Longitudinal Cerebral Fissure Anatomy Variations in Brachy‐, Dolicho‐ and Mesaticephalic Dogs and Their Importance to Brain Surgery

Abstract

The study used a sample of 69 formalin-fixed brains from adult dog cadavers (n = 69) and aimed (1) to characterize the longitudinal cerebral fissure (LCF) anatomy in brachy-(B), dolicho-(D) and mesaticephalic-(M) dogs and their potential differences, and (2) to establish cranioencephalic relationships between the LCF and five classical craniometric points(cp): asterion(ast), bregma(b), stephanion(st), glabella(g), and pterion(pt). Anatomical records were collected using a digital caliper, and for statistical analysis P-values < 0.05 were considered significant. The LCF length can be ranked, in ascending order as B < D < M, and if used as a surgical corridor, the M group had the greatest surgical corridor area, and the D group the smallest. LCF morphology was uniform among the three groups exhibiting dilated anterior(AR) and posterior(PR) regions and narrow middle region, where the most marked differences were registered. The LCF AR is the ideal spot to begin brain surgery if the LCF is to be used as a surgical corridor in B and M, while the LCF PR should be considered in D. The five cp selected were quite useful to understand LCF anatomical morphology, its projections over the external skull surface, and to establish cranioencephalic relationships between the LCF and vault; allowing us to consider the vault anterior area in B, and in M, and the vault posterior area in D for craniotomy initial burr-hole placement. As for the distance from the cp projections in the brain surface to the LCF regions, major differences were registered by comparing the B group with the other two, and for both hemispheres.