Image-guided microradiosurgery for skull base tumors: advantages of using gadolinium-enhanced constructive interference in steady-state imaging

• Published in: Journal of neurosurgery Vol. 105 Suppl; p. 12
• Main Authors: Hayashi, Motohiro, Ochiai, Taku, Nakaya, Kotaro, Chernov, Mikhail, Tamura, Noriko, Yomo, Shoji, Izawa, Masahiro, Hori, Tomokatsu, Takakura, Kintomo, Regis, Jean
• Format: Journal Article
• Language: English
• Published: United States 01.12.2006
• Subjects: Adult; Aged; Contrast Media; Female; Gadolinium; Humans; Magnetic Resonance Imaging; Male; Microsurgery; Middle Aged; Radiosurgery - methods; Radiotherapy Planning, Computer-Assisted; Skull Base Neoplasms - pathology; Skull Base Neoplasms - surgery; Surgery, Computer-Assisted
• ISSN: 0022-3085
• DOI: 10.3171/sup.2006.105.7.12

Gamma Knife surgery (GKS) is image-guided surgery for brain tumors. Precise tumor visualization is needed in dose planning to control tumor progression. The surrounding vital structures must also be clearly defined to allow the preservation of their function. A special magnetic resonance (MR) imaging sequence was chosen for use with GKS to treat skull base and suprasellar tumors. Gadolinium-enhanced 0.5-mm constructive interference in steady-state (CISS) slices were obtained in skull base and suprasellar tumors. Each structure that was adjacent to the tumor could be visualized more clearly by using this imaging technique because the tumor became transparent even though there was no change in the appearance of the surrounding structures after injection of Gd. Use of this technique in acoustic tumors allowed the seventh and eighth cranial nerves to be visualized in the cisternal and intrameatal portions; both of which were distinguishable from the tumor. Suprasellar tumor could be distinguished from the adjacent optic pathway. The use of Gd-enhanced CISS imaging allowed for optimal dose planning with very high conformity in every tumor. Achieving this high conformity allowed the preservation of adjacent structures and their functions. Establishing optimal dose planning in brain tumors is very important to overcome the problem of producing new neurological deficits in patients who may already be suffering disease-related deficits. The use of this special CISS MR imaging sequence may help accomplish this goal.