Differential Responses of the HPA Axis to Mild Blast Traumatic Brain Injury in Male and Female Mice

IntroductionThere is little systematic tracking or detailed analysis of investments in research and development for blast injury to support decision-making around research future funding.MethodsThis study examined global investments into blast injury-related research from public and philanthropic funders across 2000–2019. Research databases were searched using keywords, and open data were extracted from funder websites. Data collected included study title, abstract, award amount, funder and year. Individual awards were categorised to compare amounts invested into different blast injuries, the scientific approaches taken and analysis of research investment into blast traumatic brain injury (TBI).ResultsA total of 806 awards were identified into blast injury-related research globally, equating to US$902.1 million (m, £565.9m GBP). There was a general increase in year-on-year investment between 2003 and 2009 followed by a consistent decline in annual funding since 2010. Pre-clinical research received $671.3 m (74.4%) of investment. Brain-related injury research received $427.7 m (47.4%), orthopaedic injury $138.6 m (15.4%), eye injury $63.7 m (7.0%) and ear injury $60.5m (6.7%). Blast TBI research received a total investment of $384.3 m, representing 42.6% of all blast injury-related research. The U.S. Department of Defense funded $719.3 m (80%).ConclusionsInvestment data suggest that blast TBI research has received greater funding than other blast injury health areas. The funding pattern observed can be seen as reactive, driven by the response to the War on Terror, the rising profile of blast TBI and congressionally mandated research.

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Can quantifying morphology and TMEM119 expression distinguish between microglia and infiltrating macrophages after ischemic stroke and reperfusion in male and female mice?

Journal of Neuroinflammation ◽

10.1186/s12974-021-02105-2 ◽

2021 ◽

Vol 18 (1) ◽

Author(s):

Kimberly F. Young ◽

Rebeca Gardner ◽

Victoria Sariana ◽

Susan A. Whitman ◽

Mitchell J. Bartlett ◽

...

Keyword(s):

Ischemic Stroke ◽

Brain Injury ◽

Western Blot ◽

Calcium Binding ◽

Transmembrane Protein ◽

Brain Regions ◽

Morphological Data ◽

Cell Populations ◽

Male And Female ◽

Female Mice

AbstractBackgroundIschemic stroke is an acquired brain injury with gender-dependent outcomes. A persistent obstacle in understanding the sex-specific neuroinflammatory contributions to ischemic brain injury is distinguishing between resident microglia and infiltrating macrophages—both phagocytes—and determining cell population-specific contributions to injury evolution and recovery processes. Our purpose was to identify microglial and macrophage populations regulated by ischemic stroke using morphology analysis and the presence of microglia transmembrane protein 119 (TMEM119). Second, we examined sex and menopause differences in microglia/macrophage cell populations after an ischemic stroke.MethodsMale and female, premenopausal and postmenopausal, mice underwent either 60 min of middle cerebral artery occlusion and 24 h of reperfusion or sham surgery. The accelerated ovarian failure model was used to model postmenopause. Brain tissue was collected to quantify the infarct area and for immunohistochemistry and western blot methods. Ionized calcium-binding adapter molecule, TMEM119, and confocal microscopy were used to analyze the microglia morphology and TMEM119 area in the ipsilateral brain regions. Western blot was used to quantify protein quantity.ResultsPost-stroke injury is increased in male and postmenopause female mice vs. premenopause female mice (p< 0.05) with differences primarily occurring in the caudal sections. After stroke, the microglia underwent a region, but not sex group, dependent transformation into less ramified cells (p< 0.0001). However, the number of phagocytic microglia was increased in distal ipsilateral regions of postmenopausal mice vs. the other sex groups (p< 0.05). The number of TMEM119-positive cells was decreased in proximity to the infarct (p< 0.0001) but without a sex group effect. Two key findings prevented distinguishing microglia from systemic macrophages. First, morphological data were not congruent with TMEM119 immunofluorescence data. Cells with severely decreased TMEM119 immunofluorescence were ramified, a distinguishing microglia characteristic. Second, whereas the TMEM119 immunofluorescence area decreased in proximity to the infarcted area, the TMEM119 protein quantity was unchanged in the ipsilateral hemisphere regions using western blot methods.ConclusionsOur findings suggest that TMEM119 is not a stable microglia marker in male and female mice in the context of ischemic stroke. Until TMEM119 function in the brain is elucidated, its use to distinguish between cell populations following brain injury with cell infiltration is cautioned.

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Severe Traumatic Brain Injury

10.2310/psych.2403 ◽

2018 ◽

Author(s):

Ryan Martin ◽

Lara Zimmermann ◽

Kee D. Kim ◽

Marike Zwienenberg ◽

Kiarash Shahlaie

Keyword(s):

Traumatic Brain Injury ◽

Brain Injury ◽

Intracranial Pressure ◽

Severe Traumatic Brain Injury ◽

Neurocritical Care ◽

Secondary Brain Injury ◽

Brain Oxygenation ◽

Barbiturate Coma ◽

Blast Traumatic Brain Injury ◽

Penetrating Traumatic Brain Injury

Traumatic brain injury remains a leading cause of death and disability worldwide. Patients with severe traumatic brain injury are best treated with a multidisciplinary, evidence-based, protocol-directed approach, which has been shown to decrease mortality and improve functional outcomes. Therapy is directed at the prevention of secondary brain injury through optimizing cerebral blood flow and the delivery of metabolic fuel (ie, oxygen and glucose). This is accomplished through the measurement and treatment of elevated intracranial pressure (ICP), the strict avoidance of hypotension and hypoxemia, and in some instances, surgical management. The treatment of elevated ICP is approached in a protocolized, tiered manner, with escalation of care occurring in the setting of refractory intracranial hypertension, culminating in either decompressive surgery or barbiturate coma. With such an approach, the rates of mortality secondary to traumatic brain injury are declining despite an increasing incidence of traumatic brain injury. This review contains 3 figures, 5 tables and 69 reference Key Words: blast traumatic brain injury, brain oxygenation, cerebral perfusion pressure, decompressive craniectomy, hyperosmolar therapy, intracranial pressure, neurocritical care, penetrating traumatic brain injury, severe traumatic brain injury

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Correlation of brain levels of progesterone and dehydroepiandrosterone with neurological recovery after traumatic brain injury in female mice

Psychoneuroendocrinology ◽

10.1016/j.psyneuen.2015.02.018 ◽

2015 ◽

Vol 56 ◽

pp. 1-11 ◽

Cited By ~ 28

Author(s):

Ana Belen Lopez-Rodriguez ◽

Estefania Acaz-Fonseca ◽

Silvia Giatti ◽

Donatella Caruso ◽

Maria-Paz Viveros ◽

...

Keyword(s):

Traumatic Brain Injury ◽

Brain Injury ◽

Neurological Recovery ◽

Female Mice ◽

Brain Levels

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OUTCOME OF CEREBRAL CONTUSIONS DUE TO TRAUMATIC BRAIN INJURY

Journal of University Medical & Dental College ◽

10.37723/jumdc.v11i1.263 ◽

2020 ◽

Vol 11 (1) ◽

pp. 39-43

Author(s):

Zubair Ahmed Khan ◽

Habib sultan ◽

Amir Aziz ◽

Shahrukh Rizvi ◽

Tauqeer Ahmed ◽

...

Keyword(s):

Traumatic Brain Injury ◽

Brain Injury ◽

Hospital Stay ◽

Traffic Accidents ◽

Road Traffic ◽

Road Traffic Accidents ◽

Male And Female ◽

Duration Of Hospital Stay ◽

History Of ◽

Age Range

ABSTRACT:BACKGROUND & OBJECTIVE: To compare the results of surgically operated vs conservatively treated patients of cerebral contusions due to traumatic brain injury. METHODOLOGY: This comparative study was conducted from January 2012 to December 2014 at the department of Neurosurgery, PGMI Lahore General Hospital, Lahore. A total of 50 patients were included in this study of both gender (male and female) and in the age range of 15-65 years. In our study 20 patients were managed conservatively while other 30 patients were operated for cerebral contusions. The mode of injury in our study was road traﬃc accidents and history of falls. RESULTS: Out of 50 patients, there were 41 (82%) males and 09 (18%) female patients. Their age ranged from 15 - 65 years. In this study the overall mean age is 38.36 years. The maximum numbers of patients were in their third and fourth decades of life. In our study the duration of hospital stay in conservatively managed patients was longer as compared to surgically treated patients who were discharged earlier. Mortality rate in surgically managed patients having a GCS ranged between 09 to 12 was very low contrary to the conservatively managed group, similarly the rate of delayed contusion formation and edema was also low in surgically managed patients as compared to those who were managed conservatively. CONCLUSION: Surgically managed patients of cerebral contusions in traumatic brain injury has better outcome and decreased hospital stay as compared to conservatively managed patients.

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