Goldstein, David; Cheshire, William
2018 Clinical Autonomic Research
doi: 10.1007/s10286-018-0528-9pmid: 29705971
Catechols are a class of compounds that contain adjacent hydroxyl groups on a benzene ring. Endogenous catechols in human plasma include the catecholamines norepinephrine, epinephrine (adrenaline), and dopamine; the catecholamine precursor DOPA, 3,4-dihydroxyphenylglycol (DHPG), which is the main neuronal metabolite of norepinephrine; and 3,4-dihydroxyphenylacetic acid (DOPAC), which is the main neuronal metabolite of dopamine. In the diagnostic evaluation of patients with known or suspected dysautonomias, measurement of plasma catechols is rarely diagnostic but often is informative. This review summarizes the roles of clinical catechol neurochemistry in autonomic function testing.
2018 Clinical Autonomic Research
doi: 10.1007/s10286-018-0518-ypmid: 29541878
Although the immune and nervous systems have long been considered independent biological systems, they turn out to mingle and interact extensively. The present review summarizes recent insights into the neural pathways activated by and involved in infection-induced inflammation and discusses potential clinical applications. The simplest activation concerns a reflex action within C-fibers leading to neurogenic inflammation. Low concentrations of pro-inflammatory cytokines or bacterial fragments may also act on these afferent nerve fibers to signal the central nervous system and bring about early fever, hyperalgesia and sickness behavior. In the brain, the preoptic area and the paraventricular hypothalamus are part of a neuronal network mediating sympathetic activation underlying fever while brainstem circuits play a role in the reduction of food intake after systemic exposure to bacterial fragments. A vagally-mediated anti-inflammatory reflex mechanism has been proposed and, in turn, questioned because the major immune organs driving inflammation, such as the spleen, are not innervated by vagal efferent fibers. On the contrary, sympathetic nerves do innervate these organs and modulate immune cell responses, production of inflammatory mediators and bacterial dissemination. Noradrenaline, which is both released by these fibers and often administered during sepsis, along with adrenaline, may exert pro-inflammatory actions through the stimulation of β1 adrenergic receptors, as antagonists of this receptor have been shown to exert anti-inflammatory effects in experimental sepsis.
Simó, Marta; Navarro, Xavier; Yuste, Victor; Bruna, Jordi
2018 Clinical Autonomic Research
doi: 10.1007/s10286-018-0523-1pmid: 29594605
The autonomic nervous system (ANS) is the main homeostatic regulatory system of the body. However, this widely distributed neural network can be easily affected by cancer and by the adverse events induced by cancer treatments. In this review, we have classified the ANS complications of cancer into two categories. The first includes direct cancer-related complications, such as primary ANS tumors (pheochromocytoma, paraganglioma or neuroblastoma), as well as autonomic manifestations induced by non-primary ANS tumors (primary brain tumors and metastases). The second comprises indirect ANS complications, which include autonomic features related to cancer therapy (chemotherapy, radiotherapy and/or surgery) and those not related to cancer therapy, such as paraneoplastic autonomic syndromes. We also review the molecular relationship and modulation between the ANS and the cancer cells and their microenvironment.
Indelicato, Elisabetta; Fanciulli, Alessandra; Ndayisaba, Jean; Nachbauer, Wolfgang; Granata, Roberta; Wanschitz, Julia; Wagner, Michaela; Gizewski, Elke; Poewe, Werner; Wenning, Gregor; Boesch, Sylvia
2018 Clinical Autonomic Research
doi: 10.1007/s10286-018-0504-4pmid: 29435867
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