Articles: brain-injuries.
-
Traumatic brain injury (TBI) induces an acute inflammatory response characterized by early recruitment of inflammatory cells (white blood cells). Rapid resuscitation of TBI with hypertonic saline/dextran (HS/DEX) yields promising results in clinical and experimental studies. The purpose of this paper was to test the hypothesis that HS/DEX exerts its effects in part through a modulation of the acute inflammatory response to TBI. ⋯ Whether the anti-inflammatory effect of HS/DEX plays a role in reducing delayed brain damage (> 6 hours after TBI) or other systemic complications of TBI arises as an important question and should be investigated further.
-
Preservation of a high cerebral perfusion (mean arterial) pressure to prevent ischemia has become the primary focus during treatment of severe head trauma because ischemia is favored as a triggering mechanism behind intracellular brain edema development and poor outcome. A high cerebral perfusion pressure, however, simultaneously may increase the hydrostatic vasogenic edema. The present paper evaluates the mechanisms behind the vasogenic edema by analyzing the physiologic hemodynamic mechanisms controlling the volume of a tissue that is enclosed in a rigid shell, possesses capillaries permeable for solutes, and has depressed autoregulation. ⋯ We contend that in the long run, the interstitial volume in such a tissue can be reduced only through reduction in arterial inflow pressure providing an otherwise optimal therapy to improve microcirculation. Therefore we argue, in contrast to the conventional view, that antihypertensive and antistress therapy may be of value by reducing the interstitial tissue volume during treatment of brain edema, and that the problem with ischemia during such therapy can be handled when considering an otherwise optimal intensive care. These physiologic principles of interstitial tissue volume regulation form the basic concept for the "Lund therapy" of severe head injuries, which is a new and controversial therapy of posttraumatic brain edema.
-
Resuscitation with hypertonic saline/dextran (HSD) has been suggested to be efficacious in patients who have traumatic brain injury and are hypotensive. We undertook a cohort analysis of individual patient data from previous prospective randomized double-blinded trials to evaluate improvements in survival at 24 hours and discharge after initial treatment with HSD in patients who had traumatic brain injury (head region Abbreviated Injury Score > or = 4) and hypotension (systolic blood pressure < or = 90 mm Hg). ⋯ Patients who have traumatic brain injuries in the presence of hypotension and receive HSD are about twice as likely to survive as those who receive standard of care.
-
Majority of airgun injuries in the Kingdom of Saudi Arabia are accidental and involve children and adolescents. Potentially lethal penetrating injuries to the head often result from airguns. ⋯ CT is also useful in demonstrating the fracture at the entry site of the pellet and any bone fragment which may be propelled into the brain. Although there have been a few case reports of spontaneous migration of metallic foreign body within the brain in the world literature, this case highlight the speed with which it can occur, even in a patient on complete bed rest.
-
Comparative Study
Effect of small-volume resuscitation on intracranial pressure and related cerebral variables.
Head injury outcome is adversely affected by the presence of hypotension. Therapies directed at rapidly correcting hypotension may improve outcome. ⋯ Small-volume resuscitation with hypertonic saline and dextran and diaspirin cross-linked hemoglobin significantly improved mean arterial pressure and cerebral perfusion pressure compared with Ringer's lactate. These data suggest that small-volume resuscitation with hypertonic saline and dextran or diaspirin cross-linked hemoglobin may effectively limit or prevent secondary ischemic brain injury after head injury and shock.