Cerebral traumatic injury and glucose metabolism: a scoping review

Loraine Quintana-Pajaro; Huber S. Padilla-Zambrano; Yancarlos Ramos-Villegas; Daniela Lopez-Cepeda; Andrea Andrade-Lopez; Samer Hoz; Luis Rafael Moscote-Salazar; Andrei F. Joaquim; William A. Florez Perdomo; Tariq Janjua

doi:10.1186/s41984-023-00255-4

Egyptian Journal of Neurosurgery (Nov 2023)

Cerebral traumatic injury and glucose metabolism: a scoping review

Loraine Quintana-Pajaro,
Huber S. Padilla-Zambrano,
Yancarlos Ramos-Villegas,
Daniela Lopez-Cepeda,
Andrea Andrade-Lopez,
Samer Hoz,
Luis Rafael Moscote-Salazar,
Andrei F. Joaquim,
William A. Florez Perdomo,
Tariq Janjua

Affiliations

Loraine Quintana-Pajaro: Colombian Clinical Research Group in Neurocritical Care
Huber S. Padilla-Zambrano: Colombian Clinical Research Group in Neurocritical Care
Yancarlos Ramos-Villegas: Colombian Clinical Research Group in Neurocritical Care
Daniela Lopez-Cepeda: Colombian Clinical Research Group in Neurocritical Care
Andrea Andrade-Lopez: Colombian Clinical Research Group in Neurocritical Care
Samer Hoz: Departament of Neurosurgery, Cincinnati University
Luis Rafael Moscote-Salazar: Colombian Clinical Research Group in Neurocritical Care
Andrei F. Joaquim: Department of Neurology, Neurosurgery Division, State University of Campinas
William A. Florez Perdomo: Colombian Clinical Research Group in Neurocritical Care
Tariq Janjua: Department of Critical Care Medicine, Physician Regional Medical Center

DOI: https://doi.org/10.1186/s41984-023-00255-4
Journal volume & issue: Vol. 38, no. 1
pp. 1 – 8

Abstract

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Abstract Objective To review the influence of metabolic dysfunction of glucose after traumatic brain injury on patient mortality. Materials and methods We searched PubMed, Scopus, EBSCOhost, Medline, and Embase electronic databases, involving publications from 1980 to August 2017 in English and Spanish. Results The glucose metabolism in brain involved in brain signal conduction, neurotransmission, synaptic plasticity, and cognitive function. Insulin levels traverse the blood–brain barrier by utilizing an insulin receptor protein as a carrier, playing a pivotal role in various cognitive functions while also regulating energy metabolism. TBI causes elevated blood glucose levels. Hyperglycemia is attributed to an acute sympatho-adrenomedullary response, resulting in elevated catecholamines, increased levels of cortisol, and IL-6. Moreover, there is a potential association with hypothalamic involvement. Additionally, hyperglycemia is linked to lactic acidosis at the tissue level, ultimately contributing to higher mortality rates. Conclusions The monitoring and control of glucose should be an important part of multimodal monitoring in patients with moderate to severe traumatic brain injury managed in neurocritical care units. A management protocol should ensure normoglycemia and early detection and correction of glucose abnormalities since it improves patients' clinical outcomes.

Published in Egyptian Journal of Neurosurgery

ISSN: 2520-8225 (Online)
Publisher: SpringerOpen
Country of publisher: United Kingdom
LCC subjects: Medicine: Surgery; Medicine: Internal medicine: Neurosciences. Biological psychiatry. Neuropsychiatry
Website: https://ejns.springeropen.com/

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Abstract

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