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

After severing the cervical sympathetic trunk, the cells of the cervical sympathetic ganglion undergo transneuronic degeneration
After severing the sympathetic trunk, the cells of its origin undergo complete disintegration within a year.

http://onlinelibrary.wiley.com/doi/10.1111/j.1439-0442.1967.tb00255.x/abstract

Sunday, April 27, 2008

Chemical sympathectomy augments the severity of experimental allergic encephalomyelitis

神经肽Y及Th1/Th2细胞与多发性硬化Multiple sclerosis, neuropeptide Y ...

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Multiple sclerosis, neuropeptide Y and Th1/Th2 cell .... Chemical sympathectomy augments the severity of experimental allergic encephalomyelitis 《Journal ...
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Maintenance of blood pressure is mostly dependent on sympathetic “tone”, and the sympathetic nerve innervates the entire vascular bed

Pharmacology and Physiology of Perivascular Nerves Regulating Vascular Function
Role of Perivascular Sympathetic Nerves and Regional Differences in the Features of Sympathetic Innervation of the Vascular System

Hiromichi Tsuru1), Noriaki Tanimitsu2) and Tomohisa Hirai2)
1) Department of Pharmacology, Toho University School of Medicine
2) Department of Otorhinolaryngology, Hiroshima University School of Medicine
ABSTRACT: Maintenance of blood pressure is mostly dependent on sympathetic “tone”, and the sympathetic nerve innervates the entire vascular bed, excepting the capillaries. Although norepinephrine (NE) is the principal neurotransmitter released upon sympathetic nerve stimulation, neuropeptide Y and ATP are cotransmitters in various vascular tissues. In addition, dopamine and epinephrine, as well as acetylcholine, have been shown to be sympathetic neurotransmitters in specific vasculatures. Transmitter NE release is modified by a number of endogenous substances including the transmitter itself. Chronic denervation of the preganglionic fiber induces an increase in NE release per pulse, indicating postganglionic neuronal supersensitivity. So far, three main adrenoceptor types have been shown, α1, α2 and β, each of which is further divided into at least three subtypes, as well as the α1L-adrenoceptor, a phenotype of the cloned α1a-adrenoceptor, in the blood vessel. Thus, the response of vessels with different receptor types to a transmitter varies quantitatively and even qualitatively from one vessel to another. The remarkable diversity in the sympathetic innervation mechanism in the vascular system may play an important role in regional variations in the regulation of blood flow. The sympathetic nerve also exerts long-term trophic action on the blood vessel. In conclusion, the sympathetic nervous system plays an important role not only in the regulation of cardiovascular dynamics but in the maintenance of the vessel structure, as well.
The Japanese Journal of PharmacologyVol. 88 (2002) , No. 1 pp.9-13

The significant fall in left circumflex coronary flow was proportional to the decline in external heart work due to sympathectomy both at rest and und

E. Bassenge1, J. Holtz1, W. v. Restorff1 and K. Oversohl1

(1) Physiologisches Institut der Ludwig-Maximilian-Universität München, Germany

Received: 18 April 1973

The exercise capacity and the increase of coronary and systemic hemodynamics under treadmill exercise were studied in 5 dogs, chemically sympathectomized with 6-hydroxy-dopamine.
Completeness of adrenergic denervation was verified by stimulation of the right stellate ganglion, by intravenous administration of tyramine, and by demonstration of supersensitivity to exogenous norepinephrine.
These dogs demonstrated a retarded adaptation of hemodynamics to a sudden start of exercise. A fall in mean arterial pressure below 45 mmHg within 10 to 15 sec lead to collapse. After a recovery period of 60–90 sec, moderate treadmill exercise could be continued; steady state attainment of hemodynamic parameters was considerably delayed.
A steady state of exercise with an O2-consumption (vO2) of 29.6±2.6 ml/min · kg and a cardiac outupt (CO) of 307±16 ml/min · kg was tolerated for at least 20 min.
An increase of vO2 up to 42.0±1.7 ml/min · kg and of CO up to 357±13 ml/min · kg under exercise was tolerated for 5 min with steady state, maximal heart rate being 160±4 min–1 at this level of exercise.
Mean arterial pressure and total peripheral resistance were significantly reduced at rest and during steady state of exercise as compared to controls prior to sympathectomy identical vO2, whereas CO remained unchanged.
The significant fall in left circumflex coronary flow was proportional to the decline in external heart work due to sympathectomy both at rest and under exercise.

Differential Effects of Chemical Sympathectomy on Expression and Activity of Tyrosine Hydroxylase and Levels of Catecholamines and DOPA

Tyrosine hydroxylase (TH) mRNA and activity and concentrations of 3,4-dihydroxyphenylalanine (DOPA) and catecholamines were examined as markers of sympathetic innervation and catecholamine synthesis in peripheral tissues of sympathectomized and intact rats. Chemical sympathectomy with 6-hydroxydopamine (6-OHDA) markedly decreased norepinephrine and to a generally lesser extent TH activities and dopamine in most peripheral tissues (stomach, lung, testis, duodenum, pancreas, salivary gland, spleen, heart, kidney, thymus). Superior cervical ganglia, adrenals and descending aorta were unaffected and vas deferens showed a large 92% decrease in norepinephrine, but only a small 38% decrease in TH activity after 6-OHDA.

Minoru Kawamura1, 2, Joan P. Schwartz1, Takuo Nomura1, Irwin J. Kopin1, David S. Goldstein1, Thanh-Truc Huynh1, Douglas R. Hooper1, Judith Harvey-White1 and Graeme Eisenhofer1

(1) Clinical Neuroscience Branch, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD, 20892
(2) Institute of Bio-Active Science, Nippon Zoki Pharmaceutical Co., Ltd. Hyogo, 673-14, Japan
Volume 24, Number 1 / January, 1999
JournalNeurochemical Research

the sympathetic nervous system regulates the clinical and pathological manifestations of experimental autoimmune encephalomyelitis (EAE)

Department of Immunology, National Institute of Neuroscience, NCNP, Ogawahigashi, Kodaira, Tokyo, Japan.
Prior studies have revealed that the sympathetic nervous system regulates the clinical and pathological manifestations of experimental autoimmune encephalomyelitis (EAE), an autoimmune disease model mediated by Th1 T cells. Although the regulatory role of catecholamines has been indicated in the previous works, it remained possible that other sympathetic neurotransmitters like neuropeptide Y (NPY) may also be involved in the regulation of EAE. Here we examined the effect of NPY and NPY receptor subtype-specific compounds on EAE, actively induced with myelin oligodendrocyte glycoprotein 35-55 in C57BL/6 mice. Our results revealed that exogenous NPY as well as NPY Y(1) receptor agonists significantly inhibited the induction of EAE, whereas a Y(5) receptor agonist or a combined treatment of NPY with a Y(1) receptor antagonist did not inhibit signs of EAE. These results indicate that the suppression of EAE by NPY is mediated via Y(1) receptors. Furthermore, treatment with the Y(1) receptor antagonist induced a significantly earlier onset of EAE, indicating a protective role of endogenous NPY in the induction phase of EAE. We also revealed a significant inhibition of myelin oligodendrocyte glycoprotein 35-55-specific Th1 response as well as a Th2 bias of the autoimmune T cells in mice treated with the Y(1) receptor agonist. Ex vivo analysis further demonstrated that autoimmune T cells are directly affected by NPY via Y(1) receptors. Taken together, we conclude that NPY is a potent immunomodulator involved in the regulation of the Th1-mediated autoimmune disease EAE.

J. Immunol. 2003 Oct 1;171 (7):3451-8 14500640 (P,S,E,B) Cited:3

Autonomic innervation of immune organs and neuroimmune modulation.

Autonomic & Autacoid Pharmacology. 23(1):1-25, February 2003.
Mignini, F.; Streccioni, V.; Amenta, F.

Abstract:
Summary: 1 Increasing evidence indicates the occurrence of functional interconnections between immune and nervous systems, although data available on the mechanisms of this bi-directional cross-talking are frequently incomplete and not always focussed on their relevance for neuroimmune modulation.

2 Primary (bone marrow and thymus) and secondary (spleen and lymph nodes) lymphoid organs are supplied with an autonomic (mainly sympathetic) efferent innervation and with an afferent sensory innervation. Anatomical studies have revealed origin, pattern of distribution and targets of nerve fibre populations supplying lymphoid organs.

3 Classic (catecholamines and acetylcholine) and peptide transmitters of neural and non-neural origin are released in the lymphoid microenvironment and contribute to neuroimmune modulation. Neuropeptide Y, substance P, calcitonin gene-related peptide, and vasoactive intestinal peptide represent the neuropeptides most involved in neuroimmune modulation.

4 Immune cells and immune organs express specific receptors for (neuro)transmitters. These receptors have been shown to respond in vivo and/or in vitro to the neural substances and their manipulation can alter immune responses. Changes in immune function can also influence the distribution of nerves and the expression of neural receptors in lymphoid organs.

5 Data on different populations of nerve fibres supplying immune organs and their role in providing a link between nervous and immune systems are reviewed. Anatomical connections between nervous and immune systems represent the structural support of the complex network of immune responses. A detailed knowledge of interactions between nervous and immune systems may represent an important basis for the development of strategies for treating pathologies in which altered neuroimmune cross-talking may be involved.

NPY in the regulation of autoimmune Th1 cells

Substantial evidence indicates a dysfunctional communication between the sympathetic nervous system and the immune system in Th1-mediated autoimmune diseases, such as rheumatoid arthritis and multiple sclerosis. In this Opinion, we propose that the sympathetic regulation of immunity is not only mediated by catecholamines but also involves neuropeptide Y (NPY), an additional postganglionic SNS transmitter that is shown to modulate various immunological functions in vitro and in vivo. Based on recent experimental findings, we believe that a more precise understanding of the role of NPY in the regulation of autoimmune Th1 cells will provide novel insights into the neuroimmunological basis of autoimmunity.

Sammy Bedouia, Sachiko Miyakec, Rainer H. Straubb, Stephan von Hörstena and Takashi Yamamurac, E-mail The Corresponding Author

aDepartment of Functional and Applied Anatomy, Medical School of Hannover, 30625 Hannover, Germany

bDepartment of Internal Medicine I, University Hospital Regensburg, 93042 Regensburg, Germany

cDepartment of Immunology, National Institute of Neuroscience, 4-1-1 Ogawahigashi, Kodaira, Tokyo 187-8502, Japan


Available online 20 August 2004.

dual pro- and anti-inflammatory role of the sympathetic nervous system (SNS) in inflammatory joint disease - Sympathetic Neurotransmitters in Joint Inflammation



Rainer H. Straub MDCorresponding Author Contact Information, E-mail The Corresponding Author and Peter Härle MD

Laboratory of Neuroendocrinoimmunology, Department of Internal Medicine I, University Hospital Regensburg, FJS-Allee 11, 93042 Regensburg, Germany


Available online 5 January 2005.



This article demonstrates the dual pro- and anti-inflammatory role of the sympathetic nervous system (SNS) in inflammatory joint disease (IJD) by way of distinct adrenoceptors. The dual role of the SNS depends on involved compartments, timing of distinct effector mechanisms during the inflammatory process, availability of respective adrenoceptors on target cells, and an intricate shift from β-to-greek small letter alpha adrenergic signaling in the progressing course of the inflammatory disease (β-to-greek small letter alpha adrenergic shift). Additional critical points for the dual role of the SNS in inflammation are the underlying change of immune effector mechanisms during the process of disease progression and the behavior of sympathetic nerve fibers in inflamed tissue (nerve fiber loss). This is accompanied by a relative lack of anti-inflammatory glucocorticoids in relation to inflammation. In quintessence, in early stages of IJD, the SNS plays a predominantly proinflammatory role, whereas in late stages of the disease the SNS most probably exerts anti-inflammatory effects.

Saturday, April 26, 2008

Does bilateral thoracic sympathectomy predispose to reflex bronchospasm following tracheal intubation?

A 31 year old old non-smoking woman, 60 kg, withouth a history of allergy or asthma was scheduled for left knee arthroscopy. Two months previously she had an uneventful general anesthetic for bilateral thorascopic sympathectomy to treat essential hyperhidrosis.

Immediately following intubation, ventilation became difficult. Chest auscultation revealed bilateral expiratory wheezing associated with decreased air entry and increased airway pressure up to 60 cm H2O. Oxygen saturation, as monitored by pulse oximetry, decreased from 100% to 80%.

The severe bronchospams occured immediately following tracheal intubation, suggesting that it may have been a reflex response which was triggered by instrumentation of the airway under light level of anesthesia.

Sympathectomy results in a decrease of plasma norepinephrine, and parasympathetic predominance which may increase airway resistance.

Thus, patients with essential hyperhidrosis who have undergone bilateral thoracic sympathectomy, may be more liable to develop reflex bronchospams under light levels of anesthesia.

Ahed Zeidan MD
Nazih Nahle MD
Anis Baraka MD FRCA
Sahel General Hospital, American Universisty of Beirut Medical Center

Hypoxaemia is of a major concern during thorascopic sympathectomy

Hypoxaemia is of a major concern during thorascopic sympathectomy. However, the pathophysiology of hypoxaemia and consequent decrease in SpO2 differs between the two anaesthetic techniques.

The normal physiological response to massive atelectasis is an increase in pulmonary vascular resistance (hypoxic pulmonary vasoconstriction) with re-routing of blood to well ventilated lung zones and consequent improvement in PaO2. HOWEVER, DURING ENDOBRONCHIAL ANAESTHESIA FOR THORACIC SYMPATHECTOMY THERE IS AN APPARENT FAILURE OF THIS COMPENSATORY MECHANISM. When more then 70% of the lung is atelectatic, compensation by hypoxic pulmonary vasoconstriction appears ineffective.

During carbon dioxide insufflation using endobronchial intubation, Hartrey and colleagues reported a decrease in systolic arterial pressure of >20mm Hg in 21% of patients. Similarly we have reported sudden hypotension and bradycardia after injudicious carbon dioxide insufflation.

Although extremely rare, sudden cardiac arrest has been reported after left T2-3 sympathetic nerve transection. While the exact pathophysiology of this occurence is unclear, it is postulated that before complete transection of the sympathetic trunk, continuous sympathetic stimulation to the stellate ganglions results in a reduction in the ventricular finrillation threshold, arrhythmia and cosequent cardiac arrest.
In an iteresting study of the delayed cardiac effects of T2-$ symtpathectomy, Drott and colleagues demonstrated significantly reduced heart rate at rest, and during both exercise and the recovery phase of exercise. Changes is the electrical axis and shortening of the QT interval have also been reported.

Irrespective of the technique used the reported incidence of postoperative pneumpthorax is variable, occuring in 2-15% of cases.
In a study by Gothberg, Drott and Claes, postoperative chest x-ray after 1274 procedures, in 602 patients demonstrated that a small apical pneumothroax was a usual occurence.

Conclusion: Because of the anaesthetic implications and possible surgical complications, many surgeons are reluctant to perform transthoracic sympathectomy.

British Journal of Anaesthesia 1997; 79: 113-119
B. Fredman, D. Olsfanger and R. Jedeikin

Left, but not right, one-lung ventilation causes hypoxemia during endoscopic transthoracic sympathectomy

Anesth Analg 2000;90:28
© 2000 International Anesthesia Research Society


CARDIOVASCULAR ANESTHESIA

Sequential Changes of Arterial Oxygen Tension in the Supine Position During One-Lung Ventilation

Seiji Watanabe, MD, Eiko Noguchi, MD, Shinichi Yamada, MD, Nobuya Hamada, MD, and Tatsuhiko Kano, MD

Department of Anesthesiology, Kurume University School of Medicine, Fukuoka, Japan

Implications: Close observation and prompt counteractions including termination of one-lung ventilation (OLV) are crucial for patients under OLV in the supine position, because life-threatening hypoxemia frequently occurs approximately 10 min after starting OLV, even under 100% oxygen inhalation. The left semilateral decubitus position was as effective as the left lateral decubitus position in avoiding life-threatening hypoxemia during OLV.

Incidence of chest wall paresthesia after needlescopic video-assisted thoracic surgery for palmar hyperhidrosis

Alan D.L. Sihoe, Clement S.K. Cheung, Ho-Kei Lai, Tak-Wai Lee, Kin-Hoi Thung, Anthony P.C. Yim*

Department of Surgery, Division of Cardiothoracic Surgery, The Chinese University of Hong Kong, Prince of Wales Hospital, Shatin, Hong Kong SAR, China

Received 5 September 2004; received in revised form 28 September 2004; accepted 22 October 2004.

* Corresponding author. Tel.: +86 852 2632 2629; fax: +86 852 2647 8273. (E-mail: yimap@cuhk.edu.hk).

Objective: Chest wall paresthesia is a reported sequela of thoracotomy and Video-Assisted Thoracic Surgery (VATS) which is distinct from wound pain. Although needlescopic VATS confers less post-operative pain and better cosmesis, the incidence of paresthesia after needlescopic VATS has not been quantified. Methods: For homogeneity of the patient cohort, we studied 50 patients who received bilateral needlescopic VATS sympathectomy (T2-T4 excision) for palmar hyperhidrosis using 2 or 3mm instruments during a 36-month period at a single institute. A standard questionnaire was administered by telephone interview, with 34 patents responding (68.0%). The median post-operative observation time was 16.5 months (range: 10–40 months). Collected data were compared with a historical group who received conventional VATS using 10mm ports. Results: Paresthetic discomfort distinguishable from wound pain was described by 17 patients (50.0%). The most common descriptions were of ‘bloating’ (41.2%), ‘pins and needles’ (35.3%), or ‘numbness’ (23.5%) in the chest wall. The paresthesia resolved in less than two months in 12 patients (70.6%), but was still felt for over 12 months in three patients (17.6%). Post-operative paresthesia and pain did not impact on patient satisfaction with the surgery, whereas compensatory hyperhidrosis in 24 patients (70.6%) did (P=0.001). The rates and characteristics of the paresthesia following needlescopic VATS are similar to those observed after conventional VATS. Conclusions: Chest wall paresthesia affects a significant but previously overlooked proportion of patients following needlescopic VATS

The effects of hypoxemia, G-6-PD deficiency and sympathectomy might all add to the development of acute pulmonary edema

Transaxillary endoscopic sympathectomy of thoracic ganglia (T2-T3) has recently gained wider acceptance as the treatment of choice for palmar hyperhidrosis. It requires one-lung ventilation to facilitate the surgery. One-lung ventilation, however, is not without complications, among which acute pulmonary edema has been reported. In this case report, we present a patient with palmar hyperhidrosis complicated by glucose-6-phosphate dehydrogenase (G-6-PD) deficiency, who received bilateral endoscopic sympathectomy under alternate one-lung anesthesia, and developed acute pulmonary edema immediately after recruitment of the successive collapsed lung. The effects of hypoxemia, G-6-PD deficiency and sympathectomy might all add to the development of acute pulmonary edema secondary to reexpansion of each individual lung after alternate one-lung ventilation. The possibilities of the inferred causes are herein discussed.

Source: Acta Anaesthesiologica Scandinavica, Volume 45, Number 1, January 2001

Haemodynamic changes during thoracoscopic surgery

Haemodynamic changes during thoracoscopic surgery: The effects of one-lung ventilation compared with carbon dioxide insufflation.

Main Articles

Anaesthesia. 55(1):10-16, January 2000.
Brock, H. 1; Rieger, R. 2; Gabriel, C. 3; Polz, W. 4; Moosbauer, W. 1; Necek, S. 5

Abstract:
Summary: We investigated the haemodynamic and respiratory effects of one-lung ventilation and carbon dioxide insufflation in 13 adult patients undergoing video-assisted thoracoscopy. Cardiorespiratory variables were determined during carbon dioxide insufflation at intrahemithoracic pressures of 5, 10 and 15 mmHg, and after 5 and 15 min of one-lung ventilation. Carbon dioxide insufflation was associated with a clear deterioration in circulatory function. The cardiac index decreased subsequent to increasing intrathoracic pressures. The mean cardiac index (SD) at pressures of 10 and 15 mmHg was 1.86 (0.39) and 1.52 (0.46), respectively, and may be compared with the reduced venous return consistent with tension pneumothorax. One-lung ventilation did not affect haemodynamic variables but reduced arterial oxygenation indices (PaO2/FIO2) from 424.29 (160.79) after induction of anaesthesia, to 207.72 (125.50) after 5 min and 172.04 (72.03) after 15 min of one-lung ventilation, respectively. The oxygenation index was not influenced by intrahemithoracic carbon dioxide insufflation. One-lung ventilation via a double-lumen endobronchial tube is safe and convenient for video-assisted thoracoscopic surgery. It has no further consequences on haemodynamic variables, whereas the compression of the lung by carbon dioxide insufflation may cause circulatory dysfunction.

one-lung ventilation causes hypoxemia during endoscopic transthoracic sympathectomy

Hypoxemia is an abnormal deficiency in the concentration of oxygen in arterial blood (Mosby's Medical Dictionary). A frequent error is made when the term is used to describe poor tissue diffusion as in hypoxia. It is possible to have a low oxygen content (e.g., due to anaemia) but a high PO2 in arterial blood so incorrect use can lead to confusion.

Journal of Vascular Surgery : Reply - Published by Elsevier

2 Y Katz, E Zisman, S Isserles and B Rosenberg,
Left, but not right, one-lung ventilation causes hypoxemia during endoscopic transthoracic sympathectomy.

ETS sympathetically maintained pain, and vasospastic or ischemic vascular disease

Sympathectomy for Pain and Hyperhidrosis: Based on the Breakfast Seminar of April 24, 2001, at the 69th Annual Meeting of the American Association of Neurological Surgeons, Toronto, Ontario, Canada.

Article

Neurosurgery Quarterly. 12(2):89-99, June 2002.
Wilkinson, Harold A.

Abstract:
Summary: Surgical resections of sympathetic ganglia from the thoracic, splanchnic, and lumbar area have been carried out for more than 100 years. In the past decade, neurosurgeons have become more interested in surgery on the sympathetic nervous system as less invasive techniques have been developed. Percutaneous radiofrequency and video-assisted endoscopic techniques have largely replaced open surgical thoracic sympathectomy. Lumbar and splanchnic sympathetic ablation is commonly done by percutaneous chemical techniques or, occasionally, by radiofrequency ablation, but the open techniques are still widely used. Sympathectomy is most widely employed for pathologic hyperhidrosis (especially the palmar component), sympathetically maintained pain, and vasospastic or ischemic vascular disease. The less invasive techniques are especially attractive for treating the sympathetically mediated cardiac diseases, including Prinzmetal angina, "syndrome X," and congenital long Q-T interval syndrome.

Surgical complications are usually manageable, but deaths have occurred (even with endoscopic techniques).

Endoscopic sympathetic block in the treatment

In this study, endoscopic sympathetic block was useful in reducing the symptoms of severe social phobia. Although the method is surgical and the effect hence mainly biological, the psychological symptoms of social phobia were also significantly reduced. The results are best if the main symptoms are blushing or palpitation, but even a smaller reduction in the other symptoms is important if it helps the patient to break his isolation.
Knowledge of the elimination of embarrassing physical symptoms in social situations helps the patient to expose himself to formerly impossible situations, and success in them also causes psychological symptoms to subside. But the relief of psychological symptoms may also be due to direct a biological effect of the operation on the anxiety-mediating areas in the nervous system. The only meaningful side effect is compensatory sweating of the trunk, but not even that is significant when modern surgical method are used.
Clamping is as good as bilateral cauterisation, and the results may be equally good with unilateral and bilateral clamping, but because there were only eight patients who had undergone a unilateral clamping procedure, the material is not sufficient to allow definite conclusions concerning that. The results remain unchanged over time, which shows that they were not due to a placebo effect. In the future, it is important to compare this treatment to traditional treatment in order to find out its place among the other, officially approved methods of treating social phobia.
http://informahealthcare.com/doi/abs/10.1080/08039480310000266

Friday, April 25, 2008

A qualitative study of the development of social phobiaHomeostatic responses mediated by the autonomic

PÄIVI POHJAVAARA
SOCIAL PHOBIA: AETIOLOGY, COURSE
AND TREATMENT WITH ENDOSCOPIC
SYMPATHETIC BLOCK (ESB)
A qualitative study of the development of social phobia
and its meaning in people's lives and a quantitative study
of ESB as its treatment
Academic Dissertation to be presented with the assent of
the Faculty of Medicine, University of Oulu, for public
discussion in the Väinö Pääkkönen Hall of the Department
of Psychiatry, on December 3rd, 2004, at 12 noon.

Thanks to modern research techniques, we know a lot of the location of attention, emo-
tion and arousal modulation in the brain. Arousal requires involvement of the brain stem,
the thalamus and the cortex, while attention is maintained by the function of the right
frontal lobe (Kaplan & Sadock 1998, Nagahama et al. 2001). The amygdala rates the
emotional importance of an experience, and the limbic system is the centre of human
drives, whose regulation appears to require an intact frontal cortex. Crude emotions are
produced and handled in the midbrain structures and the olfactory cortex, while distinct-
ly human emotions are generated in the cortex (Kaplan & Sadock 1998).

Homeostatic responses mediated by the autonomic
nervous system are achieved by altering the balance between the sympathetic, parasympa-
thetic and different hormonal systems (Mosqueda-Garcia 1996). The most apparent link
between the autonomic and endocrine systems is manifested by the interactions between
the adrenal cortex and the adrenal medulla.

The neuroanatomical circuits, which support fear and anxiety behaviour, are modulated
by a variety of chemical neurotransmitter systems (Charney 2003). These include the
peptidergic neurotransmitters, corticotrophin-releasing hormone (CRH), neuropeptide
Yand substance P, the monoaminergic transmitters, norepinephrine, serotonin and dopam-
ine, and the amino acid transmitters, gamma-aminobutyric acid and glutamate.
The connection between the sympathetic nervous system and the psyche is best seen in
anxiety and especially in social phobia. The observed usefulness of beta-adrenergic antag-
onists in performance phobia supports this hypothesis (Sutherland & Davidson 1995).

There are studies indicating possible supersensitivity of the central serotonin systems in
social phobia and schizophrenia patients (Tancer et al. 1995, Malhotra et al. 1998). It has
been shown using SPECT (Pirker et al. 2000) that, in a solitary case study, the decreased
5-HTT activity of a social phobic patient was normalized by a sympathetic block (Kuikka
et al. 2000). Among the many neurotransmitters implicated in social anxiety disorder, the
complex interactions between the noradrenergic and serotonergic systems and the HPA
axis overlap those found seen in fear and anxiety (Marcin & Nemeroff 2003).

The physical symptoms of social phobia might be treated by blocking the sympathetic
system at the upper thoracic level with a surgical procedure (Crozier 2001, Telaranta
1998). Sympathectomy was first used to treat the exophthalmos of Basedow disease
(Jonnesco 1896) and angina pectoris (Le Riche 1913, Jonnesco 1921) in the late 19th and
early 20th centuries. Its beneficial effect on the treatment of facial sweating was noticed
as early as the 1930s, and its impact on palmar sweating was reported in the 1950s, when
the procedure was already carried out endoscopically (Kux 1954).

Endoscopic sympathicotomy and endoscopic sympathetic block strongly influence typical symptoms of patients with social phobia

Social phobia is an anxiety disorder which causes fear and anxiety in social interaction or performance situations and can in its worst forms be very debilitating. The patients tend to isolate themselves and suffer from comorbid disorders such as depression, other anxiety disorders and drug and alcohol abuse. Traditional treatment methods such as medication and psychotherapy cause improvement in only 50–70% of patients. METHODS: 164 patients who had been suffering from social phobia for at least 5 years and who were resistant to conservative treatment (medication and/or psychotherapy) were enrolled in this open, uncontrolled, prospective follow-up study. 71 patients underwent endoscopic sympathicotomy (cauterisation); 93 underwent endoscopic sympathetic block (clamping) of the T2–T3 ganglia. Severity of psychic and physical symptoms was assessed by a modified version of Davidson’s brief social phobia scale and patients’ satisfaction was evaluated 1, 6, and 12 months postoperatively. RESULTS: Fear of observation, performance anxiety and embarrassment were alleviated and alertness increased. Likewise, palpitations, trembling of hands and heads, blushing and hyperhidrosis were relieved. All changes were statistically significant. Patients’ satisfaction was high and remained stable over time. Gender, age, and education did not influence satisfaction rates. CONCLUSIONS: Endoscopic sympathicotomy and endoscopic sympathetic block strongly influence typical symptoms of patients with social phobia.
JournalEuropean Surgery
Volume 37, Number 3 / June, 2005


http://www.springerlink.com/content/w986882515290647/

Wednesday, April 23, 2008

During Thoracoscopic sympathectomy hypotension occurs frequently.

Background : During Thoracoscopic sympathectomy hypotension occurs frequently. In this study we compared propofol with etomidate as a main anesthetic agent for thoracoscopic sympathectomy by observing intraoperative vital signs, postoperative
recovery
and side effects.
Methods : Thirty adult patients scheduled for both thoracoscopic sympathectomy were allocated to groups P (propofol) or E (etomidate). P-deletion test (PDT) was dome and plasma cortisol level was measured. In group P (n = 16), anesthesia was
induced
with fentanyl 100 μg, propofol target controlled infusion (TCI) and vecuronium. Anesthesia was maintained with N2O (60%)-propofol. MAP, HR and bispectral index were measure before induction, right after positioning, at the beginning of
right
and left sympathectomy. In group E(n = 14), anesthesia was induced and maintained with etomidate instead of propofol. Postoperative recovery was assessed on the basis of modified Aldrete scoring system at 5, 15, 30, 60 minutes postoperatively. PDT
was
performed at 1, 2 hours postoperatively. Plasma cortisol level was measured 2 h and 3 days after operation. Occurrence of myoclonic movement and nausea was recorded.
Results : MAP was lover in group P (P < 0.05). There was no difference between groups in HR, plasma cortisol concentration. The values of BIS, PDT, recovery score of group P were higher than those of group E (P< 0.05). The incidence of nausea was significantly higher in group E (P < 0.05). Conclusions : Etomidate anesthesia provided more stable vital signs during thoracoscopic sympathectomy compared to propofol anesthesia. However, in terms of recovery and nausea, better outcome was suggested in propofol anesthesia.

http://kmbase.medric.or.kr/Main.aspx?d=KMBASE&m=VIEW&i=0858220000040040262

Sympathetic regulation of Autoimmune Disease

In animal models of human autoimmune disease, alterations in sympathetic innervation, NE concentration and lymphocyte AR expression have been demonstrated. ....reduced splenic noradrenergic innervation and decreased splenic NE concentration were apparent before the onset os disease symptoms. In myelin basic protein-induced EAE and MS-like disease, a reduction in splenic NE concentration was reported at the time of maximal antigen-induced lymphocyte proliferation and was accompanied by an increase in the density of of splenic lymphocyte beta-AR. In chronic/relapsing EAE (CREAE) induced in rats, splenocyte beta-AR density correlated positively with the severity of CREAE. Removal of noradrenergic innervation by chemical sympathectomy with 6-OHDA enhanced the severity of symptoms in EAE...

Neuropsychiatry

By Randolph B. Schiffer, Stephen M. Rao, Barry S. Fogel
Published 2003
Lippincott Williams
& Wilkins

Alterations in autonomic activity have been reported in RA and MS

Neuropsychiatry

By Randolph B. Schiffer, Stephen M. Rao, Barry S. Fogel

The SNS may elicit different, and often opposing functions at different anatomic sites. Localized denervation of draining lymph nodes, with sparing of the nerves innervating the joint, exacerbated joint pathology, but sympathetic removal of sympathetic input, either by beta-AR blockade or chemical sympathectomy with 6-OHDA or guanethidine reduced arthritic symptoms. These results suggest that noradrenergic innervation of draining lymph nodes inhibits the generation of antigen-specific T cells but promotes inflammation of the joints. A similar complexity was demonstrated after beta-agonist administration. Administration of a high dose of EPI reduced the severity of experimental arthritis by an alpha2-AR-mediated mechanism, but a low dose of EPI exacerbated joint injury. These results indicate that care must be used in manipulating the SNS therapeutically in complex diseases.
The SNS may also influence autoimmune processes in humans. Alterations in autonomic activity have been reported in RA and MS, but it is not known whether these changes are induced in response to disease or whether alterations in the SNS play a role in initiating the disease. In children with juvenile RA, increased sympathetic activity and autonomic hyporesponsiveness were associated with disease exacerbation.

Published 2003
Lippincott Williams
& Wilkins

a possible mechanism for sympathectomy-induced adrenal hypertrophy

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

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

Methods: Five-week-old male Sprague-Dawley rats were treated with either guanethidine (50 mg/kg per day, intraperitoneally) or vehicle for 5 weeks. Norepinephrine and epinephrine levels in the atrium of the heart were measured by high-pressure liquid chromatography. Plasma renin activity was determined by radioimmunoassay. Adrenal AT1 and AT2 receptor density was determined by radioligand binding assay. Adrenal AT1A, AT1B and AT2 mRNA levels were determined by Northern blot analysis.

Results: Norepinephrine and epinephrine levels in the atrium of the heart were decreased 86% (P <>0.05), were increased in guanethidine-treated rats compared with vehicle (P < r =" 0.9," r =" 0.6," r =" 20.01,"> 0.05) expression.

Conclusions: Impairment of the sympathetic nervous system with guanethidine withdraws the normal stimulation of this system on the circulating renin-angiotensin system, but upregulates the expression of adrenal Ang II receptors. Increased expression of adrenal AT2 and AT1A receptors may play an important role in adaptive adrenal hypertrophy and hormonal responses to sympathectomy.

Tuesday, April 22, 2008

Associations between neuropeptide Y nerve terminals and intraparenchymal microvessels in rat and human cerebral cortex

Neuropeptide Y (NPY) can influence local brain perfusion, possibly via direct relationships with the microvascular bed. To evaluate this possibility, the authors quantitatively analyzed by light and electron microscopy the morphological associations between immunostained NPY neuronal elements and intraparenchymal microvessels in the rat and human cerebral cortex. At the light microscopic level in the rat frontoparietal cortex, about 16% of NPY neurons and large proximal processes as well as a subset of nerve terminals not affected by double sympathectomy were associated with penetrating arterioles and local microvessels. In human temporal cortex, a dense network of NPY nerve fibers was observed, many of which approached and/or contacted intracortical vessels. At the ultrastructural level, 14% of NPY axonal varicosities in the rat cerebral cortex were considered perivascular and associated with capillaries (70%) or microarterioles (30%). They were particularly enriched in the immediate vicinity (<0.25 src="http://www3.interscience.wiley.com/giflibrary/12/mgr.gif" align="absbottom" border="0">m) of the microvessels, where the perivascular astrocytic leaflets represented a frequent target. In human cerebral cortex, NPY varicosities were observed in proximity to microvessels corresponding primarily to capillaries. Perivascular NPY varicosities never established synaptic junctions with vascular or astroglial elements. The results show that central NPY nerve terminals associate with microvessels and perivascular astroglial cells in the rat and human cerebral cortex. Thus, NPY released from these nerves could possibly influence (via a parasynaptic mode of action) vascular and/or astrocytic functions depending on the distribution of NPY receptors in these cellular compartments. These results provide morphological support for the effects of NPY on brain perfusion and homeostasis. J. Comp. Neurol. 388:444-453, 1997. © 1997 Wiley-Liss, Inc.
Roger Abounader, Edith Hamel *Laboratory of Cerebrovascular Research, Montreal Neurological Institute, Montréal, Québec H3A 2B4, Canada

clear association between the head pain and the release of the neuropeptide calcitonin gene-related peptide (CGRP)

In support, there is a clear association between the head pain and the release of the neuropeptide calcitonin gene-related peptide (CGRP) from the trigeminovascular system. In cluster headache there is, in addition, release of the parasympathetic neuropeptide vasoactive intestinal peptide (VIP) that is coupled to facial vasomotor symptoms. Triptan administration, activating the 5-HT1B/1D receptors, causes the headache to subside and the levels of neuropeptides to normalise, in part through presynaptic inhibition of the cranial sensory nerves. These data suggest a central role for sensory and parasympathetic mechanisms in the pathophysiology of primary headaches. The positive clinical trial with a CGRP receptor antagonist offers a new promising way of treatment.

Lars Edvinssona, Corresponding Author Contact Information, E-mail The Corresponding Author and Rolf Uddmanb

aDepartment of Internal Medicine, University Hospital, S-221 85 Lund, Sweden

bDepartment of Otorhinolaryngology, Malmö University Hospital, Malmö, Sweden


Accepted 8 September 2004.
Available online 18 November 2004.

Blocks the nerve responsible for narrowing blood vessels

Sympathectomy uses procedures that block or remove the nerve responsible for narrowing blood vessels in the hand.

http://health.nytimes.com/health/guides/disease/scleroderma/treatment-for-raynaud's-phenomenon.html

Review

A 2003 systematic review [1] looked at sympathectomy for facial blushing and the authors concluded:

We did not identify any controlled trials or cohort studies. The evidence about effectiveness, based on three case series, was therefore very limited. The main weakness of these studies was their lack of a comparison group and their resulting inability to exclude a placebo response to surgery. In addition, the methods of assessing outcome were poorly described and not validated, and the range of outcomes assessed was limited. The studies provided very limited evidence that sympathectomy improves blushing. Side effects were common.


A 2007 systematic review [2] of endoscopic thoracic sympathectomy for excessive sweating and facial blushing concluded:

The evidence of the effectiveness of ETS is weak due to a lack of randomized trials. The intervention leads to severe immediate complications in some of the patients, and to persistent side-effects for many of the patients.

http://www.clinicalanswers.nhs.uk/index.cfm?question=6881

Gustatory facial sweating subsequent to upper thoracic sympathectomy

MDShanker Nesathurai, MDDavid T. Harvey, and MDStanley W. Schatz

aDepartment of Physical Medicine and Rehabilitation, McMaster University, Canada

bMcMaster University Clinic, Hamilton Civic Hospitals, Henderson General Division, Canada

cDepartment of Neurosurgery, McMaster University Clinic-Hamilton General Hospital, Hamilton, Ontario, Canada


Received 3 February 1994;
accepted 8 July 1994

Gustatory facial sweating has been described as a consequence of upper thoracic sympathectomy. Patients may also develop compensatory hyperhidrosis, sensory deficits, nipple hypersensitivity, and Horner's syndrome. In this article, we have reviewed three patients with reflex sympathetic dystrophy who developed gustatory facial sweating subsequent to endoscopic T2 and T3 ganglionectomy. This article also discusses the possible mechanisms of gustatory facial sweating.

keyterms: dysesthetic pain, vasomotor instability, hyperhidrosis, denervation supersensitivity.

A dysesthetic syndrome can occur after sympathectomy

A dysesthetic syndrome can
occur after sympathectomy; it usually is transient but sometimes can be persistent.
Chemical sympathectomy is transient and should be used initially for diagnostic purposes to
establish the involvement of SNS and hence inhibition of sympathetic activity (eg, increased limb
temperature or ocular Horner signs) without evidence of sensory somatic blockade (eg,
hypoesthesia to pinprick and cold stimuli).

For chemical sympathectomy, 2 basic techniques are used.
Injections of local anesthetic around sympathetic paravertebral ganglia that project to the
affected body part (sympathetic ganglion block): This will affect all components of the
sympathetic outflow to an extremity (adrenergic vasoconstrictor, cholinergic sudomotor, and adrenergic pilomotor).

Intravenous regional block: This will prevent the release of only norepinephrine from the sympathetic terminals within the region of application (ie, distal to the tourniquet).

Eugenia-Daniela Hord, MD, Instructor, Departments of Anesthesia and Neurology, Massachusetts General Hospital Pain Center, Harvard Medical School

Effect of sympathetic denervation on the rate of protein synthesis

Rates of protein synthesis were investigated in skeletal muscles from rats submitted to chemical and surgical sympathectomy. Three models of sympathetic denervation were used: 1) treatment with guanethidine (100 mg·kg-1·day-1 sc); 2) lumbar sympathetic denervation (surgical excision of the second and third lumbar ganglia of the sympathetic chain, from which arises the postganglionic fibers to the skeletal muscles of rat hindlimb); and 3) adrenodemedullation. Protein synthesis was estimated in isolated soleus muscle by the rate of incorporation of [14C]tyrosine (0.1 mM, 0.05 µCi/ml) into total protein. Soleus isolated after 2 and 4 days of chemical sympathectomy or after 3 days of lumbar denervation showed a 17-20% statistically significant decrease in in vitro rates of protein synthesis. These effects were reverted by addition of 10-5 M isoproterenol or epinephrine in vitro. Neither clenbuterol nor isoproterenol (10-7, 10-6, or 10-5 M) in vitro affected the rate of protein synthesis in soleus from normal rats. On the other hand, clenbuterol or epinephrine (10-5 M) increased by 20% the rate of protein synthesis in soleus muscles from adrenodemedullated rats and prevented its decrease in muscles from fasted rats. The data suggest that the sympathetic nervous system stimulates protein synthesis in oxidative muscles, probably through the activation of {beta}2-adrenoceptors, especially in situations of hormonal or nutritional deficiency.
Luiz Carlos C. Navegantes, Neusa M. Z. Resano, Amanda M. Baviera, Renato H. Migliorini, and Isis C. Kettelhut
Am J Physiol Endocrinol Metab 286: E642-E647, 2004

Evaluation of long-term chemical sympathectomy

Administration of 6-hydroxydopamine (6-OHDA) will produce long-term sympathectomy in newborn animals. This investigation was designed to determine whether or not a long-term sympathectomy can be achieved by repeated administration of 6-OHDA in adult rabbits. Chronic treatment with 6-OHDA lowered blood pressure on average of 9 mmHg; the carotid sinus reflex was depressed, in contrast to the pressure response to intravenously administered epinephrine, which was doubled. In a constant-flow hindlimb preparation, the response to norepinephrine (NE) in 6-OHDA-treated rats was 50% larger and lasted 3 times longer. NE uptake in vitro, which is proportional to the number of adrenergic nerve endings, was found to be diminished by 80-85% in aortas from 6-OHDA-treated animals, and the dose-response curve for NE was slightly shifted to the left. The number of ganglionic cells in the superior cervical ganglia in treated animals was decreased by 80%. In conclusion, results from 6-OHDA-treated adult animals were entirely consistent with the effects of long-term sympathectomy.

AJP - Heart and Circulatory Physiology, Vol 238, Issue 4 527-H532, Copyright © 1980 by American Physiological Society
K. Fronek

Effects of 6-hydroxydopamine on dopamine and noradrenaline content

Volume 329, Number 3 / May, 1985

P. Soares-da-Silva1 Contact Information and R. Davidson1

(1) Laboratorio de Farmacologia, Faculdade de Medicina, P-4200 Porto, Portugal

Received: 29 October 1984 Accepted: 27 January 1985

6-OHDA and pargyline plus 6-OHDA induced a parallel decrease of the noradrenaline and dopamine content in the main trunk of the mesenteric artery, femoral artery and heart. In the proximal branches of the mesenteric artery, renal and splenic arteries 6-OHDA selectively reduced noradrenaline (by 50%) without changes in dopamine levels. Previous treatment with pargyline abolished this selectivity and depleted the tissue levels of both noradrenaline and dopamine by 75%.

The present findings suggest: an independent dopamine presence in the proximal branches of the mesenteric artery, renal artery and splenic artery; that noradrenaline and dopamine are in one and the same structure in the heart, femoral artery and the main trunk of the mesenteric artery; the saphenous vein is more resistant to chemical sympathectomy than arterial blood vessels; the changes in plasma catecholamine concentrations are probably related to a compensatory mechanism initiated at the adrenal medulla.

Alteration of antioxidant status following sympathectomy: Differential effects of modified plasma levels of adrenaline and noradrenaline

Molecular and Cellular Biochemistry
Volume 152, Number 1 / November, 1995
Philip M. Toleikis1 and David V. Godin
Department of Pharmacology and Therapeutics, The University of British Columbia, V6T 1Z3 Vancouver, B.C., Canada

Differences between adrenalectomy and 6-OH treatment on antioxidant components are suggestive of differential actions of adrenaline and noradrenaline on tissue antioxidant status which may have important implications under conditions associated with elevations in levels of these catecholamines including chronic stress and myocardial infarction.

Monday, April 21, 2008

Sympathectomy improves skin blood flow at the thermoregulatory but not the nutritive level

These results indicate that in case of lower limb ischemia, 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.

François M.H. van Dielen1, Harrie A.J.M. Kurvers1, Ruben Dammers1, Mirjam G.A. oude Egbrink2, Dick W. Slaaf3, Jan H.M. Tordoir1 and Peter J.E.H.M. Kitslaar1

(1) Department of General Surgery, Cardiovascular Research Institute Maastricht and University Hospital Maastricht, PO Box 5800, 6202 AZ Maastricht, The Netherlands, NL
(2) Department of Physiology, Cardiovascular Research Institute Maastricht, PO Box 616, 6200 MD Maastricht, The Netherlands, NL
(3) Department of Biophysics, Cardiovascular Research Institute Maastricht, PO Box 616, 6200 MD Maastricht, The Netherlands, NL

World Journal of Surgery Volume 22, Number 8 / August, 1998

Imbalance of regional cerebral blood flow

Imbalance of regional cerebral blood flow and oxygen consumption: effect of vascular alpha adrenoceptor blockade.


Neuropharmacology. 1993 Mar;32(3):297-302.
Weiss HR, Sinha AK.

Department of Physiology and Biophysics, University of Medicine and Dentistry of New Jersey, Robert Wood Johnson Medical School, Piscataway 08854-5635.

the regulation of cerebrovascular tone

Brain perfusion is tightly coupled to neuronal activity, is commonly used to monitor normal or pathological brain function, and is a direct reflection of the interactions that occur between neuronal signals and blood vessels. Cerebral blood vessels at the surface and within the brain are surrounded by nerve fibers that originate, respectively, from peripheral nerve ganglia and intrinsic brain neurons. Although of different origin and targeting distinct vascular beds, these "perivascular nerves" fulfill similar roles related to cerebrovascular functions, a major one being to regulate their tone and, therein, brain perfusion. This utmost function, which underlies the signals used in functional neuroimaging techniques and which can be jeopardized in pathologies such as Alzheimer's disease, stroke, and migraine headache, is thus regulated at several levels. Recently, new insights into our understanding of how neural input regulate cerebrovascular tone resulted in the rediscovery of the functional "neurovascular unit." These remarkable advances suggest that neuron-driven changes in vascular tone result from interactions that involve all components of the neurovascular unit, transducing neuronal signals into vasomotor responses not only through direct interaction between neurons and vessels but also indirectly via the perivascular astrocytes. Neurovascular coupling is thus determined by chemical signals released from activated perivascular nerves and astrocytes that alter vascular tone to locally adjust perfusion to the spatial and temporal changes in brain activity.
Edith Hamel

Laboratory of Cerebrovascular Research, Montreal Neurological Institute, McGill University, Montréal, Québec, Canada

J Appl Physiol 100: 1059-1064, 2006; doi:10.1152/japplphysiol.00954.2005

Dopaminergic regulation of cerebral cortical microcirculation

Nature Neuroscience 1, 286 - 289 (1998)
doi:10.1038/1099
Leonid S. Krimer1, E. Christopher Muly III2, Graham V. Williams1 & Patricia S. Goldman-Rakic1

1 Section of Neurobiology, Yale University School of Medicine, New Haven, Connecticut 06510, USA

2 Department of Psychiatry, Yale University School of Medicine, New Haven, Connecticut 06510, USU

Functional variations in cerebral cortical activity are accompanied by local changes in blood flow, but the mechanisms underlying this physiological coupling are not well understood. Here we report that dopamine, a neurotransmitter normally associated with neuromodulatory actions, may directly affect local cortical blood flow. Using light and electron-microscopic immunocytochemistry, we show that dopaminergic axons innervate the intraparenchymal microvessels. We also provide evidence in an in vitro slice preparation that dopamine produces vasomotor responses in the cortical vasculature. These anatomical and physiological observations reveal a previously unknown source of regulation of the microvasculature by dopamine. The findings may be relevant to the mechanisms underlying changes in blood flow observed in circulatory and neuropsychiatric disorders.

Disturbance of sympathetic cardiovascular regulation is involved in CFS

Wyller VB, Saul JP, Walloe L, Thaulow E "...our results suggest that CFS patients suffer from a more comprehensive disturbance of sympathetic cardiovascular regulation than previously acknowledged, supporting the hypothesis that dysautonomia may be a central etiologic component of CFS (Freeman and Komaroff 1997). Specifically, the sympathetic nervous system is more activated at rest, and seems to have an enhanced response to orthostatic stress, but has a reduced response to the addition of isometric exercise. These abnormalities may account for the high prevalence of orthostatic symptoms among CFS patients.

recent reports have linked cerebral hypoperfusion to abnormalities in cholinergic metabolism

Dr Faisel Khan, Vascular Diseases Research Unit,
University Department of Medicine, Ninewells
Hospital and Medical School, Dundee DD1 9SY, UK

accepted 30 April 2003

Although the aetiology of chronic fatigue syndrome (CFS) is unknown, there have
been a number of reports of blood flow abnormalities within the cerebral circulation
and systemic blood pressure defects manifesting as orthostatic intolerance. Neither
of these phenomena has been explained adequately, but recent reports have linked
cerebral hypoperfusion to abnormalities in cholinergic metabolism. Our group has
previously reported enhanced skin vasodilatation in response to cumulative doses of
transdermally applied acetylcholine (ACh), implying an alteration of peripheral
cholinergic function. To investigate this further, we studied the time course of ACh-
induced vasodilatation following a single dose of ACh in 30 patients with CFS and
30 age- and gender-matched healthy control subjects. No differences in peak blood
flow was seen between patients and controls, but the time taken for the ACh
response to recover to baseline was significantly longer in the CFS patients than in
control subjects. The time taken to decay to 75% of the peak response in patients and
controls was 13Æ7 ± 11Æ3 versus 8Æ9 ± 3Æ7 min (P
1⁄4 0Æ03), respectively, and time
taken to decay to 50% of the peak response was 24Æ5 ± 18Æ8 versus 15Æ1 ± 8Æ9 min
(P
1⁄4 0Æ03), respectively. Prolongation of ACh-induced vasodilatation is suggestive
of a disturbance to cholinergic pathways, perhaps within the vascular endothelium
of patients with CFS, and might be related to some of the unusual vascular
symptoms, such as hypotension and orthostatic intolerance, which are characteristic
of the condition.

Regional temperature rises within the CNS can lead to an alteration of membrane properties

Regional temperature rises within the
CNS can lead to an alteration of mem-
brane properties. For example, enzyme
activity – ornithine decarboxylase – is in-
creased when calcium flows into the cell
via a temperature-sensitive mechanism.
Interestingly, one study observed an acti-
vation of this enzyme after EMF exposure,
subsequently resulting in a temporary per-
meability increase of the BBB.

On the other hand, also a tempo-
rary blood pressure rise could cause an
increase of BBB permeability.

Privatdozent Dr. med. Florian Stögbauer,
University of Münster

Hyperpigmentation after sympathectomy

Hyperpigmentation after sympathectomy

  • 1Departments of Dermatology, Royal Infirmary, Bristol BS2 8HW *Departments of Surgery, Royal Infirmary, Bristol BS2 8HW
  • Clinical and Experimental Dermatology

    Volume 5 Issue 3 Page 349-350, September 1980

Avoidance learning

Chemical sympathectomy and two-way escape and avoidance learning in the rat.

Six experiments are reported on the effects of 2,4,5-trihydroxyphenylethyl-amine (6-hydroxydopamine) on two-way escape and avoidance learning. Rats were tested on either escape or avoidance learning at 80 days of age after chemical sympathectomy at birth or 40 or 80 days of age. Neonatal and chronic sympathectomy (at 40 days), but not acute sympathectomy (at 80 days), resulted in depressed escape learning. Avoidance learning was affected by neonatal sympathectomy and partially by acute sympathectomy. The results have implications for the role of the autonomic nervous system in escape-avoidance learning.
Lord BJ, King MG, Pfister HP
J Comp Physiol Psychol 1976; 90:303-16.

alteration of carbohydrate and lipid metabolism following sympathectomy

Recent Adv Stud Cardiac Struct Metab 1976; 9:259-67.
Imbach A

These results indicate an important alteration of carbohydrate and lipid metabolism after chemical sympathectomy, thus supporting a role of the sympathetic nervous system in their regulation.

sympathectomy on insulin receptors and insulin action

Insulin receptors and effects of insulin on lipolysis, lipogenesis and glucose transport were investigated in fat cells obtained from rats chemically sympathectomized with 6-hydroxydopamine. Four days after a single injection of 6-hydroxydopamine (50 mg/kg), the norepinephrine content of the epididymal adipose tissue was reduced by 97.5%. The number of high-affinity insulin binding sites was increased moderately (16%). In parallel, the sensitivity to insulin of the isoprenaline-stimulated lipolysis was increased as judged from insulin concentrations yielding half-maximal inhibition which were lower (40%) in the treated group. Glucose metabolism, however, was inhibited by chemical sympathectomy: the glucose transport rate was significantly reduced and fatty acid synthesis was nearly totally abolished. Insulin was still effective in stimulating both parameters but failed to restore normal levels. The results suggest that the sympathetic innervation of adipose tissue may exert an inhibitory effect on the number of high-affinity insulin receptors as well as on the sensitivity of the lipolysis to insulin, as both parameters were increased by sympathectomy. To explain the inhibitory effect of 6-hydroxydopamine treatment on glucose transport and fatty acid synthesis, a possible trophic effect of the sympathetic innervation is discussed as well as indirect mechanism counteracting the effects of the chemical sympathectomy.

Effects of chemical sympathectomy on insulin receptors and insulin action in isolated rat adipocytes.



Joost HG, Quentin SH
J Pharmacol Exp Ther 1984; 229:839-44.

relevant to the pathogenesis of human dysautonomias.


Systemic injection of monoclonal antibodies to neural acetylcholinesterase in adult rats caused a syndrome with permanent, complement-mediated destruction of presynaptic fibers in sympathetic ganglia and adrenal medulla. Ptosis, hypotension, bradycardia, and postural syncope ensued. In sympathetic ganglia, acetylcholinesterase activity disappeared from neuropil but not from nerve cell bodies. Choline acetyltransferase activity and ultrastructurally defined synapses were also lost. Electrical stimulation of presynaptic fibers to the superior cervical ganglion ceased to evoke end-organ responses. On the other hand, direct ganglionic stimulation remained effective, and the postganglionic adrenergic system appeared intact. Motor performance and the choline acetyltransferase content of skeletal muscle were preserved, as was parasympathetic (vagal) function. This model of selective cholinergic autoimmunity represents another tool for autonomic physiology and may be relevant to the pathogenesis of human dysautonomias.

Norepinephrine depletion commonly is the desired effect, other neurotransmitters (eg ATP, NPY and enkephalins) are depleted by sympathectomy

The term Sympathectomy used in this discussion refers mainly to the lesioning of postganglionic noradrenergic (NA) neurons and fibers except where noted. Although norepinephrine depletion commonly is the desired effect, other costored neurotransmitters (eg ATP, NPY and enkephalins) are depleted by sympathetic denervation. The multitude of research studying the effects of sympathetic loss is made possible by the morphologically defined anatomy of the postganglionic sympathetic chains, the sensitivity of postganglionic NA neurons to nerve growth factor (NGF) deprivation, and the phenotypic specialty of these neurons that allows for the selective uptake of neurotoxins.

Primer on the Autonomic Nervous System

By David Robertson
Published 2004

Serum Dopamine-β -Hydroxylase: Decrease after Chemical Sympathectomy

Dopamine-β -hydroxylase is an enzyme that is localized to catecholamine-containing vesicles in sympathetic nerves and the adrenal medulla, and is also found in the serum. Treatment of rats with 6-hydroxydopamine, a drug which destroys sympathetic nerve terminals, leads to a decrease in serum dopamine-β -hydroxylase activity.



Weinshilboum, Richard; Axelrod, Julius
Publication:
Science, Volume 173, Issue 4000, pp. 931-934
Publication Date:
09/1971
Origin:
JSTOR

In the adrenal medulla, AChE-rich presynaptic fibers disappeared within 3 days


  • In the adrenal medulla, AChE-rich presynaptic fibers disappeared within 3 days
  • Autoimmune Preganglionic Sympathectomy Induced by Acetylcholinesterase Antibodies
  • Stephen Brimijoin and Vanda A. Lennon
  • Proceedings of the National Academy of Sciences of the United States of America, Vol. 87, No. 24 (Dec., 1990), pp. 9630-9634 (article consists of 5 pages)
  • Published by: National Academy of Sciences

intact adrenal medulla was essential for SHR groups to achieve many of the adaptations associated with training

Responses of SHR to combinations of chemical sympathectomy, adrenal demedullation, and training

C. M. Tipton, M. S. Sturek, R. A. Oppliger, R. D. Matthes, J. M. Overton and J. G. Edwards

The single and combined influences of exercise training, chemical sympathectomy (SYMX), and surgical adrenal demedullation (D) were examined in four separate spontaneously hypertensive rat (SHR) groups. SYMX was accomplished by subcutaneous injections of antinerve growth factor (ANGF) over a 5-day period after birth followed by 20 separate injections of guanethidine sulfate during a 27-day period. Measurements of urine, plasma, or tissue levels of catecholamines indicated that these experimental procedures were effective. The animals were exercise trained (T) for 10 wk or longer at 40-60% of their VO2max capacity, and all T groups exhibited longer run times or higher muscle cytochrome oxidase activity; however, only the SHR + T subgroup had a significantly higher VO2max value than its control (NT). Training lowered resting systolic blood pressure (SBP) in the SHR subgroup but normalization of SBP occurred only with SYMX. Interestingly, only the SYMX + T subgroup with intact adrenal glands also had lower SBP values than the NT. The SHR + T and SYMX + T subgroups but not the SYMX + D + T had less cardiac acceleration after ip injections of atropine than their controls. Heavier heart weights were observed only in the SHR + T subgroup; SYMX was associated with lighter heart weights regardless of whether the rats had been T or D. These collective findings demonstrated again the importance of the sympathetic nervous system to an exercise response, suggesting that an intact adrenal medulla was essential for SHR groups to achieve many of the adaptations associated with training.
Am J Physiol Heart Circ Physiol 247: H109-H118, 1984;
0363-6135/84 $5.00

no one has examined the effects of sympathectomy, adrenergic blockade, or adrenal demedulation

Thus, until proven otherwise, we suggest that many, if not all, of the anti-inflammatory effects associated with efferent vagal stimulation are due to the concurrent activation of the adrenal medulla and the sympathetic nervous system. It is surprising that no one has examined the effects of sympathectomy, adrenergic blockade, or adrenal demedulation on the inhibition of TNF-� and inflammation produced by efferent vagal stimulation.

PubMed articles by:
Autonomic Innervation and Regulation of the Immune System
(1987-2007)
Dwight M. Nance and Virginia M. Sanders
Brain Behav Immun. 2007 August; 21(6): 736–745.


Madden KS, Felten SY, Felten DL, Sundaresan PR, Livnat S.
Sympathetic neural modulation of the immune system. I.
Depression of T cell immunity in vivo and in vitro following chemical sympathectomy. Brain Behav.Immun.
1989;3:72–89. [PubMed]


HYPOTHALAMUS


RECENT STUDIES ON THE HYPOTHALAMUS:
K. E. COOPER
TEMPERATURE REGULATION AND THE HYPOTHALAMUS
Br. Med. Bull., September 1966; 22: 238 - 242.
*......pathway is necessary for the complete febrile response in cats was shown by Knkston (1935), who found that complete bilateral sympathectomy greatly reduced the pyrogenic response, and by Douglas (1954), who showed the importance of ear vasoconstriction in the......
*PDF

Sunday, April 20, 2008

Dopamine

Dopamine has moved from being an insignificant intermediary in the formation of noradrenaline in 1957 to its present-day position as a major neurotransmitter in the brain. This neurotransmitter is involved in the control of movement and Parkinson's disease, the neurobiology and symptoms of schizophrenia and attention deficit hyperactivity disorder. It is also considered an essential element in the brain reward system and in the action of many drugs of abuse. This evolution reflects the ability of several famous names in neuropharmacology, neurology and psychiatry to apply new techniques to ask and answer the right questions. There is now excellent knowledge about the metabolism of dopamine, dopamine receptor systems and the structural organisation of dopamine pathways in the brain. Less is known about the function of the different receptors and how the various dopamine pathways are organised to produce normal behaviour, which exhibits disruption in the disease states mentioned. In particular, we have very limited information as to why and how the dopamine system dies or becomes abnormal in Parkinson's disease or a neurodevelopmental disorder such as schizophrenia. Dopamine neurones account for less than 1% of the total neuronal population of the brain, but have a profound effect on function. The future challenge is to understand how dopamine is involved in the integration of information to produce a relevant response rather than to study dopamine in isolation from other transmission systems. This integrated approach should lead to greater understanding and improved treatment of diseases involving dopamine.
Charles A Marsden
1
School of Biomedical Sciences, Institute of Neuroscience, Medical School, Queen's Medical Centre, University of
Nottingham, Nottingham NG7 2UH