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<a href="http://doi.org/10.3171/2018.9.JNS181802" target="_blank" rel="noreferrer noopener">http://doi.org/10.3171/2018.9.JNS181802</a>
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1–9
NEOMED College
NEOMED College of Medicine
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Combined use of minimal access craniotomy, intraoperative magnetic resonance imaging, and awake functional mapping for the resection of gliomas in 61 patients.
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Journal of neurosurgery
Date
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2019
2019-01
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ADC = apparent diffusion coefficient; awake craniotomy; awake functional mapping; DTI = diffusion tensor imaging; DVT = deep vein thrombosis; DWI = diffusion-weighted imaging; ECoG = electrocorticography; EMR = electronic medical record; EOR = extent of resection; fMRI = functional MRI; glioma resection; iMRI; iMRI = intraoperative MRI; IMRIS = iMRI suite; intraoperative magnetic resonance imaging; IV = intravenous; KPS = Karnofsky Performance Scale; LMA = laryngeal mask airway; minimal access craniotomy; MPRAGE = magnetization prepared rapid gradient echo; oncology; OR = operating room; SMA = supplementary motor area; surgical technique
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Whiting Benjamin B; Lee Bryan S; Mahadev Vaidehi; Borghei-Razavi Hamid; Ahuja Sanchit; Jia Xuefei; Mohammadi Alireza M; Barnett Gene H; Angelov Lilyana; Rajan Shobana; Avitsian Rafi; Vogelbaum Michael A
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OBJECTIVECurrent management of gliomas involves a multidisciplinary approach, including a combination of maximal safe resection, radiotherapy, and chemotherapy. The use of intraoperative MRI (iMRI) helps to maximize extent of resection (EOR), and use of awake functional mapping supports preservation of eloquent areas of the brain. This study reports on the combined use of these surgical adjuncts.METHODSThe authors performed a retrospective review of patients with gliomas who underwent minimal access craniotomy in their iMRI suite (IMRIS) with awake functional mapping between 2010 and 2017. Patient demographics, tumor characteristics, intraoperative and postoperative adverse events, and treatment details were obtained. Volumetric analysis of preoperative tumor volume as well as intraoperative and postoperative residual volumes was performed.RESULTSA total of 61 patients requiring 62 tumor resections met the inclusion criteria. Of the tumors resected, 45.9% were WHO grade I or II and 54.1% were WHO grade III or IV. Intraoperative neurophysiological monitoring modalities included speech alone in 23 cases (37.1%), motor alone in 24 (38.7%), and both speech and motor in 15 (24.2%). Intraoperative MRI demonstrated residual tumor in 48 cases (77.4%), 41 (85.4%) of whom underwent further resection. Median EOR on iMRI and postoperative MRI was 86.0% and 98.5%, respectively, with a mean difference of 10% and a median difference of 10.5% (p \textless 0.001). Seventeen of 62 cases achieved an increased EOR \textgreater 15% related to use of iMRI. Seventeen (60.7%) of 28 low-grade gliomas and 10 (30.3%) of 33 high-grade gliomas achieved complete resection. Significant intraoperative events included at least temporary new or worsened speech alteration in 7 of 38 cases who underwent speech mapping (18.4%), new or worsened weakness in 7 of 39 cases who underwent motor mapping (18.0%), numbness in 2 cases (3.2%), agitation in 2 (3.2%), and seizures in 2 (3.2%). Among the patients with new intraoperative deficits, 2 had residual speech difficulty, and 2 had weakness postoperatively, which improved to baseline strength by 6 months.CONCLUSIONSIn this retrospective case series, the combined use of iMRI and awake functional mapping was demonstrated to be safe and feasible. This combined approach allows one to achieve the dual goals of maximal tumor removal and minimal functional consequences in patients undergoing glioma resection.
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<a href="http://doi.org/10.3171/2018.9.JNS181802" target="_blank" rel="noreferrer noopener">10.3171/2018.9.JNS181802</a>
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Article information provided for research and reference use only. All rights are retained by the journal listed under publisher and/or the creator(s).
2019
ADC = apparent diffusion coefficient
Ahuja Sanchit
Angelov Lilyana
Avitsian Rafi
awake craniotomy
awake functional mapping
Barnett Gene H
Borghei-Razavi Hamid
DTI = diffusion tensor imaging
DVT = deep vein thrombosis
DWI = diffusion-weighted imaging
ECoG = electrocorticography
EMR = electronic medical record
EOR = extent of resection
fMRI = functional MRI
glioma resection
iMRI
iMRI = intraoperative MRI
IMRIS = iMRI suite
intraoperative magnetic resonance imaging
IV = intravenous
Jia Xuefei
Journal of neurosurgery
KPS = Karnofsky Performance Scale
Lee Bryan S
LMA = laryngeal mask airway
Mahadev Vaidehi
minimal access craniotomy
Mohammadi Alireza M
MPRAGE = magnetization prepared rapid gradient echo
NEOMED College of Medicine Student
NEOMED Student Publications
oncology
OR = operating room
Rajan Shobana
SMA = supplementary motor area
surgical technique
Vogelbaum Michael A
Whiting Benjamin B