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The Journal of Head Trauma Rehabilitation is a bimonthly peer-reviewed medical journal covering rehabilitation medicine as it relates to head injuries. It was established in 1986 and is published by Wolters Kluwer. It the official journal of the Brain Injury Association of America. The editor-in-chief is John D. Corrigan (Ohio State University).
This journal was published quarterly, beginning in July, 1987 to 1995. From 1996 to at least 2003 it was published monthly. The current frequency of publication is 14 times per year. [2] [3] [4] This journal covers all topics of research and clinical practice, pertaining to brain damage in adult and pediatric populations.
[12] [13] All traumatic brain injuries are head injuries, but the latter term may also refer to injury to other parts of the head; [14] [15] [16] however, the terms head injury and brain injury are often used interchangeably. [17] Similarly, brain injuries fall under the classification of central nervous system injuries [18] and neurotrauma. [19]
Brain injury can occur at the site of impact, but can also be at the opposite side of the skull due to a contrecoup effect (the impact to the head can cause the brain to move within the skull, causing the brain to impact the interior of the skull opposite the head-impact). While impact on the brain at the same site of injury to the skull is the ...
Brain injuries often create impairment or disability that can vary greatly in severity. In cases of severe brain injuries, the likelihood of areas with permanent disability is great, including neurocognitive deficits, delusions (often, to be specific, monothematic delusions), speech or movement problems, and intellectual disability. There may ...
The RPQ is used to determine the presence and severity of post-concussion syndrome (PCS), a set of somatic, cognitive, and emotional symptoms following traumatic brain injury that may persist anywhere from a week, [1] to months, [2] or even more than six months.
For example, knowing that DAI occurs when strain exceeds 10% and strain rates exceed 10 meters per second helps researchers calculate projected damage to the brain using a finite element model. [4] This basic model, however, would give such an estimate so rough that it would most likely prove useless unless it modeled a very general event.
Immunoreactive axonal profiles are observed as either granular (B, G, H) or more elongated, fusiform (F) swellings in the corpus callosum and the brain stem (H) at 24h post traumatic brain injury. Example of APP immunoreactive neurons (arrow heads) observed in the cortex underneath the impact site (E, G). No APP staining was observed in healthy ...