Articles: brain-injuries.
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The injured brain may be damaged by primary impact, secondary injury from secondary damage due to initiation of destructive inflammatory and biochemical cascades by the primary injury or secondary ischemic injury following secondary insults that initiate or augment these immunological and biochemical cascades. Cerebral ischemia will arise whenever delivery of oxygen and substrates to the brain fall below metabolic needs. Many factors lead to the development of secondary insults to the injured brain during initial resuscitation, transport, surgery, and subsequent intensive care. ⋯ After brain trauma, systemic hypotension, compromised CPP, raised ICP, elevated temperature, hypoxemia, and jugular bulb venous desaturation are associated with poor prognosis. Clinical trials of moderate hypothermia following brain trauma are ongoing. Following adult brain trauma maintenance of CPP above at least 65 mmHg (probably > 40 mmHg in children below 8 years) seems important to improve outcome indicating the need for continuous ICP monitoring during intensive care of brain-injured patients.
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Sleep disorders are a relatively common occurrence after brain injury. Sleep disturbances often result in a poor daytime performance and a poor individual sense of well-being. Unfortunately, there has been minimal attention paid to this common and often disabling sequela of brain injury. ⋯ This study demonstrates the substantial prevalence of sleep disturbances after brain injury. It underscores the relationship between sleep disorders and perception of fatigue. It also underscores the need for clinicians to strive for interventional studies to look at the treatment of sleep and fatigue problems after brain injury.
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Traumatic brain injury (TBI) often leads to long-term behavioral and cognitive deficits in children. However, little is known about the burden and psychosocial morbidity of pediatric TBI for families. The purpose of this study was to test the hypothesis that moderate and severe TBI in children has more adverse consequences than orthopedic trauma. ⋯ The findings suggest that severe TBI is a source of considerable caregiver morbidity, even when compared with other traumatic injuries. Caregivers in the severe TBI group had persistent stress associated with the child's injury, as well as the reactions of other family members, and a relative risk of clinically significant psychological symptoms nearly twice that of the ORTHO comparison group. These findings underscore the need for interventions that facilitate family adaptation after pediatric TBI.
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Pediatric head injury is a public health problem that exacts a high price from patients, their families and society alike. While much of the brain damage in head-injured patients occurs at the moment of impact, secondary injuries can be prevented by aggressive medical and surgical intervention. Modern imaging devices have simplified the task of diagnosing intracranial injuries. ⋯ The cornerstones of treatment remain hyperventilation and osmotherapy. Despite maximal treatment, however, the mortality and morbidity associated with pediatric head injury remains high. Reduction of this mortality and morbidity will likely depend upon prevention rather than treatment.
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Mayo Clinic proceedings · Jul 1998
Occurrence of potentially detrimental temperature alterations in hospitalized patients at risk for brain injury.
To ascertain the incidence and timing of fever in patients at risk for temperature modulation of brain injury resulting from ischemia or trauma. ⋯ In these hospitalized patients at risk for ongoing brain injury, the incidence of temperature increases within the range reported to worsen neurologic outcome (elevations of 1.0 degree C or more) was very high. The characterization of these potentially injurious, randomly occurring, and traditionally undertreated temperature increases may have implications for the design of future protocols aimed at providing cerebral protection.