OBJECTIVE: Using a fiber-dissection technique, our aim is to study the fiber bundles of the optic radiation. We focused on the course, the length, anatomical relations with lateral ventricle and the relevance of these finding during surgery in the region. MATERIALS AND METHODS: Five previously frozen and formalin-fixed cadaveric human brains were used. The dissection was done using the operating microscope. Fiber dissection techniques described by Klingler were adopted. The primary dissection tools were handmade, thin, and wooden and curved metallic spatulas with tips of various sizes. Lateral and inferior temporal approaches were made and the optic fiber tracts were dissected. RESULTS: Resections that extend through the roof of the temporal horn more than 30 mm behind the temporal pole cross the Meyer's loop. In the middle temporal gyrus approach, resection that is taken through the lateral wall of the temporal horn more than 55-60 mm behind the temporal pole may cross the optic radiation during their course here on the lateral wall. CONCLUSION: The presented fiber dissection study clarifies the relationship of optic radiation. Such fiber dissection studies are only few in the literature.
OBJECTIVE: Using a fiber-dissection technique, our aim is to study the fiber bundles of the optic radiation. We focused on the course, the length, anatomical relations with lateral ventricle and the relevance of these finding during surgery in the region. MATERIALS AND METHODS: Five previously frozen and formalin-fixed cadaveric human brains were used. The dissection was done using the operating microscope. Fiber dissection techniques described by Klingler were adopted. The primary dissection tools were handmade, thin, and wooden and curved metallic spatulas with tips of various sizes. Lateral and inferior temporal approaches were made and the optic fiber tracts were dissected. RESULTS: Resections that extend through the roof of the temporal horn more than 30 mm behind the temporal pole cross the Meyer's loop. In the middle temporal gyrus approach, resection that is taken through the lateral wall of the temporal horn more than 55-60 mm behind the temporal pole may cross the optic radiation during their course here on the lateral wall. CONCLUSION: The presented fiber dissection study clarifies the relationship of optic radiation. Such fiber dissection studies are only few in the literature.
Authors: Maxime Chamberland; Benoit Scherrer; Sanjay P Prabhu; Joseph Madsen; David Fortin; Kevin Whittingstall; Maxime Descoteaux; Simon K Warfield Journal: Hum Brain Mapp Date: 2016-09-20 Impact factor: 5.038
Authors: Michael Dayan; Monica Munoz; Sebastian Jentschke; Martin J Chadwick; Janine M Cooper; Kate Riney; Faraneh Vargha-Khadem; Chris A Clark Journal: Brain Struct Funct Date: 2013-10-30 Impact factor: 3.270