Abstract
Background Thalamic radiations also known as thalamocortical pathways are reciprocal myelinated nerve fibers, arranged in a fanning pattern, grouped into tracts or fasciculi; and connecting the thalamus to the cerebral cortex. Detailed in vitro study of these tracts is seldom reported in the literature. Objective We sought to describe the microanatomy of thalamic radiations by means of the fiber-dissection technique to discuss challenges in dissection techniques and anatomic nomenclature, and follow through with a literature review. Methods Twenty formalin-fixed normal human hemispheres were dissected according to Klinglerâs fiber-dissection technique under operative microscope. Results Thalamic radiations are reciprocal myelinated nerve fibers connecting the thalamus to the cerebral cortex and are referred to as corticothalamic and thalamocortical tracts. They are the most medial fibers of the internal capsule and consist of anterior (thalamofrontal), superior (thalamo-fronto-parietal or thalamoparietal), posterior (thalamooccipital) and inferior (thalamotemporal) thalamic fasciculi. Conclusion From the cerebral cortex, thalamic radiation fibers fan out into the thalamus and are the most medial fibers of the internal capsule. There is a great deal of controversy surrounding the distinction between anterior and superior thalamic radiations, sub-ependymal stratum and the fronto-occipital fasciculus.
Highlights
Detailed information regarding in vitro study of thalamic radiations is seldom found in the extant medical literature
Thalamic radiations are reciprocal myelinated nerve fibers connecting the thalamus to the cerebral cortex and are referred to as corticothalamic and thalamocortical tracts
There is a great deal of controversy surrounding the distinction between anterior and superior thalamic radiations, sub-ependymal stratum and the fronto-occipital fasciculus
Summary
Detailed information regarding in vitro study of thalamic radiations is seldom found in the extant medical literature. In 1909, Curran described for the first time the occipitofrontal fasciculus without mention of the superior occipitofrontal fasciculus. Tϋre demonstrated through his seminal work on brain dissection the absence of a superior occipital fasciculus [28]. Recent advances in diffusion-tensor MRI study of the brain white matter have shown the existence of other bundles such as an association tract connecting Broca and Wernicke areas, other than the superior longitudinal fasciculus[4] and the inferior occipitofrontal fasciculus[3,19,30]. Detailed in vitro study of these tracts is seldom reported in the literature
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