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RESEARCH PRODUCT
Influence of Age on Brain Edema Formation, Secondary Brain Damage and Inflammatory Response after Brain Trauma in Mice
Michael K. E. SchäferSerge C. ThalRalph Timaru-kastKristin EngelhardChangsheng HuangClara LuhPhilipp Gotthardtsubject
MalePathologyAgingAnatomy and PhysiologyCritical Care and Emergency MedicineMouseT-LymphocytesInterleukin-1beta610 MedizinNitric Oxide Synthase Type IISystemic inflammationMiceAnesthesiologyCell Movement610 Medical sciencesEdemaImmune PhysiologyEdemaLungNeurosurgical CareMultidisciplinaryHematologic TestsQRAging and ImmunityAnimal ModelsOrgan SizeHead Injurymedicine.anatomical_structureNeurologyNeurointensive CareCytokinesMedicinemedicine.symptomResearch Articlemedicine.medical_specialtyTraumatic brain injuryScienceImmunologyInflammationBrain damageAtrophyModel OrganismsNeurorehabilitation and TraumamedicineAnimalsRNA MessengerBiologyCerebrumNeuroinflammationInflammationLungbusiness.industryInterleukin-6Tumor Necrosis Factor-alphaImmunityWatermedicine.diseaseMice Inbred C57BLGene Expression RegulationCyclooxygenase 2Immune SystemBrain InjuriesClinical ImmunologybusinessPhysiological Processesdescription
After traumatic brain injury (TBI) elderly patients suffer from higher mortality rate and worse functional outcome compared to young patients. However, experimental TBI research is primarily performed in young animals. Aim of the present study was to clarify whether age affects functional outcome, neuroinflammation and secondary brain damage after brain trauma in mice. Young (2 months) and old (21 months) male C57Bl6N mice were anesthetized and subjected to a controlled cortical impact injury (CCI) on the right parietal cortex. Animals of both ages were randomly assigned to 15 min, 24 h, and 72 h survival. At the end of the observation periods, contusion volume, brain water content, neurologic function, cerebral and systemic inflammation (CD3+ T cell migration, inflammatory cytokine expression in brain and lung, blood differential cell count) were determined. Old animals showed worse neurological function 72 h after CCI and a high mortality rate (19.2%) compared to young (0%). This did not correlate with histopathological damage, as contusion volumes were equal in both age groups. Although a more pronounced brain edema formation was detected in old mice 24 hours after TBI, lack of correlation between brain water content and neurological deficit indicated that brain edema formation is not solely responsible for age-dependent differences in neurological outcome. Brains of old naive mice were about 8% smaller compared to young naive brains, suggesting age-related brain atrophy with possible decline in plasticity. Onset of cerebral inflammation started earlier and primarily ipsilateral to damage in old mice, whereas in young mice inflammation was delayed and present in both hemispheres with a characteristic T cell migration pattern. Pulmonary interleukin 1β expression was up-regulated after cerebral injury only in young, not aged mice. The results therefore indicate that old animals are prone to functional deficits and strong ipsilateral cerebral inflammation without major differences in morphological brain damage compared to young.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-01-01 | PLoS ONE |