CSF Alzheimer’s Disease Biomarker Changes in Veterans with Mild Traumatic Brain Injury

AbstractBackgroundTraumatic brain injury (TBI) has been reported to increase risk of Alzheimer’s dementia (AD). It remains unknown whether mild TBI (mTBI) caused by blast in Veterans confers a similar increase of risk. This study investigated early AD changes defined by cerebrospinal fluid (CSF) AD biomarkers in Veterans with blast mTBI.MethodFifty‐one Veterans with mTBI, 34 non‐mTBI Veterans, and 51 non‐mTBI civilians were recruited from Seattle, Washington. Age‐matched Veteran and civilian non‐mTBI participants had no lifetime history of TBI. All blast‐mTBI Veterans had experienced at least one war zone blast or combined blast/impact exposure, with acute symptoms meeting VA/Department of Defense criteria for mTBI. All participants underwent standardized clinical and neuropsychological assessments and lumbar puncture for collection of CSF. CSF biomarkers were measured at the Clinical Neurochemistry Lab in Mölndal, Sweden, using Meso Scale Discovery (MSD) assays for Aβ40 and Aβ42, and Innotest ELISAs for phosphorylated Tau181 (pTau181) and total Tau (tTau).ResultDifferences in all 4 CSF AD biomarkers between participants with and without mTBI were highly age‐dependent and most pronounced in older ages (Figure 1). Both CSF Aβ40 and Aβ42 became lower as age increasing in the mTBI group starting around age 40‐45 years, while they increased with age in the non‐mTBI participants. In contrast, CSF tTau and pTau181 mean levels remained relatively constant with age in participants with mTBI, but increased after age 45 in the non‐mTBI participants. Consequently, for participants aged 50+ years, Veterans with mTBI had lower mean AD biomarkers than the non‐mTBI participants. Similarly, the differences in cognitive performance were age‐dependent, i.e., poorer performance in older Veterans with mTBI than in the non‐mTBI participants. Furthermore, the relationships between CSF Aβ42 and cognitive performance were also age‐dependent; specifically, in participants aged 45+ years, lower CSF Aβ42 level was associated with poorer performance on tests of verbal fluency and memory.ConclusionThe earliest AD biomarker, CSF Aβ42, started to decrease in middle‐aged Veterans with mTBI, more than a decade earlier than those without mTBI in our earlier study, suggesting mTBI may accelerate brain deposition of Aβ and increase risk for AD.