OBJECT: The authors used a fiber dissection technique to describe the temporal stem and explain the tendency of malignant tumors to spread within both the frontal and temporal lobes. The authors focused on the morphological characteristics and course of various fasciculi of the temporal stem, including the uncinate fascicle, occipitofrontal fascicle, anterior commissure, loop of the optic radiations (Meyer loop), and the ansa peduncularis. METHODS: Eight previously frozen, formalin-fixed human brains were dissected under an operating microscope using the fiber dissection technique described by Klingler. Lateral, inferior, and medial approaches were made. Cross-sectional 3D MR images obtained in 10 patients without brain lesions demonstrated that fibers of the temporal stem, which were intermingled together in various ways, curved laterally within the basal forebrain. Various pathological entities affecting the temporal stem are described and discussed. RESULTS: The uncinate fascicle has 3 portions: a ventral extension, an intermediary segment called the isthmus, and a dorsal segment. The inferior occipitofrontal fasciculus is a layer of more superficial white matter that appeared to be superior to the uncinate fasciculus. A short ventral portion of the radiations of the corpus callosum was sometimes noted to run ventrally to enter the temporal stem and to reach both temporal lobes. CONCLUSIONS: To the authors' knowledge, a detailed anatomy of the temporal stem has not been previously described in the literature. The unique anatomy of the temporal stem provides a route for tumor spread between the frontal and temporal lobes.
OBJECT: The authors used a fiber dissection technique to describe the temporal stem and explain the tendency of malignant tumors to spread within both the frontal and temporal lobes. The authors focused on the morphological characteristics and course of various fasciculi of the temporal stem, including the uncinate fascicle, occipitofrontal fascicle, anterior commissure, loop of the optic radiations (Meyer loop), and the ansa peduncularis. METHODS: Eight previously frozen, formalin-fixed human brains were dissected under an operating microscope using the fiber dissection technique described by Klingler. Lateral, inferior, and medial approaches were made. Cross-sectional 3D MR images obtained in 10 patients without brain lesions demonstrated that fibers of the temporal stem, which were intermingled together in various ways, curved laterally within the basal forebrain. Various pathological entities affecting the temporal stem are described and discussed. RESULTS: The uncinate fascicle has 3 portions: a ventral extension, an intermediary segment called the isthmus, and a dorsal segment. The inferior occipitofrontal fasciculus is a layer of more superficial white matter that appeared to be superior to the uncinate fasciculus. A short ventral portion of the radiations of the corpus callosum was sometimes noted to run ventrally to enter the temporal stem and to reach both temporal lobes. CONCLUSIONS: To the authors' knowledge, a detailed anatomy of the temporal stem has not been previously described in the literature. The unique anatomy of the temporal stem provides a route for tumor spread between the frontal and temporal lobes.
Authors: Juan Martino; Philip C De Witt Hamer; Francesco Vergani; Christian Brogna; Enrique Marco de Lucas; Alfonso Vázquez-Barquero; Juan A García-Porrero; Hugues Duffau Journal: J Anat Date: 2011-07-18 Impact factor: 2.610
Authors: Brian W Haas; Naama Barnea-Goraly; Kristen E Sheau; Bun Yamagata; Shruti Ullas; Allan L Reiss Journal: Cereb Cortex Date: 2013-05-24 Impact factor: 5.357
Authors: S Kathleen Bandt; Nicole Werner; Jennifer Dines; Samiya Rashid; Lawrence N Eisenman; R Edward Hogan; Eric C Leuthardt; Joshua Dowling Journal: Epilepsy Behav Date: 2013-05-03 Impact factor: 2.937
Authors: Molly B D Prigge; Nicholas Lange; Erin D Bigler; Tricia L Merkley; E Shannon Neeley; Tracy J Abildskov; Alyson L Froehlich; Jared A Nielsen; Jason R Cooperrider; Annahir N Cariello; Caitlin Ravichandran; Andrew L Alexander; Janet E Lainhart Journal: Res Autism Spectr Disord Date: 2012-11-01