Evaluation of Resection Margin after Image-Guided Dural Tail Resection in Convexity Meningiomas

Infiltration of adjacent dura with meningioma cells is a common phenomenon. Wide resection of the dural tail (DT) to achieve a gross total resection is a general recommendation. We aimed to investigate a tumor cell infiltration of the DT after image-guided resection of convexity meningiomas. The stu...

Descripción completa

Detalles Bibliográficos
Autores principales: Kalasauskas, Darius, Tanyildizi, Yasemin, Renovanz, Mirjam, Brockmann, Marc A., Sommer, Clemens J., Ringel, Florian, Keric, Naureen
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8000745/
https://www.ncbi.nlm.nih.gov/pubmed/33799819
http://dx.doi.org/10.3390/jcm10061177
_version_ 1783671068299362304
author Kalasauskas, Darius
Tanyildizi, Yasemin
Renovanz, Mirjam
Brockmann, Marc A.
Sommer, Clemens J.
Ringel, Florian
Keric, Naureen
author_facet Kalasauskas, Darius
Tanyildizi, Yasemin
Renovanz, Mirjam
Brockmann, Marc A.
Sommer, Clemens J.
Ringel, Florian
Keric, Naureen
author_sort Kalasauskas, Darius
collection PubMed
description Infiltration of adjacent dura with meningioma cells is a common phenomenon. Wide resection of the dural tail (DT) to achieve a gross total resection is a general recommendation. We aimed to investigate a tumor cell infiltration of the DT after image-guided resection of convexity meningiomas. The study’s inclusion criteria were the diagnosis of convexity meningioma, planned Simpson I° resection, and an identifiable DT. Intraoperative image-guidance was applied to identify the outer edge of the DT and to guide resection. After resection, en-bloc specimen or four samples of outermost pieces of DT in case of piecemeal resection were sent for histological analysis. In addition to resection margin infiltration, the radiological extent of DT, radiomic characteristics (109 in total), histology, and demographic data were assessed. Hierarchical clustering was used to generate patient clusters for radiomic analysis. Twenty-two patients were included in the study, while 20 (91%) were female. The mean age was 54.2 (Standard deviation (SD) 13.9, range 30–85) years. En-bloc resection could be achieved in 4 patients. The remaining patients received piecemeal resection. 2 DT samples were omitted due to tumor infiltration of the superior sagittal sinus. None of the en-bloc resection samples demonstrated dural infiltration on the resection margin. Tumor cells were detected in 4 of 70 (5.7%) dural tail samples and could not be excluded in another 5 of 70 (7.1%). No tumor recurrences were detected at follow-up MRI examinations after a mean follow-up of 27.5 (SD 13.2, range 0 to 50.0) months. There was no significant association between DT infiltration and histological subtype or patient characteristics and between DT extent and tumor infiltration. Clustering according to radiomic characteristics was not associated with tumor infiltration (p = 0.89). The radiological dural tail does not reliably outline the extent of tumor cell infiltration in convexity meningiomas. Hence, the extent of dural tail resection should not exclusively be guided by preoperative radiological appearance.
format Online
Article
Text
id pubmed-8000745
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-80007452021-03-28 Evaluation of Resection Margin after Image-Guided Dural Tail Resection in Convexity Meningiomas Kalasauskas, Darius Tanyildizi, Yasemin Renovanz, Mirjam Brockmann, Marc A. Sommer, Clemens J. Ringel, Florian Keric, Naureen J Clin Med Article Infiltration of adjacent dura with meningioma cells is a common phenomenon. Wide resection of the dural tail (DT) to achieve a gross total resection is a general recommendation. We aimed to investigate a tumor cell infiltration of the DT after image-guided resection of convexity meningiomas. The study’s inclusion criteria were the diagnosis of convexity meningioma, planned Simpson I° resection, and an identifiable DT. Intraoperative image-guidance was applied to identify the outer edge of the DT and to guide resection. After resection, en-bloc specimen or four samples of outermost pieces of DT in case of piecemeal resection were sent for histological analysis. In addition to resection margin infiltration, the radiological extent of DT, radiomic characteristics (109 in total), histology, and demographic data were assessed. Hierarchical clustering was used to generate patient clusters for radiomic analysis. Twenty-two patients were included in the study, while 20 (91%) were female. The mean age was 54.2 (Standard deviation (SD) 13.9, range 30–85) years. En-bloc resection could be achieved in 4 patients. The remaining patients received piecemeal resection. 2 DT samples were omitted due to tumor infiltration of the superior sagittal sinus. None of the en-bloc resection samples demonstrated dural infiltration on the resection margin. Tumor cells were detected in 4 of 70 (5.7%) dural tail samples and could not be excluded in another 5 of 70 (7.1%). No tumor recurrences were detected at follow-up MRI examinations after a mean follow-up of 27.5 (SD 13.2, range 0 to 50.0) months. There was no significant association between DT infiltration and histological subtype or patient characteristics and between DT extent and tumor infiltration. Clustering according to radiomic characteristics was not associated with tumor infiltration (p = 0.89). The radiological dural tail does not reliably outline the extent of tumor cell infiltration in convexity meningiomas. Hence, the extent of dural tail resection should not exclusively be guided by preoperative radiological appearance. MDPI 2021-03-11 /pmc/articles/PMC8000745/ /pubmed/33799819 http://dx.doi.org/10.3390/jcm10061177 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Kalasauskas, Darius
Tanyildizi, Yasemin
Renovanz, Mirjam
Brockmann, Marc A.
Sommer, Clemens J.
Ringel, Florian
Keric, Naureen
Evaluation of Resection Margin after Image-Guided Dural Tail Resection in Convexity Meningiomas
title Evaluation of Resection Margin after Image-Guided Dural Tail Resection in Convexity Meningiomas
title_full Evaluation of Resection Margin after Image-Guided Dural Tail Resection in Convexity Meningiomas
title_fullStr Evaluation of Resection Margin after Image-Guided Dural Tail Resection in Convexity Meningiomas
title_full_unstemmed Evaluation of Resection Margin after Image-Guided Dural Tail Resection in Convexity Meningiomas
title_short Evaluation of Resection Margin after Image-Guided Dural Tail Resection in Convexity Meningiomas
title_sort evaluation of resection margin after image-guided dural tail resection in convexity meningiomas
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8000745/
https://www.ncbi.nlm.nih.gov/pubmed/33799819
http://dx.doi.org/10.3390/jcm10061177
work_keys_str_mv AT kalasauskasdarius evaluationofresectionmarginafterimageguidedduraltailresectioninconvexitymeningiomas
AT tanyildiziyasemin evaluationofresectionmarginafterimageguidedduraltailresectioninconvexitymeningiomas
AT renovanzmirjam evaluationofresectionmarginafterimageguidedduraltailresectioninconvexitymeningiomas
AT brockmannmarca evaluationofresectionmarginafterimageguidedduraltailresectioninconvexitymeningiomas
AT sommerclemensj evaluationofresectionmarginafterimageguidedduraltailresectioninconvexitymeningiomas
AT ringelflorian evaluationofresectionmarginafterimageguidedduraltailresectioninconvexitymeningiomas
AT kericnaureen evaluationofresectionmarginafterimageguidedduraltailresectioninconvexitymeningiomas

Ejemplares similares