Exact location of sensorimotor cortex injury after photochemical modulation; evidence of stroke based on stereological and morphometric studies in mice

AbstractThe integrity of the structural cerebral cortex is disrupted after stroke either at the macroscopic or microscopic levels. Therefore, many attempts have been gathered to circumvent stroke-associated problems in the brain tissue. The current study was aimed to design an animal model of photochemical stroke using rose bengal (RB) plus laser irradiation (L) after 10, 15, and 20  min (´) and evaluate its effect on the cerebral tissue using unbiased stereological quantitative methods and morphometric histological analysis. Photochemical stroke was induced by intraperitoneal injection of RB dye and further activation through the exposure of the right sensorimotor cortex wit h the green laser radiation (100 mW; 532 nm). Mice were randomly allocated into 4 groups (each in 15) as follows: control (10 μg/gbw RB), RB + 10’L, RB + 15’L, and RB + 20’L. Target irradiation site was adjusted to 2 mm lateral to the bregma. Vernier caliper morphometric evalu ation, cresyl violet staining, and unbiased stereological assays including Cavalier’s principle and point counting techniques were used to monitor the pathological changes and lesion volume on days 1, 3, and 7 after the ischemia induction. Our data showed that the mean diameter of the lesion site and lesion infarct volume in the group RB + 20’L) was significantly increased relative to the other groups (P <  0.05). Notably, the lesion volume and diameter in the group RB + 15’L was larger ...
Source: Lasers in Medical Science - Category: Laser Surgery Source Type: research