Van Bockstaele, 2008), but also in sensory information processing (Svensson, 1987). LC directly modulates the somatosensory information from the peripheral system. Under the stress condition, LC could completely inhibit the input from painful stimuli through the descending projection to the spinal cord (Stahl and Briley, 2004). Dys-regulations of LC neurotransmission have been suggested to be involved in physical painful symptoms, attention deficit hyperactivity disorder (ADHD), sleep/arousal disorder, post-traumatic stress disorder, depression, schizophrenia, and Parkinson's disease (reviewed in Berridge and Waterhouse, 2003; Grimbergen et al., 2009; Mehler and Purpura, 2009)."

http://journal.frontiersin.org/Journal/10.3389/fnmol.2012.00029/full

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sympathectomy interrupts neural messages to many different organs, glands and muscles

sympathectomy affects the heart, sweating, and circulation

heart rate was significantly reduced at rest (14%), at sub-maximal exercise (12.3%), and at peak exercise (5.7%), together with a significant increase in oxygen pulse (11.8, 12.7, and 7.8%, respectively). The rate pressure product (RPP) was also significantly reduced following the surgical procedure at all three study stages, while all other physiological variables measured remained unchanged. It is suggested that thoracic-sympathetic denervation affects the heart, sweating, and circulation of the respective denervated region

Eur J Appl Physiol. 2008 Sep;104(1):79-86. Epub 2008 Jun 10.

cell body reorganization in the spinal cord after sympathectomy

The amount of compensatory sweating depends on the patient, the damage that the white rami communicans incurs, and the amount of cell body reorganization in the spinal cord after surgery.
Other potential complications include inadequate resection of the ganglia, gustatory sweating, pneumothorax, cardiac dysfunction, post-operative pain, and finally Horner’s syndrome secondary to resection of the stellate ganglion.
www.ubcmj.com/pdf/ubcmj_2_1_2010_24-29.pdf

After severing the cervical sympathetic trunk, the cells of the cervical sympathetic ganglion undergo transneuronic degeneration
After severing the sympathetic trunk, the cells of its origin undergo complete disintegration within a year.
http://onlinelibrary.wiley.com/doi/10.1111/j.1439-0442.1967.tb00255.x/abstract

Acquired cardiovascular disease following Sympathectomy

We found statistically significant differences (P < .05) in both time and frequency domains. Parameters that evaluate global cardiac autonomic activity (total power, SD of normal R-R intervals, SD of average normal R-R intervals) and vagal activity (rhythm corresponding to percentage of normal R-R intervals with cycle greater than 50 ms relative to previous interval, square root of mean squared differences of successive normal R-R intervals, high-frequency power, high-frequency power in normalized units) were statistically significantly increased after sympathectomy. Low-frequency power in normalized units, reflecting sympathetic activity, was statistically significantly decreased after sympathectomy. Low-/high-frequency power ratio also showed a significant decrease, indicating relative decrease in sympathetic activity and increase in vagal activity.

The Journal of Thoracic and Cardiovascular Surgery
Volume 137, Issue 3, March 2009, Pages 664-669

decreased conditioning-related activity in insula and amygdala after autonomic denervation

The degree to which perceptual awareness of threat stimuli and bodily states of arousal modulates neural activity associated with fear conditioning is unknown. We used functional magnetic neuroimaging (fMRI) to study healthy subjects and patients with peripheral autonomic denervation to examine how the expression of conditioning-related activity is modulated by stimulus awareness and autonomic arousal. In controls, enhanced amygdala activity was evident during conditioning to both "seen" (unmasked) and "unseen" (backward masked) stimuli, whereas insula activity was modulated by perceptual awareness of a threat stimulus. Absent peripheral autonomic arousal, in patients with autonomic denervation, was associated with decreased conditioning-related activity in insula and amygdala. The findings indicate that the expression of conditioning-related neural activity is modulated by both awareness and representations of bodily states of autonomic arousal.

http://www.ncbi.nlm.nih.gov/pubmed/11856537

LIMITED SYMPATHECTOMY DOES NOT REDUCE SEVERITY OF SIDE-EFFECTS

On univariate and multivariate analysis, the extent of denervation was not associated with the occurrence or the severity of compensatory sweating.

Compensatory sweating and temporary relief/recurrence were equally considered to be the main causes of dissatisfaction. CONCLUSION: Compensatory sweating was the most common long-term complication of thoracodorsal sympathectomy for primary hyperhidrosis. Its incidence and severity were not associated with the extent of sympathectomy.

http://www.ncbi.nlm.nih.gov/pubmed/12514588

Muliptle organ failure as a consequence of elective sympathectomy

In the post-sympathectomy patient, the abnormalsympathetic skin response may lead to peripheral vascular failureor the reduced cardiac chronotropic response may impair thebody’s capacity to compensate for shock. These may havecontributed to the rapid development of shock and severe multipleorgan dysfunction syndrome in this patient.
He had multiple organ dysfunction syndrome develop, with severerenal and hepatic failure, grade II hepatic encephalopathy,and disseminated intravascular coagulation. He responded remarkablywell to aggressive supportive measures including forced alkalinediuresis, and he was eventually discharged home after 1 month. The patient was previously a healthy, physically fit, nonsmoker.He worked as a body building trainer and led an active, sportylifestyle. The only significant medical history was that hehad received thoracic sympathectomy for axillary hyperhidrosis4 years ago at another hospital.

http://ats.ctsnetjournals.org/cgi/content/full/84/3/1025

Hemodynamic changes in vertebral and carotid arteries were observed after sympathicotomy for PH

Atelectasis is a common pulmonary complication following thoracic and upper abdominal procedures

General anesthesia and surgical manipulation lead to atelectasis by causing diaphragmatic dysfunction and diminished surfactant activity. The atelectasis is typically basilar and segmental in distribution. After induction of anesthesia, atelectasis increases from 1 to 11% of total lung volume. End-expiratory lung volume is also found to be decreased.

Postoperative atelectasis is extremely common. Lobar atelectasis is also common. The incidence and prevalence of this disorder are not well documented.

http://emedicine.medscape.com/article/296468-overview#a0104

Atelectasis occurs regularly after induction of general anesthesia, persists postoperatively, and may contribute to significant postoperative morbidity and additional health care costs. Laparoscopic surgery has been reported to be associated with an increased incidence of postoperative atelectasis.

Anesth Analg 2009; 109:1511-1516

RESPONSE TO SYMPATHETIC BLOCKADE DEPENDS ON THE DEGREE OF SYMPATHETIC TONE BEFORE THE BLOCK

Denervation of preganglionic cardiac accelerator fibres leaving the cord at T1-T5 results in minimal vasodilatory consequences. Changes however in heart rate, left ventricular function and myocardial oxygen demand may occur due to high thoracic epidural blockade and are discussed below.

The major determinant of heart rate is the balance between sympathetic and parasympathetic systems with the latter predominating. A high thoracic epidural anaesthesia (TEA) covering the cardiac segments (T1-T4) produces small but significant reductions in heart rate4-8. During cardiac sympathetic denervation, parasympathetic cardiovascular responses, including those involved in baroreflexes, may dominate.

Individual cardiovascular response to different levels of sympathetic blockade varies widely, depending on the degree of sympathetic tone before the block.
Anaesth Intensive Care 2000; 28: 620-635
B. T. VEERING*, M. J. COUSINS†
Department of Anesthesiology, Leiden University Medical Center, Leiden, The Netherlands and Department of Anaesthesia and
Pain Management, University of Sydney, Royal North Shore Hospital, Sydney, New South Wales

Cell body reorganization in the spinal cord after elective surgery to treat sweaty palms

The amount of compensatory sweating depends on the patient, the damage that the white rami communicans incurs, and the amount of cell body reorganization in the spinal cord after surgery.
Other potential complications include inadequate resection of the ganglia, gustatory sweating, pneumothorax, cardiac dysfunction, post-operative pain, and finally Horner’s syndrome secondary to resection of the stellate ganglion.
www.ubcmj.com/pdf/ubcmj_2_1_2010_24-29.pdf

After severing the cervical sympathetic trunk, the cells of the cervical sympathetic ganglion undergo transneuronic degeneration
After severing the sympathetic trunk, the cells of its origin undergo complete disintegration within a year.http://onlinelibrary.wiley.com/doi/10.1111/j.1439-0442.1967.tb00255.x/abstract

cross-inhibitory control of various afferent in the spinal cord

In conclusion, our results suggest that cross-inhibitory control by various afferents in the spinal cord may exist in the feet as well as in the contralateral hand. The release of cross-inhibitory control by T3 sympathicotomy results in vasoconstriction and a decrease of skin temperature on the contralateral hand and the feet.

The basic neuronal network for this reciprocal organization is probably located in the spinal level (15). Therefore, the reduction in the contralateral skin temperature may be explained by cross-inhibitory control of various afferent in the spinal cord.
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2722005/

Contralateral temperature changes of the finger surface during video endoscopic sympathectomy for palmar hyperhidrosis
http://www.ncbi.nlm.nih.gov/pubmed/8832515

Denervation supersensitivity of alpha receptors following sympathecomy

There is, however, considerable risk of developing a post-sympathectomy pain syndrome that may be the result of a denervation supersensitivity of alpha receptors.
www.mc.vanderbilt.edu/.../Complex%20Regional%20Pain%20Syndrome-1...

Paradoxically it has been suggested that in some cases there may be abnormal vasoconstriction rather than the expected vasodilatation after sympathectomy.
ats.ctsnetjournals.org/cgi/content/full/84

Receptor hypersensitivity is a common problem

Because of their size and location, injuries to the sympathetic ganglia or chain is rarely indicated or performed. Receptor hypersensitivity is a common problem after significant sympathetic injury, including clammy hands, erythema, and allodynia. When sympathetic nerves regenerate, they may establish aberrant connections to sensory receptors, muscles, or other sympathetics receptors; this may lead to an over-response or abnormal response.
http://wiki.cns.org/wiki/index.php/Injury,_Sympathetic_Nerve

the muscles that are supplied by these nerves shorten and tighten

This now well-established but generally under-appreciated principle of physiology is aptly known as 'Cannon's Law of Denervation Supersensitivity'. It describes the wide ranging effects of the complete loss of nerve inputs to a variety of bodily structures under experimental conditions. One of the many responses to nerves that are sick or dysfunctional (now termed Disuse Supersensitivity) is that the muscles that are supplied by these nerves shorten and tighten (due to the supersensitivity of both the muscle's specialized stretch receptors and motor nerve-muscle junctions), resulting not only in muscle spasm and stiffness which limit flexibility, but a whole sequence of pain compounding reactions. The two earliest are that localized taut bands of muscle fibers begin to compress the small specialized pain sensing (and now extra-sensitive) nerve fibers within the muscle (known as myofascial tender or trigger points) causing type 1 pain, and the compressed muscles do not allow proper blood flow in, or waste products to be removed. This leads to a build up of lactic acid, which further enhances the perception of pain through type 2 pain mechanisms. Continued and prolonged muscle shortening or contracture gradually leads to increased mechanical tension on the muscle's tendonous attachments to bone, causing all of the various tendonitis (types 1 & 2 pain) syndromes throughout the body. The end result is a truly vicious snowballing cycle of pain, with the muscle shortening further increasing pressure on the nerves.

www.northwestims.com/faq-4.html

Cannon's law of denervation tells us that if a post-ganglionic neurone has it's pre-ganglionic input removed, then it will become super-sensitive to the normal neurotransmitters that mediate that pre-ganglionic input. There is a variety of reasons for this, including up-regulation of receptors for the neurotransmitter(s), post-receptor effects, and impaired removal of neurotransmitters from the synapse

www.anaesthetist.com/anaes/patient/ans/

Most authors do not describe clinically significant capsular adhesions as a predominant finding in the chronic phase of this condition. Instead, pathologic data confirm an active process of hyperplastic fibroplasia and excessive type III collagen secretion that lead to soft-tissue contractures of the aforementioned structures (ie, the coracohumeral ligament, soft tissues of rotator interval, the subscapularis muscle, the subacromial bursae). However, these findings were observed in surgical patients who had severe and late-phase disease and cannot be applied to early phases of the disease.

From the chromosomal, cytochemical, and histologic points of view, the soft-tissue contractures are identical to those seen in a Dupuytren contracture of the hand. These contractures result in the classic progressive loss of ROM of the glenohumeral joint, which affects external rotation and abduction, then flexion, adduction, and extension (in descending order of severity). Despite these histopathologic similarities, the favorable and regressive outcome of adhesive capsulitis differs from the unfavorable and progressive outcome of Dupuytren disease.

http://emedicine.medscape.com/article/326828-overview#a0104

slowing of the heart rate usually occurs on the second to fourth day after sympathectomy

The rate fell to a level between 40 and 6o per minute, the maximal slowing usually occurring on the second to fourth day after operation. Consistent slowing of the rate was not observed after a unilateral thoracic sympathectomy of either side. While there was some recovery from the maximum bradycardia with the passage of time in most patients, relatively slow resting cardiac rates and failure of tachycardia to develop with postural hypotension or exercise persisted in all patients.

Skoog's12 work has shown that there are marked differences in the number and precise location of the accessory ganglion cells in the cervical region in different patients and on the two sides in the same patient.
Annals of Surgery, 1949 October, Volume 130 Number 4

These gustatory phenomena were quite different from physiologic gustatory sweating

In a series of 100 bilateral upper dorsal sympathectomiesperformed for palmar hyperhidrosis, gustatory sweating and othergustatory phenomena were reported by 68 of 93 patients (73%),followed up for an average of 11/2 years. These gustatory phenomenawere quite different from physiologic gustatory sweating: awide range of gustatory stimuli caused a variety of phenomenain varied locations. There was a negative correlation betweenthe incidence of these phenomena and the occurrence of Horner'ssyndrome after sympathectomy. Analysis of our observations,and of clinical and experimental work of others, leads to theconclusion that gustatory phenomena after upper dorsal sympathectomyare the result of preganglionic sympathetic regeneration orcollateral sprouting with aberrant synapses in the superiorcervical ganglion.

http://archneur.ama-assn.org/cgi/content/abstract/34/10/619

Autonomic dysequilibrium (local sympathectomy) leading to obesity

A similar reduction of fat mobilization from fat depots occurs after VMH lesions, as after local sympathectomy, suggesting that the sympathetic pathway to the adipose tissue runs through the VMH.
Bray and York hypothesize that the change in energy balance in animals after VMH lesions is a result of autonomic dysequilibrium. The sympathetic outflow is reduced and the parasympathetic outflow increased. This shift in balance results in hyperinsulinemia and altered metabolic pathways leading to obesity. During the digestion and metabolism of a meal, the autonomic nervous system provides important (but not sole) feedback control on satiety.

The Nervous System and Adipose Tissue, By Katharine Dalziel, MD, MBBS, MRCP
Clinics in Dermatology
October-December 1989, Volume 7, Number 4, pages 62-77

our ignorance of the mechanisms of primary hyperhidrosis and of the effect of sympathetic ablation

causes of autonomic dysfunction - sympathectomy

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)

Disorders of the Autonomic Nervous System

By David Robertson, Italo Biaggioni

Edition: illustrated

Published by Informa Health Care, 1995

ISBN 3718651467, 9783718651467

All patients except one suffered from compensatory sweating

Complications in patients with palmar hyperhidrosis treated with transthoracic endoscopicsympathectomy.

Neurosurgery. 1997 Jul ;41 (1):110-3; discussion 113-5 9218302

OBJECTIVE: To assess the complications in a group of patients with palmar hyperhidrosis treated with transthoracic endoscopic sympathectomy. The extraordinarily high incidence of postoperative compensatory hyperhidrosis in our series is stressed and explained. METHODS: The retrospective study included chart reviews and outpatient assessments. Seventy-two patients underwent T2 or T2-T3 endoscopic sympathectomy for primary palmar hyperhidrosis. Patients' hyperhidrosis severity, precipitating factors, postoperative complications, surgical results, and satisfaction were assessed. Severity of palmar hyperhidrosis and compensatory hyperhidrosis was classified by two grading scales. RESULTS: The success rate ofsympathectomy was 93%. All patients except one suffered from compensatory sweating,which was the main cause of patients' dissatisfaction postoperatively. Seventeen percent of the patients (12 of 72 patients) experienced new symptoms of gustatory sweating (facial sweating associated with eating). Twenty-one patients experienced other complications, including pneumothorax, Horner's syndrome,nasal obstruction, and intercostal neuralgia.

'Emotional' sweating regulated by neocortex and limbic cortex

Careful observations showed that the forearm sweating responded diversely to various mental stimuli, unlike the palmar sweating whose response was always an increase. Mental arithmetic, mental testing and physical exercise caused an immediate increase in the palmar sweating but often elicited a transient decrease in the forearm sweating, whereas pain, noise, and emotional stimuli consistently provoked an increase of sweating on the forearm as well as on the palm. These observations suggest that the activities of higher centers, presumably involving neocortex and limbic cortex, exert various influences on the central mechanisms of palmar and generalized sweating.
Jpn J Physiol. 1975;25(4):525-36.
http://www.ncbi.nlm.nih.gov/pubmed/1206808

hyperhidrosis is not related with social phobia or personality disorder

The total reward dependence and persistence scores were significantly higher in hyperhidrosis patients. The fear of uncertainty in the harm avoidance scale was found to be significantly greater in hyperhidrosis patients. Regarding character dimensions, the total score in each of the subscales self-directedness, cooperativeness and self-transcendence was found to be higher in hyperhidrosis patients. Conclusion: The higher scores of all subscales of character dimensions in hyperhidrosis patients suggest that hyperhidrosis is not related with social phobia or personality disorder.

http://www.online.karger.com/ProdukteDB/produkte.asp?Aktion=ShowFulltext&ArtikelNr=99589&Ausgabe=232867&ProduktNr=224164

Permanent thermoregulatory dysfunction after ETS

What you see here is not a result of the surgery gone wrong, this is the inevitable consequence of cutting/clamping the sympathetic chain, independently of skill of the surgeon, experience of the surgeon, T2, or T3, T4, or method used. Once the communication is disrupted, (and it happens with the clamping as well), it will disable the body's thermoregulation and will cause malfunctioning of the sympathetic nervous system. This damage is permanent and irreversible. There has been no controlled clinical trial into the effects of this surgery on humans, but it is still used for many different conditions: like angina pectoris, to lower blood pressure, to treat migraine, to reduce pain in cancer patients, to reduce immuneresponses after skin transplant, to treat various cancers in the oral cavity, and among many: to treat anxiety disorders, schizophrenia, and phobias. The operation will change you for ever. In fact, it was used as a predecessor to lobotomy. Every drug introduced into the market has to go through rigorous testing procedures before approval. This does not apply to surgeries. It is left to the surgeon's to decide whether they offer this sugery or not. As soon as there are 2 docotrs who offer a procedure, it is considered acceptable medical practice. The surgery earns the surgeon an avarege of $ 2000 for a one hour procedure. The institutions set up to follow up on medical procedures failed to this day to investigate and follow up on this procedure. It is truly a medical scandal of this century.

Does the rule of a free market in health care provide protection to the patients?

Australian Review of ETS surgery

"A lack of high quality randomised trial evidence on ETS means that it is difficult to make a judgment on the safety and effectiveness of this technique. There is potentially a number of safety issues associated with this procedure. ASERNIP-s suggests that a full systematic review including all available comparative and case series information, together with clinical inpuut, should be undertaken to provide up-to-date and comprehensive assessment of the safety and effectiveness of ETS." (ASERNIP-s Report No. 71, August 2009)

Australian Review of ETS surgery - 2001

The four case series were not critically appraised because they are prone to bias and have significant methodological problems. These studies represent level IV evidence according to the NHMRC criteria and one should not draw firm conclusions from their findings.

To date, the benefits or side effects associated with endoscopic thoracic sympathectomy for treating facial blushing have not been properly evaluated and reported.

Further research using a well-designed controlled trial is warranted to assess the efficacy of endoscopic thoracic sympathectomy for treating facial blushing.

Centre for Clinical Effectiveness - Monash

Swedish Review

Finnish Review

UK Review of ETS surgery

We did not identify any controlled trials or cohort studies. The
evidence about effectiveness, based on three case series, was
therefore very limited. The main weakness of these studies was their lack of a comparison group and their resulting inability to exclude a placebo response to surgery. In addition, the methods of assessing outcome were poorly described and not validated, and the range of outcomes assessed was limited. The studies provided very limited evidence that sympathectomy improves blushing. Side effects were common.
London: Bazian Ltd (Editors), Wessex Institute for Health Research and Development, University of Southampton 2003: 11

Wiley & Sons, Inc, news release - 2004

"Lifestyle" surgical procedure carries unrecognized risk of complications.”
Hoboken, NJ: John Wiley & Sons, Inc, British Journal of Surgery, Feb 5, 2004

The authors found that the incidence of hypotension was a function of the level of sympathetic denervation, occurring in 60% of patients with a T7 sympathectomy, and in 100% of patient with a T4 or higher level of sympathectomy.
(p 226)

"Inappropriate" bradycardia (i.e. "normal" HR in face of ↓MAP with sensory level T3-T4)
Peripheral vasodilation should evoke an ↑ HR. But ↓ venous return → ↑vagal tone, so HR remains at preblock rate but is "inappropriately" slow.

Central neuraxial anesthesia-induced sympathectomy leads to peripheral vasodilation, reduced preload, and subsequently decreased cardiac output. The incidence and extent of hypotension depends on the height of the block, the patient's position, and whether appropriate measures were instituted prophylactically to minimize hypotension.

After thoracoscopic sympathectomy for hyperhidrosis, very severe discomfort and hyperhidrosis in the neighboring non-sympathectomized regions occurred with alarming frequency and intensity.
(p.879)

Cousins and Bridenbaugh's Neural Blockade in Clinical Anesthesia and Pain Medicine by Michael J Cousins, Phillip O Bridenbaugh, Daniel B Carr, and Terese T Horlocker

Wolters Kluwer Health
Edition: 4 - 2008

Clinical Anesthesiology By G. Edward Morgan, Maged S. Mikhail, Michael J. Murray
McGraw-Hill, Edition: 3, 2002

“cervical sympathectomy isolates all these sympathetic ganglion cells from the central nervous system and prevents them from responding to reflex or emotional changes in the central nervous system." Cunningham's Manual of Practical Anatomy: Volume III: Head, Neck and Brain, 1986

ETS is a surgical procedure for hand sweating and blushing. This is achieved by cutting the sympathetic chain, resulting in autonomic dysfunction and the inability to sweat on the upper body. But it does more than that.
“cervical sympathectomy isolates all these sympathetic ganglion cells from the central nervous system and prevents them from responding to reflex or emotional changes in the central nervous system."
Cunningham's Manual of Practical Anatomy: Volume lll: Head, Neck and Brain, 1986

disturbed peripheral vascular and heart rate responses after sympathectomy

Denervation supersensitivity leads to Raynaud's Disease

$Denervation supersensitivity leads to Raynaud\$
Cannon and his colleagues showed in the 1930s that section and subsequent degeneration of the sympathetic nerves led to a marked supersensitivity of the sturcture to exogenous catecholamines. The increase in sensitivity ranged from 10-to 100-fold in different tissues, such as the spleen on section of the splenic nerves, or the nictitating membrane on section of the postganglionic cervical sympathetic nerve or the heart on removal of the stellate ganglion. In smooth muscle the increase in sensitivity is mostly explained by the associated loss of neuronal re-uptake of noradrenaline, with only a lesser role for the increase in receptor numbers. Mechanisms of Drug Action on the Nervous System by Ronald W. Ryall, Cambridge University Press, 1989

Changes in Electrophysiology following sympathectomy

Sympathectomised dogs presented significant increases in: basic sinus period, sino-atrial conduction time (SACT), AH and HV intervals of the His bundle electrogram, atrial functional (AFRP) and effective (AERP) refractory periods, atrio-ventricular node functional (AVNFRP) and effective (AVNERP) refractory periods, ventricular functional (VFRP) and effective (EVRP) refractory periods and atrial (AMAP) and ventricular (VMAP) monophasic action potential durations. Corrected sinus recovery time (CSRT) was not affected by chemical sympathectomy. Neither was the atrial ERP/MAP duration ratio. This new form of sympathectomy affects all the levels of the cardiac conduction system. Such results are in accordance with those obtained with surgical sympathectomy or the use of beta-blocking agents.

DIANE GODIN*, CLAUDE GUIMOND{dagger}, RÉGINALD A NADEAU{ddagger} and A ROBERT LEBLANC§

Cardiovascular Research 1982 16(9):524-529;
© 1982 by European Society of Cardiology

Cardiovascular collapse caused by carbon dioxide insufflation during sympathectomy

Carbon dioxide insufflation into the pleural space during one-lung anaesthesia for thoracoscopic surgery is used in some centres to improve surgical access, even though this practice has been associated with well-described cardiovascular compromise. The present report is of a 35-year-old woman undergoing thoracoscopic left dorsal sympathectomy for hyperhidrosis. During one-lung anaesthesia the insufflation of carbon dioxide into the non-ventilated hemithorax for approximately 60 seconds, using a pressure-limited gas inflow, was accompanied by profound bradycardia and hypotension that resolved promptly with the release of the gas.
Australian Society of Anaesthetists 2002

Sympathetic regulation of the cerebral circulation by the carotid chemoreceptor reflex

After bilateral cervical sympathectomy (n = 9), carotid chemoreceptor reflex stimulation induced significantly different (P less than 0.01) effects on cerebral blood flow, which rose by 42 +/- 8%, and cerebral vascular resistance, which did not change.
In "sham" dogs, the repeat response to carotid chemoreceptor stimulation also induced significantly different effects from those in dogs with sympathectomy. Thus, in the conscious dog, stimulation of the carotid chemoreceptor reflex elicits significant sympathetically mediated vasoconstriction in cerebral vessels.
Am J Physiol Heart Circ Physiol 238: H594-H598, 1980;

Effect of adrenalectomy or sympathectomy on spinal cord blood flow

We conclude that adrenalectomy near-totally ablates the hypothermia-associated increase in RSCBF (regional spinal cord blood flow) measured in intact rats and that abdominal sympathectomy totally ablates it. This evidence complements morphological evidence for adrenergic innervation of the spinal cord vasculature.

Heart and Circulatory Physiology, Vol 260, Issue 3 827-H831, Copyright © 1991 by American Physiological Society

A. Iwai, W. W. Monafo and S. G. Eliasson
Department of Surgery, Washington University School of Medicine, St. Louis, Missouri 63110.

Sympathectomy induced adrenal hypertropy

Journal of Hypertension. 17(7):933-940, July 1999.
Qiua, Jingxin 1; Nelsona, Sharon H. 1; Spethb, Robert C. 2; Wanga, Donna H. 1,3

Objective: Previous studies indicate that the adrenal gland plays a compensatory role in the maintenance of blood pressure in chemically sympathectomized rats. However, the mechanisms responsible for compensatory adrenal responses are poorly understood. This study examined the regulation of adrenal growth and type 1A, 1B, and type 2 angiotensin II (Ang II) receptor (AT1A, AT1B and AT2) expression in the adrenal gland induced by sympathectomy.

Denervation supersensitivity leads to Raynaud's Disease

Cervical sympathectomy reduces the heterogeneity of oxygen saturation in small cerebrocortical veins

Sympathectomy significantly reduced this heterogeneity in the anterior cortex through a reduction in the number of low O2 saturation veins (coefficient of variation 11.7%).

H. M. Wei, A. K. Sinha and H. R. Weiss
Department of Anesthesia, University of Medicine and Dentistry of New Jersey, Robert Wood Johnson Medical School, Piscataway 08854-5635.

Informed consent - from the ETS forum

Physicians are required to gain informed consent prior to administering a treatment. Informed consent is gained by providing patients with a full accounting of the risks of the treatment as documented in peer-reviewed, published medical/scientific literature.

Your scenario of surgeons being flummoxed by unhappy patients complaining after surgery doesn't hold water. The rules of professional medical ethics require that the treating physician be well versed in the published literature on the treatments he delivers.

There is a mountain of published research (spanning nearly a century) documenting the adverse effects of sympathectomy. There are numerous studies, for example, showing very high rates of severe side effects and studies showing that satisfaction diminishes substantially over the long term.

It is a doctors job to know this stuff and it is their ethical duty to disclose that information to patients.

So, I see the blame thing as pretty cut and dry. Surgeons perfoming sympathectomies routinely withhold information vital to informed consent. Anyone who does objective comparison between what is documented in medical/scientific literature and what is typically disclosed to prospective ETS patients has no choice but reach this conclusion.

And, to make matters worse, many surgeons use testimonials from a hand-selected group of their happiest patients to advocate the surgery. That practice is considered unethical by all medical professional organizations.

http://etsandreversals.yuku.com/reply/22927/Would-you-do-it-again#reply-22927

'Improved sympathectomy' - is it an oxymoron?

"also it seems like the more bad and negative affects were from 10 to 12 years ago when they had just started performing the surgery.. they must have improved it a lot by now.?"

This procedure has been performed since the 1920's. Yes, the 1920's. In the 1980's they started to do it using "keyhole" surgery which means they don't have to make a big incision. But, the surgery is no different than what they've been doing for the last 70+ years. It's a nerve injury. You can't "improve" they way you inflict a nerve injury. You can't injure the nerve in some "special" way such that the injury suddenly has a different effect on the body.

The functional name for the this surgery is "sympathetic denervation". It's not some super-advanced, modern cure based on recent discoveries in neurophysiology. It's a primitive, destructive procedure. It's a method used on animals for research. It's brute force method...destroy the pathways to the sweat glands over a large region. Unfortunately, it destroys pathways to and from many other organs including the heart and lungs and causes a large number of neuropathological dysfunction. That hasn't changed in the last ten years. It will not and cannot change in the next 1000 years because it will still be a nerve injury 1000 years from now. I'm not making this up. It's a simple fact. Don't let some doctor take advantage of your ignorance
http://etsandreversals.yuku.com/topic/4919/Should-i-have-ETS-surgery#.Tok-TE8YAyk

The courts have become the sole policing body for the medical profession

Major lawsuits, with the major judgments that go with them, may not completely keep negligent physicians from practicing, but they are the one way that currently exists to deter these individuals from practicing their inept brand of medicine. "

Over the years, we have given a lot of thought to why the medical profession adheres to this code of silence. What is it about this profession that causes it to protect its own at the expense of the public?"

Harvey F. Wachsman: Lethal Medicine

Publisher: Henry Holt & Co

Successful lawyer died after procedure to cure blushing

Alan Synnott was the country’s leading solicitor specialising in personal injuries.

He had built up a large and very successful practice, but the 44-year-old father of three suffered from social phobia and facial blushing.

The blushing was interfering with his ability to speak in public and to run his office and deal with staff.

He was referred to a surgeon for an operation to stop the blushing but, during the operation, a vein and artery were damaged and massive bleeding occurred.

Yesterday his grieving widow, Eleanor Synnott, settled her action for damages for €5m.

http://www.aclsolicitors.ie/news/5m_payout_to_family_after_fatal_operation/

Sympathectomy - a medical fraud

Sympathectomy: a neurocardiologic disorder

the clinical results of both surgical and neurolityc sympathectomy are uncertain

sympathectomy created imbalance of autonomic activity and functional changes of the intrathoracic organs

Surgical thoracic sympathectomy such as ESD (endoscopic thoracic sympathectic denervation) or heart transplantation can result in an imbalance between the sympathetic and parasympathetic activities and result in functional changes in the intrathoracic organs.

Sympathectomy at the level of the T2 ganglion leads to decreased negative feedback to the hypothalamus

peripheral sympathectomy causes a dramatic increase in NGF levels in the denervated organs

Increased Nerve Growth Factor Messenger RNA and Protein

Sympathectomy reduces emotional, stress-induced sweating indicating that it affects the stress-response

Peripheral, autonomic regulation of locus coeruleus noradrenergic neurons in brain: putative implications for psychiatry and psychopharmacology

Australian Review of ETS surgery

Australian Review of ETS surgery - 2001

Swedish Review

Finnish Review

Cochrane Database Syst. Review

”The practice of surgical and chemical sympathectomy is based on poor quality evidence, uncontrolled studies and personal experience.“

disturbed peripheral vascular and heart rate responses after sympathectomy

Denervation supersensitivity leads to Raynaud's Disease

Cervical sympathectomy reduces the heterogeneity of oxygen saturation in small cerebrocortical veins

Changes in Electrophysiology following sympathectomy

Cardiovascular collapse caused by carbon dioxide insufflation during sympathectomy

Sympathetic regulation of the cerebral circulation by the carotid chemoreceptor reflex

Effect of adrenalectomy or sympathectomy on spinal cord blood flow

Sympathectomy leads to calcinosis

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