Jam Ghajar scite author profile

Increasing clinical and experimental evidence suggests that traumatic brain injury (TBI) elicits an acute inflammatory response. In the present study we investigated whether white blood cells (WBC) are activated in the cerebral microcirculation early after TBI and whether WBC accumulation affects the posttraumatic cerebrovascular response. Twenty-four anesthetized rabbits had chronic cranial windows implanted 3 weeks before experimentation. Animals were divided into four experimental groups and were studied for 7 hours (groups I, IIa, and III) or 2 hours (group IIb). Intravital fluorescence videomicroscopy was used to visualize WBC (rhodamine 6G, intravenously), pial vessel diameters, and blood-brain barrier (BBB) integrity (Na+-fluorescein) at 6 hours (groups I, IIa, and III) or 1 hour (group IIb) after TBI. Group I (n = 5) consisted of sham-operated animals. Groups IIa (n = 7) and IIb (n = 5) received fluid-percussion injury at 1 hour. Group III (n = 7) received fluid-percussion injury and 1 mg/kg anti-adhesion monoclonal antibody (MoAb) "IB4" 5 minutes before injury. Venular WBC sticking, intracranial pressure (ICP), and arterial vessel diameters increased significantly for 6 hours after trauma. IB4 reduced WBC margination and prevented vasodilation. Intracranial pressure was not reduced by treatment with IB4. Blood-brain barrier damage occurred at 1 hour but not at 6 hours after TBI and was independent of WBC activation. This first report using intravital videomicroscopy to study the inflammatory response after TBI reveals upregulated interaction between WBC and cerebral endothelium that can be manipulated pharmacologically. White blood cell activation is associated with pial arteriolar vasodilation. White blood cells do not induce BBB breakdown less than 6 hours after TBI and do not contribute to posttraumatic ICP elevation. The role of WBC more than 6 hours after TBI should be investigated further.

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Traumatic injury induces interleukin-6 production by human astrocytes

Hariri

Chang

Barie

et al. 1994

Brain Research

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Hypertonic/Hyperoncotic Saline Attenuates Microcirculatory Disturbances after Traumatic Brain Injury

Härtl

Medary

Ruge

et al. 1997

The Journal of Trauma: Injury, Infection, and Critical Care

100

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Jam Ghajar

Survey of critical care management of comatose, head-injured patients in the United States

Early White Blood Cell Dynamics after Traumatic Brain Injury: Effects on the Cerebral Microcirculation

Traumatic injury induces interleukin-6 production by human astrocytes

Hypertonic/Hyperoncotic Saline Attenuates Microcirculatory Disturbances after Traumatic Brain Injury

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