Literature DB >> 7391345

The activity of the sympathetic nervous system following severe head injury.

H Hörtnagl, A F Hammerle, J M Hackl, T Brücke, E Rumpl, H Hörtnagl.   

Abstract

The activity of the sympathetic nervous system during the course of severe closed head injury has been evaluated in 15 patients by measuring plasma levels of epinephrine and norepinephrine. With the onset of the transition stage from midbrain syndrome to the apallic syndrome the plasma levels mainly of norepinephrine started to increase and remained high during the further course of the disease. During the remission from the apallic syndrome the elevated norepinephrine levels started to decline. The data indicate that a longlasting overactivity of the sympathetic nervous system is a characteristic feature in the course of severe head injury. As a rational therapy to protect the peripheral tissues against the consequences of a longlasting sympathetic overactivity we suggest the use of beta-adrenergic blocking agents and adrenergic neuron blocking drugs.

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Year:  1980        PMID: 7391345     DOI: 10.1007/bf01757299

Source DB:  PubMed          Journal:  Intensive Care Med        ISSN: 0342-4642            Impact factor:   17.440


  27 in total

1.  ELECTROCARDIOGRAPHIC CHANGES IN SUBARACHNOID HAEMORRHAGE, MENINGITIS, AND INTRACRANIAL SPACE-OCCUPYING LESIONS.

Authors:  C HERSCH
Journal:  Br Heart J       Date:  1964-11

2.  Electrocardiographic changes in head injuries.

Authors:  C HERSCH
Journal:  Circulation       Date:  1961-06       Impact factor: 29.690

3.  Pheochromocytoma and the abnormal electrocardiogram.

Authors:  W J SAYER; M MOSER; T W MATTINGLY
Journal:  Am Heart J       Date:  1954-07       Impact factor: 4.749

4.  Stimulation of the sympathetic nervous system during sucrose feeding.

Authors:  J B Young; L Landsberg
Journal:  Nature       Date:  1977-10-13       Impact factor: 49.962

5.  Paroxysmal hyperadrenergic state. A case during surgery for intracranial aneurysm.

Authors:  R Miller; D C Stark; S E Gitlow
Journal:  Anaesthesia       Date:  1976-07       Impact factor: 6.955

6.  A syndrome resembling pheochromocytoma following a stroke. Report of a case.

Authors:  R M Mazey; T A Kotchen; C B Ernst
Journal:  JAMA       Date:  1974-10-28       Impact factor: 56.272

7.  3. The transition stage from midbrain syndrome to traumatic apallic syndrome.

Authors:  H J Avenarius; F Gerstenbrand
Journal:  Monogr Gesamtgeb Psychiatr Psychiatry Ser       Date:  1977

8.  Plasma catecholamines in severely injured patients: a prospective study on 45 patients with multiple injuries.

Authors:  A Jäättelä; A Alho; V Avikainen; E Karaharju; J Kataja; M Lahdensuu; P Lepistö; P Rokkanen; T Tervo
Journal:  Br J Surg       Date:  1975-03       Impact factor: 6.939

9.  Urinary catecholamine excretion and thyroid hormone blood level in the course of severe acute brain damage.

Authors:  W Haider; H Benzer; G Krystof; F Lackner; O Mayrhofer; K Steinbereithner; K Irsigler; A Korn; W Schlick; H Binder; F Gerstenbrand
Journal:  Eur J Intensive Care Med       Date:  1975-11

10.  Heart damage associated with intracranial lesions.

Authors:  R C Connor
Journal:  Br Med J       Date:  1968-07-06
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  18 in total

1.  Endocrine abnormalities in severe traumatic brain injury--a cue to prognosis in severe craniocerebral trauma?

Authors:  J M Hackl; M Gottardis; C Wieser; E Rumpl; C Stadler; S Schwarz; R Monkayo
Journal:  Intensive Care Med       Date:  1991       Impact factor: 17.440

2.  Physiology and metabolism in closed head injury.

Authors:  C S Deutschman
Journal:  World J Surg       Date:  1987-04       Impact factor: 3.352

3.  The Effect of β-blockade on Survival After Isolated Severe Traumatic Brain Injury.

Authors:  Shahin Mohseni; Peep Talving; Eric P Thelin; Göran Wallin; Olle Ljungqvist; Louis Riddez
Journal:  World J Surg       Date:  2015-08       Impact factor: 3.352

4.  Cardiac reactive oxygen species after traumatic brain injury.

Authors:  Brett E Larson; David W Stockwell; Stefan Boas; Trevor Andrews; George C Wellman; Warren Lockette; Kalev Freeman
Journal:  J Surg Res       Date:  2011-10-24       Impact factor: 2.192

Review 5.  A critical review of the pathophysiology of dysautonomia following traumatic brain injury.

Authors:  Ian J Baguley; Roxana E Heriseanu; Ian D Cameron; Melissa T Nott; Shameran Slewa-Younan
Journal:  Neurocrit Care       Date:  2008       Impact factor: 3.210

Review 6.  Beta blockers for acute traumatic brain injury: a systematic review and meta-analysis.

Authors:  Aziz S Alali; Victoria A McCredie; Eyal Golan; Prakesh S Shah; Avery B Nathens
Journal:  Neurocrit Care       Date:  2014-06       Impact factor: 3.210

7.  Propranolol and Mesenchymal Stromal Cells Combine to Treat Traumatic Brain Injury.

Authors:  Daniel J Kota; Karthik S Prabhakara; Alexandra J van Brummen; Supinder Bedi; Hasen Xue; Bryan DiCarlo; Charles S Cox; Scott D Olson
Journal:  Stem Cells Transl Med       Date:  2015-11-19       Impact factor: 6.940

8.  Traumatic Brain Injury Causes Endothelial Dysfunction in the Systemic Microcirculation through Arginase-1-Dependent Uncoupling of Endothelial Nitric Oxide Synthase.

Authors:  Nuria Villalba; Adrian M Sackheim; Ivette A Nunez; David C Hill-Eubanks; Mark T Nelson; George C Wellman; Kalev Freeman
Journal:  J Neurotrauma       Date:  2016-04-01       Impact factor: 4.869

9.  β-blockers in critically ill patients: from physiology to clinical evidence.

Authors:  Silvia Coppola; Sara Froio; Davide Chiumello
Journal:  Crit Care       Date:  2015-03-16       Impact factor: 9.097

10.  Labetalol Prevents Intestinal Dysfunction Induced by Traumatic Brain Injury.

Authors:  Yuhuang Lang; Fengming Fu; Dalong Sun; Chenhui Xi; Fengyuan Chen
Journal:  PLoS One       Date:  2015-07-17       Impact factor: 3.240
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