Articles: traumatic-brain-injuries.
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Review Historical Article
Guanfacine for the treatment of cognitive disorders: a century of discoveries at Yale.
The prefrontal cortex (PFC) is among the most evolved brain regions, contributing to our highest order cognitive abilities. It regulates behavior, thought, and emotion using working memory. Many cognitive disorders involve impairments of the PFC. ⋯ Recent research has found that the noradrenergic α2A agonist guanfacine can improve PFC function by strengthening PFC network connections via inhibition of cAMP-potassium channel signaling in postsynaptic spines. Guanfacine is now being used to treat a variety of PFC cognitive disorders, including Tourette's Syndrome and Attention Deficit Hyperactivity Disorder (ADHD). This article reviews the history of Yale discoveries on the neurobiology of PFC working memory function and the identification of guanfacine for treating cognitive disorders.
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Eur J Phys Rehabil Med · Mar 2012
Accupouncture for acute management and rehabilitation of traumatic brain injury.
Traumatic brain injury (TBI) can be life threatening depending on the severity of the insult to the brain. It can also cause a range of debilitating sequelae which require cognitive, motor, communication, emotional, or behavioral rehabilitation of varying intensity and duration. A number of studies conducted and published in China have suggested that acupuncture may be beneficial in the acute treatment and rehabilitation of TBI. The aim of this paper was to determine the efficacy and safety of acupuncture in the acute management or rehabilitation (or both) of patients with a TBI, including cognitive, neurological, motor, communication, emotional, or behavioral complications, or a combination of such complications. ⋯ The low methodological quality of the included studies does not allow us to make conclusive judgments on the efficacy and safety of acupuncture in either the acute treatment and/or rehabilitation of TBI. Its beneficial role for these indications remains uncertain. Further research with high quality trials is required.
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World J Crit Care Med · Feb 2012
ReviewContemporary view on neuromonitoring following severe traumatic brain injury.
Evolving brain damage following traumatic brain injury (TBI) is strongly influenced by complex pathophysiologic cascades including local as well as systemic influences. To successfully prevent secondary progression of the primary damage we must actively search and identify secondary insults e.g. hypoxia, hypotension, uncontrolled hyperventilation, anemia, and hypoglycemia, which are known to aggravate existing brain damage. For this, we must rely on specific cerebral monitoring. ⋯ This, in turn, will support our therapeutic decision-making and also allow a more individualized and flexible treatment concept for each patient. For this, however, we need to learn to integrate several dimensions with their own possible treatment options into a complete picture. The present review summarizes the current understanding of extended neuromonitoring to guide therapeutic interventions with the aim of improving intensive care treatment following severe TBI, which is the basis for ameliorated outcome.
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Eur J Trauma Emerg S · Feb 2012
Prognostic value of various intracranial pathologies in traumatic brain injury.
Various intracranial pathologies in traumatic brain injury (TBI) can help to predict patient outcomes. These pathologies can be categorised using the Marshall Classification or the Abbreviated Injury Scale (AIS) dictionary or can be described through traditional descriptive terms such as subarachnoid haemorrhage (SAH), subdural haemorrhage (SDH), epidural haemorrhage (EDH) etc. The purpose of this study is to assess the prognostic value of AIS scores, the Marshall Classification and various intracranial pathologies in TBI. ⋯ In this relatively recent dataset, each of the brain injury classification systems enhanced equally the performance of an early mortality prediction model in traumatic brain injury patients. The significant effect of brain swelling and brain stem injury on the outcome in comparison to injuries such as SAH suggests the need to improve therapeutic approaches to patients who have sustained these injuries.
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Eur J Trauma Emerg S · Feb 2012
Optic nerve sheath measurement and raised intracranial pressure in paediatric traumatic brain injury.
The optimal management of children ventilated for more than 4 h with traumatic brain injury (TBI) necessitates invasive intracranial pressure (ICP) monitoring, though some patients never have raised ICP. If non-invasive screening can reliably rule out elevated ICP, invasive devices can be limited to those in whom neuro-intensive care measures are indicated. ⋯ All children with clinically significantly raised ICP had abnormal ONSD, whereas those with normal ICP did not. Despite the small numbers, this study suggests that the ONSD may be useful in identifying children with TBI and normal ICP and, so, help avoid the insertion of unnecessary ICP monitors.