Articles: traumatic-brain-injuries.
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Intensive care medicine · Oct 2022
ReviewIntracranial pressure: current perspectives on physiology and monitoring.
Intracranial pressure (ICP) monitoring is now viewed as integral to the clinical care of many life-threatening brain insults, such as severe traumatic brain injury, subarachnoid hemorrhage, and malignant stroke. It serves to warn of expanding intracranial mass lesions, to prevent or treat herniation events as well as pressure elevation which impedes nutrient delivery to the brain. It facilitates the calculation of cerebral perfusion pressure (CPP) and the estimation of cerebrovascular autoregulatory status. ⋯ ICP is typically assessed invasively but a number of emerging, non-invasive technologies with inherently lower risk are showing promise. In selected cases, additional neuromonitoring can be used to assist in the interpretation of ICP monitoring information and adapt directed treatment accordingly. Additional efforts to expand the evidence base relevant to ICP monitoring, related technologies and management remain a high priority in neurosurgery and neurocritical care.
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Journal of neurotrauma · Oct 2022
ReviewRemote follow-up technologies in traumatic brain injury: a scoping review.
Traumatic brain injury (TBI) remains a leading cause of death and disability worldwide. Motivations for outcome data collection in TBI are threefold: to improve patient outcomes, to facilitate research, and to provide the means and methods for wider injury surveillance. Such data play a pivotal role in population health, and ways to increase the reliability of data collection following TBI should be pursued. ⋯ Where reported, clinical facilitators, remote follow-up timing and intervals between sessions, synchronicity of follow-up instances, proxy involvement, outcome measures utilized, and technology evaluation efforts are described. FUTs can aid more temporally sensitive assessments and capture fluctuating sequelae, a benefit of particular relevance to TBI cohorts. However, the evidence base surrounding FUTs remains in its infancy, particularly with respect to large samples, low- and middle-income patient cohorts, and the validation of outcome measures for deployment via such remote technology.
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Meta Analysis
The Impact of Short-Term Hyperoxia on Cerebral Metabolism: A Systematic Review and Meta-Analysis.
Cerebral ischemia due to hypoxia is a major cause of secondary brain injury and is associated with higher morbidity and mortality in patients with acute brain injury. Hyperoxia could improve energetic dysfunction in the brain in this setting. Our objectives were to perform a systematic review and meta-analysis of the current literature and to assess the impact of normobaric hyperoxia on brain metabolism by using cerebral microdialysis. ⋯ Normobaric hyperoxia may improve cerebral metabolic disturbances in patients with acute brain injury. The clinical impact of such effects needs to be further elucidated.
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Neurosurgical conditions are a substantial contributor to surgical burden worldwide, with low- and middle-income countries carrying a disproportionately large part. Policy initiatives such as the National Surgical, Obstetrics and Anesthesia Plans and Comprehensive Policy Recommendations for the Management of Spina Bifida and Hydrocephalus in Low-and-Middle-Income countries have highlighted the need for an intersectoral approach, not just at the hospital level but on a large scale encompassing national public health strategies. This article aims to show through case studies how addressing this surgical burden is not limited to the clinical context but extends to public health strategies as well. ⋯ Despite the importance of public health efforts in addressing neurosurgical conditions, there is a lack of neurosurgeon involvement in public health and lack of integration of neurosurgical burden in national health planning systems. It is imperative that neurosurgeons advocate for and are included in aspects of public health policy. Neurosurgery does not stop within the bounds of the hospital, and neither should the role of a neurosurgeon.
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This review examines how lessons learned from United States military conflicts, beginning with the United States Civil War through the engagements in Iraq and Afghanistan, have shaped current traumatic brain injury (TBI) care in the United States military, influenced congressional mandates and directives, and led to best practices in caring for the warfighter. Prior to the most recent war, emphasis was placed on improving the surgical and medical care of service members (SM) with severe and especially penetrating brain injuries. ⋯ This has led to extensive research on objective diagnostic technologies for mTBI, the association of mTBI with post-traumatic stress disorder (PTSD), and the long term consequences of mTBI. Here we summarize the key findings and most important advances from those efforts, and discuss the way forward regarding future military conflicts.