BACKGROUND/AIMS: Laser interstitial thermal therapy (LITT) has become an alternative to open-resective surgery for refractory mesial temporal lobe epilepsy (MTLE). Occurrence of visual field defects (VFDs) following open surgery for MTLE is reported at 52-100%. We examined the rate of VFDs following LITT for amygdalohippocampectomy (AHE) and correlated the occurrence of VFDs with damage to the optic radiations, assessed by diffusion tensor tractography (DTI). METHODS: We performed a retrospective analysis of 5 patients who underwent LITT-AHE for medically refractory MTLE. We examined the association between VFDs and optic radiation damage by correlating postprocedural visual field testing with qualitative assessment of optic radiation fiber tracts. RESULTS: Postoperative assessments showed that 4 patients had normal visual field testing, and 1 had a right superior quadrantanopsia (20%). We performed 3-dimensional reconstruction of the optic radiation, laser probe trajectory, and ablation volume. Damage to Meyer's loop was determined consistent with the VFD. CONCLUSIONS: Short-term follow-up in our series suggests that laser ablation AHE may be associated with a lower rate of VFD than has been reported for open AHE. Our results suggest that incorporating optic radiation mapping through DTI may preoperatively help to minimize the risk of VFD following laser ablation AHE.
BACKGROUND/AIMS: Laser interstitial thermal therapy (LITT) has become an alternative to open-resective surgery for refractory mesial temporal lobe epilepsy (MTLE). Occurrence of visual field defects (VFDs) following open surgery for MTLE is reported at 52-100%. We examined the rate of VFDs following LITT for amygdalohippocampectomy (AHE) and correlated the occurrence of VFDs with damage to the optic radiations, assessed by diffusion tensor tractography (DTI). METHODS: We performed a retrospective analysis of 5 patients who underwent LITT-AHE for medically refractory MTLE. We examined the association between VFDs and optic radiation damage by correlating postprocedural visual field testing with qualitative assessment of optic radiation fiber tracts. RESULTS: Postoperative assessments showed that 4 patients had normal visual field testing, and 1 had a right superior quadrantanopsia (20%). We performed 3-dimensional reconstruction of the optic radiation, laser probe trajectory, and ablation volume. Damage to Meyer's loop was determined consistent with the VFD. CONCLUSIONS: Short-term follow-up in our series suggests that laser ablation AHE may be associated with a lower rate of VFD than has been reported for open AHE. Our results suggest that incorporating optic radiation mapping through DTI may preoperatively help to minimize the risk of VFD following laser ablation AHE.
Authors: Chengyuan Wu; Walter J Jermakowicz; Srijata Chakravorti; Iahn Cajigas; Ashwini D Sharan; Jonathan R Jagid; Caio M Matias; Michael R Sperling; Robert Buckley; Andrew Ko; Jeffrey G Ojemann; John W Miller; Brett Youngerman; Sameer A Sheth; Guy M McKhann; Adrian W Laxton; Daniel E Couture; Gautam S Popli; Alexander Smith; Ashesh D Mehta; Allen L Ho; Casey H Halpern; Dario J Englot; Joseph S Neimat; Peter E Konrad; Elliot Neal; Fernando L Vale; Kathryn L Holloway; Ellen L Air; Jason Schwalb; Benoit M Dawant; Pierre-Francois D'Haese Journal: Epilepsia Date: 2019-05-21 Impact factor: 5.864
Authors: Natalie L Voets; Ivan Alvarez; Deqiang Qiu; Christopher Leatherday; Jon T Willie; Stamatios Sotiropoulos; Ezequiel Gleichgerrcht; Leonardo Bonilha; Nigel P Pedersen; Nadja Kadom; Amit M Saindane; Robert E Gross; Daniel L Drane Journal: Stereotact Funct Neurosurg Date: 2019-10-16 Impact factor: 1.875
Authors: Alice Segato; Valentina Pieri; Alberto Favaro; Marco Riva; Andrea Falini; Elena De Momi; Antonella Castellano Journal: Front Robot AI Date: 2019-08-06