significant impairment of the heart rate to workload relationship was consistently observed following sympathectomy

The aim of the present prospective study was to confirm that a significant impairment of the heart rate to workload relationship was consistently observed following unilateral and/or bilateral (sympathectomy) surgery. Eur J Cardiothorac Surg 2001;20:1095-1100 http://ejcts.ctsnetjourna...i/content/full/20/6/1095

Bradicardia, hypotension and hypoxia are frequently observed during thoracic sympathicotomy

Clinical Autonomic Research

Volume 13, Number 2, 147-161, DOI: 10.1007/s102860300008

ISSS-ABSTRACTS

5^th International Symposium on Sympathetic Surgery 29^th–31^th May 2003

sympathectomy results in a pronounced increase of cerebrospinal fluid production

Electrical stimulation of the sympathetic nerves, which originate in the superior cervical ganglia, induces as much as 30% reduction in the net rate of cerebrospinal fluid (CSF) production, while sympathectomy results in a pronounced increase, about 30% above control, in the CSF formation. There is strong reason to believe that the choroid plexus is under the influence of a considerable sympathetic inhibitory tone under steady-state conditions.

http://ukpmc.ac.uk/abstract/MED/6276421

"Lumbar sympathectomy/Sympathectomy and Hydrocephalus sharing one common finding"

http://en.diagnosispro.com/disease_comparison-for/lumbar-sympathectomy-versus-hydrocephalus/16143-22570.html


DiagnosisPro is a medical expert system.^[1] It provides exhaustive diagnostic possibilities for 11,000 diseases and 30,000 findings.^[2] It is supposed to give the most appropriate differential however this is not always the case.^[3] Between Oct 2008 and Oct 2009 the site averaged 61,000 visits per month. ^[4]
http://en.diagnosispro.com/disease_comparison-for/lumbar-sympathectomy-versus-hydrocephalus/16143-22570.html


Hydrocephalus also known as "water in the brain," is a medical condition in which there is an abnormal accumulation of cerebrospinal fluid (CSF) 

http://en.wikipedia.org/wiki/Hydrocephalus

Effect of ganglion blockade on cerebrospinal fluid norepinephrine

Prevention of ganglion blockade-induced hypotension using phenylephrine did not prevent the decrease in CSF NE caused by trimethaphan, and when phenylephrine was discontinued, the resulting hypotension was not associated with increases in CSF NE. The similar decreases in plasma NE and CSF NE during ganglionic blockade, and the abolition of reflexive increases in CSF NE during hypotension in ganglion-blocked subjects, cast doubt on the hypothesis that CSF NE indicates central noradrenergic tone and are consistent instead with at least partial derivation of CSF NE from postganglionic sympathetic nerve endings.

 http://www.mendeley.com/research/effect-of-ganglion-blockade-on-cerebrospinal-fluid-norepinephrine/

Spinal Ischemic Stroke from complications of abdominal surgery, esp. sympathectomy

B. Arterial feeders (e.g. thoracic, intercostal, or cervical branch from subclavian or vertebral artery)
1) thromboembolic disease!
2) complications of abdominal surgery (esp. sympathectomy)
3) dural AV fistulas (between radicular arteries and veins outside dura mater) – cause venous
hypertension → characteristic dilated veins that course on spinal cord surface.

Viktor’s Notes℠ for the Neurosurgery Resident
Please visit website at www.NeurosurgeryResident.net
Updated: April 17, 2010

"Sympathectomy frequently interferes with ejaculation"

Kaplan & Sadock's synopsis of psychiatry:

behavioral sciences/clinical psychiatry

Benjamin J. Sadock, Harold I. Kaplan, Virginia A. Sadock

Lippincott Williams & Wilkins, 2007 - 1470 pages

After peripheral nerve section the amount of GAL produced and present in sensory fibers proximal to the section is dramatically upregulated

Front Neuroendocrinol. 1992 Oct;13(4):319-43.

Galanin in sensory neurons in the spinal cord.

Department of Clinical Physiology, Karolinska Institute, Huddinge University Hospital, Sweden.

The distribution and physiological effects of the neuropeptide galanin (GAL) have been examined in the somatosensory system. GAL is normally present in a few sensory neurons that terminate in the dorsal horn of the spinal cord and it is colocalized with substance P and calcitonin gene-related peptide. After peripheral nerve section, but not dorsal root section, the amount of GAL produced and present in sensory fibers proximal to the section is dramatically upregulated. In parallel functional studies, we could demonstrate that exogenous GAL has a complex effect on the spinal cord reflex excitability, facilitatory at low doses and inhibitory at high doses. Furthermore, GAL inhibits the effect of excitatory neuropeptides physiologically released at the peripheral and central terminals of small diameter afferents that subserve a nociceptive function. After axotomy, the inhibitory effect of GAL is increased. We conclude that GAL may have an important role in the control of nervous impulses that underlie pain states that can occur after peripheral nerve injury.

http://www.ncbi.nlm.nih.gov/pubmed/1281124

Increased expression of galanin in the rat superior cervical ganglion after pre- and postganglionic nerve lesions

http://www.ncbi.nlm.nih.gov/pubmed/7515354

Galanin is a neuropeptide encoded by the GAL gene,^[1] that is widely expressed in the brain, spinal cord, and gut of humans as well as other mammals. Galanin signaling occurs through three G protein-coupled receptors.^[2]
The functional role of galanin remains largely unknown; however, galanin is predominately involved in the modulation and inhibition of action potentials in neurons. Galanin has been implicated in many biologically diverse functions, including: nociception, waking and sleep regulation, cognition, feeding, regulation of mood, regulation of blood pressure, it also has roles in development as well as acting as a trophic factor.^[3] Galanin is linked to a number of diseases including Alzheimer’s disease, epilepsy as well as depression, eating disorders and cancer.^[4][5] Galanin appears to have neuroprotective activity as its biosynthesis is increased 2-10 fold upon axotomy in the peripheral nervous system as well as when seizure activity occurs in the brain. It may also promote neurogenesis.^[2]
http://en.wikipedia.org/wiki/Galanin

Compensatory changes in contralateral sympathetic neurons of the superior cervical ganglion and in their terminals in the pineal gland following unilateral ganglionectomy

The sympathetic noradrenergic neurons of the rat superior cervical ganglia (SCGs) provide the major source of innervation to the pineal gland. The present study sought to determine if this sympathetic innervation can undergo collateral sprouting following partial denervation of the pineal by unilateral removal of the SCG (ganglionectomy), and whether such growth of axon terminals is associated with biochemical changes in the contralateral SCG. In the pineal gland following partial denervation, residual noradrenergic terminals underwent compensatory changes indicative of collateral sprouting, as evidenced by: a rapid reduction in tyrosine hydroxylase (TH) activity and in [3H]norepinephrine (NE) uptake, to about 50% of control by 2 days, which was followed by a gradual but sustained increase to levels of approximately 80% of control by 10 days and a reduction in the intensity and density but not in the distribution of fibers containing NE-induced fluorescence by 2 days, which was followed by a sustained increase. In the contralateral SCG, choline acetyltransferase (CAT) activity, a marker of cholinergic preganglionic terminals, was transiently increased to about 115% of control by 4 days and returned to control levels by 14 days after unilateral ganglionectomy; later, TH activity in noradrenergic cell bodies was gradually increased to about 140% of control by 10 days where it remained for up to 52 days. Unilteral ganglionectomy combined with decentralization of the contralateral SCG by preganglionic nerve cut prevented the compensatory changes in noradrenergic nerve terminals within the pineal.
http://www.ncbi.nlm.nih.gov/pubmed/2861259

Hypertrophy and neuron loss: structural changes in sheep SCG induced by unilateral sympathectomy

Interaction effects between time and ganglionectomy-induced changes were significant for SCG volume and mean perikaryal volume. These findings show that unilateral superior cervical ganglionectomy has profound effects on the contralateral ganglion. For future investigations, it would be interesting to examine the interaction between SCGs and their innervation targets after ganglionectomy. Is the ganglionectomy-induced imbalance between the sizes of innervation territories the milieu in which morphoquantitative changes, particularly changes in perikaryal volume and neuron number, occur? Mechanistically, how would those changes arise? Are there any grounds for believing in a ganglionectomy-triggered SCG cross-innervation and neuroplasticity?
http://www.ncbi.nlm.nih.gov/pubmed/21334426

Retrograde Changes in the Nervous System Following Unilateral Sympathectomy

In consequence of right-sided smpathectomy at the level of C5 it was found that in the sheep the cervical sympathetic trunk contains nerve fibres which proceed from cells situated in the first four segments of the thoracic part of the spinal cord and in the stellate ganglion. These fibres are about 85 per cent of all fibres of the sympathetic trunk. The remaining 15 per cent proceed from nerve cells situated nasally of the anterior cervical ganglion.
http://onlinelibrary.wiley.com/doi/10.1111/j.1439-0442.1967.tb00255.x/abstract

Telaranta's patient commits suicide after elective surgery for sweaty hands

One of Dr. Telaranta’s patients who had made a complaint began to experience strong reactions of anxiety which did not go away even after corrective surgery. Later the patient committed suicide. 


Surgery involving the clamping of sympathetic nerve trunks to prevent excessive perspiration and blushing appears to be of questionable value.
      Complications have been reported, ranging from phantom perspiration to blood clots in the brain.
      The Finnish Office for Health Care Technology Assessment (FinOHTA), which is part of the National Research and Development Centre for Welfare and Health (STAKES) recently conducted a survey on the various effects of hyperhidrosis surgery at the request of the Finnish Medical Association.
      Finnish surgeon Timo Telaranta has performed about 2,000 such operations at private clinics in Helsinki and Oulu in the past ten years.
     
The National Authority for Medicolegal Affairs has issued three warnings to Telaranta and the Provincial Government of Southern Finland has issued one. 

Many doctors have serious reservations about the idea of treating complaints such as excessive perspiration, blushing, and performance anxiety by severing people’s nerves. 
http://www.hs.fi/english/article/1101979734791

Patients with sympathectomy are not suitable controls for sleep study. Why?

Exclusions:
Patients with permanent pacemaker, non-sinus cardiac arrhythmias, peripheral vasculopathy or neuropathy, severe lung disease, status postbilateral cervical or thoracic sympathectomy, finger deformity that precludes adequate sensor application, using a-adrenergic receptor blockers, or alcohol or drug abuse during the last 3 years.

Evaluation of a Portable Device Based on Peripheral Arterial Tone for Unattended Home Sleep Studies

 The clinic sleep laboratory of the Technion Sleep Medicine Centre, Israel
http://chestjournal.chestpubs.org/content/123/3/695.long
CHEST March 2003 vol. 123 no. 3 695-703

MSAC Application no 1130, Assessment Report

The amount of compensatory sweating depends the amount of cell body reorganization in the spinal cord after surgery

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

ETS considered psychiatric surgery - says Dr Nagy

"ETS can alter many bodily functions, including sweating , heart rate , heart stroke volume , blood pressure , thyroid , baroreflex , lung volume , pupil dilation, skin temperature, goose bumps and other aspects of the autonomic nervous system . It can diminish the body's physical reaction to exercise and/or strong emotion, and thus is considered psychiatric surgery. In rare cases sexual function or digestion may be modified as well. "
http://www.lvhyperhidrosis.com/treatment.html

MD admits stellate ganglion block impacts on the insular cortex of the brain and alters emotions

Dr. Lipov says, "What really intrigued me about Dr, DeWall's study was he showed Tylenol exerted this emotional effect by acting on the insular cortex of the brain. That's exactly the same area that's affected by a Stellate Ganglion Block.[4]" The specialist is also Director of Chronic Pain Research at Northwest Community Hospital in Arlington Heights.
http://www.medicalnewstoday.com/releases/227298.php

diabetic autonomic neuropathy has already sympathectomized the patient

Although not specific, the symptoms suffered by diabetics from sweating disturbances are fairly typical [5]. Initially there is heat intolerance accompanied by hyperhidrosis of the upper half of the body, particularly affecting the face, neck, axillae and hands. It is of interest that these patients rarely perspire excessively below the umbilicus. This diabetic syndrome has been attributed to a lesion of the sympathetic nerve fibres which control sweat secretion [11] and follow the course of the peripheral nerves [12]. This affects the efferent branch of the reflex arch and is identical to that occurring distal to a surgical sympathectomy [13].

There was no difference found between the histological changes in the nerves of the spontaneous anhidrotic patients
(Fig. 1) and those of the two previously sympathectomized patients.

A number of papers have been published which stressed [22-24] the high failure rate of sympathectomy operations in diabetics. We believe that the failure of the operation is due to the fact that diabetic autonomic neuropathy has already sympathectomized the patient. The results of the present study are compatible with this idea.
http://www.springerlink.com/content/v21h52461037653k/

catecholamine-induced activation of vagal afferent pathways in regulation of sympathoadrenal system activity

Endocr Regul 2011 Jan; 45(1):37-41.


Stress-induced activation of the hypothalamic-pituitary-adrenal axis and sympathoadrenal system is precisely regulated by well-documented negative feedback mechanisms. These include direct negative feedback effect of glucocorticoids on brain structures regulating the hypothalamic-pituitary-adrenal axis activity. However, since the blood-brain-barrier is impermeable to circulating catecholamines, the role of circulating epinephrine and norepinephrine in feedback regulation of the sympathoadrenal system activity is unclear. Here we show that vagal innervation of the adrenal medulla combined with the presence of β-adrenergic receptors on vagal sensory neurons, the epinephrine-induced activation of vagal afferents, and increased plasma epinephrine levels following subdiaphragmatic vagotomy indicate that sensory fibers of the vagus nerve participate in the monitoring of plasma and tissue catecholamine concentrations. Furthermore, it shows that signaling transmitted by vagal afferents regulates sympathoadrenal system activity at the level of the brain. Therefore, we propose that vagal sensory fibers, directly activated by epinephrine and norepinephrine, represent the afferent limb of a negative feedback loop that adjusts the activity of the sympathoadrenal system according to actual plasma and tissue catecholamine levels.
http://www.unboundmedicine.com/medline/ebm/record/21314209

sympathectomy will block the chronotropic response

Around 50% of patients have bradycardia in the following minutes of a bilateral surgery with mean and diastolic blood pressure significant reduction. Since the sympathectomy will block the chronotropic response, a significant increase of the ejection volume is observed when the patient moves in the erect position from dorsal decubitus [6]. Two cardiovascular complications were reported in the literature. First, an asystolic cardiac arrest in an 18-year-old woman during the second side (left) of bilateral sympathectomy for severe hyperhidrosis, requiring resuscitation maneuvers, with no chronic sequelae [7]. The second case was reported in a 23-year-old woman in whom a bilateral T₂ sympathectomy was performed for facial hyperhidrosis. Two years later, following electrophysiologic studies confirming unopposed vagotonic stimulation, she underwent permanent pacemaker insertion for symptomatic bradycardia [8].
http://icvts.ctsnetjournals.org/cgi/content/full/8/2/238

The response to injury in the perihperal nervous system

Persisting neurones switch to a ‘survivor’ phenotype and the expression of hundreds of genes^8,9 is changed to compensate for the loss or diminution of target-derived neurotrophic factors,¹⁰ and in order to regrow their axons across the site of the injury and back into the periphery. Proximal changes, such as synaptic reorganisation in the cortex^11–13 and spinal cord, occur upstream of axotomised first-order motor and sensory neurones, and may influence the functional outcome months or even years later.^14–16 Distal to the injury, a series of molecular and cellular events, some simultaneous, others consecutive, and collectively called Wallerian degeneration, is triggered throughout the distal nerve stump and within a small reactive zone at the tip of the proximal stump (Fig. 2).^17–19

T-cells, neutrophils and macrophages infiltrate the site of an injury within two days;^40–42 the neutrophil response is very limited in both time and extent. Within hours, endoneurial levels of the early inflammatory cytokines, tumour necrosis factor alpha (TNF-) and interleukin (IL)-1, secreted mostly by Schwann cells, start to increase in the distal nerve stump. Within days, this network has been amplified by cytokines, chemokines and other bioactive molecules released by recruited macrophages, mast cells and activated endothelial cells.^43–51 Some of these molecules influence the behaviour of the Schwann cells (e.g. macrophage derived IL-1 regulates nerve growth factor (NGF) synthesis by Schwann cells)⁵² and others may play a role in the generation and/or maintenance of neuropathic pain.


Pathway selection.
One of the most important determinants of a satisfactory functional outcome is the accuracy of target re-innervation. If axons degenerate without rupture of the basal laminae which surround each Schwann tube, e.g. in an ischaemic or compressive lesion, then the axon sprouts are unlikely to be misrouted upon resolution of the underlying pathology. That is not the case after traumatic injuries in which a nerve is physically disrupted. Whether the resulting proximal and distal nerve stumps are sutured without tension,^143–145 or are bridged by an intervening graft, the axon sprouts which emerge from the proximal stump are bound to encounter unfamiliar Schwann tubes. Most sprouts, once they have negotiated the site of the suture, will remain within the endoneurium of the distal stump or graft. Those nearest to the periphery of the proximal stump may either escape with their Schwann cells into the epineurium through breaches in the damaged perineurium, or they may grow ectopically between the layers of the perineurium. In both situations their behaviour may produce a painful neuroma.
^{http://web.jbjs.org.uk/cgi/content/full/87-B/10/1309}

So numerous are the possible variations that the outcome of a sympathectomy is unpredictable

The sympathetic pathways to the heart are extremely variable in their topography, and the diversity of arrangements encountered accounts for the morphological contradictions in the literature. So numerous are the possible variations that the outcome of a sympathectomy is unpredictable. Where denervation is incomplete, collateral sprouting and regeneration of nerves could even lead to hyperstimulation via the sympathetic pathways.
http://onlinelibrary.wiley.com/doi/10.1002/aja.1001240203/abstract

After severing the cervical sympathetic trunk, the cells of the cervical sympathetic ganglion undergo transneuronic degeneration

In consequence of right-sided smpathectomy at the level of C₅ it was found that in the sheep the cervical sympathetic trunk contains nerve fibres which proceed from cells situated in the first four segments of the thoracic part of the spinal cord and in the stellate ganglion. These fibres are about 85 per cent of all fibres of the sympathetic trunk. The remaining 15 per cent proceed from nerve cells situated nasally of the anterior cervical ganglion.

The spinal cord. Changes found in the segment Th1 – Th4 in sheep III and IV closely resembled those
seen in the stellate ganglion (Figures 6, 7).

2. After severing the sympathetic trunk, the cells of its origin undergo complete disintegration within
a year.

3. After severing the cervical sympathetic trunk, the cells of the cervical sympathetic ganglion
undergo transneuronic degeneration.
http://onlinelibrary.wiley.com/doi/10.1111/j.1439-0442.1967.tb00255.x/abstract

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

important relationship among cognitive performance, HRV, and prefrontal neural function

These findings in total suggest an important relationship among cognitive performance, HRV, and prefrontal neural function that has important implications for both physical and mental health. Future studies are needed to determine exactly which executive functions are associated with individual differences in HRV in a wider range of situations and populations.
http://www.ncbi.nlm.nih.gov/pubmed/19424767

Low HRV is a risk factor for pathophysiology and psychopathology

The intimate connection between the brain and the heart was enunciated by Claude Bernard over 150 years ago. In our neurovisceral integration model we have tried to build on this pioneering work. In the present paper we further elaborate our model. Specifically we review recent neuroanatomical studies that implicate inhibitory GABAergic pathways from the prefrontal cortex to the amygdala and additional inhibitory pathways between the amygdala and the sympathetic and parasympathetic medullary output neurons that modulate heart rate and thus heart rate variability. We propose that the default response to uncertainty is the threat response and may be related to the well known negativity bias. We next review the evidence on the role of vagally mediated heart rate variability (HRV) in the regulation of physiological, affective, and cognitive processes. Low HRV is a risk factor for pathophysiology and psychopathology. Finally we review recent work on the genetics of HRV and suggest that low HRV may be an endophenotype for a broad range of dysfunctions.
http://www.ncbi.nlm.nih.gov/pubmed/18771686

cognition and reward processing

Recent functional magnetic resonance imaging (fMRI) investigations of the interaction between cognition and reward processing have found that the lateral prefrontal cortex (PFC) areas are preferentially activated to both increasing cognitive demand and reward level. Conversely, ventromedial PFC (VMPFC) areas show decreased activation to the same conditions, indicating a possible reciprocal relationship between cognitive and emotional processing regions. We report an fMRI study of a rewarded working memory task, in which we further explore how the relationship between reward and cognitive processing is mediated. We not only assess the integrity of reciprocal neural connections between the lateral PFC and VMPFC brain regions in different experimental contexts but also test whether additional cortical and subcortical regions influence this relationship. Psychophysiological interaction analyses were used as a measure of functional connectivity in order to characterize the influence of both cognitive and motivational variables on connectivity between the lateral PFC and the VMPFC.

These findings provide evidence for a dynamic interplay between lateral PFC and VMPFC regions and are consistent with an emotional gating role for the VMPFC during cognitively demanding tasks. Our findings also support neuropsychological theories of mood disorders, which have long emphasized a dysfunctional relationship between emotion/motivational and cognitive processes in depression.
http://dl.acm.org/citation.cfm?id=1480468

depression that may occur as part of stress system dysfunction

Stress precipitates depression and alters its natural history. Major depression and the stress response share similar phenomena, mediators and circuitries. Thus, many of the features of major depression potentially reflect dysregulations of the stress response. The stress response itself consists of alterations in levels of anxiety, a loss of cognitive and affective flexibility, activation of the hypothalamic-pituitary-adrenal (HPA) axis and autonomic nervous system, and inhibition of vegetative processes that are likely to impede survival during a life-threatening situation (eg sleep, sexual activity, and endocrine programs for growth and reproduction). 
http://www.nature.com/mp/journal/v7/n3/full/4001032a.html

Limbic-cortical dysregulation: a proposed model of depression

A working model of depression implicating failure of the coordinated interactions of a distributed network of limbic-cortical pathways is proposed. Resting state patterns of regional glucose metabolism in idiopathic depressed patients, changes in metabolism with antidepressant treatment, and blood flow changes with induced sadness in healthy subjects were used to test and refine this hypothesis. Dorsal neocortical decreases and ventral paralimbic increases characterize both healthy sadness and depressive illness; concurrent inhibition of overactive paralimbic regions and normalization of hypofunctioning dorsal cortical sites characterize disease remission. Normal functioning of the rostral anterior cingulate, with its direct connections to these dorsal and ventral areas, is postulated to be additionally required for the observed reciprocal compensatory changes, since pretreatment metabolism in this region uniquely predicts antidepressant treatment response. This model is offered as an adaptable framework to facilitate continued integration of clinical imaging findings with complementary neuroanatomical, neurochemical, and electrophysiological studies in the investigation of the pathogenesis of affective disorders.
http://neuro.psychiatryonline.org/cgi/content/short/9/3/471

ELECTRICAL STIMULATION OF THE SYMPATHETIC NERVE CHAIN

The present invention provides a method of affecting physiological disorders by stimulating a specific location along the sympathetic nerve chain. Preferably, the present invention provides a method of affecting a variety of physiological disorders or pathological conditions by placing an electrode adjacent to or in communication with at least one ganglion along the sympathetic nerve chain and stimulating the at least one ganglion until the physiological disorder or pathological condition has been affected.

[0009] A number of treatment regiments utilizing electrical stimulation can be employed for a vast array of physiological disorders or pathological conditions associated with the sympathetic and parasympathetic nervous system. Physiological disorders that may be treated include, but are not limited to, hyperhydrosis, complex regional pain syndrome and other pain syndromes such as headaches, cluster headaches, abnormal cardiac sympathetic output, cardiac contractility, excessive blushing condition, hypertension, renal disease, heart failure, angina, hypertension, and intestinal motility disorders, dry eye or mouth disorders, sexual dysfunction, asthma, liver disorders, pancreas disorders, and heart disorders, pulmonary disorders, gastrointestinal disorders, and biliary disorders. The number of disorders to be treated is limited only by the number, variety, and placement of electrodes (or combinations of multiple electrodes) along the sympathetic nervous system.

http://www.faqs.org/patents/app/20110098762

changes in the intracranial vascular bed due to the leakage and disappearance of the noradrenaline transmitter from the degenerating nerve terminals followed by denervation supersensitivity

The intracranial pressure, measured as the ventricular fluid pressure (VFP), was recorded continuously during about 2 days via a cannula inserted into the left lateral ventricle of the brain of conscious rabbits. The effect of bilateral removal of the superior cervical ganglia on the VFP was studied at various time-periods after operation, and the results were compared with those from unoperated control animals. The pressure changes attributed to the sympathectomy are referred to as the net VFP. The operation ultimately caused a disappearance of noradrenaline from intracranial sympathetic nerves. The net VFP was not affected during an 8-hr period of the recording starting 5–8 hrs after sympathectomy. During the following 35 hrs it was reduced by approximately 25 mm physiological saline followed by a return to initial or somewhat higher levels. Four days after sympathectomy the net VFP was significantly increased throughout the recording period. Two weeks after the operation the pressure had returned to the same, or even lower level compared with the non-sympathectomized control animals. The variations in the net VFP at different time-periods after sympathectomy are considered to reflect mainly changes in the intracranial vascular bed due to the leakage and disappearance of the noradrenaline transmitter from the degenerating nerve terminals followed by denervation supersensitivity. The results are discussed in terms of a sympathetic influence on the intracranial pressure mediated through the volume of the intracranial vascular bed, and/or the cerebrospinal fluid production in the choroid plexuses.
http://onlinelibrary.wiley.com/doi/10.1111/j.1748-1716.1971.tb05049.x/abstract

Endoscopic sympathetic block--new treatment of choice for social phobia?

Ann Chir Gynaecol. 2001 ;90 (3):177-84  11695789  Cit:3

Central neural integration for the control of autonomic responses associated with emotion

http://www.ncbi.nlm.nih.gov/pubmed/6370083
http://www.google.com./search?q=neural+integration+for+the+control+of+autonomic+responses+associated+with+emotion&ie=utf-8&oe=utf-8&aq=t&rls=org.mozilla:en-US:official&client=firefox-a

ganglion block for unbalanced sympathetic nervous system disorders

Stellate ganglion blocks (SGB) are widely used for pain relief in outpatient clinics due to its many therapeutic indications and easy maneuvering. It is used locally over stellate ganglion territory disorders in the craniocervical (head and neck) or upper limbs and systemically for angina pectoris, psychosomatic disorders, hormonal disorders, or unbalanced sympathetic nervous system disorders [1].
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2872892/

sympathectomy can result in spinal cord infarction

Uncommon causes include decompression sickness, which has a predilection for spinal ischemic damage; complications of abdominal surgery, particularly sympathectomy;...

http://www.neurology-asia.com/Spinal_Cord_Infarction.php

For blood pressure control in certain acute hypotensive states (e.g., pheochromocytomectomy, sympathectomy...

Norepinephrine (Levophed ®) -
For blood pressure control in certain acute hypotensive states (e.g., pheochromocytomectomy, sympathectomy, poliomyelitis, spinal anesthesia, myocardial infarction, septicemia, blood transfusion, and drug reactions).
http://www.globalrph.com/norepinephrine_dilution.htm

stellate ganglion block in the treatment of panic/anxiety symptoms

Both patients experienced immediate, significant and durable relief as measured by the PCL (score minimum 17, maximum 85). In both instances, the pre-treatment score suggested a PTSD diagnosis whereas the post-treatment scores did not. One patient requested repeat treatment after 3 months, and the post-treatment score remained below the PTSD cutoff after 7 additional months of follow-up. Both patients discontinued all antidepressant and antipsychotic medications while maintaining their improved PCL score.

CONCLUSION:

Selective blockade of the right stellate ganglion at C6 level is a safe and minimally invasive procedure that may provide durable relief from PTSD symptoms, allowing the safe discontinuation of psychiatric medications.
http://www.ncbi.nlm.nih.gov/pubmed/20412504

Stellate ganglion block "reboots" the insular cortex

The following is a summary from our publications in Lancet Oncology and Medical Hypothesis

The picture demonstrates the connections from the stellate ganglion to other neural structures.  This was demonstrated using retro rabies virus techniques and functional MRI.  Both are objective data demonstrating the effect on the insula by the stellate ganglion.  Stellate ganglion block effectively "reboots" the insular cortex, allowing for a reduction in hot flashes

The stellate ganglion refers to the ganglion formed by the fusion of the inferior cervical and the first thoracic ganglion as they meet anterior to the vertebral body of C7. It is present in 80% of subjects. It usually lies on or above the neck of the first rib. http://dardipainclinic.com/stellate_ganglion_block.php

To date, sufficient importance has not been placed on the long term effects that could cause dorsal sympathectomy

A scientific society has been created for surgery of the sympathetic nervous system, the International Society of Sympathetic Surgery (ISSS); and in the most recent thoracic surgery and related specialities congresses it fills up a considerable percentage of the programme.
On the other hand, this surgery, especially for hyperhidrosis and facial reddening, is the one that on a percentage basis generates more demands and complaints from the patients, even with medico-legal connotations.7 Despite that the majority of the patients show a very high degree of satisfaction, the presence of a patient operated for hyperhidrosis with important compensatory sweating that repeatedly manifest their dissatisfaction to the surgeon is a very annoying situation with an intractable solution. There are even forums on the Internet that constantly manifest their discomfort with this type of surgery in a violent and insulting tone, for example, the World Against Sympathectomy Website.

In summary, we are faced with a new disorder that is being attended massively in our hospitals and needs a moment of contemplation. What are we doing? Are we doing it properly? What are the future implications in these patients of dorsal sympathetic denervation? For the first 2 questions, we could find the answer in the new clinical guidelines and scientific society norms and with the publication of linger series, randomised systematic studies, reviews and meta-analyses. However, it is perhaps the latter of these that implies greater consideration. To date, sufficient importance has not been placed on the long term effects that could cause dorsal sympathectomy, and the effects on lung function, heart function, skin colouring and psychological state are being studies, among others;10 the most important being the first 2. secondary consequences of the operation.

The consequences of sympathetic denervation after a dorsal sympathectomy on lung function have been studied on several occasions11 and reductions in forced vital capacity, forced expiratory flow in the first second and maximum mesoexpiratory flow have been found, but with no clinical significance. It therefore seems that, despite sympathetic innervation being scarce, it directly influences motor tone, especially of the fine respiratory tracts, which cause a light obstructive pattern after the operation and favours bronchial hyperreactivity.12 It is of great interest to know the results of the research being carried out to recognise the long term effects.
Something similar occurs with heart function, the sympathectomy in the short term causes bradycardia due to a lack of sympathetic stimulation to the heart. Several cases of myocardial infarction13 and
chronotropic heart failure requiring the insertion of a pacemaker14 have been reported. In the long term, dorsal sympathetic interruption causes an effect similar to beta blockers on the heart, and produced a decrease in average heart rate, but with no significant changes in the electrocardiogram (normal Q-T).15 It may be good to know through long term prospective studies which effects it truly has on heart function and what it could mean for the daily lives of the operated patients. For the time being, those individuals who practice aerobic sports (for example, long distance runners and cyclists)
should be informed that with sympathectomy their heart rate may be reduced in situations of maximum effort and lower their performance.16


M. Congregado / Arch Bronconeumol. 2010;46(1):1-2

acute response to surgical denervation and abrupt release of sympathetic tone

Intraoperative predictability of successful outcome depends on monitoring of the acute response to surgical denervation and abrupt release of sympathetic tone.

Information on the long-term physiological sequelae is emerging rapidly. Preoperatively, in addition to abnormal sudomotor control, sympathetic cardiovascular regulation may be affected mildly in severe cases of hyperhidrosis. A blunted reflex bradycardia response to parasympathomimetic maneuvers such as Valsalva maneuver or cold water face immersion, as well as an increased heart rate response
to orthostatic stress, suggests a hyperfunctioning sympathetic discharge that is reversed after ETS.25,69 Because sympathetic cardiac accelerator fibers exit the spinal cord from segments T1 to T4, ETS is believed to simulate a mild physiological !-adrenergic blockade.70 This is because the heart rate at rest and during maximal exercise is lower 6 weeks postoperatively

DIAGNOSIS AND TREATMENT OF HYPERHIDROSIS,  CONCISE REVIEW FOR CLINICIANS
Mayo Clin Proc.     •     May 2005;80(5):657-666 

This injures all the neurons at this level of the spinal cord, some of which may die, and may predispose the patient to spinal cord reorganization and severe compensatory hyperhidrosis

Sympathectomy vs sympathotomy. Sympathectomy, with use of ganglionectomy and by definition, must sever the primary axon from the neuron in the intermediolateral cell column of the spinal cord (red) before primary or collateral synapse in the T2 ganglion. This injures all the neurons at this level of the spinal cord, some of which may die, and may predispose the patient to spinal cord reorganization and severe compensatory hyperhidrosis. Sympathotomy interrupts only axons after potential T2 ganglion synapses, a less injurious effect on the neuron, and is the least destructive procedure possible with successful treatment
of palmar hyperhidrosis.
Mayo Clin Proc 2003;78:167-172.   http://www.mayoclinic.org/medicalprofs/enlargeimage5096.html

reduction in hypothalamic dopamine after sympathectomy, which leads to an increase in serum prolactin level

At this point, it is particularly interesting to recall the earlier reports of middle ear bone remodeling in the gerbil after chemical sympathectomy by guanethidine sulfate (86) or hydroxydopamine (85). Although these neurotoxins do eliminate sympathetic activity, there are, in parallel, major central consequences. In particular, both treatments reduce hypothalamic dopamine, which leads to an increase in serum prolactin levels.
http://ajpendo.physiology.org/content/293/5/E1224.full

"Again, patients admitted with any malignancy, cholecystectomy, thyroidectomy, renal disease, cardiac disease, sympathectomy, or vascular graft were eliminated as controls."
This article reviews the evidence that neuroleptics may increase the risk of breast cancer via their effects on prolactin secretion.
Paul M. Schyve; Francine Smithline; Herbert Y. Meltzer
Neuroleptic-induced Prolactin Level Elevation and Breast Cancer: An Emerging Clinical Issue
Arch Gen Psychiatry, Nov 1978; 35: 1291 - 1301.

dural blood flow decreased significantly in the cervical sympathectomy group

Migraine may affect the autonomic nervous system, but the mechanisms remain unclear. The sympathetic and parasympathetic nervous systems may play different roles in the attack. To explore the effect of blocking the cervical sympathetic nerve on vasodilation of the meningeal vessels, jugular vein calcitonin gene-related peptide (CGRP) and meningeal blood flow changes were measured before and after transection of the cervical sympathetic nerve by electrically stimulating the trigeminal ganglion in Sprague–Dawley (SD) rats. We found that CGRP level and meningeal blood flow increased in both the sham-operated and sympathectomized groups (p<0.05). Compared with the sham-operated group, dural blood flow decreased significantly in the cervical sympathectomy group, but CGRP level was not significantly different between these two groups. The cervical sympathetic nerve may play an important role in the process of neurogenic dural vasodilation in rats; this effect is not entirely dependent on CGRP level.
http://www.autonomicneuroscience.com/article/S1566-0702%2811%2900026-9/abstract

Segmental myoclonus was associated with thoracic sympathectomy

Spinal myoclonus was associated with laminectomy, remote effect of cancer, spinal cord injury, post-operative pseudomeningocele, laparotomy, thoracic sympathectomy, poliomyelitis, herpes myelitis, lumbosacral radiculopathy, spinal extradural block, and myelopathy due to demyelination, electrical injury, acquired immunodeficiency syndrome, and cervical spondylosis.
http://www.ncbi.nlm.nih.gov/pubmed/3753263

Spinal myoclonus is typically associated with a localized area of damaged tissue (focal lesion). The injured area may include direct damage of the spinal cord or may cause abnormal changes in the function of the spinal cord.
http://www.wemove.org/myo/myo_pc.html

Serious complications reported after sympathectomy

Surgery involving the clamping of sympathetic nerve trunks to prevent excessive perspiration and blushing appears to be of questionable value.

Complications have been reported, ranging from phantom perspiration to blood clots in the brain.

The Finnish Office for Health Care Technology Assessment (FinOHTA), which is part of the National Research and Development Centre for Welfare and Health (STAKES) recently conducted a survey on the various effects of hyperhidrosis surgery at the request of the Finnish Medical Association.

Finnish surgeon Timo Telaranta has performed about 2,000 such operations at private clinics in Helsinki and Oulu in the past ten years.
The National Authority for Medicolegal Affairs has issued three warnings to Telaranta and the Provincial Government of Southern Finland has issued one.
There are currently no complaints pending against Telaranta, and the authority has not considered restricting his rights to practice medicine.

The Finnish Patient Insurance Centre has processed 20 complaints concerning Telarantas Privatex clinic. The complaints resulted in 14 decisions to pay compensation. All except two of the surgeries were conducted by Telaranta himself.
Telaranta says that he treats patients suffering from difficult social anxiety with endoscopic surgery in which an incision is made into the upper part of the chest cavity, and the sympathetic nerve trunk is severed or clamped.
Most patients are satisfied with the treatment. However, FinOHTA found that there were many negative side-effects, some of which were very serious.
With most patients, heavy perspiration of the palms has moved to other parts of the body, below the breasts. As many as 15% of those who have undergone the surgery said that the surge in body perspiration forces them to change underwear several times a day.
Other side-effects have included drying of the skin on the face and hands, as well as perspiration triggered by eating spicy food. There are also reports of phantom perspiration - the feeling of perspiration when none takes place - as well as a weakened tolerance for cold.

More serious effects include collapsing of a lung, breathing difficulties, and blood clots in the brain. Some patients got a hanging eyelid, while others reported a sudden raspiness of their voice.
One of Dr. Telarantas patients who had made a complaint began to experience strong reactions of anxiety which did not go away even after corrective surgery. Later the patient committed suicide.

Dr. Telaranta himself says that the side-effects are regrettable. However, he says that he has developed a procedure which does not cause any such side effects.
He also says that it is important to examine patients carefully, and to perform surgery only on those who are suited for the procedure.
Many doctors have serious reservations about the idea of treating complaints such as excessive perspiration, blushing, and performance anxiety by severing peoples nerves.
Helsingin Sanomat
http://www.hs.fi/english/article/1101979734791

decreased conditioning-related activity in insula and amygdala in patients with 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

Effect of sympathectomy on mechanical properties of common carotid and femoral arteries

Compared with the intact animals, sympathectomized rats showed a marked increase in arterial distensibility over the entire systolic-diastolic pressure range. When quantified by the area under the distensibility-pressure curve, the increase was 59% and 62% for the common carotid and femoral arteries, respectively (P<.01 for both). In the femoral but not in the common carotid artery, sympathectomy was accompanied also by an increase in arterial diameter (+18%, P<.05 versus intact). Therefore, in the anesthetized normotensive rat, sympathetic activity exerts a tonic restraint on large-artery distensibility. This restraint is pronounced in elastic vessels and even more pronounced in muscle-type vessels.

http://www.ncbi.nlm.nih.gov/pubmed/9369260

endoscopic sympathicotomy in carotid and vertebral arteries in the surgical treatment of primary hyperhidrosis

Analyze, in patients with primary hyperhidrosis (PH) who was undergone to videothoracoscopic sympathicotomy, the degree of vascular denervation after surgical transection of the thoracic sympathetic chain by measuring ultrasonografic parameters in carotid and vertebral arteries.

METHODS:

Twenty-four patients with PH underwent forty-eight endoscopic thoracic sympathicotomy and were evaluated by duplex eco-Doppler measuring systolic peak velocity (SPV), diastolic peak velocity (DPV), pulsatility index (PI) and resistivity index (RI) in bilateral common, internal and external carotids, besides bilateral vertebral arteries. The exams were performed before operations and a month later. Wilcoxon test was used to analyse the differences between the variables before and after the sympatholisis.

RESULTS:

T3 sympathicotomy segment was the most frequent transection done (95.83%), as only ablation (25%) or in association with T4 (62.50%) or with T2 (8.33%). It was observed increase in RI and PI of the common carotid artery (p < 0.05). The DPV of internal carotid artery decreased in both sides (p < 0.05). The SPV and the DPV of the right and left vertebral arteries also increased (p < 0.05). Asymmetric findings were observed so that, arteries of the right side were the most frequently affected.

CONCLUSIONS:

Hemodynamic changes in vertebral and carotid arteries were observed after sympathicotomy for PH. SPV was the most often altered parameter, mostly in the right side arteries, meaning significant asymmetric changes in carotid and vertebral vessels. Therefore, the research findings deserve further investigations to observe if they have clinical inferences.

http://www.ncbi.nlm.nih.gov/pubmed/16186983

sweating from these areas could be under cortical control, separate from the hypothalamic centers involved in thermoregulation

Compensatory hyperhidrosis is excessive sweating of the abdomen, chest, back, thighs, and face,[6,72] usually in response to increased temperature.[46] This is the most common complication following ETS, reported to occur at an average rate of about 60%, with a range of 3% to 98%.[46] Higher rates have been reported from countries with warmer climates, such as in Asia and the Middle East.[46,82] The sweating can be severe for 10% to 40% of patients.[10] Although it has been written that compensatory sweating diminishes with time, several series have documented continued symptoms with longer-term follow-up.[46] In one series of 270 patients followed for a mean of 15 years postsympathectomy, 67% still complained of compensatory sweating, and overall satisfaction fell from an initial level of 96% to 67%.[55] It is possible that patients begin to notice compensatory sweating some time after ETS, as they are initially more aware of the marked reduction of their primary hyperhidrosis.[46] The mechanism for compensatory sweating is unclear; the most likely explanation is that sweating in the trunk increases to compensate for the lack of sweating from the denervated areas in order to maintain thermoregulation.[82] The occurrence of decreased sweating in other areas not innervated by the ganglia treated by ETS suggests that the response to ETS is more complex. The soles are the most common area with decreased sweating post-ETS, and, along with the axillae and palms, sweating from these areas could be under cortical control, separate from the hypothalamic centers involved in thermoregulation.[72] It has also been proposed that ganglion destruction affects axons of neurons in the interomediolateral spinal cord, which could lead to cell death or re-organization, changing the control of the sympathetic system by the spinal cord and higher, leading to increased sympathetic tone in the other body areas not treated by ETS.[10]  http://www.sweathelp.org/English/HCP_Treatment_ETS_Surgery_Complications.asp?printfriendly=true

the decrease in CBF induced by chronic sympathectomy cannot be attributed to the development of hypersensitivity

Thus the decrease in CBF induced by chronic sympathectomy cannot be attributed to the development of hypersensitivity to catecholamines. This decrease remained stable whatever the value of resting flow and was maintained under anesthesia. It is concluded that, as in the peripheral circulation, chronic sympathectomy affects the equilibrium of the vascular smooth muscle fibers, but that circulating amines play no compensatory role in the cerebral circulation because of the blood-brain barrier.

http://www.sciencedirect.com/science/article/pii/0006899385902434

Post-sympathectomy pain and changes in sensory neuropeptides

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):1158-60http://www.ncbi.nlm.nih.gov/pubmed/2414615?dopt=Abstract

sensory abnormalities, abnormal body sweating, and pathologic gustatory sweating

The aim of this study is to describe the incidence and characteristics of pain, sensory abnormalities, abnormal body sweating, and pathologic gustatory sweating in pain patients with persistent post-sympathectomy pain.
Results: Seventeen adults (13 females and 4 males) with a mean age of 37 years (range 25-52) at the time of sympathectomy met the inclusion criteria. Five of the 17 patients experienced temporary pain relief for an average of 4 months (range 2-12 months), 3/17 retained the same pain as before the surgery, 1 patient was cured of her original pain but experienced a new debilitating pain, and 8/17 patients continued to have the same or worse pain in addition to a new or expanded pain. Pathologic gustatory sweating was present in 7/11 patients asked, and abnormal sweating (known as compensatory hyperhidrosis) in 11/13 patients asked. Discussion: The present study does not allow for conclusions about the effectiveness of surgical sympathectomy for neuropathic pain. However, our findings indicate that if the pain persists after the procedure, the complications may be quite serious and at times worse than the problem for which the surgery was originally performed.
The Clinical journal of pain
2003, vol. 19, n^o3, pp. 192-199http://cat.inist.fr/?aModele=afficheN&cpsidt=14775091

Recurrent sweating occurred in 17.6% of patients

J Neurosurg Spine. 2005 Feb;2(2):151-4.http://www.ncbi.nlm.nih.gov/pubmed/15739526

Post-sympathectomy neuralgia

Post-sympathectomy neuralgia is proposed here to be a complex neuropathic and central deafferentation/reafferentation syndrome dependent on: (a) the transection, during sympathectomy, of paraspinal somatic and visceral afferent axons within the sympathetic trunk; (b) the subsequent cell death of many of the axotomized afferent neurons, resulting in central deafferentation; and (c) the persistent sensitization of spinal nociceptive neurons by painful conditions present prior to sympathectomy. Viscerosomatic convergence, collateral sprouting of afferents, and mechanisms associated with sympathetically maintained pain are all proposed to be important to the development of the syndrome.

Pain. 1996 Jan;64(1):1-9
http://www.ncbi.nlm.nih.gov/pubmed/8867242?ordinalpos=2&itool=EntrezSystem2.PEntrez.Pubmed.Pubmed_ResultsPanel.Pubmed_DefaultReportPanel.Pubmed_RVDocSum

Neuroma following Sympathectomy

The authors conclude recomemnding the application of clips and if the syndrome nevertheless appears novocaine infiltration of the upper end of the sympathetic chain. The authors are convinced that the theory of Hermann and Cooley about neuroma formation at the ends of the sympathetic chain after resection of a segment is true.
http://www.revangiol.com/sec/resumen.php?or=web&i=e&id=227082.
Traumatic neuroma follows different forms of nerve injury (often as a result of surgery). They occur at the end of injured nerve fibres as a form of ineffective, unregulated nerve regeneration; it occurs most commonly near a scar, either superficially (skin, subcutaneous fat) or deep (e.g., after acholecystectomy). They are often very painful. It is also known as "pseudoneuroma".

A depression in the heart rate and decrease in response to stress is expected to some degree in all patients after sympathectomy

A depression in the heart rate with resultant drop in the heart rate product and decrease in response to stress is expected to some degree in all patients. Some series have described this finding in most patients, whereas others report at least a 10% drop in heart rate in all patients. This is a possible major cause for postoperative dysfunction and should be cautiously sought after. Patients with resting heart rate that is below 50 to 60 beats/min should undergo electrocardiography. It is recommended that if the heart rate is low on a subsequent electrocardiogram as well, that a tilt test should be performed to exclude patients in whom there is an inordinately high risk of postoperative bradycardia.

In conclusion, thoracoscopic sympathectomy can be done as an outpatient procedure safely and efficiently. Debate continues about the correct transection levels, but at this time there is a consensus that division or clipping is equal to resection. Although the procedure has several severe side effects, they are rare. The predominant complication remains compensatory sweating, which may occur regardless of the level transected or the indication. Future clinical trials should compare some of the different techniques to achieve a global consensus of the surgical approach.

http://ats.ctsnetjournals.org/cgi/content/full/85/2/S764

Sympathectomy altered electroactivity on the heart

The influences on the cardiac autonomic nerve system of the ETS of upper thoracic sympathetic nerve were seen to be of a lesser degree at rest. However, the response to sympathetic stimulation was suppressed after the surgery.

Eur J Cardiothorac Surg 1999;15:194-198

http://ejcts.ctsnetjournals.org/cgi/content/full/15/2/194

Depression of Endothelial Nitric Oxide Synthase but Increased Expression of Endothelin-1 Immunoreactivity in Rat Thoracic Aortic Endothelium Associated With Long-term, but Not Short-term Sympathectomy

Circulation Research. 1996;79:317-323

After unilateral sympathectomy the incidence of calcified arteries on the side of operation was significantly higher than that on the contralateral side

Medial arterial calcification is frequently seen in diabetic patients with severe diabetic neuropathy. Sixty patients (19 diabetic and 41 non-diabetic) were examined radiologically for typical Monckeberg's sclerosis of feet arteries 6-8 years after uni- or bilateral lumbar sympathectomy. Fifty-five out of 60 patients (92%) revealed medial calcification. This calcification was observed in both feet of 93% of patients, who had undergone bilateral operation. After unilateral sympathectomy the incidence of calcified arteries on the side of operation was significantly higher than that on the contralateral side (88% versus 18%, p less than 0.01). Although diabetic patients showed longer
stretches of calcification than non-diabetic subjects, the difference was not significant in terms of incidence and length. Of 20 patients who had no evidence of calcinosis pre-operatively, 11 developed medial calcification after unilateral operation exclusively on the side of sympathectomy. In seven patients calcinosis was detected in both feet after bilateral operation. In conclusion, sympathetic denervation is one of the causes of Monckeberg's sclerosis regardless of diabetes mellitus.
PMID: 6873514 [PubMed - indexed for MEDLINE]
Diabetologia. 1983 May;24(5):347-50.

in the media of FAs hypercholesterolemia induces changes similar to those observed in sympathectomized rabbits in non-pathological conditions

In a previous study, we showed that after sympathectomy, the femoral (FA) but not the basilar (BA) artery from non-pathological rabbits manifests migration of adventitial fibroblasts (FBs) into the media and loss of medial smooth muscle cells (SMCs). The aim of the present study was to verify whether similar behaviour of arteries occurred in the pathological context of atherosclerosis.
Our results show that in the media of FAs hypercholesterolemia induces changes similar to those observed in sympathectomized rabbits in non-pathological conditions, i.e., migration of adventitial FBs to the media and loss of medial SMCs. These latter changes, which can be ascribed to pathological events, were accentuated after sympathectomy in the hypercholesterolemic rabbits. The present study reveals that pathological events, including migration and phenotypic modulation of vascular FBs and loss of SMCs, may be under the influence of sympathetic nerves.
Acta Histochemica; Jul2008, Vol. 110 Issue 4, p302-313, 12p

sympathectomy results in an increased collagen content in the vascular wall, suggesting a stiffening of the vessel wall

From animal experiments, it is known that long-term sympathectomy results in an increased collagen content in the vascular wall, suggesting a stiffening of the vessel wall (9). Giannattasio et al.

MEDICINE & SCIENCE IN SPORTS & EXERCISE®
Copyright © 2005 by the American College of Sports Medicine
DOI: 10.1249/01.mss.0000174890.13395.e7

hypoxic pulmonary vasoconstriction may be impaired after Sympathectomy

It is well known that hypoxic pulmonary vasoconstriction(HPV) plays an important role to protect hypoxemia during the atelectasis induced by one-lung ventilation. Thoracic sympathectomy may have effects on pulmonary vasculature(HPV) and hemodynamics during one-lung anesthesia.

Mean arterial blood pressure was decreased from 81.9+/-2.89 to 73.2+/-2.49 mmHg after thoracic sympathectomy and heart rate was decreased from 104.4+/-3.12 to 88.2+/-2.31beats/min. Arterial oxygen tension was decressed from 570.5+/-17.9 to 521.4+/-23.2mmHg after position change, and decreased to 271.1+/-28.1 mmHg under one-lung ventilation, and finally decreased to 217.0+/-18.3 mmHg after thoracic sympathectomy. With the above results, we can conclude that patients for TES should be carefully observed during and after the procedure, and hypoxic pulmonary vasoconstriction may be impaired after TES.
Korean J Anesthesiol. 1993 Aug;26(4):695-699.

Unilateral removal of the superior cervical ganglion (SCG) results in the reinnervation of the denervated cerebral vessels by sprouting nerves

Chemical sympathectomy of the mature rat rather than the neonate also leads to sensory hyperinnervation, although there are a few differences. In the lung, sympahtectomy induces a marked increase in CGRP-immunoreactive nerve density around the ariways, blood vessels, and also in the vicinity of the neuroepithelial bodies of the pulmonary epithelium.

Following transection of the preganglionic autonomic nerves or in spinal cord injury, there are marked changes in the nerves that remain. Such changes can be manifested not only as nerve growth and changes in neurotransmitter expression, but remarkably, in reorganization of nerve pathways and their function.

Since sprouting is a common response of the nerves that remain following nerve injury, the close association of the different divisions of the autonomic nervous system in the pelvic region opens up the possibility for new connections to form new pathways. Spinal cord injury can unmask spinal reflexes that are normally inhibited by input from higher centers in the brain.

Handbook of the autonomic nervous system in health and disease

By Liana Bolis, J. Licinio, Stefano GovoniInforma Health Care, 2003 - Medical - 677 pages

depletion of brain noradrenaline levels causes a disturbance in cerebral microvascular tone

A hypertensive condition at a mean arterial pressure of about 160 mm Hg was maintained for 1 hour by intravenous infusion of phenylephrine. In the 6-hydroxydopamine-treated group, CBF increased significantly after the elevation of systemic blood pressure compared with that in the control group, and cerebral autoregulation was impaired. After a 1-hour study, the specific gravity of the cerebral tissue in the treated group significantly decreased; electron microscopic studies at that time revealed brain edema.It is suggested that depletion of brain noradrenaline levels causes a disturbance in cerebral microvascular tone and renders the cerebral blood vessels more vulnerable to hypertension.

Journal of Neurosurgery, December 1991 Volume 75, Number 6

cerebral edema is worsened by sympathectomy, which causes increased cerebral blood flow

Although excessive SNS activity may be globally harmful, catecholamines and sympathetic nerves may also have organ-protective effects via reflex arteriolar constriction, which may protect the capillaries of the brain and kidney from surges in SBP. A baroprotective role of cerebral sympathetic nerves was uncovered by Heistad et al., who unilaterally denervated the cerebral vasculature in stroke-prone rats and found that fatal stroke occurred rapidly in the hemisphere ipsilateral to the sympathetic denervation. In the syndrome of malignant hypertension, cerebral edema is worsened by sympathectomy, which causes increased cerebral blood flow.

Role of hte Hypothalamus in Integration of behavior and Cardiovascular Responses (p. 60)

Hypertension: a companion to Brenner and Rector's the kidney

By Suzanne Oparil, Michael A. Weber
Elsevier Health Sciences, 2005 - Medical - 872 pages

Spinal Cord Infarction caused by sympathectomy

Uncommon causes include decompression sickness, which has a predilection for spinal ischemic damage; complications of abdominal surgery, particularly sympathectomy; circulatory failure as a result of cardiac arrest or prolonged hypotension; and vascular steal in the presence of an arteriovenous malformation.

Author: Thomas F Scott, MD, Professor, Program Director, Department of Neurology, Drexel University College of Medicine; Director, Allegheny MS Treatment Center
Contributor Information and Disclosures

Updated: Aug 21, 2009

sympathectomy per se may sensitize peripheral nociceptors and lead to neuralgia

Interestingly, while is used for the treatment of some chronic pain conditions, sympathectomy per se may sensitize peripheral nociceptors to circulating norephinephrine, and this sensitization may lead to post-sympathectomy neuralgia. (p.287)

Peripheral Receptor Targets for Analgesia: Novel Approaches to Pain Management

By Brian E. Cairns
John Wiley and Sons, 2009 - Medical

we conclude that the sympathetic nervous system influences the metabolic activity of the aorta

The effect of chemical sympathectomy with 6-hydroxydopamine (6-OH-DA) on collagen formation in the aortic wall was investigated in rabbits and rats. Eight weeks after 6-OH-DA treatment of rabbits, there was a significant increase an collagen content in aortas and histologic changes in the elastic elements within the media. The possibility of a direct effect of 6-OH-DA on connective tissue formation was investigated in a subsequent experiment in rats. The rates of collagen synthesis and prolyl hydroxylase activity (PHA) were determined in aortas and in the fibrotic granuloma around subcutaneously implanted polyvinylalcohol sponges. Rates of collagen synthesis and PHA were significantly increased in the aortas of 6-OH-DA treated rats, but not in fibrotic granuloma, confirming the changes seen in the aorta of rabbits and suggesting that 6-OH-DA does not directly affect collagen synthesis. We conclude that the sympathetic nervous system influences the metabolic activity of the aorta. Our data indicate that when the aortic wall is deprived of adrenergic nervous stimulation, changes occur which resemble those seen in natural aging of the aorta. It is plausible to assume that such a metabolic derangement in the vessel wall will make these vessels more vulnerable to additional stresses.

Experimental and Molecular Pathology
Volume 28, Issue 3, June 1978, Pages 279-289

a significant impairment of the heart rate to workload relationship was consistently observed following sympathectomy

Several reports also demonstrate significantly lower heart rate increases during exercise in subjects who have undergone bilateral ISS [9–12] compared to pre-surgical levels. In spite of this high occurrence, recent reviews on the usual collateral effects of thoracic sympathectomy still do not include these possible cardiac consequences [6].
The aim of the present prospective study was to confirm that a significant impairment of the heart rate to workload relationship was consistently observed following unilateral and/or bilateral surgery.
Eur J Cardiothorac Surg 2001;20:1095-1100
http://ejcts.ctsnetjourna...i/content/full/20/6/1095