Background: During neurosurgeries like resection of interhemispheric lipoma or cyst, surgeon needs to remain within the limits of interhemispheric fissure (IHF). Despite a massive literature search, data regarding the morphometry of IHF is meagre. Therefore, the present study was done to calculate the depth of IHF.
Materials and methods: Twenty-five (fourteen male and eleven female) fresh human cadaveric brain specimens were used. The depth of IHF was measured from frontal pole; three points, anterior to coronal suture (A, B and C); four points, posterior to coronal suture (D, E, F and G) and from two points (via parieto-occipital sulcus and calcarine sulcus) on occipital pole. The measurements were taken from these points up to the floor of IHF. IHF is a midline groove and hence the measurements were taken from each point against both the left and the right cerebral hemispheres. At the end, not much bilateral asymmetry was found, hence the average of the reading for the same point against left and the right cerebral hemisphere was considered for calculation.
Result: Maximum depth was found to be 59.60 mm and minimum depth was found to be 19.66 mm among all the points which were considered for evaluation. No statistical difference was found in the depth of IHF among the male and the female groups as well as in the various age groups.
Conclusion: This data and knowledge about the depth of interhemispheric fissure will aid the neurosurgeons in order to perform the interhemispheric transcallosal approach as well as surgeries of interhemispheric fissure such as excision of lipoma, cyst, tumor of interhemispheric fissure through the shortest and the safest possible route.
Keywords: Corpus Callosum; Depth; Interhemispheric Fissure; Morpho-metry.