Abstract
Traumatic brain injury is among the leading causes of death in individuals under 45 years of age. However, since trauma mechanisms and survival times differ enormously, the exact mechanisms leading to the primary and secondary injury and eventually to death after traumatic brain injury (TBI) remain unclear. Several studies showed the versatile functions of microglia, the innate macrophages of the brain, following a TBI. Earlier being characterized as rather neurotoxic, neuroprotective capacities were recently demonstrated, therefore, making microglia one of the key players following TBI. Especially in cases with only short survival times, immediate microglial reactions are of great forensic interest in questions of wound age estimation. Using standardized immunohistochemical methods, we examined 8 cases which died causatively of TBI with survival times between minutes and 7 days and 5 control cases with cardiovascular failure as the cause of death to determine acute changes in microglial morphology and antigen expression after TBI. In this pilot study, we detected highly localized changes in microglial morphology already early after traumatic damage, e.g., activated microglia and phagocyted erythrocytes in the contusion areas in cases with minute survival. Furthermore, an altered antigen expression was observed with increasing trauma wound age, showing similar effects like earlier transcriptomic studies. There is minute data on the direct impact of shear forces on microglial morphology. We were able to show localization-depending effects on microglial morphology causing localized dystrophy and adjacent activation. While rodent studies are widespread, they fail to mimic the exact mechanisms in human TBI response. Therefore, more studies focusing on cadaveric samples need to follow to thoroughly define the mechanisms leading to cell destruction and eventually evaluate their forensic value.
Highlights
Traumatic brain injuries (TBI) have a biphasic course [1]
Histological studies in humans suggest that microglia activation can be sustained for many years after traumatic brain injury (TBI) [12], and their changes are attributed to chronic traumatic encephalopathy stages; minute data are available for acute microglial changes in traumatized human brain tissue
In cases with short survival times, microglial activation was already visible, and red blood cells were found to be phagocytosed by microglia within the directly affected area (Fig. 1)
Summary
Traumatic brain injuries (TBI) have a biphasic course [1]. Histological studies in humans suggest that microglia activation can be sustained for many years after TBI [12], and their changes are attributed to chronic traumatic encephalopathy stages; minute data are available for acute microglial changes in traumatized human brain tissue. Especially with only short survival times or in cases with severe destructions due to polytrauma, these findings are not necessarily established macroscopically. Since reliable and unique biomarkers of traumatic damage to the central nervous system (CNS) are still lacking despite years of active research [5, 13, 14], a closer look and detailed evaluation of immediate microglial reactions are of great forensic interest. Additional knowledge about time-dependent microglial changes after TBI may be used for a determination of trauma severity, survival time estimation, and a deeper understanding of mechanisms of traumatic death cases
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