OBJECTIVE: To analyze the efficacy and safety of cortical and subcortical electrical stimulation CSES and awake surgery to approach purely subcortical tumors in highly functional locations, particularly in guiding the choice of the best transcortical path. PATIENTS AND METHODS: Prospective analysis of the surgical, neurological, and radiological outcome of patients harboring supratentorial, subcortically located brain tumors or vascular malformations who are operated on through awake surgery and CSES. Functional magnetic resonance (fMRI; either sensory-motor or language, based on the location) was performed in order to confirm the proximity to functional cortical areas. Major white matter tracts were investigated by MRI diffusion tensor fiber tracking (DTI-ft). The Rankin modified score was chosen to express the pre and postoperative functional neurological status. Immediate postoperative MRI was used to evaluate the extent of resection. RESULTS: Seventeen patients were selected. The main distance of the tumors from the cortical surface was 18.2mm (range 9-48 mm). Neuronavigation was used to show the most direct route to the tumor (transsulcal or transgyral), but CSES was fundamental to adapt the surgical corridor to the functional topography both cortically and subcortically. If the transgyral route was chosen, CSES helped to detect a non-eloquent area. When a transsulcal route was preferred, CSES documented the presence or absence of function in the deep sulcus. The transient postoperative morbidity was 76.4%, but at last follow-up (range 4-20 months), all the patients regained preoperative status and 2 improved. Postoperative MRI demonstrated complete resection in all cases. CONCLUSIONS: Approaching purely subcortical tumors requires microsurgical skills, but in eloquent areas, functional topography monitoring is mandatory to allow safe surgery. CSES in an awake patient is a method that produces very good results in terms of resection and neurological outcome.
OBJECTIVE: To analyze the efficacy and safety of cortical and subcortical electrical stimulation CSES and awake surgery to approach purely subcortical tumors in highly functional locations, particularly in guiding the choice of the best transcortical path. PATIENTS AND METHODS: Prospective analysis of the surgical, neurological, and radiological outcome of patients harboring supratentorial, subcortically located brain tumors or vascular malformations who are operated on through awake surgery and CSES. Functional magnetic resonance (fMRI; either sensory-motor or language, based on the location) was performed in order to confirm the proximity to functional cortical areas. Major white matter tracts were investigated by MRI diffusion tensor fiber tracking (DTI-ft). The Rankin modified score was chosen to express the pre and postoperative functional neurological status. Immediate postoperative MRI was used to evaluate the extent of resection. RESULTS: Seventeen patients were selected. The main distance of the tumors from the cortical surface was 18.2mm (range 9-48 mm). Neuronavigation was used to show the most direct route to the tumor (transsulcal or transgyral), but CSES was fundamental to adapt the surgical corridor to the functional topography both cortically and subcortically. If the transgyral route was chosen, CSES helped to detect a non-eloquent area. When a transsulcal route was preferred, CSES documented the presence or absence of function in the deep sulcus. The transient postoperative morbidity was 76.4%, but at last follow-up (range 4-20 months), all the patients regained preoperative status and 2 improved. Postoperative MRI demonstrated complete resection in all cases. CONCLUSIONS: Approaching purely subcortical tumors requires microsurgical skills, but in eloquent areas, functional topography monitoring is mandatory to allow safe surgery. CSES in an awake patient is a method that produces very good results in terms of resection and neurological outcome.
Authors: Marcel A Kamp; Philipp J Slotty; Jan F Cornelius; Hans-Jakob Steiger; Marion Rapp; Michael Sabel Journal: Neurosurg Rev Date: 2016-07-09 Impact factor: 3.042
Authors: Giannantonio Spena; Elena Roca; Francesco Guerrini; Pier Paolo Panciani; Lorenzo Stanzani; Andrea Salmaggi; Sabino Luzzi; Marco Fontanella Journal: J Neurooncol Date: 2019-09-24 Impact factor: 4.130
Authors: Elena Roca; Johan Pallud; Francesco Guerrini; Pier Paolo Panciani; Marco Fontanella; Giannantonio Spena Journal: Neurosurg Rev Date: 2019-12-03 Impact factor: 3.042
Authors: Marcel A Kamp; Igor Fischer; Julia Bühner; Bernd Turowski; Jan Frederick Cornelius; Hans-Jakob Steiger; Marion Rapp; Philipp J Slotty; Michael Sabel Journal: Oncotarget Date: 2016-10-11