====== Bifrontal Basal Interhemispheric Approach ====== ===== Indications ===== The anterior [[interhemispheric approach]], is an effective and a safe approach to tumorous, vascular and traumatic pathologies of the midline [[anterior skull base]]. This approach should be part of the armamentarium of [[skull base]] surgeons ((Mielke D, Mayfrank L, Psychogios MN, Rohde V. The anterior interhemispheric approach - a safe and effective approach to anterior skull base lesions. Acta Neurochir (Wien). 2014 Jan 9. [Epub ahead of print] PubMed PMID: 24402551.)). ===Suprasellar tumor=== The minimally invasive anterior [[interhemispheric approach]], with or without opening of the [[lamina terminalis]], is useful for removal of tumors in and around the anterior third ventricle, such as [[craniopharyngioma]]s and [[hypothalamic glioma]]s ((Hori T, Kawamata T, Amano K, Aihara Y, Ono M, Miki N. Anterior interhemispheric approach for 100 tumors in and around the anterior third ventricle. Neurosurgery. 2010 Mar;66(3 Suppl Operative):65-74. doi: 10.1227/01.NEU.0000365550.84124.BB. PubMed PMID: 20173574. )). The anterior [[interhemispheric approach]] offers us an excellent surgical view for [[suprasellar tumor]]. Following this [[approach]], we occasionally encounter postoperative brain damage in the [[frontal lobe]]s. Potential causes for such brain damage were evaluated in 28 consecutive patients with suprasellar tumours extirpated using this approach. Kubota et al. focused particularly on the influences of venous involvement during surgery. The draining territory index (DTI) was originally devised for estimating the extent of the draining area of the sacrificed [[bridging vein]]s. CT evident brain damage was observed in five of 28 patients (17.8%), but only one patient (3.6%) showed clinically significant postoperative deficits. The patient's age, tumour pathology, tumour character, tumour size, duration of surgery, and radicality of the surgery did not affect the incidence of the brain damage. Of the twelve patients whose bridging veins were sacrificed during surgery, four (33.3%) showed brain damage in the frontal lobes. In contrast, such damage was observed in only one patient out of 16 (6.3%) whose bridging veins were preserved. Among the brain-damaged group, the average DTI of the sacrificed veins was significantly higher than that among the non-brain-damaged group. Venous involvement during surgery significantly aggravated postoperative brain damage following the anterior interhemispheric approach. The DTI was useful in predicting the risk of brain damage, and a large bridging vein with a DTI over 50% should not be sacrificed during surgery ((Kubota M, Saeki N, Yamaura A, Ono J, Ozawa Y. Influences of venous involvement on postoperative brain damage following the anterior interhemispheric approach. Acta Neurochir (Wien). 2001;143(4):321-5; discussion 325-6. PubMed PMID: 11437284. )). ===Distal anterior cerebral artery (ACA) aneurysm=== The anterior interhemispheric approach is a well-known operative technique for a [[distal anterior cerebral artery aneurysm]]. However, a frontal parasagittal bridging vein is occasionally sacrificed in this approach, creating a risk of postoperative venous infarction. The basal interhemispheric approach for neck clipping of aneurysm located on genu or infracallosal portion of anterior cerebral artery would provide wide view of aneurysm and its surrounding structures with minimum retraction of frontal lobe, short distance to the aneurysm, and low risk of bridging vein damage ((Takemura A, Manabe H, Hasegawa S. [Basal interhemispheric approach for distal anterior cerebral aneurysms]. No Shinkei Geka. 2005 Jul;33(7):695-702. Japanese. PubMed PMID: 16001810. )). ===== Techniques ===== Fujitsu et al., described a method for a frontal [[anterior interhemispheric approach]] when treating [[craniopharyngioma]]s of the [[third ventricle]] or [[anterior communicating artery aneurysm]]s. This technique ensures preservation of the [[bridging vein]]s and the [[olfactory nerve]]s. This "basal interfalcine approach" involves a [[craniotomy]] in the centrobasal portion of the [[frontal bone]] (the [[frontal sinus]]), removal of the inner tables and the [[crista galli]], and splitting the basal portion of the falx into two leaves, through which the basal interhemispheric fissure is opened. The olfactory nerves are protected by the leaves of the falx, and the bridging veins are preserved because the approach is low enough to spare them. The surgical techniques are described together with a unilateral variation of this approach. The significance of preserving the bridging veins is discussed in connection with avoidance of postoperative contusional hemorrhage ((Fujitsu K, Sekino T, Sakata K, Kawasaki T. Basal interfalcine approach through a frontal sinusotomy with vein and nerve preservation. Technical note. J Neurosurg. 1994 Mar;80(3):575-9. PubMed PMID: 8113875. )). ===== Disadvantages ===== As a disadvantage, the [[anterior communicating artery]] (ACoA) often limits the surgical exposure in the anterior interhemispheric fissure. Intentionally dividing the ACoA during a surgical procedure is commonly avoided to preserve perforating branches emerging from the ACoA, which can act as the main feeders of the [[infundibulum]], [[optic chiasm]] and anterior [[hypothalamus]] ((Crowell RM, Morawetz RB. The anterior communicating artery has significant branches. Stroke; A J Cereb Circ. 1977;8:272–273. doi: 10.1161/01.STR.8.2.272.)) ((Perlmutter D, Rhoton AL., Jr Microsurgical anatomy of the anterior cerebral-anterior communicating-recurrent artery complex. J Neurosurg. 1976;45:259–272. doi: 10.3171/jns.1976.45.3.0259.)). Especially in retrochiasmatic tumors, the ACoA, which is usually located anterior to the tumor, not only limits but also obstructs the surgical corridor in the basal interhemispheric approach. While some authors have proposed ACoA division if necessary ((Fujitsu K, Sekino T, Sakata K, Kawasaki T. Basal interfalcine approach through a frontal sinusotomy with vein and nerve preservation. Technical note. J Neurosurg. 1994 Mar;80(3):575-9. PubMed PMID: 8113875. )) ((Shibuya M, Takayasu M, Suzuki Y, Saito K, Sugita K. Bifrontal basal interhemispheric approach to craniopharyngioma resection with or without division of the anterior communicating artery. J Neurosurg. 1996;84:951–956. doi: 10.3171/jns.1996.84.6.0951.)) ((Suzuki J, Katakura R, Mori T. Interhemispheric approach through the lamina terminalis to tumors of the anterior part of the third ventricle. Surg Neurol. 1984;22:157–163. doi: 10.1016/0090-3019(84)90044-2.)) , it appears that interrupting the ACoA intentionally during a surgical procedure has only rarely been practiced. It is well known that the ACoA is encountered in a great number of anatomic variations ((Marinkovic S, Milisavljevic M, Marinkovic Z. Branches of the anterior communicating artery. Microsurgical anatomy. Acta Neurochir. 1990;106:78–85. doi: 10.1007/BF01809337.)) ((Serizawa T, Saeki N, Yamaura A. Microsurgical anatomy and clinical significance of the anterior communicating artery and its perforating branches. Neurosurgery. 1997;40:1211–1216. doi: 10.1097/00006123-199706000-00019.)) ((Shibuya M, Takayasu M, Suzuki Y, Saito K, Sugita K. Bifrontal basal interhemispheric approach to craniopharyngioma resection with or without division of the anterior communicating artery. J Neurosurg. 1996;84:951–956. doi: 10.3171/jns.1996.84.6.0951.)). In some cases with normal ACoA, it may not be easy to divide the artery because of its tortuous form or because it harbors several perforating branches. Also, it must be taken into account that in the limited anterior interhemispheric area, surgical manipulation may cause damage not only to the [[frontal lobe]]s but, particularly in pediatric patients with fragile arterial wall, may also induce inadvertent ACoA rupture as Teramoto and Bertalanffy have experienced in two cases. Such arterial rupture may potentially be associated with serious problems for the patient. Consequently, predicting the necessity of controlled ACoA division before surgery appears meaningful and may help reduce the surgical risk. Results suggest that controlled ACoA division may be required in central lesions with a depth of 38 mm or more and in lateral lesions with an angle of 23 degrees or more ((Teramoto S, Bertalanffy H. Predicting the necessity of anterior communicating artery division in the bifrontal basal interhemispheric approach. Acta Neurochir (Wien). 2016 Sep;158(9):1701-8. doi: 10.1007/s00701-016-2884-3. Epub 2016 Jun 22. PubMed PMID: 27334737; PubMed Central PMCID: PMC4980421. )). ---- see also [[Anterior contralateral interhemispheric transcallosal approach]]. ===== Case series ===== [[Bifrontal Basal Interhemispheric Approach case series]].