Abstract
The insula is a lobe located deep in each hemisphere of the brain and is surrounded by eloquent cortical, white matter, and basal ganglia structures. The aim of this study was to provide an anatomical description of the insula and white matter tracts related to surgical treatment of gliomas through a transcortical approach. The study also discusses surgical implications in terms of intraoperative brain mapping. Five adult brains were prepared according to the Klingler technique. Cortical anatomy was evaluated with the naked eye, whereas white matter dissection was performed with the use of a microscope. The widest exposure of the insular surface was noted through the temporal operculum, mainly in zones III and IV according to the Berger-Sanai classification. By going through the pars triangularis in all cases, the anterior insular point and most of zone I were exposed. The narrowest and deepest operating field was observed by going through the parietal operculum. This method provided a suitable approach to zone II, where the corticospinal tract is not covered by the basal ganglia and is exposed just under the superior limiting sulcus. At the subcortical level, the identification of the inferior frontoocipital fasciculus at the level of the limen insulae is critical in terms of preserving the lenticulostriate arteries. Detailed knowledge of the anatomy of the insula and subcortical white matter that is exposed through each operculum is essential in preoperative planning as well as in the intraoperative decision-making process in terms of intraoperative brain mapping.
Highlights
The insula is the hidden lobe in the hemispheres of the brain and is not seen on the lateral surface of the brain without lateral fissure splitting and opercula retraction [41, 53] (Figs. 1 and 2)
The presented data are a descriptive analysis of the surgical anatomy of the insula and related white matter tracts
Immediate postoperative deficits are explained by resection-induced contusion, edema, and hypoperfusion, whereas permanent deficits are related mainly to infarctions related to middle cerebral artery (MCA) branches on the lateral surface of the insula and the lenticulostriate arteries (LSAs) within the anterior perforated substance on its mesial side [7]
Summary
The insula is the hidden lobe in the hemispheres of the brain and is not seen on the lateral surface of the brain without lateral fissure splitting and opercula retraction [41, 53] (Figs. 1 and 2). Additional limitations of exposure are related to the venous system within the lateral sulcus as well as to the middle cerebral artery (MCA) and its branches at the depth of the lateral sulcus [22, 55]. This makes surgical treatment of insular lesions challenging despite novel diagnostic and intraoperative technologies. The TS approach provides a shorter operative distance and preserves the noninvolved opercular cortex but requires one to work between branches of the MCA, which carries a risk of symptomatic vasospasm and infraction [57, 58]. The TC approach, especially on the dominant side, requires surgery to be performed while the patient is awake as intraoperative cortical and subcortical brain mapping
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