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

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

T. H. Svensson¹

(1)	Department of Pharmacology, Karolinska Institute, Box 60 400, S-104 01 Stockholm, Sweden

Received: 20 June 1986 Revised: 25 November 1986
Psychopharmacology

"Locus coeruleus (LC) is located in the ventrallateral side of the fourth ventricle in the pontine, most of which are noradrenergic neurons projecting to the cortex, cingulate cortex, amygdala nucleus, thalamus, hypothalamus, olfactory tubercles, hippocampus, cerebellum, and spinal cord (Swanson and Hartman, 1975). Norepinephrine (NE) released from the nerve terminal of LC neurons contributes to about 70% of the total extracellular NE in primates brain (Svensson, 1987). It plays important roles not only in arousal, attention, emotion control, and stress (reviewed in Aston-Jones and Cohen, 2005; Berridge and Waterhouse, 2003; Bouret and Sara, 2005; Nieuwenhuis et al., 2005; Sara and Devauges, 1989; Valentino and Van Bockstaele, 2008), but also in sensory information processing (Svensson, 1987). LC directly modulates the somatosensory information from the peripheral system. Under the stress condition, LC could completely inhibit the input from painful stimuli through the descending projection to the spinal cord (Stahl and Briley, 2004). Dys-regulations of LC neurotransmission have been suggested to be involved in physical painful symptoms, attention deficit hyperactivity disorder (ADHD), sleep/arousal disorder, post-traumatic stress disorder, depression, schizophrenia, and Parkinson's disease (reviewed in Berridge and Waterhouse, 2003; Grimbergen et al., 2009; Mehler and Purpura, 2009)."
http://journal.frontiersin.org/Journal/10.3389/fnmol.2012.00029/full

direct injury to the anatomic structure of the autonomic nervous system in the thoracic cavity, and postthoracotomy pain may contribute independently or in association with each other to the development of these arrhythmias

Anesthesiol Res Pract. 2013;2013:413985. doi: 10.1155/2013/413985. Epub 2013 Oct 23.

Supraventricular arrhythmias after thoracotomy: is there a role for autonomic imbalance?

Vretzakis G1, Simeoforidou M, Stamoulis K, Bareka M.

Author information

Abstract

Supraventricular arrhythmias are common rhythm disturbances following pulmonary surgery. The overall incidence varies between 3.2% and 30% in the literature, while atrial fibrillation is the most common form. These arrhythmias usually have an uneventful clinical course and revert to normal sinus rhythm, usually before patent's discharge from hospital. Their importance lies in the immediate hemodynamic consequences, the potential for systemic embolization and the consequent long-term need for prophylactic drug administration, and the increased cost of hospitalization. Their incidence is probably related to the magnitude of the performed operative procedure, occurring more frequently after pneumonectomy than after lobectomy. Investigators believe that surgical factors (irritation of the atria per se or on the ground of chronic inflammation of aged atria), direct injury to the anatomic structure of the autonomic nervous system in the thoracic cavity, and postthoracotomy pain may contribute independently or in association with each other to the development of these arrhythmias. This review discusses currently available information about the potential mechanisms and risk factors for these rhythm disturbances. The discussion is in particular focused on the role of postoperative pain and its relation to the autonomic imbalance, in an attempt to avoid or minimize discomfort with proper analgesia utilisation.

http://www.ncbi.nlm.nih.gov/pubmed/24235971

"Since changes in old age show some similarities with those following chronic sympathectomy"

"For the tracheobronchial tree. surgical (sympathectomy) and chemical (with 6-hydroxydopamine or reserpine) interventions lead to histological disappearance of the NA and NPY." (p.435)

" Prejunctional supersensitivity to norepinephrine after sympathectomy or cocaine treatment." (p. 410)

"Following chronic sympathectomy, substance P expression in presumptive sensory nerves....and NPY-expression in parasympathetic nerves ...to autonomically innervated tissues have both been shown to increase... Experiments using NGF and anti-NGF antibodies (Kessler et al., 1983) have suggested that competition between sympathetic and sensory fibers for target-derived growth factors could explain these apparently compensatory interactions,..." (p. 33)

"Since changes in old age show some similarities with those following chronic sympathectomy, it is tempting to consider whether alterations in one group of nerves in tissues with multiple innervations trigger reciprocal changes in other populations of nerves, perhaps through the mechanism of competition for common, target-produced growth factors. The nature of these changes is such that they could be nonadaptive and even destabilizing of cardiovascular homeostasis. (p. 34) 

Impairment of sympathetic and neural function has been claimed in cholesterol-fed animals (Panek et al., 1985). It has also been suggested that surgical sympathectomy may be useful in controlling atherosclerosis in certain arterial beds (Lichter et al., 1987). Defective cholinergic arteriolar vasodilation has been claimed in atherosclerotic rabbits (Yamamoto et al., 1988) and, in our laboratory, we have recently shown impairment of response to perivascular nerves supplying the mesenteric, hepatic, and ear arteries of Watanabe heritable hyperlipidemic rabbits (Burnstock et al., 1991). 
   Loss of adrenergic innervation has been reported in alcoholism (Low et al., 1975), amyloidosis (Rubenstein et al., 1983), orthostatic hypotension (Bannister et al., 1981), and subarachnoid haemorrhage (Hara and Kobayashi, 1988). Recent evidence shows that there is also a loss of noradrenergic innervation of blood vessels supplying malignant, as compared to benign, human intracranial tumours (Crockard et al., 1987). (p. 14)  

Vascular Innervation and Receptor Mechanisms: New    Perspectives 

Rolf Uddman

Academic Press, 2 Dec 2012 - Medical - 498 pages

sympathectomy leads to fluctuation of vasoconstriction alternated with vasodilation in an unstable fashion. Following sympathectomy the involved extremity shows regional hyper - and hypothermia

"To quote Nashold, referring to sympathectomy, "Ill- advised surgery may tend to magnify the entire symptom complex"(38). Sympathectomy is aimed at achieving vasodilation. The neurovascular instability (vacillation and instability of vasoconstrictive function), leads to fluctuation of vasoconstriction alternated with vasodilation in an unstable fashion (39). Following sympathectomy the involved extremity shows regional hyper - and hypothermia in contrast, the blood flow and skin temperature on the non- sympathectomized side are significantly lower after exposure to a cold environment (39). This phenomenon may explain the reason for spread of CRPS. In the first four weeks after sympathectomy, the Laser Doppler flow study shows an increased of blood flow and hyperthermia in the extremity (40). Then, after four weeks, the skin temperature and vascular perfusion slowly decrease and a high amplitude vasomotor constriction develops reversing any beneficial effect of surgery (39). According to Bonica , "about a dozen patients with reflex sympathetic dystrophy (RSD) in whom I have carried out preoperative diagnostic sympathetic block with complete pain relief, sympathectomy produced either partial or no relief (40)"

Chronic Pain: 

 Reflex Sympathetic Dystrophy : Prevention and Management

Hooshang Hooshmand

CRC PressINC, 1993 - Medical - 202 pages

Despite the simplicity and rapidity of the procedure, some patients experience intense, in some cases persistent, postoperative pain

Jornal Brasileiro de Pneumologia - The incidence of residual pneumothorax after video-assisted sympathectomy with and without pleural drainage and its effect on postoperative pain:

"Anteroposterior chest X-ray in the orthostatic position, while inhaling, was absolutely normal in 18 patients (32.1%), and residual pneumothorax was detected in 17 patients (30.4%). When the patients were separated into two groups (those who had received drainage and those who had not), 25.9% (7 patients) and 34.4% (10 patients), respectively, presented residual pneumothorax, with no difference between the two groups (p = 0.48) (Figure 1).

The additional alterations were laminar atelectasis and emphysema of the subcutaneous cellular tissue.

Chest X-rays in the orthostatic position, while exhaling, revealed residual pneumothorax in 39.3% (22 patients) and was absolutely normal in 25% (14 patients). On the same X-rays, when patients were analyzed separately, residual pneumothorax was seen in 33.3% of the patients who had received drainage (9 patients) and in 44.8% (13 patients) of those who had not, with no difference between the two groups (p = 0.37) (Figure 1).

The low-dose computed tomography scans of the chest detected residual pneumothorax in 76.8% (43 patients). In the patients submitted to postoperative drainage, this rate was 70.3% (19 patients), compared with 82.7% (24 patients) in those without pleural drainage, with no difference between the two groups (p = 0.27) (Figure 1). Therefore, the overall rate of occult pneumothorax (only visible through tomography), revealed on anteroposterior X-rays was 35.7% (20 patients): 48.2% while patients were inhaling and 41.1% while patients were exhaling. The VAS score in the PACU ranged from 0 to 10, with a mean of 2.16 ± 0.35.

Regarding characteristics, 44.6% of the patients reported chest pain upon breathing and 32.1% reported retrosternal pain. The same evaluation performed in the infirmary, during the immediate postoperative period, ranged from 0 to 10, with a mean of 3.75 ± 0.30, being 69.6% of chest pain upon breathing and 78.6% of retrosternal pain. On postoperative day 7, according to VAS, pain ranged from 0 to 10, with a mean of 2.05 ± 0.31; regarding characteristics, it was continuous in 32.1% of the cases, and retrosternal in 26.8%. On postoperative day 28, pain ranged from 0 to 3, with a mean of 0.17 ± 0.08, 7.1% of mechanical rhythm and 5.4% upper posterior."

Jornal Brasileiro de Pneumologia

Print version ISSN 1806-3713

J. bras. pneumol. vol.34 no.3 São Paulo Mar. 2008

http://www.scielo.br/scielo.php?script=sci_arttext&pid=S1806-37132008000300003&lng=en&nrm=iso&tlng=en

"sympathicotomy may cause a temporary impairment of the caudal-to-rostral hierarchy of thermoregulatory control and changes in microcirculation"

Patients with palmar hyperhidrosis have been reported to have a much
more complex dysfunction of autonomic nervous system, involving compensatory high parasympathetic activity as well as sympathetic overactivity (13, 14), suggesting that sympathicotomy initially induces a sympathovagal imbalance with a parasympathetic predominance, and that this is restored on a long-term basis (14). Therefore, thoracic sympathicotomy may cause a temporary impairment of the caudal-to-rostral hierarchy of thermoregulatory control and changes in microcirculation.
The reduction
of finger skin temperature on the non-denervated side may be due to either a decrease in the cross-
inhibitory effect or the abnormal control of the inhibitory fibers by the sudomotor center (6).
Vasoconstrictor neurons have been found to be largely under the inhibitory control of various afferent
input systems from the body surface, whereas sudomotor neurons are predominantly under excitatory
control (15). The basic neuronal network for this reciprocal organization is probably located in the spinal level (15). Therefore, the reduction in the contralateral skin temperature may be explained by cross-inhibitory control of various afferent in the spinal cord.
In particular, our study showed that, following bilateral T3 sympathicotomy, the skin temperatures on
the hands increased whereas the skin temperatures on the feet decreased. These findings suggest a
cross-inhibitory control between the upper and lower extremities. However, the pattern of skin
temperature reduction on the feet differed from that on the contralateral hand. The skin temperature on
the feet did not decrease after right T3 sympathicotomy but decreased significantly after bilateral T3
sympathicotomy.
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2722005/

Other neurological pathways (pathways of the nervous system) involving the cerebral cortex (an area of the brain that processes complex information and regulates voluntary movement) and hypothalamus (a hormone-producing gland in the brain) are also thought to play a role in hyperhidrosis

"Sweat is secreted by sweat glands, normally as a thermoregulatory response. No changes to the sweat glands (e.g. increased quantity or size) are observed in individuals with focal hyperhidrosis, so the condition is hypothesised to arise due to overactivity of the sympathetic nervous system (the section of the nervous system that regulates involuntary muscle movements), which sends the signals to the sweat glands to trigger sweating. Other neurological pathways (pathways of the nervous system) involving the cerebral cortex (an area of the brain that processes complex information and regulates voluntary movement) and hypothalamus (a hormone-producing gland in the brain) are also thought to play a role in hyperhidrosis, as is the parasympathetic nervous system."
https://archive.today/xyNQ2
or
http://sydneynorthneurology.com.au/focal-hyperhidrosis/

functional abnormality detected in the small airway of patients who underwent bilateral dorsal sympathectomy to treat primary hyperhidrosis is still present 3 years after surgery

The main observation of our study was that the functional abnormality detected in the small airway of patients who underwent bilateral dorsal sympathectomy to treat primary hyperhidrosis is still present 3 years after surgery, although the patients remain clinically asymptomatic.

Studies to date evaluate alterations in lung function at 1, 3, and 6 months after sympathectomy. Only 1 recent study provides data 1 year after surgery. Ponce González et al¹⁰ studied a group of 37 patients who underwent forced spirometry before surgery, and at 3 months and 1 year after surgery. They observed a decrease in FVC, FEV₁, and FEF_25%-75% at 3 months, although FVC returned to baseline values at 12 months, whereas FEV₁ and FEF_25%-75% remained significantly low (-2.8% and -11.2%, respectively). These findings are consistent with ours, and corroborate the persistence of minimal bronchial obstruction 3 years after surgery. This appears to be associated with the influence of the sympathetic nervous system on bronchomotor tone.

As previously mentioned, the airway is innervated mainly by the parasympathetic nervous system. Sympathetic innervation, although scant, indirectly affects motor tone and could have caused the mild residual obstructive pattern after surgery. Despite the doubtful role of the sympathetic nervous system in the lung, a series of physiologic studies show the effect of sympathetic nervous activity after bilateral dorsal sympathectomy.^11,12 The first was by Noppen and Vincken⁴, who compared the results of lung function studies (spirometry, diffusion, and lung volumes using plethysmography) in 7 patients before dorsal sympathectomy performed using VATS, at 6 weeks, and at 6 months (previous studies had been performed using invasive techniques [thoracotomy]). A statistically significant decrease was observed in FEV₁, FEF_25%-75%, and total lung capacity 6 weeks after surgery. At 6 months, the authors again evaluated the 35 patients and found that total lung capacity had returned to normal values, whereas FEF_25%-75% remained low. They attributed the permanent decrease in FEF_25%-75% to the sympathetic denervation produced by surgery, and stressed that, in patients with primary hyperhidrosis, bronchomotor tone is influenced by the sympathetic nervous system. This contrasts with the common opinion that motor tone in the airway is not affected by this system. Both the study by Ponce González et al,¹⁰ who evaluated their patients at 1 year, and our study, in which we evaluated patients at 3 years, show that persistence of the decrease in FEF_25%-75% over time is related more to sympatholysis of the ganglia than to VATS.

http://www.archbronconeumol.org/en/bilateral-dorsal-sympathectomy-for-the/articulo/13147806/

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/

"sympathectomy, although having varying results, does seem to increase the severity of autoimmune disorders"

Allostasis - a state of imbalance responsible for Autoimmune disorders

In general, enhancing the sympathetic tone decreases both T0-cell and NK cell functions but not the proliferation of splenic B cells (Dowdell and Whitacre, 2000). In contrast, chemical sympathectomy, although having varying results, does seem to increase the severity of autoimmune disorders (Dowdell and Whitacre, 2000)
As far as metabolism, catecholamines promote mobilization of fuel stores at time of stress and act synergistically with glucocorticoids to increased glycogenolysis, gluconeogenesis, and lipolysis but exert opposing effects of protein catabolism, as noted earlier. One important aspect is regulation of body temperature (Goldsttein and Eisenhofer, 2000) Epinephrine levels are also positively related to serum levels of HDL cholesterol and negatively related to triglycerines. However, perturbing the balance of activity of various mediators or metabolism and body weight regulation can lead to well-known metabolic disorders such as type 2 diabetes and obesity.

At the same time, increased sympathetic activitation and nerephinephrine release is elevated in hypertensive individuals and also higher levels of insulin, and there are indications that insulin further increases sympathetic activity in a vicious cycle (Arauz-Pacheco et al.,1996)

As a result of either local production, cytokines often enter the the circultion and can be detected in plasma samples. Sleep deprivation and psychological stress, such as public speaking, are reported to elevate inflammatory cytokine level in blood (Altemus et al., 2001) Circulting levels of a number of inflammatory cytokines are elevated in relation to viral and other infections and contirbute to the feeling of being sick, as well as sleepiness, wiht both direct and indirect effects on the central nervous system (Arkins et al., 2000; Obal and Kueger, 2000)

Inflammatory autoimmune diseases, such as multiple sclerosis, rheumatoid arthritis, and type 1 diabetes, reflect an allostatic state that consists of at least three principal causes: genetic risk factors, (...) factors that contribute to the development of tolerance of self-antigens (...) and the hormonal mikieu that regulates adaptive immunes responses (Dowdell and Whitacre, 2000)

Allostasis, homeostasis and the costs of physiological adaptation

By Jay SchulkinCambridge University Press, 2004

Allostasis is the process of achieving stability, or homeostasis, through physiological or behavioral change. This can be carried out by means of alteration in HPA axishormones, the autonomic nervous system, cytokines, or a number of other systems, and is generally adaptive in the short term ^[1]