Abstract
Background. The pathophysiology of traumatic brain swelling remains little understood. An improved understanding of intracranial circulatory process related to brain herniation may have treatment implications. Objective. To investigate the cerebral hemodynamic changes associated with brain herniation syndrome due to traumatic brain swelling. Methods. Nineteen head-injured patients with evidence of refractory intracranial hypertension and transtentorial herniation were prospectively studied. Cerebral hemodynamic assessment by transcranial Doppler (TCD) ultrasonography was performed prior to decompressive craniectomy. Patients and their cerebral hemispheres were classified according to TCD-hemodynamic patterns, and the data correlated with neurological status, midline shift on CT scan, and Glasgow outcome scale scores at 6 months after injury. Results. A wide variety of cerebral hemodynamic findings were observed. Ten patients (52.7%) presented with cerebral oligoemia, 3 patients (15.8%) with cerebral hyperemia, and 6 patients with nonspecific circulatory pattern. Circulatory disturbances were more frequently found in the side of maximal cerebral swelling than in the opposite side. Pulsatility index (PI) values suggested that ICP varied from acceptable to considerably high; patients with increased PI, indicating higher microvascular resistance. No correlation was found between cerebral hemodynamic findings and outcome. Conclusions. There is a marked heterogeneity of cerebral hemodynamic disturbances among patients with brain herniation syndrome.
Highlights
Cerebral hemodynamic assessment by transcranial Doppler (TCD) ultrasonography was performed prior to decompressive craniectomy. Patients and their cerebral hemispheres were classified according to TCD-hemodynamic patterns, and the data correlated with neurological status, midline shift on computerized tomography (CT) scan, and Glasgow outcome scale scores at 6 months after injury
We report a series of 19 patients with traumatic brain swelling and evidence of increased intracranial pressure (ICP) and brain herniation, refractory to clinical measures, in whom cerebral hemodynamic assessment by TCD ultrasonography was performed prior to decompressive craniectomy
Participants and their cerebral hemispheres were categorized according to TCD hemodynamic patterns, and the findings correlated with preoperative Glasgow Coma Scale (GCS) score, degree of midline cerebral structures shift on preoperative CT scan, Glasgow Outcome Scale (GOS) scores at 6 months after injury, and 6-month follow-up neurological outcome based on favorable or unfavorable recovery
Summary
There are no studies concerning disturbances of intracranial circulation associated with the process of brain herniation and refractory intracranial hypertension due to severe traumatic brain swelling. The objective of this study was to investigate the cerebral hemodynamic changes associated with refractory elevated ICP and brain herniation syndrome due to traumatic brain swelling. The relationships between such cerebral hemodynamic patterns and the patients’ outcome, as well as between cerebral hemodynamic patterns and computerized tomography (CT) scan findings, were verified. An improved understanding of intracranial circulatory process related to brain herniation may have treatment implications. To investigate the cerebral hemodynamic changes associated with brain herniation syndrome due to traumatic brain swelling. There is a marked heterogeneity of cerebral hemodynamic disturbances among patients with brain herniation syndrome
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