Quantifying eloquent locations for glioblastoma surgery using resection probability maps

Domenique M.J. Müller; Pierre A. Robe; Hilko Ardon; Frederik Barkhof; Lorenzo Bello; Mitchel S. Berger; Wim Bouwknegt; Wimar A. Van den Brink; Marco Conti Nibali; Roelant S. Eijgelaar; Julia Furtner; Seunggu J. Han; Shawn L. Hervey-Jumper; Albert J.S. Idema; Barbara Kiesel; Alfred Kloet; Jan C. De Munck; Marco Rossi; Tommaso Sciortino; W. Peter Vandertop; Martin Visser; Michiel Wagemakers; Georg Widhalm; Marnix G. Witte; Aeilko H. Zwinderman; Philip C. De Witt Hamer

doi:10.3171/2020.1.JNS193049

Quantifying eloquent locations for glioblastoma surgery using resection probability maps

Domenique M.J. Müller, Pierre A. Robe, Hilko Ardon, Frederik Barkhof, Lorenzo Bello, Mitchel S. Berger, Wim Bouwknegt, Wimar A. Van den Brink, Marco Conti Nibali, Roelant S. Eijgelaar, Julia Furtner, Seunggu J. Han, Shawn L. Hervey-Jumper, Albert J.S. Idema, Barbara Kiesel, Alfred Kloet, Jan C. De Munck, Marco Rossi, Tommaso Sciortino, W. Peter VandertopMartin Visser, Michiel Wagemakers, Georg Widhalm, Marnix G. Witte, Aeilko H. Zwinderman, Philip C. De Witt Hamer^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

3 Citations (Scopus)

Abstract

OBJECTIVE Decisions in glioblastoma surgery are often guided by presumed eloquence of the tumor location. The authors introduce the "expected residual tumor volume" (eRV) and the "expected resectability index" (eRI) based on previous decisions aggregated in resection probability maps. The diagnostic accuracy of eRV and eRI to predict biopsy decisions, resectability, functional outcome, and survival was determined. METHODS Consecutive patients with first-time glioblastoma surgery in 2012-2013 were included from 12 hospitals. The eRV was calculated from the preoperative MR images of each patient using a resection probability map, and the eRI was derived from the tumor volume. As reference, Sawaya's tumor location eloquence grades (EGs) were classified. Resectability was measured as observed extent of resection (EOR) and residual volume, and functional outcome as change in Karnofsky Performance Scale score. Receiver operating characteristic curves and multivariable logistic regression were applied. RESULTS Of 915 patients, 674 (74%) underwent a resection with a median EOR of 97%, functional improvement in 71 (8%), functional decline in 78 (9%), and median survival of 12.8 months. The eRI and eRV identified biopsies and EORs of at least 80%, 90%, or 98% better than EG. The eRV and eRI predicted observed residual volumes under 10, 5, and 1 ml better than EG. The eRV, eRI, and EG had low diagnostic accuracy for functional outcome changes. Higher eRV and lower eRI were strongly associated with shorter survival, independent of known prognostic factors. CONCLUSIONS The eRV and eRI predict biopsy decisions, resectability, and survival better than eloquence grading and may be useful preoperative indices to support surgical decisions.

Original language	English
Pages (from-to)	1091-1101
Number of pages	11
Journal	Journal of Neurosurgery
Volume	134
Issue number	4
DOIs	https://doi.org/10.3171/2020.1.JNS193049
Publication status	Published - Apr 2021

Keywords

Extent of resection
Glioma
Neurosurgery
Oncology
Reproducibility of results
Residual volume
reproducibility of results
residual volume
extent of resection
glioma
neurosurgery
oncology
Humans
Middle Aged
Male
Brain Neoplasms/pathology
Neoplasm, Residual
Karnofsky Performance Status
Adult
Female
Neurosurgical Procedures/methods
Reproducibility of Results
Brain Mapping/methods
Kaplan-Meier Estimate
Probability
Treatment Outcome
Glioblastoma/pathology
Biopsy/methods
Survival Analysis
ROC Curve
Aged

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Müller, D. M. J., Robe, P. A., Ardon, H., Barkhof, F., Bello, L., Berger, M. S., Bouwknegt, W., Van den Brink, W. A., Nibali, M. C., Eijgelaar, R. S., Furtner, J., Han, S. J., Hervey-Jumper, S. L., Idema, A. J. S., Kiesel, B., Kloet, A., De Munck, J. C., Rossi, M., Sciortino, T., ... De Witt Hamer, P. C. (2021). Quantifying eloquent locations for glioblastoma surgery using resection probability maps. Journal of Neurosurgery, 134(4), 1091-1101. https://doi.org/10.3171/2020.1.JNS193049

@article{7e039e275adb41c696a542b88bddaff9,

title = "Quantifying eloquent locations for glioblastoma surgery using resection probability maps",

abstract = "OBJECTIVE Decisions in glioblastoma surgery are often guided by presumed eloquence of the tumor location. The authors introduce the {"}expected residual tumor volume{"} (eRV) and the {"}expected resectability index{"} (eRI) based on previous decisions aggregated in resection probability maps. The diagnostic accuracy of eRV and eRI to predict biopsy decisions, resectability, functional outcome, and survival was determined. METHODS Consecutive patients with first-time glioblastoma surgery in 2012-2013 were included from 12 hospitals. The eRV was calculated from the preoperative MR images of each patient using a resection probability map, and the eRI was derived from the tumor volume. As reference, Sawaya's tumor location eloquence grades (EGs) were classified. Resectability was measured as observed extent of resection (EOR) and residual volume, and functional outcome as change in Karnofsky Performance Scale score. Receiver operating characteristic curves and multivariable logistic regression were applied. RESULTS Of 915 patients, 674 (74%) underwent a resection with a median EOR of 97%, functional improvement in 71 (8%), functional decline in 78 (9%), and median survival of 12.8 months. The eRI and eRV identified biopsies and EORs of at least 80%, 90%, or 98% better than EG. The eRV and eRI predicted observed residual volumes under 10, 5, and 1 ml better than EG. The eRV, eRI, and EG had low diagnostic accuracy for functional outcome changes. Higher eRV and lower eRI were strongly associated with shorter survival, independent of known prognostic factors. CONCLUSIONS The eRV and eRI predict biopsy decisions, resectability, and survival better than eloquence grading and may be useful preoperative indices to support surgical decisions.",

keywords = "Extent of resection, Glioma, Neurosurgery, Oncology, Reproducibility of results, Residual volume, reproducibility of results, residual volume, extent of resection, glioma, neurosurgery, oncology, Humans, Middle Aged, Male, Brain Neoplasms/pathology, Neoplasm, Residual, Karnofsky Performance Status, Adult, Female, Neurosurgical Procedures/methods, Reproducibility of Results, Brain Mapping/methods, Kaplan-Meier Estimate, Probability, Treatment Outcome, Glioblastoma/pathology, Biopsy/methods, Survival Analysis, ROC Curve, Aged",

author = "M{\"u}ller, {Domenique M.J.} and Robe, {Pierre A.} and Hilko Ardon and Frederik Barkhof and Lorenzo Bello and Berger, {Mitchel S.} and Wim Bouwknegt and {Van den Brink}, {Wimar A.} and Nibali, {Marco Conti} and Eijgelaar, {Roelant S.} and Julia Furtner and Han, {Seunggu J.} and Hervey-Jumper, {Shawn L.} and Idema, {Albert J.S.} and Barbara Kiesel and Alfred Kloet and {De Munck}, {Jan C.} and Marco Rossi and Tommaso Sciortino and {Peter Vandertop}, W. and Martin Visser and Michiel Wagemakers and Georg Widhalm and Witte, {Marnix G.} and Zwinderman, {Aeilko H.} and {De Witt Hamer}, {Philip C.}",

year = "2021",

month = apr,

doi = "10.3171/2020.1.JNS193049",

language = "English",

volume = "134",

pages = "1091--1101",

journal = "Journal of Neurosurgery",

issn = "0022-3085",

publisher = "American Association of Neurological Surgeons",

number = "4",

}

Müller, DMJ, Robe, PA, Ardon, H, Barkhof, F, Bello, L, Berger, MS, Bouwknegt, W, Van den Brink, WA, Nibali, MC, Eijgelaar, RS, Furtner, J, Han, SJ, Hervey-Jumper, SL, Idema, AJS, Kiesel, B, Kloet, A, De Munck, JC, Rossi, M, Sciortino, T, Peter Vandertop, W, Visser, M, Wagemakers, M, Widhalm, G, Witte, MG, Zwinderman, AH & De Witt Hamer, PC 2021, 'Quantifying eloquent locations for glioblastoma surgery using resection probability maps', Journal of Neurosurgery, vol. 134, no. 4, pp. 1091-1101. https://doi.org/10.3171/2020.1.JNS193049

TY - JOUR

T1 - Quantifying eloquent locations for glioblastoma surgery using resection probability maps

AU - Müller, Domenique M.J.

AU - Robe, Pierre A.

AU - Ardon, Hilko

AU - Barkhof, Frederik

AU - Bello, Lorenzo

AU - Berger, Mitchel S.

AU - Bouwknegt, Wim

AU - Van den Brink, Wimar A.

AU - Nibali, Marco Conti

AU - Eijgelaar, Roelant S.

AU - Furtner, Julia

AU - Han, Seunggu J.

AU - Hervey-Jumper, Shawn L.

AU - Idema, Albert J.S.

AU - Kiesel, Barbara

AU - Kloet, Alfred

AU - De Munck, Jan C.

AU - Rossi, Marco

AU - Sciortino, Tommaso

AU - Peter Vandertop, W.

AU - Visser, Martin

AU - Wagemakers, Michiel

AU - Widhalm, Georg

AU - Witte, Marnix G.

AU - Zwinderman, Aeilko H.

AU - De Witt Hamer, Philip C.

PY - 2021/4

Y1 - 2021/4

N2 - OBJECTIVE Decisions in glioblastoma surgery are often guided by presumed eloquence of the tumor location. The authors introduce the "expected residual tumor volume" (eRV) and the "expected resectability index" (eRI) based on previous decisions aggregated in resection probability maps. The diagnostic accuracy of eRV and eRI to predict biopsy decisions, resectability, functional outcome, and survival was determined. METHODS Consecutive patients with first-time glioblastoma surgery in 2012-2013 were included from 12 hospitals. The eRV was calculated from the preoperative MR images of each patient using a resection probability map, and the eRI was derived from the tumor volume. As reference, Sawaya's tumor location eloquence grades (EGs) were classified. Resectability was measured as observed extent of resection (EOR) and residual volume, and functional outcome as change in Karnofsky Performance Scale score. Receiver operating characteristic curves and multivariable logistic regression were applied. RESULTS Of 915 patients, 674 (74%) underwent a resection with a median EOR of 97%, functional improvement in 71 (8%), functional decline in 78 (9%), and median survival of 12.8 months. The eRI and eRV identified biopsies and EORs of at least 80%, 90%, or 98% better than EG. The eRV and eRI predicted observed residual volumes under 10, 5, and 1 ml better than EG. The eRV, eRI, and EG had low diagnostic accuracy for functional outcome changes. Higher eRV and lower eRI were strongly associated with shorter survival, independent of known prognostic factors. CONCLUSIONS The eRV and eRI predict biopsy decisions, resectability, and survival better than eloquence grading and may be useful preoperative indices to support surgical decisions.

AB - OBJECTIVE Decisions in glioblastoma surgery are often guided by presumed eloquence of the tumor location. The authors introduce the "expected residual tumor volume" (eRV) and the "expected resectability index" (eRI) based on previous decisions aggregated in resection probability maps. The diagnostic accuracy of eRV and eRI to predict biopsy decisions, resectability, functional outcome, and survival was determined. METHODS Consecutive patients with first-time glioblastoma surgery in 2012-2013 were included from 12 hospitals. The eRV was calculated from the preoperative MR images of each patient using a resection probability map, and the eRI was derived from the tumor volume. As reference, Sawaya's tumor location eloquence grades (EGs) were classified. Resectability was measured as observed extent of resection (EOR) and residual volume, and functional outcome as change in Karnofsky Performance Scale score. Receiver operating characteristic curves and multivariable logistic regression were applied. RESULTS Of 915 patients, 674 (74%) underwent a resection with a median EOR of 97%, functional improvement in 71 (8%), functional decline in 78 (9%), and median survival of 12.8 months. The eRI and eRV identified biopsies and EORs of at least 80%, 90%, or 98% better than EG. The eRV and eRI predicted observed residual volumes under 10, 5, and 1 ml better than EG. The eRV, eRI, and EG had low diagnostic accuracy for functional outcome changes. Higher eRV and lower eRI were strongly associated with shorter survival, independent of known prognostic factors. CONCLUSIONS The eRV and eRI predict biopsy decisions, resectability, and survival better than eloquence grading and may be useful preoperative indices to support surgical decisions.

KW - Extent of resection

KW - Glioma

KW - Neurosurgery

KW - Oncology

KW - Reproducibility of results

KW - Residual volume

KW - reproducibility of results

KW - residual volume

KW - extent of resection

KW - glioma

KW - neurosurgery

KW - oncology

KW - Humans

KW - Middle Aged

KW - Male

KW - Brain Neoplasms/pathology

KW - Neoplasm, Residual

KW - Karnofsky Performance Status

KW - Adult

KW - Female

KW - Neurosurgical Procedures/methods

KW - Reproducibility of Results

KW - Brain Mapping/methods

KW - Kaplan-Meier Estimate

KW - Probability

KW - Treatment Outcome

KW - Glioblastoma/pathology

KW - Biopsy/methods

KW - Survival Analysis

KW - ROC Curve

KW - Aged

UR - http://www.scopus.com/inward/record.url?scp=85098687263&partnerID=8YFLogxK

U2 - 10.3171/2020.1.JNS193049

DO - 10.3171/2020.1.JNS193049

M3 - Article

C2 - 32244208

AN - SCOPUS:85098687263

SN - 0022-3085

VL - 134

SP - 1091

EP - 1101

JO - Journal of Neurosurgery

JF - Journal of Neurosurgery

IS - 4

ER -

Quantifying eloquent locations for glioblastoma surgery using resection probability maps

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Keywords

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