Articles: brain-injuries.
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There is little information as to the optimal use of mannitol. To determine the dose-response relationship, the osmotic gradient required, and the time course of intracranial pressure (ICP) reduction produced by mannitol, eight patients with acute head injury were studied in whom ICP was monitored with a ventriculostomy and found to be elevated. Ventilation was controlled to a pCO2 of 25 +/- 3 mm Hg and all were paralyzed with Pavulon. ⋯ Serum osmolality rises of 10 mOsm or more were associated with a reduction in ICP. Much smaller doses than those previously recommended were effective in reducing the ICP acutely, although at 5 hours there was a trend toward persistent reduction when the larger dose is used. This trend was small and indicates that smaller and more frequent doses are as effective in reducing the ICP while avoiding the risk of osmotic disequilibrium and severe dehydration.
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Acta Anaesthesiol Scand · Jan 1978
Cerebral autoregulation in unconscious patients with brain injury.
In 18 unconscious patients with traumatic brain injury, the cerebral autoregulation was tested during the first 2-3 weeks after the acute trauma. Regional cerebral blood flow (rCBF) was measured by the intra-arterial 133xenon washout method before and after an increase of about 20% in the mean arterial blood pressure (MABP) by angiotensin. The difference between MABP and intraventricular pressure (IVP) was used as cerebral perfusion pressure (PP). ⋯ Regional loss of autoregulation indicated by a 20% flow increase was observed in 29 out of 35 studies (83%), while hemispheric loss of autoregulation was observed in only one study. The results of the autoregulation tests were unrelated to the clinical outcome, the presence of brain-stem lesion, and the ventricular fluid pH, lactate and lactate/pyruvate ratio. In repeated studies, a gradual normalization of the autoregulation was observed about 5 days after the acute trauma.
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The rational management of patients with head injury calls for the closest cooperation between the radiologist and neurosurgeon. Until the last three to four years, cerebral angiography had been considered the diagnostic procedure of choice for the management of patients with suspected traumatically induced intracranial mass lesions. ⋯ Using CT scanning in a sequential fashion we have routinely been able to visualize the appearance of new lesions in the post-traumatic period and have as well, been able to develop insights into the temporal appearance and disappearance of white matter edema as measured by Hounsfield numbers. In the late post-traumatic period, it has been valuable in defining hydrocephalus, porencephaly and other post-traumatic lesions that have a significant bearing on both therapy and prognosis.