PURPOSE: To determine whether the size and configuration of the optic chiasm in humans with albinism is different from that in normal control subjects. METHODS: Seventeen patients and 15 control subjects underwent magnetic resonance imaging of the entire head. Images were reformatted to the chiasm region and analyzed with observer-independent morphometry and measurements by a blinded observer. RESULTS: The albino group showed significantly smaller chiasmatic widths, smaller optic nerves and tracts, and wider angles between nerves and tracts. Statistical morphometry showed a different configuration of the optic chiasm. CONCLUSIONS: Size and configuration of the optic chiasm in humans with albinism are distinctly different from those in normal control subjects and reflect the atypical crossing of optic fibers.
PURPOSE: To determine whether the size and configuration of the optic chiasm in humans with albinism is different from that in normal control subjects. METHODS: Seventeen patients and 15 control subjects underwent magnetic resonance imaging of the entire head. Images were reformatted to the chiasm region and analyzed with observer-independent morphometry and measurements by a blinded observer. RESULTS: The albino group showed significantly smaller chiasmatic widths, smaller optic nerves and tracts, and wider angles between nerves and tracts. Statistical morphometry showed a different configuration of the optic chiasm. CONCLUSIONS: Size and configuration of the optic chiasm in humans with albinism are distinctly different from those in normal control subjects and reflect the atypical crossing of optic fibers.
Authors: Sarim Ather; Frank Anthony Proudlock; Thomas Welton; Paul S Morgan; Viral Sheth; Irene Gottlob; Rob A Dineen Journal: Hum Brain Mapp Date: 2018-12-04 Impact factor: 5.038
Authors: Chang Y Ho; Rachael Deardorff; Stephen F Kralik; John D West; Yu-Chien Wu; Chie-Schin Shih Journal: Neuroradiology Date: 2019-01-25 Impact factor: 2.804