Abstract 40: Time Course of Cerebral Small Vessel Disease Lesions and Sensory Motor Changes in Spontaneously Hypertensive Stroke Prone Rats
Introduction: Animal models of human cerebral small vessel disease (CSVD) are important for the study of the disease underlying mechanisms and testing therapeutic interventions. Spontaneusly Hypertensive Rats - Stroke Prone (SHRSP) are used as an animal model of human CSVD. However, there is a lack of data regarding the time course of cognitive and motor impairment. Methods: Male age-matched SHRSP and Wistar Kyoto rats (WKY) were studied. Sensorimotor testing (open field test) and tail-cuff systolic blood pressure (SBP) measurements (Visitech Systems, Inc.) were performed weekly starting from 6 until 24 weeks of age. Brain MRI at 7 and 24 weeks was acquired using a 9.4T MRI system. Brain histology was completed at the same time points. Statistical analysis was performed using a linear mixed model with repeated measurements. P< 0.05 was considered significant. Results: 20 SHRSP and 20 WKY male rats were studied. 10 per group were euthanized following brain MRI at 7 weeks and the rest were followed until 24 weeks. SHRSP weighed on average 30 grams less than WKY throughout the study (P=0.0003). At 7 weeks SBP was not different (WKY 106.6±5.4 vs SHRSP 120.8±5.4, P=0.06). SHRSP started to develop hypertension at 9-12 weeks and maintained hypertension until 24 weeks (average group difference across time P<0.0001; SBP at 21 weeks WKY 134.8±5.4 vs SHRSP 168.9±5.4, P<0.0001). Sensorimotor testing showed higher total distance travelled (TDT) at 7 weeks in SHRSP that trended down with ageing. Both groups became similar at 21 weeks (TDT: at 7 weeks WKY 3.78±1.3 vs SHRSP 7.8±1.3, P =0.037; at 21 weeks: WKY 4±1.3 vs SHRSP 4.4±1.3, P=0.83; average group difference across time P=0.014). Brain MRI was normal at 7 weeks, but small white matter hyperintensities were seen at 24 weeks. Brain Histology showed normal histology on hematoxylin & eosin staining at 7 weeks in both groups, while at 24 weeks SHRSP showed CSVD histopathological changes including microbleed formation, homeostasis and vascular hyalinosis. Conclusions: SHRSP develops hypertension, sensorimotor deficits and CSVD pathology as they age suggesting their utility as human CSVD model. Intervention time points should be selected carefully in future therapeutic drug interventions.