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Active clinical trials for "Brain Injuries, Traumatic"

Results 1491-1495 of 1495

Cerebral Oxymetry in Traumatic Brain Injury

Traumatic Brain Injury

Vasopressor for current treatment protocols for acute traumatic brain injury can lead to vasoconstriction and thus cerebral hypoperfusion that can be detected with cerebral oxymetry as a drop in SCO2.

Unknown status6 enrollment criteria

Pre-hospital and Intra-hospital Temporal Delays in Patients Requiring Emergent Trauma Craniotomy...

Brain InjuriesTraumatic

The investigators aim to retrospectively map the delays in the acute care of traumatic brain injury patients necessitating emergent craniotomies.

Unknown status5 enrollment criteria

The Clinical Research on the Relationship Between Circadian Rhythm and Gut Microbiota in TBI Patients...

Loss of Consciousness of Unspecified DurationCerebral Laceration and Contusion1 more

Microbiome studies may be highlighted as crucial in the development of sleep disorder for TBI patients. The microbiota-gut-brain connection may further provide an opportunity for microbiota manipulation to treat the TBI patients with sleep disorders.This study is to investigate whether exist the relationship between sleep disorder and circadian rhythm of patients with TBI or not and focus the study on the potential of the host-microbiota interaction in regulating sleep disorder.

Unknown status2 enrollment criteria

Measurement of Optic Nerve Sheath in Traumatic Raised Intracranial Pressure

Traumatic Brain Injury

Trauma patients are at risk for serious head trauma. The consequences of serious head trauma are often life altering. Currently, the only method available to rapidly assess the severity of head injury and need for neurosurgical intervention is the CT scan. This time consuming test requires transportation of a potentially unstable patient to the CT scanner. The investigators goal in traumatic brain injury is to identify early those patients who may require neurosurgical intervention. Brain swelling (elevated intracranial pressure) is transmitted to the eye and this can be measured with ultrasound. The investigators hypothesis is that this test will rule out significant elevations in intracranial pressure and perform as well as CT scan in doing this. The investigators study aims to demonstrate that ultrasound of the optic nerve is as good as CT scan in ruling out clinically significant elevations in pressure within the brain. After consent has been obtained, any trauma patient who has an indication to undergo CT scan of the brain will also undergo ultrasound of the eye. A radiologist will then review the CT scans to determine if signs of elevated intracranial pressure are present. The investigators hope to demonstrate that a bedside ultrasound performed in the trauma suite is reliable for ruling out the possibility of elevated intracranial pressure. **Update August 2009** Currently, deferred consent has been obtained from our REB allowing us to defer consent for this intervention of minimal risk. As well, REB has also approved phone consent in the interim.

Unknown status6 enrollment criteria

A TMU/NIH Integrated Research Project Translation of Basic Research to Clinical Diagnosis and Treatment...

Traumatic Brain Injury

This integrated research project is cooperated by an fully-experienced team of Taipei Medical University and National Institutes of Health. We hope that we can find out the disease of balance, anxiety and sick headaches through the translation of basic research to clinical diagnosis and treatment of Mild Traumatic Brain Injury (mTBI).

Unknown status9 enrollment criteria
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