OBJECTIVE: Fifteen basilar aneurysms approached via Kawase's anterior petro
sectomy were analyzed to determine parameters that could reliably predict t
he applicability of this approach to specific basilar aneurysms on the basi
s of existing imaging.
METHODS: Anatomic data were gathered by studying 40 dry skulls in which mea
surements were taken to define the limits of the surgical window. Clinical
data were obtained from the review of charts and radiographic images of 15
patients surgically treated with the Kawase approach. The data were combine
d to categorize basilar aneurysms according to their position in relation t
o bony anatomy as seen on preoperative angiograms.
RESULTS: Two relevant measurements were determined on lateral angiograms th
at were predictive of the applicability of operative approach. The K1 line
determined the caudal extent of exposure of the Kawase approach to be 18 mm
below the floor of the sella turcica and represented the distance to the f
loor of the internal auditory meatus. The K2 line determined the caudal ext
ent of exposure of the posterior petrosectomy approach to be 24 mm below th
e floor of the sella turcica and represented the distance to the upper aspe
ct of the jugular tubercle. Basilar aneurysms below the posterior clinoid p
rocess could be categorized in relationship to the regional bony anatomy in
a manner that is predictive of the appropriate surgical approach as 1) ret
rosellar, 2) upper clival, 3) midclival, and 4) lower clival. Glasgow outco
me data in 15 patients surgically treated with the Kawase approach demonstr
ated results comparable to those reported for ruptured basilar aneurysms.
CONCLUSION: Individual basilar artery aneurysms can be categorized accordin
g to their relationship to bony anatomy on lateral view preoperative angiog
rams without bone subtraction. Anatomic parameters, the K1 and K2 lines, fr
om these angiograms enable the neurosurgeon to predict the most appropriate
approach for each type of basilar artery aneurysm.