Neurobehavioral Outcome 1 Year After Severe Head Injury. Experience of the Traumatic Coma Data Bank

Overview

Journal J Neurosurg

Specialty Neurosurgery

Date 1990 Nov 1

PMID 2213159

Citations 42

Authors

H S Levin

H E Gary Jr

H M Eisenberg

R M Ruff

J T Barth

J Kreutzer

W M High Jr

S Portman

M A Foulkes

J A Jane

Affiliations

Soon will be listed here.

Abstract

The outcome 1 year after they had sustained a severe head injury was investigated in patients who were admitted to the neurosurgery service at one of four centers participating in the Traumatic Coma Data Bank (TCDB). Of 300 eligible survivors, the quality of recovery 1 year after injury was assessed by at least the Glasgow Outcome Scale (GOS) in 263 patients (87%), whereas complete neuropsychological assessment was performed in 127 (42%) of the eligible survivors. The capacity of the patients to undergo neuropsychological testing 1 year after injury was a criterion of recovery as reflected by a significant relationship to neurological indices of acute injury and the GOS score at the time of hospital discharge. The neurobehavioral data at 1 year after injury were generally comparable across the four samples of patients and characterized by impairment of memory and slowed information processing. In contrast, language and visuospatial ability recovered to within the normal range. The lowest postresuscitation Glasgow Coma Scale (GCS) score and pupillary reactivity were predictive of the 1-year GOS score and neuropsychological performance. The lowest GCS score was especially predictive of neuropsychological performance 1 year postinjury in patients who had at least one nonreactive pupil following resuscitation. Notwithstanding limitations related to the scope of the TCDB and attrition in follow-up material, the results indicate a characteristic pattern of neurobehavioral recovery from severe head injury and encourage the use of neurobehavioral outcome measurements in clinical trials to evaluate interventions for head-injured patients.

Citing Articles

Feasibility and Utility of a Flexible Outcome Assessment Battery for Longitudinal Traumatic Brain Injury Research: A TRACK-TBI Study.

Bodien Y, Barber J, Taylor S, Boase K, Corrigan J, Dikmen S J Neurotrauma. 2022; 40(3-4):337-348.

PMID: 36097759 PMC: 9902043. DOI: 10.1089/neu.2022.0141.

Measuring pupil size and light response through closed eyelids.

Farraj Y, Buxboim A, Cohen J, Kan-Tor Y, Glasner Hagege S, Weiss D Biomed Opt Express. 2021; 12(10):6485-6495.

PMID: 34745751 PMC: 8548001. DOI: 10.1364/BOE.435508.

Neuropsychological and behavioral disorders, functional outcomes and quality of life in traumatic brain injury victims.

Sameh G, Islem F, Samar A, Hedi C, Mounir B, Habib E Pan Afr Med J. 2021; 38:346.

PMID: 34367425 PMC: 8308941. DOI: 10.11604/pamj.2021.38.346.16120.

Rapid Changes in Synaptic Strength After Mild Traumatic Brain Injury.

Witkowski E, Gao Y, Gavsyuk A, Maor I, DeWalt G, Eldred W Front Cell Neurosci. 2019; 13:166.

PMID: 31105533 PMC: 6498971. DOI: 10.3389/fncel.2019.00166.

Effects of concussion on the blood-brain barrier in humans and rodents.

Sahyouni R, Gutierrez P, Gold E, Robertson R, Cummings B J Concussion. 2019; 1.

PMID: 30828466 PMC: 6391889. DOI: 10.1177/2059700216684518.