Blast injury has become the major life- and function-threatening injuries in recent warfares. There is increased research interest in the mental disorders caused by blast-induced traumatic brain injury (bTBI), which has been proved as one of the "signature wounds" in modern battlefield. We reviewed the recent progresses in bTBI-related researches and concluded that the new era of blast injury research has shifted from the traditional physical impairments to cognitive dysfunctional/mental disorders that are proved to be more related to the outcome of combat casualty care.
Animals ; Blast Injuries ; complications ; etiology ; Brain Injuries, Traumatic ; complications ; etiology ; Cognition Disorders ; etiology ; Humans ; Mental Disorders ; etiology ; Research

Brain Injuries ; etiology ; Child ; Heart Defects, Congenital ; complications ; Humans

Brain Injuries ; etiology ; prevention & control ; Humans ; Hyperbilirubinemia ; complications ; prevention & control

Brain Injuries ; etiology ; Humans ; Hypoglycemia ; complications ; Infant, Newborn

OBJECTIVE: To investigate the correlative factors for organic psychotic symptoms following traumatic brain injury (TBI). METHODS: In the current study, 391 subjects who had undergone forensic identification of the organic mental disorders due to TBI were included, both the demographic and post-traumatic information collected. The relevant data were statistically analyzed in those confirmed as organic psychotic syndrome according to Chinese Classification of Mental Disorders 3rd version (CCMD-3). RESULTS: Fifty-two subjects (13.3%) were identified as organic psychotic symptoms. The chi-square test showed that the detectable organic psychotic symptoms were associated with the marriage status, damage nature, injury severity and treatment, and the multivariate logistic regression analysis revealed good fitness of treatment and injury severity with the regression model (OR = 0.044, 95% CI: 0.017-0.114; OR = 2.145, 95% CI: 1.201-3.832, respectively). CONCLUSION The risks of organic psychotic symptoms following TBI can be involved in the alternative of craniotomy for the cases with trauma and moderate brain injury.
Brain Injuries/psychology* ; Humans ; Psychotic Disorders/etiology* ; Risk ; Syndrome

Post traumatic epilepsy （PTE） is a serious complication of traumatic brain injury and a difficult problem in forensic justice practice. In recent years, many biomarkers have been applied to the diagnosis, treatment and prognosis of injuries and diseases. There have been many studies on the biomarkers of PTE in the field of epilepsy. This paper reviews the progress in research on biomarkers of PTE in recent years in order to provide reference for the forensic identification of PTE.
Biomarkers/analysis* ; Brain Injuries, Traumatic/diagnosis* ; Epilepsy/etiology* ; Epilepsy, Post-Traumatic/etiology* ; Humans

Mild traumatic brain injury (MTBI) is defined as a mild brain trauma resulting in a short loss of consciousness and alteration of mental status. It may also occasionally develop persistent and progressive symptoms. It has been confirmed that MTBI causes changes of anatomic structures in central nervous system and biomarkers in the body fluid. However, there is no sufficient research on relevance among threshold for the brain injury, individual vulnerability and duration of disturbance of consciousness. Furthermore, there are no reliable diagnostic methods to establish whether a blow to the head is sufficient to cause the brain injury. This review provides references for biomarkers in cerebrospinal fluid and blood associated with TBI. It also provides application status and potential prospects for further assessment and diagnosis of MTBI.
Biomarkers/cerebrospinal fluid* ; Brain Concussion/complications* ; Brain Injuries/etiology* ; Disease Progression ; Humans

Primary blast-induced traumatic brain injury (bTBI) has been observed at the boundary of brain tissue and cerebrospinal fluid (CSF). Such injury can hardly be explained by using the theory of compressive wave propagation, since both the solid and fuid materials have similar compressibility and thus the intracranial pressure (ICP) has a continuous distribution across the boundary. Since they have completely different shear properties, it is hypothesized the injury at the interface is caused by shear wave. In the present study, a preliminary combined numerical and theoretical analysis was conducted based on the theory of shear wave propagation/reflection. Simulation results show that higher lateral acceleration of brain tissue particles is concentrated in the boundary region. Based on this fnding, a new biomechanical vector, termed as strain gradient, was suggested for primary bTBI. The subsequent simple theoretical analysis reveals that this parameter is proportional to the value of lateral acceleration. At the boundary of lateral ventricles, high spatial strain gradient implies that the brain tissue in this area (where neuron cells may be contained) undergo significantly different strains and large velocity discontinuity, which may result in mechanical damage of the neuron cells.
Biomechanical Phenomena ; Blast Injuries ; etiology ; physiopathology ; Brain Injuries, Traumatic ; etiology ; physiopathology ; Compressive Strength ; Computer Simulation ; Finite Element Analysis ; Humans

Brain edema leading to an expansion of brain volume has a crucial impact on morbidity and mortality following traumatic brain injury as it increases intracranial pressure, impairs cerebral perfusion and oxygenation, and contributes to additional ischemic injuries. Classically, two major types of traumatic brain edema exist: "vasogenic" and "cytotoxic/cellular". However, the cellular and molecular mechanisms contributing to the development/resolution of traumatic brain edema are poorly understood and no effective drugs can be used now. Aquaporin-4 (AQP4) is a water-channel protein expressed strongly in the brain, predominantly in astrocyte foot processes at the borders between the brain parenchyma and major fluid compartments, including cerebrospinal fluid and blood. This distribution suggests that AQP4 controls water fluxes into and out of the brain parenchyma. In cytotoxic edema, AQP4 deletion slows the rate of water entry into brain, whereas in vasogenic edema, AQP4 deletion reduces the rate of water outflow from brain parenchyma. AQP4 has been proposed as a novel drug target in brain edema. These findings suggest that modulation of AQP4 expression or function may be beneficial in traumatic brain edema.
Animals ; Aquaporin 4 ; analysis ; antagonists & inhibitors ; chemistry ; physiology ; Brain ; metabolism ; Brain Edema ; drug therapy ; etiology ; Brain Injuries ; complications ; Humans ; Mice

OBJECTIVETo investigate the value of susceptibility weighted imaging(SWI)in the diagnosis of hemorrhagic foci early after blast injury and its role in the outcome prediction.

METHODSTotally 30 rabbits with blast-induced cerebral blast injury were used in this study. After routine CT/MRI and SWI scanning,quantified analysis was performed in regions of interest using post-processing technology. After dissecting the brains of the experimental rabbits,the cerebral histopathological changes were observed,and the results were compared with SWI findings.

RESULTSIn these 30 rabbits,22,102,221,and 738 hemorrhagic foci were detected by CT,T1WI,T2WI,and SWI,respectively. The number of cerebral microbleeds detected by SWI was significantly larger than those revealed by conventional T1WI and T2WI(Χ(2)=10.00,P<0.01). Furthermore,the SWI imaging displayed the punctiform(n=315,42.7%),lamellar(n=218,29.5%),slinar(n=205,27.8%)hypointense foci,with clear margin. The number of hemorrhagic foci detected by SWI was positively correlated with survival(r=-0.667,P<0.05).

CONCLUSIONSSWI remarkably increases the detection rate of hemorrhagic foci(particularly microbleeds)in rabbits with cerebral blast injury. The number of cerebral microbleeds and location of foci are closely related with the outcomes and therefore may facilitate clinical managment.

Animals ; Blast Injuries ; complications ; diagnosis ; Brain ; pathology ; Brain Injuries ; diagnosis ; etiology ; Cerebral Hemorrhage ; diagnosis ; etiology ; Female ; Image Enhancement ; Magnetic Resonance Imaging ; methods ; Male ; Prognosis ; Rabbits