Incidence, Patterns, and Outcomes with Adjuvant Chemotherapy for Residual Disease After Neoadjuvant Chemotherapy in Muscle-invasive Urinary Tract Cancers.
Details
Serval ID
serval:BIB_5983599BD430
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Incidence, Patterns, and Outcomes with Adjuvant Chemotherapy for Residual Disease After Neoadjuvant Chemotherapy in Muscle-invasive Urinary Tract Cancers.
Journal
European urology oncology
Working group(s)
RISC Investigators
ISSN
2588-9311 (Electronic)
ISSN-L
2588-9311
Publication state
Published
Issued date
10/2020
Peer-reviewed
Oui
Volume
3
Number
5
Pages
671-679
Language
english
Notes
Publication types: Journal Article ; Research Support, N.I.H., Extramural
Publication Status: ppublish
Publication Status: ppublish
Abstract
Patients with residual muscle-invasive urinary tract cancer after neoadjuvant chemotherapy (NAC) have a high risk of recurrence.
To retrospectively evaluate whether additional adjuvant chemotherapy (AC) improves outcomes compared with surveillance in patients with significant residual disease despite NAC.
We identified 474 patients who received NAC from the Retrospective International Study of Cancers of the Urothelium database, of whom 129 had adverse residual disease (≥ypT3 and/or ypN <sup>+</sup> ).
Time to relapse (TTR) was the primary endpoint assessed starting from 2mo after surgery to minimize immortal time bias. Secondary endpoints included overall survival (OS), incidence of AC use, and chemotherapy patterns. Kaplan-Meier and Cox regression models estimated TTR, OS, and associations with AC, adjusting for the type of NAC, age, and pathological stage in multivariable analyses.
A total of 106 patients underwent surveillance, while 23 received AC. Gemcitabine-cisplatin was the most frequent regimen employed in both settings (30.4%), and the majority (82.6%) of the patients switched to a different regimen. Median follow-up was 30mo. Over 50% of patients developed a recurrence. Median TTR was 16mo (range: <1-108mo). Longer median TTR was observed with AC compared with surveillance (18 vs 10mo, p=0.06). Risk of relapse significantly decreased with AC when adjusted in multivariable analyses (p=0.01). The subgroup analyses of ypT4b/ypN <sup>+</sup> patients (AC: 19; surveillance: 50) who received AC had significantly greater median TTR (20 vs 9mo; hazard ratio 0.43; 95% confidence interval: 0.21-0.89). No difference in OS was found. Limitations include the retrospective design.
The utilization of AC after NAC in patients with high-risk residual disease is not frequent in clinical practice but might reduce the risk of recurrence. Further investigation is needed in this high-risk population to identify optimal therapy and to improve clinical outcomes such as the ongoing adjuvant immunotherapy trials.
We found that administering additional chemotherapy in patients who had significant residual disease despite preoperative chemotherapy is not frequent in clinical practice. While it might reduce the risk of recurrence, it did not clearly increase overall survival. We encourage participation in the ongoing immunotherapy trials to see whether we can improve outcomes using a different type of therapy that stimulates the immune system.
To retrospectively evaluate whether additional adjuvant chemotherapy (AC) improves outcomes compared with surveillance in patients with significant residual disease despite NAC.
We identified 474 patients who received NAC from the Retrospective International Study of Cancers of the Urothelium database, of whom 129 had adverse residual disease (≥ypT3 and/or ypN <sup>+</sup> ).
Time to relapse (TTR) was the primary endpoint assessed starting from 2mo after surgery to minimize immortal time bias. Secondary endpoints included overall survival (OS), incidence of AC use, and chemotherapy patterns. Kaplan-Meier and Cox regression models estimated TTR, OS, and associations with AC, adjusting for the type of NAC, age, and pathological stage in multivariable analyses.
A total of 106 patients underwent surveillance, while 23 received AC. Gemcitabine-cisplatin was the most frequent regimen employed in both settings (30.4%), and the majority (82.6%) of the patients switched to a different regimen. Median follow-up was 30mo. Over 50% of patients developed a recurrence. Median TTR was 16mo (range: <1-108mo). Longer median TTR was observed with AC compared with surveillance (18 vs 10mo, p=0.06). Risk of relapse significantly decreased with AC when adjusted in multivariable analyses (p=0.01). The subgroup analyses of ypT4b/ypN <sup>+</sup> patients (AC: 19; surveillance: 50) who received AC had significantly greater median TTR (20 vs 9mo; hazard ratio 0.43; 95% confidence interval: 0.21-0.89). No difference in OS was found. Limitations include the retrospective design.
The utilization of AC after NAC in patients with high-risk residual disease is not frequent in clinical practice but might reduce the risk of recurrence. Further investigation is needed in this high-risk population to identify optimal therapy and to improve clinical outcomes such as the ongoing adjuvant immunotherapy trials.
We found that administering additional chemotherapy in patients who had significant residual disease despite preoperative chemotherapy is not frequent in clinical practice. While it might reduce the risk of recurrence, it did not clearly increase overall survival. We encourage participation in the ongoing immunotherapy trials to see whether we can improve outcomes using a different type of therapy that stimulates the immune system.
Keywords
Adjuvant chemotherapy, Muscle-invasive bladder cancer, Muscle-invasive urinary tract cancer, Neoadjuvant chemotherapy, Residual disease, Risk of relapse, Time to recurrence
Pubmed
Web of science
Open Access
Yes
Create date
19/08/2019 16:12
Last modification date
25/11/2020 6:25
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