Sympathectomy results in a substantial interference in regulatory processes of the body

"ESB  (whether as ETS as ETSC or ELS) generally represents a substantial interference in regulatory processes of the body.  Therefore decision for this operation requires that previously conservative treatments were made. An ESB is therefore at the end of a treatment history, and never at the beginning." 

Dr. Christoph H. Schick, ETS surgeon, President of the International Society of Sympathetic Surgery (ISSS)  

text has been  translated by google from German

http://www.dhhz.de/index.php?page=8&subPage=&section=32

Post-sympathectomy pain

Postsympathectomy limb pain, postsympathectomy parotid pain, and Raeder's paratrigeminal syndrome are pain states associated with the loss of sympathetic fibres and in particular with postganglionic sympathetic lesions. There is a characteristic interval of about 10 days between surgical sympathectomy and onset of pain. It is proposed that this pain in man is correlated with the delayed rise in sensory neuropeptides seen in rodents after sympathectomy. These chemical changes probably reflect the sprouting of sensory fibres and may result from the greater availability of nerve growth factor after sympathectomy. The balance between the sensory and sympathetic innervations of a peripheral organ may be determined by competition for a limited supply of nerve growth factor.

Lancet. 1985 Nov 23;2(8465):1158-60

http://www.ncbi.nlm.nih.gov/pubmed/2414615?dopt=Abstract

Sympathectomy controversial for the treatment of RSD

What Is Reflex Sympathetic Dystrophy Syndrome (RSD)?

Complex Regional Pain Syndrome

By Carol Eustice, About.com Guide

Updated June 06, 2012

About.com Health's Disease and Condition content is reviewed by the Medical Review Board

http://arthritis.about.com/od/rsd/a/rsd.htm

Surgical treatment for hyperhidrosis causes hyperhidrosis...

Localised hyperhidrosis may also be due to:

▪ Stroke

▪ Spinal nerve damage

▪ Peripheral nerve damage

▪ Surgical sympathectomy

▪ Neuropathy

▪ Brain tumour

▪ Chronic anxiety disorder

http://www.dermnet.org.nz/hair-nails-sweat/hyperhidrosis.html

Sympathectomy to treat the urge to smoke

Lipov, Eugene (Chicago, IL, US)  treating addiction with disruption of the sympathetic chain.

http://www.freepatentsonline.com/y2007/0135871.html

Complications of surgical (Thoracic and Lumbar) Sympathectomy

Post-sympathectomy neuralgia - pain overlying the scapula

Compensatory sweating - involving the lover back or face

Pneumothorax

Bleeding due to azygos vein or intercostal artery injury

Winged scapula due to long thoracic nerve injury (p. 517)

Mastery of Vascular and Endovascular Surgery

Gerald B. Zelenock, Thomas S. Huber, Louis M. Messina, Alan B. Lumsden, Gregory L. Moneta

Lippincott Williams & Wilkins, 15/12/2005 - 900 pages

The custom of a majority is no guarantee of safety and is seldom a guide to best medical practice.

Cameron`s claim that there has been only one death attributable to synchronous bilateral thoracoscopic sympathectomy is implausible. Surgeons and anaesthetists are reticent in publicizing such events and Civil Law Reports of settled cases are an inadequate measure of the current running total. The custom of a majority is no guarantee of safety and is seldom a guide to best medical practice.

Jack Collin,

Consultant Surgeon

Oxford

http://www.bmj.com/content/320/7244/1221?tab=responses

reduction in all proline-richproteins (PRP) in the saliva following sympathectomy

The protein constituents in parasympathetically evoked saliva from normal and short-term sympathectomized parotid gland swere compared. There was a reduction in all proline-richproteins (PRP) in the saliva following sympathectomy. The decrease was quantified for acidic PRP by high- performance ion-exchange chromatography, which showed an increase in the ratio of amylase to other proteins. These results suggest that sympathetic impulses influence the synthesis of PRP and amylase in opposite directions. 

Quarterly Journal ofExperimental Physiology (1988) 73, 139-142

objective methods to diagnose palmar hyperhidrosis and monitor effects of botulinum toxin treatment

Evaluation of objective methods to diagnos... [Clin Neurophysiol. 2004] - PubMed - NCBI: "objective methods to diagnose palmar hyperhidrosis and monitor effects of botulinum toxin treatment"

'via Blog this'

No compensatory sweating after botulinum toxin... [Br J Dermatol. 2005] - PubMed - NCBI

No compensatory sweating after botulinum toxin... [Br J Dermatol. 2005] - PubMed - NCBI:

'via Blog this'

Another case of disabled thermoregulation and heatstroke following sympathectomy

We describe an extreme case of compensatory truncal hyper- hidrosis and anhidrosis over the head and neck region which led to a heatstroke. 

Six months after the initial operation, he had an episode of heatstroke while perform- ing outdoor duties which required running for around 5 km. The temperature on the day was between 30–32°C, and the relative humidity was between 75 and 85%. At that time, he complained of light-headedness, ‘feeling’ that heat could not dissipate from his head and neck region and muscle cramp in his legs. He was transferred to a hospital and was found to have a body tem- perature of 40°C and shock. His presentation was similar to a previous report by Sihoe et al. [1] on a patient with post- sympathectomy heatstroke. He was subsequently successfully treated with fluid and electrolyte resuscitation and supportive care.
  

Interactive CardioVascular and Thoracic Surgery 14 (2012) 350–352

no chance for nerve regeneration as early as 10 days after clipping

*Study presented at the 9th Biannual International Society for Sympathetic Surgery Conference in Odense, Denmark in May 2011. 

www.tswj.com/aip/134547.pdf

69% of patients continued to have relief after ETS, patient satisfaction rate was 56%

There were no operative mortalities, minor complications occurred in 22%. Initial success rate was 88%. Median follow up was 93 (24-168) months, response rate to the questionnaire was 85%. Sixty-nine per cent of patients continued to have relief of initial symptoms, whereas patient satisfaction rate was 56%. CS was present in 42 patients (68%). Long-term satisfaction rates per initial indication group were 42% for facial blushing and 65% for hyperhidrosis (n.s.), and CS was present in 79% vs 61%, respectively.

CONCLUSION:

ETS appears a safe treatment for upper limb hyperhydrosis with acceptable long-term results. For excessive blushing, however, long-term satifaction rates of ETS are severely hampered by a high incidence of disturbing compensatory sweating. ETS should only be indicated in patients with unbearable symptoms refractory to non-surgical treatment. The patient information must include the long-term substantial risk for sever CS and regret of the procedure.

http://www.ncbi.nlm.nih.gov/pubmed/22191130

"sympathectomy highlighted the disparity between what is known in practice and what appears in the literature"

The March 2004 edition was quite outstanding, with an excellent editorial reminding the reader that only good results are published. The review on thoracoscopic sympathectomy highlighted the disparity between what is known in practice and what appears in the literature. 

‘Know Your Results’, the topic of the ASGBI Annual Scientific Meeting, is of outstanding importance; what is more, the surgeon has to go on knowing his/her results to ensure standards of practice do not slip.

The Journal appreciates comments and criticism and the correspondence column remains a crucial part of the BJS in its interaction between editors and reader. It is also part of the scientific process.

A more robust and incisive criticism of articles known to be flawed would prevent the retractions that have recently been published in the Lancet.

Christopher Russell, Chairman, BJS Society

Association of Surgeons of Great Britain and Ireland, ANNUAL REPORT 2004

Publications authored by prolific ETS surgeons should be carefully examined and compared

Ann Thorac Surg. 2004 Sep;78(3):1052­5.

Selective division of T3 rami communicantes (T3 ramicotomy) in the treatment of palmar hyperhidrosis.

Lee DY, Kim DH, Paik HC.
Respiratory Center, Department of Thoracic and Cardiovascular Surgery, Yongdong Severance Hospital, Yonsei

University College of Medicine, Seoul, People's Republic of China. dylee@yumc.yonsei.ac.kr

Abstract

BACKGROUND: Compensatory sweating (CS) is the main cause of a patient's dissatisfaction after sympathetic surgery for palmar hyperhidrosis.Preservation of the sympathetic nerve trunk and limitations on the range of dissection are necessary to reduce CS.

METHODS: We compared 64 patients (31 male, 33 female) (group 1) who underwent a T2 sympathicotomy between July 1998 and February 1999 and 83 patients (58 male, 25 female) (group 2) who underwent a T3 ramicotomy between August 2000 and December 2002.

RESULTS: In group 1, 60 patients (93.8%) exhibited a decreased sweating on both hands, but 4 patients (6.2%) exhibited a persistent sweating on both hands. For group 2, 58 patients (69.9%) experienced a decreased sweating on both hands, 15 patients (18.1%) experienced a persistent sweating on both hands, and 10 patients (12.0%) experienced a persistent sweating on one hand. The grade of CS in group 2 was significantly lower than in group 1 (p < 0.001) and, notably, the rate of embarrassing and disabling CS in group 2 (15.5% [9 out of 58]) was significantly lower than in group 1 (43.3% [26 out of 60], p value < 0.001). The rate of satisfaction was 78.1% (50 out of 64) for group 1 and 68.6% (57 out of 83) for group 2 with no significant statistical difference indicated (p = 0.202).

CONCLUSIONS: The incidence of sweating postoperatively was relatively high in the T3 ramicotomy group, although the T3 surgery did result in a lower incidence of CS when compared with a T2 sympathicotomy.

PMID: 15337046 [PubMed ­ indexed for MEDLINE]

Publication Types, MeSH Terms LinkOut ­ more resources

II.

Surg Today. 2012 Jul 15. [Epub ahead of print]

A comparison between two types of limited sympathetic surgery for palmar hyperhidrosis.

Hwang JJ, Kim DH, Hong YJ, Lee DY.
Department of Thoracic and Cardiovascular Surgery, Eulji University Hospital, Daejeon, Korea.

Abstract

PURPOSE: Endoscopic thoracic sympathetic surgery is effective for treating palmar hyperhidrosis, although compensatory sweating (CS) is a significant and annoying side effect. The purpose of this study was to compare the results of limited resection at two different locations.

METHODS: From May 2004 to June 2009, T3 sympathicotomy (group I) was performed in 46 patients and T3,4 ramicotomy (group II) was performed in 43 patients during the same period. T3 sympathicotomy (group I) and T3,4 ramicotomy (group II) were performed during the same period. Using questionnaires, completed by the patients, the satisfaction rates and grades of CS were analyzed.

RESULTS: No significant differences in age distribution or sex ratios were observed between the two groups. The satisfaction rate was 91.3 % in group I and 79.1 % in group II. The operation time was 19.8 (±6.6) min (sic!) in group I, and 51.6 (±18.8) min in group II, showing a statistically significant difference (p < 0.002). The incidence of persistent hand sweating in group II (16.3 %) was higher than that observed in group I (2.2 %). The incidence of compensatory sweating on the lower extremities was higher in group II (37.2 %) than in group I (10.9 %).

CONCLUSIONS: Although ramicotomy is considered to be an effective method for treating hyperhidrosis and has a theoretical advantage of allowing greater anatomical resection, it requires longer operation time and induces more severe compensatory sweating in the lower limbs resulting in reduced satisfaction rates.

PMID: 22798011 [PubMed ­ as supplied by publisher]

The effect of bilateral sympathectomy was significantly greater than that of unilateral sympathectomy

The effect of bilateral sympathectomy was significantly greater than that of unilateral sympathectomy. Unilateral and bilateral sympathectomy produced similar reductions in the concentrations of NPY-ir and NA in the ventricular tissue. In contrast dissimilar changes were produced in the atrium. Although bilateral sympathectomy almost totally depleted the NA from the right atrium (by 98%), the NPY-ir levels were only reduced by 50%. These results indicate that approximately half the content of NPY in the right atrium is not present in sympathetic noradrenergic neurones. 

Maccarrone C, Jarrott B.

Source

University of Melbourne, Department of Medicine, Austin Hospital, Heidelberg, Vic., Australia.

J Auton Nerv Syst. 1987 Dec;21(2-3):101-7.

http://www.ncbi.nlm.nih.gov/pubmed/3450689

sympathectomy induced morphological alterations in the masseter muscles

Sympathectomized animals showed varying degrees of metabolic and morphological alterations, especially 18 months after sympathectomy. The first five groups showed a higher frequency of type I fibres, whilst the oldest group showed a higher frequency of type IIb fibres. In the oldest group, a significant variation in fibre diameter was observed. Many fibres showed small diameter, atrophy, hypertrophy, splitting, and necrosis. Areas with fibrosis were observed. Thus cervical sympathectomy induced morphological alterations in the masseter muscles. These alterations were, in part, similar to both denervation and myopathy. These findings indicate that sympathetic innervation contributes to the maintenance of the morphological and metabolic features of masseter muscle fibres.

http://www.ncbi.nlm.nih.gov/pubmed/11454103

Bilateral cervical sympathectomies should be avoided because of the destruction of cardioaccelerator tone

http://www.hiesiger.com/physicians/physicianrfl.html

Chylothorax as complication of sympathectomy

Chylothorax has been reported as a complication of wide range of other operations, including esophagoscopy, stellate ganglion blockade, thoracic sympathectomy, high translumbar aortography, lung resection, thyroid surgery, and spinal surgery.
http://www.mdconsult.com/books/page.do?eid=4-u1.0-B978-1-4160-4710-0..00074-2--s0250&isbn=978-1-4160-4710-0&type=bookPage&from=content&uniqId=350894912-2

SURGICAL SYMPATHECTOMY ON THE SENSITIVITY TO EPINEPHRINE OF THE BLOOD VESSELS OF MUSCULAR SEGMENTS OF THE LIMBS

Pursuing this study of the effect of epinephrine on muscle blood flow, Duff and Swan (10) reported that during intravenous epinephrine infusions the initial marked dilatation was succeeded by a second phase of moderate dilatation in normal but not in sympathectomized limbs. Because of its absence in chronically sympathectomized limbs this secondary vasodilatation was at that time thought to be an indirect vasomotor effect mediated by the sympathetic nerves. Re-examination of their data in the light of some subsequent critical experiments now reveals that the difference which they found between normal and sympathectomized limbs may be ascribed largely to vascular hypersensitivity in the later.

In the present paper these additional data are reported, and are incorporated with those of Duff and Swan(10); the whole material being interpreted to provide evidence that hypersensitivity of the vessels of skeletal muscle in the upper and lower limbs may result from pre- and postganglionic sympathectomy in man.

EFFECT OF SURGICAL SYMPATHECTOMY ON THE SENSITIVITY TO EPINEPHRINE OF THE BLOOD VESSELS OF MUSCULAR SEGMENTS OF THE LIMBS, ROBERT S. DUFF

J Clin Invest. 1953 September; 32(9): 851–857.

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC438413/

Sympathetic nerves protect against blood-brain barrier disruption

http://www.ncbi.nlm.nih.gov/pubmed/7064183

Nerve regeneration commonly occurs following both surgical of chemical sympathectomy

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 minimally invasive procedures using thermal or laser interruption. 

Nerve regeneration commonly occurs following both surgical of 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.

Authors' conclusions: The practice of surgical and chemical sympathectomy for neuropathic pain and CRPS is based on very little high quality evidence. Sympathectomy should be used cautiously in clinical practice, in carefully selected patients, and probably only after failure of other treatment options.

Editorial Group: Cochrane Pain, Palliative and Supportive Care Group.

Publication status: New search for studies and content updated (conclusions changed).

Citation: Straube S, Derry S, Moore RA, McQuay HJ. Cervico‐thoracic or lumbar sympathectomy for neuropathic pain and complex regional pain syndrome. Cochrane Database of Systematic Reviews 2010, Issue 7. Art. No.: CD002918. DOI: 10.1002/14651858.CD002918.pub2. Link to Cochrane Library. [PubMed]

Copyright © 2010 The Cochrane Collaboration. Published by John Wiley & Sons, Ltd.

http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0011684/

It is well recognized that preganglionic sympathectomy involves division of cholinergic elements ad sensory fibers

It is well recognized that preganglionic sympathectomy involves division of cholinergic elements ad sensory fibers. 
Theodore Cooper, Department of Surgery, St Louis University School of Medicine 
Pharmacological Reviews, 1966 Vol. 18, No. 1. Part I

When sympathectomized rats were injected with the same carcinogen, 24 out of 38 developed tumors

"Lesions od the sympathetic nervous system have been shown to increase the incidence, induction, and take and growth, of tumors. In neurally intact rats which were infected with a known carcinogen, only 1 out of 30 developed a tumor. When sympathectomized (intentional sympathetic nerve interference) rats were injected with the same carcinogen, 24 out of 38 developed tumors. These results confirm that sympathetic block enhances tumor implantation."

"Clearly the autonomic nervous system in exquisitely sensitive to information from all parts of the nervous system and may affect many aspects of the immune response."

"Since immune response is initiated by the nervous system, this appears to be a likely place to look for the cause of disease."

Edward E. Cremata, Neural control of immunity, January/February, 1982 The Digest of Chiropractic Economics

1. Couhard, R. and P. Hein, Cancers de types divers provoqucs par lesion du sympathique, CR. Acad. Sci,  2434-2437, 1957.

2. Couhard, R. and F. Heitz, Production de tumeurs malìgncs consecutivas a des lesions des fibres sympaxhiqucs du neri sciatique chez le cobaye. CR. Amd. Scl", 244: 4-09-411, 1957. 

3. Nayar, KK., Arthur, E. and Ballís,  M4, Th: transmission of tumours induced in cockroaches by nerve severance, Experienria, 27: 183, 1971. 

4. Champy, C.. Lesions neum-sympathìques precedam la canccrixation dans Patlaque de Porganìsmc par les substances cancerîgenes, C.R. Acad. Sci, 248: 3665-1666; 1959. 

1. lnouye. T., Neuropalhologische Versuche ueber die organafñnîtact der bocsanígcn gcschwuclstc, Arrh. Jap. Chir., 1580-1594, 1959. www.usapr.org/paperpdfs/75.pdf

Norepinephrine activates pain pathways after nerve injury

According to MedicineNet, RSD involves "irritation and abnormal excitation of nervous tissue, leading to abnormal impulses along nerves that affect blood vessels and skin."

Animal studies indicate that norepinephrine, a catecholamine released from sympathetic nerves, acquires the capacity to activate pain pathways after tissue or nerve injury, resulting in RSD.

http://arthritis.about.com/od/rsd/a/rsd.htm

Anthem medical policy for ETS surgery

• Presence of medical complications or skin maceration with secondary infection; or
• Significant functional impairment, as documented in the medical record.

Botulinum toxin is considered medically necessary in the treatment of secondary hyperhidrosis when the condition is related to surgical complications and both of the following criteria are met:

• Presence of medical complications or skin maceration with secondary infection; and
• Significant functional impairment, as documented in the medical record.

Treatment of primary axillary or palmar hyperhidrosis with endoscopic thoracic sympathectomy is consideredmedically necessary in the small subset of individuals with hyperhidrosis where both of the following criteria (1 and 2) have been met:

1. It has been adequately documented that all efforts at nonsurgical therapy have failed; and
2. Either of the following:
• Presence of medical complications or skin maceration with secondary infection; or
• Significant functional impairment, as documented in the medical records;

http://www.anthem.com/medicalpolicies/policies/mp_pw_a050005.htm

Correlating Dermatomal Level to Surface Landmarks

Table 3. Correlating Dermatomal Level to Surface Landmarks
Dermatomal Level	Surface Landmark	Comments
C8	Little finger	Cardioaccelerator fibers blocked (T1 to T4)
T1, T2	Inner aspect of the arm	Above fibers blocked but to lesser degree
T4	Nipple line, root of scapula	Cesarean section, Appendectomy, upper abdominal surgery
T7	Inferior border of scapula; Tip of xiphoid	Splanchnic (T5 to L1) blockage; lower abdominal surgery; T5 to T7 for thoracotomy or fractured ribs (at relevant interspace)
T10	Umbilicus	Usual level for LE procedures, hip surgery, TURP, vaginal delivery
L2 to L3	Anterior thigh	Appropriate for knee, foot surgery
S1	Heel of foot	Part of sacral plexus, difficult to block

http://www.nysora.com/test2/regional_anesthesia/neuraxial_techniques/3026-epidural-blockade.html

"sympathectomy of one side of the body leads to an increase in the development of tumors on the denervated side"

Coujard R, Heitz F. Cancerologic: Production de tumeurs malignes consecutives a des lesions des fibres sympathiques du nerf sciatique chez le Cobaye. C R Acad Sci 1957; 244: 409­411.


This suggest that interference with the sympathetic nervous system (SNS) can lead to a compromise of the body's immune system [81–82]. Conversely, an immunological response can alter the response pattern of the sympathetic nervous system. [83]
http://www.chiro.org/LINKS/FULL/VERTEBRAL_SUBLUXATION_2.shtml 

Management of reflex sweating in spinal cord injured patients

Reflex sweating can be a problem for cervical spinal cord injured patients. Patient comfort and skin breakdown have been the major concerns. Five patients were studied prospectively, using a patch containing 1.5mg of scopolamine. Patches were changed every third day. Each patient was carefully monitored before and after application of the patch for signs and symptoms of anticholinergic side effects such as dizziness, blurred vision and dry mouth. Patients were also monitored for changes in patch signs before and after use, including residual urine volumes, blood pressure, heart rate, and mental status. Our study indicates that topical scopolamine successfully controlled reflex sweating in 5 patients without anticholinergic side effects.

PMID:

2742472

[PubMed - indexed for MEDLINE]

http://www.ncbi.nlm.nih.gov/pubmed/2742472

Heart rate significantly decreased after bilateral but not after unilateral right sympathectomy

http://www.ncbi.nlm.nih.gov/pubmed/12643398

Sympathectomy or doxazosin, but not propranolol, blunt myocardial interstitial fibrosis

http://www.ncbi.nlm.nih.gov/pubmed/16216989

surgical and chemical sympathectomy can both modulate bone cell function

It is known that surgical and chemical sympathectomy can both modulate bone cell function.  However, the sympathetic
nervous system (SNS) can give rise to both anabolic and catabolic effects [28-31] and its role in regulating bone remodeling is, therefore, controversial. For example, some researches reported that if bone is deprived of its sympathetic innervation, bone
deposition and mineralization is reduced and bone resorption increases [31], while in some other reports a sympathectomy impairs bone resorption [28].
Wei Fan BSc, MSc
Institute of Health and Biomedical Innovation
Faculty of Built Environment & Engineering
Queensland University of Technology

eprints.qut.edu.au/35722/7/35722b.pdf

Sustained Benefit (sic!) Lasting One Year from T4 Instead of T3-T4 Sympathectomy

http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2664277/

No statistically significant association between the CS with age, family history, type of HH and extent of TS

http://ejcts.oxfordjournals.org/content/34/3/514.full

Sympathectomy exacerbated the inflammation and osteopathic destruction of arthritic joints

http://www.ncbi.nlm.nih.gov/pubmed/8632052

results of sympathectomy deteriorate with time

results of sympathectomy deteriorate with time (T.S. Lin & Fang, 1999; Walles et al., 2008). This recurrent postoperative sweating may be due to local nerve regeneration but has not yet been proven (Lee et al., 1999).
http://www.intechopen.com/books/topics-in-thoracic-surgery/surgical-management-of-primary-upper-limb-hyperhidrosis-a-review

Pain in the form of intercostal neuralgia with dysesthesia at the site of trocar insertion is rarely documented but more frequent than generally recognized

Pain in the form of intercostal neuralgia with dysesthesia at the site of trocar insertion is rarely documented but more frequent than generally recognized. Many centres perform short-stay surgery that may lead to underestimation of pain results. In most series pain resolves within months, but Walles and colleagues could detect a persistence for years (Walles et al., 2008).
http://www.intechopen.com/books/topics-in-thoracic-surgery/surgical-management-of-primary-upper-limb-hyperhidrosis-a-review

Loss of impulse control as a side-effect of surgery for blushing and sweaty hands

http://www.sympatix.fi/blog/?lang=en_

compensatory sweating is extremely common and often worse than the original problem

Endoscopic thoracic sympathectomy is useful only when all other treatments fail and then should be considered only with caution as compensatory sweating is extremely common and often worse than the original problem.

BMJ 2009;338:b1166    doi:10.1136/bmj.b1166

left thoracic sympathectomy to prevent electrical storms in CPVT - Department of Cardiology, Sydney Children's Hospital

http://www.ncbi.nlm.nih.gov/pubmed/21478052

This is how "compensatory" sweating looks like

http://www.sympatix.fi/blog/?p=706

Informed consent: it’s not a reality for too many patients

http://ehln.org/?p=25222

Muliptle organ failure as a consequence of elective sympathectomy

In the post-sympathectomy patient, the abnormal sympathetic skin response may lead to peripheral vascular failure or the reduced cardiac chronotropic response may impair the body’s capacity to compensate for shock. These may have contributed to the rapid development of shock and severe multiple organ dysfunction syndrome in this patient.
He had multiple organ dysfunction syndrome develop, with severe renal and hepatic failure, grade II hepatic encephalopathy, and disseminated intravascular coagulation. He responded remarkably well to aggressive supportive measures including forced alkaline diuresis, 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, sporty lifestyle. The only significant medical history was that he had received thoracic sympathectomy for axillary hyperhidrosis 4 years ago at another hospital.

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

'Fit and healthy' woman died after operation in Bupa hospital to cure heavy sweating

http://www.dailymail.co.uk/news/article-1193315/Woman-died-operation-stop-sweating-much.html

The Dangers of ETS Surgery for Excessive Sweating

If you have an excessive sweating problem, you may have heard of endoscopic sympathectomy (ETS) surgery. If you are considering this option - Don't!
This surgery can have severe complications and, in spite of the promises, could leave you in a worse situation than you currently face. Some people have experienced more sweating after the operation than before.
That's right - more sweating. Doesn't sound like a good solution to the problem of excessive sweating, does it? Okay, you have problems with excessive sweating, which can be embarrassing and uncomfortable. You want a solution. That's fair enough. However, ETS Surgery is NOT the solution.
http://howardboon.hubpages.com/hub/The-Dangers-of-ETS-Surgery-for-Excessive-Sweating

dynamic cerebral autoregulation is altered by ganglion blockade

We measured arterial pressure and cerebral blood flow (CBF) velocity in 12 healthy subjects (aged 29+/-6 years) before and after ganglion blockade with trimethaphan. CBF velocity was measured in the middle cerebral artery using transcranial Doppler. The magnitude of spontaneous changes in mean blood pressure and CBF velocity were quantified by spectral analysis. The transfer function gain, phase, and coherence between these variables were estimated to quantify dynamic cerebral autoregulation. After ganglion blockade, systolic and pulse pressure decreased significantly by 13% and 26%, respectively. CBF velocity decreased by 6% (P <0.05). In the very low frequency range (0.02 to 0.07 Hz), mean blood pressure variability decreased significantly (by 82%), while CBF velocity variability persisted. Thus, transfer function gain increased by 81%. In addition, the phase lead of CBF velocity to arterial pressure diminished. These changes in transfer function gain and phase persisted despite restoration of arterial pressure by infusion of phenylephrine and normalization of mean blood pressure variability by oscillatory lower body negative pressure.
Conclusions-: These data suggest that dynamic cerebral autoregulation is altered by ganglion blockade. We speculate that autonomic neural control of the cerebral circulation is tonically active and likely plays a significant role in the regulation of beat-to-beat CBF in humans.
Circulation. 106(14):1814-1820, October 1, 2002.
http://www.problemsinanes.com/pt/re/dyslipidaemia/abstract.00003017-200210010-00017.htm;jsessionid=PX6phQHYFG5PD1p2DMS1cJLvG1TbtLLLH0bfJT6vKJgLLx1zn0Xf!1816077220!181195629!8091!-1?nav=reference

Effects of cervical sympathectomy, stage of the estrous cycle and estradiol treatment.

C A CA Nagle, D P DP Cardinali and J M JM Rosner Life Sci 13(8):1089-103 (1973) PMID 4357690

Horner syndrome, pneumothorax, hemothorax, asymmetry of results, intercostal neuralgia, causalgia, hypoesthesia, incomplete results, paresthesia in the anterolateral abdominal wall, dyspareunia

The complications and side effects are very significant, such as irreversible compensatory sweating (20% to 50%), low satisfaction with results, Claude-Bernard-Horner syndrome, pneumothorax, hemothorax, asymmetry of results, intercostal neuralgia, causalgia, incomplete results, and anesthetic complications^11-13.

Retroperitoneoscopic lumbar sympathectomy (video-assisted): this technique is effective in the treatment of isolated or persistent plantar hyperhidrosis (compensatory after thoracic sympathectomy). The treatment consists of removing the nerves of the sympathetic chain located in the abdomen, in the anterolateral portion of the lumbar vertebrae. It requires hospitalization and is carried out under general anesthesia. It may lead to complications such as lesions of structures adjacent to the sympathetic chain, light abdominal distension, neuralgia, and causalgia as well as hypoesthesia in the thighs and groin, limitation of leg movement,
paresthesia in the anterolateral abdominal wall, change in libido, dyspareunia, pulmonary thromboembolism, hemorrhages, arrhythmias, and cardiac decompensation, amongst others. It definitively eliminates plantar hyperhidrosis14,15.  
http://www.scielo.br/scielo.php?pid=S1983-51752011000400008&script=sci_arttext&tlng=en#end

limited understanding of the role of the sympathetic nervous system in mediating pain

The role of sympathetic blocks in herpes zoster (HZ) and postherpetic neuralgia (PHN) remains controversial due to methodologic shortcomings in published studies and limited understanding of the role of the sympathetic nervous system in
mediating pain.


Information for Health Professionals          Hunter Integrated Pain Service         Updated January 2010

Procedural Intervention Guideline 

Sympathectomy involves division of adrenergic, cholinergic and sensory fibers which elaborate adrenergic substances during the process of regulating viscera

http://pharmrev.aspetjournals.org/content/18/1/611.full.pdf+html

effect of bilateral cervical sympathetic ganglionectomy on the architecture of pial arteries

The influence of the cranial sympathetic nerves on the architecture of pial arteries in normo- and hypertension was examined. For this purpose the effect of bilateral superior cervical ganglionectomy was evaluated in normotensive rats (WKY) and stroke-prone spontaneously hypertensive rats (SHRSP). The operations were performed at the age of 1 wk, which is just prior to the onset of ganglionic transmission. The length of the inner media contour was measured and the media cross-sectional area was determined planimetrically, with computerized digitalization of projected photographic images of transversely sectioned pial arteries. Four wk after sympathectomy there was a 20% reduction in media cross-sectional area and a consequent reduction in the ratio between media area and calculated luminal radius in the major pial arteries at the base of the brain in WKY but not in SHRSP. Conversely, in small pial arteries linear regression analysis showed that in WKY subjected to ganglionectomy the relationship between media cross-sectional area and luminal radius was significantly larger in arteries with a radius less than 21 microns compared to untreated WKY. No such effect was seen in the corresponding SHRSP vessels. In addition, the cross-sectional area of the internal elastic membrane (IEM) in the basilar arteries of WKY was measured by means of a computerized image-analysing system. Mean cross-sectional area of the IEM was approximately 45% larger following SE than in control animals. The present findings propose a 'trophic' role for the sympathetic perivascular nerves in large pial arteries of the rat. The increased media-radius ratio in the small pial arteries of the WKY following sympathectomy might reflect a compensatory hypertrophy due to reduced protection from the larger arteries against the pressure load. The inability to detect any morphometrically measurable effect of the sympathectomy in the cerebral arteries of SHRSP is probably explained by a marked growth-stimulating effect of the high pressure load in these animals.
http://www.ncbi.nlm.nih.gov/pubmed/7701941

significant fall in left circumflex coronary flow was proportional to the decline in external heart work due to sympathectomy

http://www.springerlink.com/content/k2n6j4555g16x773/

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.

Post-sympathectomy neuralgia is a severe complication since pain can be permanent, severe, and incapacitating

http://www.springerlink.com/content/q04711t06j164206/

Possible surgical complications of sympathectomy may include

• Horner's syndrome
• Infection
• Hematoma
• Bleeding
• Postsympathectomy neuralgia
• Pleurotomy
• Pleural effusion
• Phrenic nerve injury
• Subclavian artery injury
• Adverse reaction to anesthesia
• Collapsed lung 

http://www.malonie.com/surgeries/upper-extremity-sympathectomy.htm

"ETS has proved moderately successful in treating hyperhidrosis, although the operation does carry a high risk of complications. "

Other complications of ETS include:

• sweating on the face and neck after eating food (gustatory sweating),
• inflammation of the nose (rhinitis), and
• air becoming trapped between the layers of the lung (pneumothorax) which can cause chest pain and breathing difficulties (although this usually resolves itself without the need for treatment).

Rarer complications of ETS include:

• Horner's syndrome, a condition that causes drooping of the eyelids, and
• damage to the phrenic nerve (a nerve that is used to help in breathing).

Phrenic nerve damage can lead to shortness of breath, though it may be possible to repair the nerve during surgery.

http://www.knowsley.nhs.uk/health-a-to-z/h/hyperhidrosis-excessive-sweating/

75% pneumothorax expected after sympathectomy

A small insignificant pneumothorax can be expected after ETS in about 75% of cases [15], which gets spontaneously absorbed, usually within 24 h.

Comparing T2 and T2–T3 ablation in thoracoscopic sympathectomy for palmar hyperhidrosis: a randomized control trial
A. N. Katara, J. P. Domino, W.-K. Cheah, J. B. So, C. Ning, D. Lomanto
Minimally Invasive Surgical Centre, Department of General Surgery, National University Hospital, 5 Lower Kent Ridge Road, Singapore, 119074
Received: 13 October 2006/Accepted: 2 November 2006
http://medicine.nus.edu.sg/medsur/research_publications_2007.html

[15] Ojimba TA, Cameron AEP (2004) Drawbacks of endoscopic thoracic sympathectomy. Br J Surg 91: 264–269



Permanent side effects included compensatory sweating in 67.4%, gustatory sweating in 50.7% and Horner's trias in 2.5%. However, patient satisfaction declined over time, although only 1.5% recurred. This left only 66.7% satisfied, and a 26.7% partially satisfied. Compensatory and gustatory sweating were the most frequently stated reasons for dissatisfaction. Individuals operated for axillary hyperhidrosis without palmar involvement were significantly less satisfied (33.3% and 46.2%, respectively).
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC1234291/

sympathectomy improves skin blood flow at the thermoregulatory but not the nutritive level of skin microcirculation

sympathectomy improves skin blood flow at the thermoregulatory but not the nutritive level of skin microcirculation. This may be related to the fact that the thermoregulatory vessels are mainly sympathetically controlled, whereas the nutritive capillaries are mainly controlled by local (nonneural) factors.
http://www.springerlink.com/content/ukwtrn2y72age93t/

typical CRPS changes also occur following sympathectomy, which has traditionally been considered curative of CRPS

(p.557) 

Handbook of Neurosurgery

Mark S. Greenberg

Thieme, 22/02/2010 - 1352 pages

For two decades, Handbook of Neurosurgery -- now in a fully updated seventh edition -- has been an invaluable companion for every neurosurgery resident and nurse, as well as neurologists and others involved in the care of patients with brain and spine disorders.

Sympathectomy has been discredited in this condition

Vasospastic conditions

Raynaud’s syndrome

http://surgeryonline.wordpress.com/category/arterial-disorders/

Drug warning - Karvezide, AVAPRO HCT - 'you must tell your doctor if you have had sympathectomy'

Tell your doctor if:

* you have had a sympathectomy

* you have been taking diuretics

*you have a history of allergy or asthma


www.racgp.org.au/cmi/swckarvz.pdf

2. Before you start to take AVAPRO HCT

Tell your doctor if:

• you suffer from any medical conditions especially-
  - kidney problems, or have had a kidney transplant or dialysis
  - heart problems
  - liver problems, or have had liver problems in the past
  - diabetes
  - gout or have had gout in the past
  - lupus erythematosus
  - high or low levels of potassium or sodium or other electrolytes in your blood
  - primary aldosteronism
• you are strictly restricting your salt intake
• you are lactose intolerant or have had any allergies to any other medicine or any other substances, such as foods, preservatives or dyes.
• have had a sympathectomy
• you have been taking diuretics
• you have a history of allergy or asthma

http://www.mydr.com.au/medicines/cmis/avapro-hct-300-25-tablets

Published by MIMS/myDr March 2011

UBM Medica Australia uses its best endeavours to ensure that at the time of publishing, as indicated on the publishing date for each resource (e.g. Published by MIMS/myDr January 2007), the CMI provided was complete to the best of UBM Medica Australia's knowledge.  

Use of stellate ganglion block for the treatment of psychiatric and behavioral disorders

The present invention is directed to a method for the treatment of a patient suffering from psychiatric and behavioral disorders, including post partum depression, post traumatic stress disorder, compulsive smoking, attention deficit hyperactivity disorder, gambling addiction, comprising the step of administering a stellate ganglion block to the patient to alleviate the symptoms. The stellate ganglion block may be followed by a sympathectomy to provide permanent relief.

United States Patent 20070135871

Kind Code: A1

http://www.freepatentsonline.com/y2007/0135871.html

Number of sympathectomies - ETS - is on the increase in Australia - the power of medical advertising

years 2000 - 2001:
Total: 1034

years 2001-2002:
Total: 1575

years 2002 - 2003
Total: 1228

years 2003 - 2004
Total: 1193

years 2004 - 2005
Total: 1483

years 2005 - 2006
Total:1358

years 2006 - 2007
Total: 972

years  2007 - 2008
Total: 850

years 2008 - 2009
Total: 891

years  2009 - 2010
Total: 1083

source: aihw.gov.au

Iatrogenic harlequin syndrome resulting from sympathectomy

Postgrad Med J 2003;79:278 doi:10.1136/pmj.79.931.278

A 29 year old man with severe facial hyperhidrosis underwent an uncomplicated right thoracoscopic sympathectomy. Before operating on his left side, a starch-iodine preparation was applied to his face in order to demarcate residual sudomotor function. The preparation becomes blue on exposure to moisture, thereby representing residual sweat gland activity.

Figure 1 demonstrates that sympathetic innervation to the face is strictly unilateral, and nerve fibres do not appear to cross the midline. This is essentially an iatrogenic variation of the harlequin syndrome,² which usually results from interruption of post-ganglionic sympathetic fibres secondary to malignant invasion.

His facial hyperhidrosis was completely treated once the contralateral sympathectomy was performed.

T3 sympathectomy leads to subclinical pupillary dysfunction with a tendency for miosis

We found statistically significant differences (P < 0.001) between the preoperative P/I ratio [0.40 mm (standard deviation, SD 0.07 mm)] and the postoperative basal ratio [0.33 (SD 0.05)] at 24 h. The P/I ratio at 24 h increased from 0.33 to 0.36 (SD 0.09), a nonsignificant increase (P = 0.45), after instillation of medicated eye drops. No differences were observed between the preoperative [0.40 (SD 0.07)] and 1-month basal values [0.38 (SD 0.07)], and instillation of apraclonidine no longer induced a hypersensitivity response.

CONCLUSIONS:

T3 sympathectomy leads to subclinical pupillary dysfunction with a tendency for miosis, even though this impairment is not generally evident on standard physical examination or reported by patients. This subclinical dysfunction may be caused by injury to an undefined group of presympathetic nerve cell axons in caudocranial direction that communicate with the cervical sympathetic ganglia and whose function is mydriatic pupillary innervation.
http://www.ncbi.nlm.nih.gov/pubmed/22044979

The participation of physicians in torture and murder both before and after World War II is a disturbing legacy

More than 7% of all German physicians became members of the Nazi SS during World War II, compared with less than 1% of the general population. In so doing, these doctors willingly participated in genocide, something that should have been antithetical to the values of their chosen profession. The participation of physicians in torture and murder both before and after World War II is a disturbing legacy seldom discussed in medical school, and underrecognised in contemporary medicine. Is there something inherent in being a physician that promotes a transition from healer to murderer? With this historical background in mind, the author, a medical student, defines and reflects upon moral vulnerabilities still endemic to contemporary medical culture.
http://jme.bmj.com/content/early/2012/05/02/medethics-2011-100372.abstract

Alessandra Colaianni, of Johns Hopkins Medical School, asks the unsettling question: "Is there something inherent in being a physician that promotes a transition from healer to murderer?" Some recent situations in the United States suggest that this is possible: allegations of euthanasia in the wake of Hurricane Katrina, torture of Guantanamo detainees, and the participation of doctors in capital punishment. Colaianni suggests that there are illuminating parallels between medical training and the work of doctors in Auschwitz.
Socialisation and hierarchy: doctors are pressured to conform to group norms, often with techniques like "Sleep deprivation, heightened stress levels and fear of failure". Ambition: just as Nazi doctors participated in the T4 euthanasia program to advance their careers, today's doctors are pressured to succeed even at the risk of losing their integrity. Doctors have a "licence to sin" which can easily be perverted: some "actions are allowed when they are performed by physicians, but are the stuff of horror films and criminal cases when non-licensed personnel attempt them."
Detachment was also a characteristic of Nazi doctors. They could select prisoners by day and dine with their colleagues by night: "the medical profession requires unflappability in the face of things that others would consider disgusting, horrific, or otherwise overwhelming".
Colaianni concludes that medical students need to realise how vulnerable they are to being seduced by the special privileges of their profession. "It is for this reason that a solid grounding in principles of ethics, individualism and human rights is so crucial for physicians and others in positions of power or trust."
http://www.bioedge.org/index.php/bioethics/bioethics_article/10042

nerves that sent blood-pressure-raising flight-or-fight signals to the brain were cut

page 187:
It was a grueling operation called sympathectomy, in which the nerves that sent blood-pressure-raising flight-or-fight signals to the brain were cut...The nerve cutting scrambled signals to her circulatory system. She was cold on one side of her body and warm on the other.

The Happy Bottom Riding Club: The Life and Times of Pancho Barnes (Paperback)

by Lauren Kessler (Author)

The second thoracic sympathetic ganglion was most commonly located (50%) in the second intercostal space

Presence of the stellate ganglion was noted in 56 (84.8%) sides, and 6 (9.1%) sides showed a single large ganglion formed by the stellate and the second thoracic sympathetic ganglia. The second thoracic sympathetic ganglion was most commonly located (50%) in the second intercostal space. CONCLUSION: The anatomic variations of the intrathoracic nerve of Kuntz and the second thoracic

sympathetic ganglion were characterized in human cadavers.

J Thorac Cardiovasc Surg  2002 Mar;123(3):498-501

Chung IH, Oh CS, Koh KS, Kim HJ, Paik HC, Lee DY.

Sympathectomy increased the pain threshold and made the sympathectomized rats hypesthetic

Normal adult rats were sympathectomized at L2-L3. The threshold for thermal noxious pain by hot-plate analgesia test and changes in neuropeptides in the lumbar dura mater and dorsal root ganglia using light microscopic immunohistochemistry were assessed and compared with control rats.

Results: In the hot-plate analgesia test, sympathectomized rats increased their hot-plate latency time compared with that of sham-operated rats. Density of calcitonin gene-related peptide immunoreactive fibers in sympathectomy side of the lumbar dura mater decreased to 45.5% compared with the contralateral side. The number and size of calcitonin gene-related peptide immunoreactive cells in dorsal root ganglia showed no difference between sympathectomized and contralateral side.

Conclusion: Sympathectomy increased the pain threshold and made the sympathectomized rats hypesthetic. A large numbers of sensory fibers innervated the lumbar dura mater via L2-L3 sympathetic nerve in rats. Sympathectomy reduced the number of these nerve fibers in the lumbar dura mater. Sympathetic nerves may play an important role for low back pain involving the lumbar dura mater.

http://journals.lww.com/spinejournal/Abstract/1996/04150/An_Anatomic_Study_of_Neuropeptide.4.aspx

Long-term sympathectomy induces sensory and parasympathetic fibres sprouting, and mast cell activation in the rat dura mater

http://discovery.ucl.ac.uk/1330488/

There are similarities between the delayed onset of the human pain state and the delayed rise in sensory peptides after sympathectomy

The effect of sympathectomy on the calcitonin gene-related peptide (CGRP) level in the rat primary trigeminal sensory neurone was investigated. Six weeks after bilateral removal of the superior cervical ganglion there was a 70% rise in the CGRP content of the iris and the pial arteries, a 34% rise in the concentration in the trigeminal ganglion but no change in the brainstem. The CGRP rise in both end organs suggests that this phenomenon may be common to all peripheral organs receiving combined sensory and sympathetic innervations. The lack of any rise in the brainstem CGRP content raises the possibility that this process spares central terminations. In contrast, the level of neuropeptide Y, a peptide mainly contained in sympathetic terminals, fell to 35% of control values in the iris and pial arteries whilst the trigeminal ganglion and brainstem concentrations remained unchanged. The possible relevance of these observations to the clinical syndrome of postsympathectomy pain (sympathalgia) is discussed. There are similarities between the delayed onset of the human pain state and the delayed rise in sensory peptides after sympathectomy.
http://www.ncbi.nlm.nih.gov/pubmed/3877546

huge percentages of people who give their informed consent to treatment do not really understand what they have chosen

Informed consent is one of the foundations of bioethical discourse. Bureaucrats have forced doctors and researchers to fill out endless forms in the belief that informed consent will enhance patients’ autonomy.
However, questions are being asked about whether this business of informed consent is really working. In an early online article in the Journal of Medical Ethics, Neil Levy, the Australian editor of another journal, Neuroethics, argues that bioethicists need to rethink informed consent.
Why? Because the lesson of all of modern psychology and of post-modern philosophy is that our rationality is terribly flawed. We are blind to the future consequences of our actions; we are not objective in assessing claims that touch us personally;  we overestimate the effects of setbacks on our well-being; we are unreliable in estimating how bad or how good events made us feel. In short, human reasoning is subject to many fallibilities. it seems utterly naïve to think that Yes always means Yes and No always means No. So Levy declares that doctors need to return to paternalism, to some extent:

“patient autonomy is best promoted by constraining the informed consent procedure. By limiting the degree of freedom patients have to choose, the good that informed consent is supposed to protect can be promoted…

Somewhat surprisingly, Arthur Caplan, of the University of Pennsylvania, probably the best-known bioethicist in the US, agrees with Levy. In a companion article, he says:

“autonomy is fundamentally inadequate in healthcare settings and requires supplementation by experience-based paternalism on the part of doctors and healthcare providers…

“A large number of studies have shown that huge percentages of people who give their informed consent to treatment or to their involvement in research do not really understand what they have chosen. Autonomy lives with hope and hope, in the form of the therapeutic misconception, often trumps autonomy.”

Questioning informed consent shakes a pillar of modern bioethics and the call for more benevolent paternalism is sure to face stiff opposition.
http://www.bioedge.org/index.php/bioethics/bioethics_article/9979#comments

Digital infrared thermal image after T2 sympathicotomy or T3 ramicotomy

(A) Clear cut change of skin temperature after a T2 sympathicotomy. (B) An even distribution of skin temperature after ramicotomy.

Gossot and colleagues [8] analyzed a group of T2, T3, T4 sympathectomy patients in comparison with a group of patients undergoing a T2, T3, T4 ramicotomy and they reported no statistical difference regarding the incidence of CS between the two groups studied (72.2% and 70.9%). However in terms of the severity of CS (embarrassing, disabling) causing inconveniences to daily life, they reported 27% and 13% incidences in these two groups, respectively. These findings suggest that by preserving the sympathetic trunk, it was possible to reduce the severity of CS.

The preganglionic fibers of the sympathetic nerve to the arm originate mostly from the spinal segments T3–T6 and the postganglionic fibers of the sympathetic nerve to the arm originate from T2 and, to a lesser extent, the T3 ganglia [9]. This implies that the division of preganglionic fibers (rami communicantes) reduces the extent of denervation of the sympathetic nerve as compared with the division of postganglionic fibers (sympathetic trunk) in the treatment of palmar hyperhidrosis.
Sympathectomy or sympathicotomy is one of the procedures used to divide the sympathetic trunk. Sympathicotomy distinctively changes sympathetic nerve distribution in comparison with a ramicotomy. Figure 4A illustrates the clear-cut changes of skin temperature after a T2 sympathicotomy. However the overall sympathetic nerve distribution to the body is not markedly changed after a T3 ramicotomy because a T3 ramicotomy is a procedure that is used to divide one of the preganglionic fibers and to preserve the sympathetic trunk. Figure 4B illustrates an even distribution of skin temperature after T3 ramicotomy.

 http://ats.ctsnetjournals.org/cgi/content/full/78/3/1052#FIG4

Drionic effectively "...reduced sweating for up to 6 weeks..."

Clinical Studies

The following comments are from clinical studies which demonstrated the safety and effectiveness of Drionic:

1. Efficacy of the Drionic unit in the treatment of hyperhidrosis. J Am Acad Dermatol 1987;16:828-832. "...the Drionic unit appears to have a definite place in the treatment of hyperhidrosis." Daniel L. Akins, M.D. John L. Meisenheimer, M.D. Richard L. Dobson, M.D., Professor & Chairman, Dept. of Dermatology From the Department of Dermatology, Medical University of South Carolina, Charleston, South Carolina
   
2. A new device in the treatment of hyperhidrosis by iontophoresis. Cutis 1982;29:82-89. Drionic effectively "...reduced sweating for up to 6 weeks..." Further, the study concluded that "Because of its design, it has great potential for home use." CPT John L. Peterson, M.D. MAJ Sandra I. Read, M.D. COL Orlando G. Rodman, M.D. Chief, Dermatology Service From the Dermatology Service, Dept. of Medicine, Walter Reed Army Medical Center, Washington, DC
3. Tap water iontophoresis in the treatment of hyperhidrosis. Int J Dermatol 26;1987:194-197. "Tap water iontophoresis is a recognized method of reducing sweat in various parts of the body. The Drionic device is a battery-operated method of inducing tap water iontophoresis. This simple device may be used at home and is effective in reducing hyperhidrosis for as long as 6 weeks." Mervyn L. Elgart, M.D., Professor & Chairman, Dept. of Dermatology Glenn Fuchs, M.D. From the Department of Dermatology, George Washington Univ. Medical Center, Washington, DC.
4. Efficacy of the Drionic unit in the treatment of hyperhidrosis. JAm Acad Dermatol 16:828-832, Apr. 1987. Elgart ML, Fuchs G: Tap water iontophoresis in the treatment of hyperhidrosis. Int J Dermatol 26: 194-197, Apr. 1987. (old model)

Informing the patient of the seriousness of the consequences before this operation is absolutely necessary

http://ats.ctsnetjournals.org/cgi/content/full/80/3/1160-a

the surgical “cure” for hyperhidrosis can make hyperhidrosis WORSE

First, we object to the classification of excessive sweating and facial blushing as diseases. While it is true that these conditions can be very embarrassing, causing the afflicted to dislike or avoid social situations, and this can indeed have a negative impact on the quality of life, from a physiological point of view they are entirely harmless. We believe that the recent “official” classification of these conditions as diseases is borne not of medical accuracy, but rather out of a desire to legitimize and justify the surgery in the eyes of both prospective patients and their insurance carriers.

Second, and more importantly, we object to the procedure itself. Interrupting the sympathetic chain in the thoracic region (by whatever means) is proven to cause a litany of permanent physical and mental disabilities, including anhidrosis, lowered heart function, lowered mental function, diminished lung volume, loss of baroreflex, paralyzed blood vessels, dysfunctional thermoregulation, chronic pain, paresthesia, lowered alertness, decreased exercise capacity, lowered response to fear, thrills, and other strong emotions. Thousands of unsuspecting patients are having psychiatric surgery without consent, forever robbed of their strongest feelings.

And, infamously, ETS surgery can cause uncontrollable, clothes-drenching sweating from the nipple-line down. In other words, the “cure” for hyperhidrosis can actually cause WORSE hyperhidrosis. Some cure.
http://forums.randi.org/archive/index.php/t-77170.html