Impacts of genotypic variants on survival following reoperation for recurrent glioblastoma

Antonio Dono; Ping Zhu; Emma Holmes; Takeshi Takayasu; Jay-Jiguang Zhu; Angel I Blanco; Sigmund Hsu; Meenakshi B Bhattacharjee; Leomar Y Ballester; Dong H Kim; Yoshua Esquenazi; Nitin Tandon

doi:10.1007/s11060-021-03917-1

Impacts of genotypic variants on survival following reoperation for recurrent glioblastoma

J Neurooncol. 2022 Jan;156(2):353-363. doi: 10.1007/s11060-021-03917-1. Epub 2022 Jan 8.

Authors

Antonio Dono^{1

2}, Ping Zhu¹, Emma Holmes¹, Takeshi Takayasu², Jay-Jiguang Zhu^{1

3}, Angel I Blanco^{1

3}, Sigmund Hsu^{1

3}, Meenakshi B Bhattacharjee^{2

3}, Leomar Y Ballester^{2

3}, Dong H Kim^{1

3}, Yoshua Esquenazi^{1

3}, Nitin Tandon^{4

5

6

7}

Affiliations

¹ Vivian L. Smith Department of Neurosurgery, McGovern Medical School at UT Health, Houston, TX, USA.
² Department of Pathology and Laboratory Medicine, McGovern Medical School at UT Health, Houston, TX, USA.
³ Memorial Hermann Hospital-TMC, Houston, TX, USA.
⁴ Vivian L. Smith Department of Neurosurgery, McGovern Medical School at UT Health, Houston, TX, USA. Nitin.Tandon@uth.tmc.edu.
⁵ Memorial Hermann Hospital-TMC, Houston, TX, USA. Nitin.Tandon@uth.tmc.edu.
⁶ Texas Institute for Restorative Neurotechnologies, UT Health, Houston, TX, USA. Nitin.Tandon@uth.tmc.edu.
⁷ Department of Neurosurgery, Texas Institute of Restorative Neurotechnology, McGovern Medical School at UT Health, 6400 Fannin Street, Suite 2800, Houston, TX, 77030, USA. Nitin.Tandon@uth.tmc.edu.

Abstract

Introduction: Recurrent glioblastoma (rGBM) prognosis is dismal. In the absence of effective adjuvant treatments for rGBM, re-resections remain prominent in our arsenal. This study evaluates the impact of reoperation on post-progression survival (PPS) considering rGBM genetic makeup.

Methods: To assess the genetic heterogeneity and treatment-related changes (TRC) roles in re-operated or medically managed rGBMs, we compiled demographic, clinical, histopathological, and next-generation genetic sequencing (NGS) characteristics of these tumors from 01/2005 to 10/2019. Survival data and reoperation were analyzed using conventional and random survival forest analysis (RSF).

Results: Patients harboring CDKN2A/B loss (p = 0.017) and KDR mutations (p = 0.031) had notably shorter survival. Reoperation or bevacizumab were associated with longer PPS (11.2 vs. 7.4-months, p = 0.006; 13.1 vs 6.2, p < 0.001). Reoperated patients were younger, had better performance status and greater initial resection. In 136/273 (49%) rGBMs undergoing re-operation, CDKN2A/B loss (p = 0.03) and KDR mutations (p = 0.02) were associated with shorter survival. In IDH-WT rGBMs with NGS data (n = 166), reoperation resulted in 7.0-month longer survival (p = 0.004) than those managed medically. This reoperation benefit was independently identified by RSF analysis. Stratification analysis revealed that EGFR-mutant, CDKN2A/B-mutant, NF1-WT, and TP53-WT rGBM IDH-WT subgroups benefit most from reoperation (p = 0.03). Lastly, whether or not TRC was prominent at re-operation does not have any significant impact on PPS (10.5 vs. 11.5-months, p = 0.77).

Conclusions: Maximal safe re-resection significantly lengthens PPS regardless of genetic makeup, but reoperations are especially beneficial for IDH-WT rGBMs with EGFR and CDKN2A/B mutations with TP53-WT, and NF1-WT. Histopathology at recurrence may be an imperfect gauge of disease severity at progression and the imaging progression may be more reflective of the prognosis.

Keywords: Glioblastoma; IDH; Molecular subgroups; Post-progression survival; Reoperation.

MeSH terms

Brain Neoplasms* / genetics
Brain Neoplasms* / pathology
Brain Neoplasms* / surgery
ErbB Receptors / genetics
Genetic Variation
Glioblastoma* / genetics
Glioblastoma* / pathology
Glioblastoma* / surgery
Humans
Neoplasm Recurrence, Local* / genetics
Neoplasm Recurrence, Local* / surgery
Prognosis
Reoperation*
Survival Analysis

Substances

ErbB Receptors

Abstract

MeSH terms

Substances

Grants and funding