Magnetic resonance-guided laser interstitial thermal therapy for posterior fossa neoplasms
Recommended Citation
Ashraf O, Arzumanov G, Luther E, McMahon JT, Malcolm JG, Mansour S, Lee IY, Willie JT, Komotar RJ, and Danish SF. Magnetic resonance-guided laser interstitial thermal therapy for posterior fossa neoplasms. J Neurooncol 2020.
Document Type
Article
Publication Date
9-1-2020
Publication Title
Journal of neuro-oncology
Abstract
PURPOSE: Magnetic resonance-guided laser interstitial thermal therapy (LITT) has been increasingly used to treat a number of intracranial pathologies, though its use in the posterior fossa has been limited to a few small series. We performed a multi-institutional review of targets in the posterior fossa, reporting the efficacy and safety profile associated with laser ablation in this region of the brain.
METHODS: A retrospective review of patients undergoing LITT in the posterior fossa was performed from August 2010 to March 2020. Patient demographic information was collected alongside the operative parameters and patient outcomes. Reported outcomes included local control of the lesion, postoperative complications, hospital length of stay, and steroid requirements.
RESULTS: 58 patients across four institutions underwent LITT in the posterior fossa for 60 tumors. The median pre-ablation tumor volume was 2.24 cm(3). 48 patients (50 tumors) were available for follow-up. An 84% (42/50) overall local control rate was achieved at 9.5 months median follow up. There were two procedural complications, including insertional hemorrhage and laser misplacement and 12/58 (21%) patients developed new neurological deficits. There was one procedure related death. The median length of hospital stay was 1 day, with 20.7% of patients requiring discharge to a rehabilitation facility.
CONCLUSIONS: LITT is an effective approach for treating pathology in the posterior fossa. The average target size is smaller than what has been reported in the supratentorial space. Care must be taken to prevent injury to surrounding structures given the close proximity of critical structures in this region.
PubMed ID
33057919
ePublication
ePub ahead of print
Volume
149
Issue
3
First Page
533
Last Page
542