Your search keyword '"Sharleen T. Sakai"' showing total 2 results

1. Virtual endocasts: an application of computed tomography in the study of brain variation among hyenas

Author

Barbara L. Lundrigan, Bradley M. Arsznov, Sharleen T. Sakai, and Kay E. Holekamp

Subjects

medicine.diagnostic_test, biology, Cerebrum, General Neuroscience, Computed tomography, Anatomy, General Biochemistry, Genetics and Molecular Biology, Intraspecific competition, Social life, medicine.anatomical_structure, Hyena, History and Philosophy of Science, biology.animal, Brain size, medicine, Family Hyaenidae, Endocast

Abstract

Reliable brain volume measurements are crucial in identifying factors that influence the course of brain evolution. Here, we demonstrate the potential for using virtual endocasts (VEs) to examine inter- and intraspecific variation in brain volume in members of the family Hyaenidae. Total endocranial volume (adjusted for body size) and anterior cerebrum volume (adjusted for endocranial volume) were greater in the spotted hyena, the most gregarious of the species, than in the other hyaenids, all of which are less gregarious. An intraspecific analysis of spotted hyenas revealed that anterior cerebrum volume is significantly larger in males than females, although total endocranial volume does not differ between the sexes. Greater total endocranial and anterior cerebrum volume of spotted hyenas, relative to those of other hyena species, may be related to increased neural processing mediating cognitive demands associated with a complex social life. These data demonstrate that computed tomographic (CT) technology can be used to create VEs in species for which actual brains are rare or unavailable, and suggest that this approach can be applied systematically to explore intra- and interspecies brain variations in studies of brain evolution.

Published

2011

2. Virtual endocasts: an application of computed tomography in the study of brain variation among hyenas

Author

Sharleen T, Sakai, Bradley M, Arsznov, Barbara L, Lundrigan, and Kay E, Holekamp

Subjects

Male, Sex Characteristics, Anatomy, Cross-Sectional, Behavior, Animal, Cephalometry, Skull, Brain, Organ Size, Frontal Lobe, Species Specificity, Image Processing, Computer-Assisted, Animals, Female, Hyaenidae, Social Behavior, Tomography, X-Ray Computed, Biological Specimen Banks

Abstract

Reliable brain volume measurements are crucial in identifying factors that influence the course of brain evolution. Here, we demonstrate the potential for using virtual endocasts (VEs) to examine inter- and intraspecific variation in brain volume in members of the family Hyaenidae. Total endocranial volume (adjusted for body size) and anterior cerebrum volume (adjusted for endocranial volume) were greater in the spotted hyena, the most gregarious of the species, than in the other hyaenids, all of which are less gregarious. An intraspecific analysis of spotted hyenas revealed that anterior cerebrum volume is significantly larger in males than females, although total endocranial volume does not differ between the sexes. Greater total endocranial and anterior cerebrum volume of spotted hyenas, relative to those of other hyena species, may be related to increased neural processing mediating cognitive demands associated with a complex social life. These data demonstrate that computed tomographic (CT) technology can be used to create VEs in species for which actual brains are rare or unavailable, and suggest that this approach can be applied systematically to explore intra- and interspecies brain variations in studies of brain evolution.

Published

2011