The “cushion effect” revisited:

Background: It is known the pattern and severity of injuries sustained during a motor vehicle accident depend on many variables. An interesting avenue for research is obesity as a positive or negative modifier for injury distribution patterns in MVA. We hypothesize that body mass index (BMI) will influence MVC related injury patterns. Methods: We queried STRAC data for DHR - Edinburg for the years 2014 to 2018 using CPT codes for MVC/MVA, IS \u3e 8, age 15 - 64. Interactions between injury location, BMI, seatbelt and gender were analyzed. Results: We had 191 detailed crashes, we found increasing age to be protective for abdomen and pelvis (OR .94), increasing BMI to be predisposing for extremity injuries (OR 1.06) and increasing BMI and female gender together to be protecting for head and neck injury (OR .98). Patient without abdominal injuries were younger with lower BMI. However sample size small (46). Conclusion: BMI seems to have an exacerbating effect on extremity injuries and a protective effect for head and neck injuries driven predominantly by females. We believe this likely due to increase in momentum effect of each appendage and a decrease in torque of neck. Age seems to be a protective and we believe this is primarily due to hormonal deposition of adipose tissue. Overall it remains important to maintain a high index of suspicion when dealing with MVC triage patients and treat each individually

INFLUENCE OF BIOLOGICAL SEX ON SOCIAL BEHAVIOR, INDIVIDUAL RECOGNTION, AND NON-ASSOCIATIVE LEARNING IN THE ADULT GRAY SHORT-TAILED OPOSSUM (MONODELPHIS DOMESTICA)

Social behavior is critical for relationship formation and is influenced by myriad environmental and individual factors. Basic and preclinical research typically relies on rodent models to identify the mechanisms that underlie behavior; however, it is important to use non-rodent models as well. A major objective of the present study was to test the hypothesis that biological sex and social experience modulate the expression of social behavior in the adult gray short-tailed opossum (Monodelphis domestica), a non-traditional model. We also investigated the non-associative learning abilities of these animals. Following a period of social isolation, animals of both sexes were paired with a non-familiar, same-sex partner for 10 minutes on three different occasions, with 24-hour inter-trial intervals. We are the first research group to find significant sex differences in submissive and nonsocial behaviors in Monodelphis. Females displayed significantly higher durations of nonsocial behavior that increased over trials. Males were more aggressive; their latencies to the first attack and submissive behavior decreased over trials whereas these latencies increased for females; males’ duration of submissive behavior increased over trials whereas it decreased for females. A different group of subjects habituated in response to repeated presentations to neutral odors and dishabituated in response to novel odors. In addition, both males and females demonstrated the ability to form social memories in a standard individual (social) recognition test. Our results contribute to the characterization of this marsupial species, an important first step in developing it as a model of complex social behaviors

miR-132 Enhances Dendritic Morphogenesis, Spine Density, Synaptic Integration, and Survival of Newborn Olfactory Bulb Neurons

An array of signals regulating the early stages of postnatal subventricular zone (SVZ) neurogenesis has been identified, but much less is known regarding the molecules controlling late stages. Here, we investigated the function of the activity-dependent and morphogenic microRNA miR-132 on the synaptic integration and survival of olfactory bulb (OB) neurons born in the neonatal SVZ. In situ hybridization revealed that miR-132 expression occurs at the onset of synaptic integration in the OB. Using in vivo electroporation we found that sequestration of miR-132 using a sponge-based strategy led to a reduced dendritic complexity and spine density while overexpression had the opposite effects. These effects were mirrored with respective changes in the frequency of GABAergic and glutamatergic synaptic inputs reflecting altered synaptic integration. In addition, timely directed overexpression of miR-132 at the onset of synaptic integration using an inducible approach led to a significant increase in the survival of newborn neurons. These data suggest that miR-132 forms the basis of a structural plasticity program seen in SVZ-OB postnatal neurogenesis. miR-132 overexpression in transplanted neurons may thus hold promise for enhancing neuronal survival and improving the outcome of transplant therapies

EP₂ receptor antagonism reduces peripheral and central hyperalgesia in a preclinical mouse model of endometriosis

Endometriosis is an incurable gynecological disorder characterized by debilitating pain and the establishment of innervated endometriosis lesions outside the uterus. In a preclinical mouse model of endometriosis we demonstrated overexpression of the PGE2-signaling pathway (including COX-2, EP2, EP4) in endometriosis lesions, dorsal root ganglia (DRG), spinal cord, thalamus and forebrain. TRPV1, a PGE2-regulated channel in nociceptive neurons was also increased in the DRG. These findings support the concept that an amplification process occurs along the pain neuroaxis in endometriosis. We then tested TRPV1, EP2, and EP4 receptor antagonists: The EP2 antagonist was the most efficient analgesic, reducing primary hyperalgesia by 80% and secondary hyperalgesia by 40%. In this study we demonstrate reversible peripheral and central hyperalgesia in mice with induced endometriosis