Cardiotoxicity associated with antineoplastic agents: a pharmacovigilance study based on FDA adverse event reporting system.
1/5 보강
PICO 자동 추출 (휴리스틱, conf 2/4)
유사 논문P · Population 대상 환자/모집단
402 cases of antineoplastic-related cardiovascular toxicity, demonstrating distinct class-specific patterns.
I · Intervention 중재 / 시술
추출되지 않음
C · Comparison 대조 / 비교
추출되지 않음
O · Outcome 결과 / 결론
The findings highlight critical intervention windows: immediate monitoring for fluoropyrimidines, intermediate surveillance for anthracyclines (2-6 months), and extended follow-up for agents like mitoxantrone (>12 months). These insights support the development of risk-stratified cardio-oncology protocols tailored to specific therapeutic classes.
[BACKGROUND] Cardiovascular adverse events represent critical complications of antineoplastic therapy with profound implications for cancer survivorship and treatment outcomes.
- 95% CI 19.87-21.45
APA
Qiu X, Li Q, et al. (2025). Cardiotoxicity associated with antineoplastic agents: a pharmacovigilance study based on FDA adverse event reporting system.. Therapeutic advances in drug safety, 16, 20420986251401122. https://doi.org/10.1177/20420986251401122
MLA
Qiu X, et al.. "Cardiotoxicity associated with antineoplastic agents: a pharmacovigilance study based on FDA adverse event reporting system.." Therapeutic advances in drug safety, vol. 16, 2025, pp. 20420986251401122.
PMID
41394295 ↗
Abstract 한글 요약
[BACKGROUND] Cardiovascular adverse events represent critical complications of antineoplastic therapy with profound implications for cancer survivorship and treatment outcomes. Despite the clinical significance, comprehensive pharmacovigilance data characterizing distinctive cardiotoxicity profiles across modern cancer therapeutics remain limited.
[OBJECTIVES] This investigation systematically analyzes cardiotoxicity patterns associated with antineoplastic agents using the FDA Adverse Event Reporting System (FAERS) database to inform evidence-based cardiovascular monitoring strategies.
[DESIGN] A retrospective pharmacovigilance study utilizing disproportionality analysis and time-to-onset evaluation.
[METHODS] We conducted a comprehensive analysis of FAERS data spanning 2004-2024, employing validated disproportionality metrics including reporting odds ratio (ROR) and proportional reporting ratio (PRR) to detect significant drug-event associations. Advanced time-to-onset analysis revealed temporal patterns of cardiotoxicity development across therapeutic classes. Statistical significance was defined as ROR >1 with 95% confidence intervals excluding 1.0, and PRR >2 with chi-square >4.
[RESULTS] Analysis of 18,289,374 reports identified 51,402 cases of antineoplastic-related cardiovascular toxicity, demonstrating distinct class-specific patterns. Anthracyclines exhibited profound associations with structural cardiac damage (doxorubicin-cardiomyopathy: ROR = 20.64, 95% CI: 19.87-21.45). Immune checkpoint inhibitors demonstrated unprecedented immune-mediated cardiac inflammation (pembrolizumab-myocarditis: ROR = 245.36, 95% CI: 218.42-275.88). Fluoropyrimidines showed distinctive vasospastic effects (5-fluorouracil-Prinzmetal angina: ROR = 18.27, 95% CI: 14.72-22.69). Critical temporal patterns emerged: fluoropyrimidines caused early-onset cardiotoxicity (median: 11 days, IQR: 4-28), anthracyclines showed intermediate onset (doxorubicin median: 64 days, IQR: 21-156; epirubicin median: 72 days, IQR: 28-168), while mitoxantrone demonstrated delayed effects (median: 457 days, IQR: 182-891). Cardiogenic shock emerged as the most lethal manifestation with a 43.08% mortality rate (95% CI: 40.12-46.14).
[CONCLUSION] This landmark pharmacovigilance study reveals previously uncharacterized temporal and mechanistic patterns of antineoplastic cardiotoxicity, providing an essential evidence-based framework for cardiovascular monitoring strategies. The findings highlight critical intervention windows: immediate monitoring for fluoropyrimidines, intermediate surveillance for anthracyclines (2-6 months), and extended follow-up for agents like mitoxantrone (>12 months). These insights support the development of risk-stratified cardio-oncology protocols tailored to specific therapeutic classes.
[OBJECTIVES] This investigation systematically analyzes cardiotoxicity patterns associated with antineoplastic agents using the FDA Adverse Event Reporting System (FAERS) database to inform evidence-based cardiovascular monitoring strategies.
[DESIGN] A retrospective pharmacovigilance study utilizing disproportionality analysis and time-to-onset evaluation.
[METHODS] We conducted a comprehensive analysis of FAERS data spanning 2004-2024, employing validated disproportionality metrics including reporting odds ratio (ROR) and proportional reporting ratio (PRR) to detect significant drug-event associations. Advanced time-to-onset analysis revealed temporal patterns of cardiotoxicity development across therapeutic classes. Statistical significance was defined as ROR >1 with 95% confidence intervals excluding 1.0, and PRR >2 with chi-square >4.
[RESULTS] Analysis of 18,289,374 reports identified 51,402 cases of antineoplastic-related cardiovascular toxicity, demonstrating distinct class-specific patterns. Anthracyclines exhibited profound associations with structural cardiac damage (doxorubicin-cardiomyopathy: ROR = 20.64, 95% CI: 19.87-21.45). Immune checkpoint inhibitors demonstrated unprecedented immune-mediated cardiac inflammation (pembrolizumab-myocarditis: ROR = 245.36, 95% CI: 218.42-275.88). Fluoropyrimidines showed distinctive vasospastic effects (5-fluorouracil-Prinzmetal angina: ROR = 18.27, 95% CI: 14.72-22.69). Critical temporal patterns emerged: fluoropyrimidines caused early-onset cardiotoxicity (median: 11 days, IQR: 4-28), anthracyclines showed intermediate onset (doxorubicin median: 64 days, IQR: 21-156; epirubicin median: 72 days, IQR: 28-168), while mitoxantrone demonstrated delayed effects (median: 457 days, IQR: 182-891). Cardiogenic shock emerged as the most lethal manifestation with a 43.08% mortality rate (95% CI: 40.12-46.14).
[CONCLUSION] This landmark pharmacovigilance study reveals previously uncharacterized temporal and mechanistic patterns of antineoplastic cardiotoxicity, providing an essential evidence-based framework for cardiovascular monitoring strategies. The findings highlight critical intervention windows: immediate monitoring for fluoropyrimidines, intermediate surveillance for anthracyclines (2-6 months), and extended follow-up for agents like mitoxantrone (>12 months). These insights support the development of risk-stratified cardio-oncology protocols tailored to specific therapeutic classes.
🏷️ 키워드 / MeSH 📖 같은 키워드 OA만
같은 제1저자의 인용 많은 논문 (5)
- Disease status stratification individualizes radioiodine therapy for differentiated thyroid cancer: a prospective, multicenter, real-world study.
- Beyond the QoR-15K: addressing clinical nuances and fasting-related symptom burden in gastric cancer ERAS.
- Case report: ectopic papillary thyroid carcinoma found in the midline of the hyoid bone and cervical lymph nodes, no thyroid lesions.
- Clinical characteristics and management for intracranial serpentine aneurysms: a 12-year single-center retrospective analysis of 51 patients.
- DEPP1: A prognostic biomarker linked to stroma‑rich and immunosuppressive microenvironment, promoting oxaliplatin resistance in gastric cancer.
🏷️ 같은 키워드 · 무료전문 — 이 논문 MeSH/keyword 기반
- Key Considerations for Targeting in Pancreatic Cancer: Potential Impact on the Treatment Paradigm.
- Overcoming Chemoresistance in Glioblastoma: Mechanisms, Therapeutic Strategies, and Functional Precision Medicine.
- Advances in green-synthesized magnetic nanoparticles for targeted cancer therapy: mechanisms, applications, and future perspectives.
- SMURF2 in Anticancer Therapy: Dual Role in Carcinogenesis and Theranostics.
- Building Hybrid Pharmacometric-Machine Learning Models in Oncology Drug Development: Current State and Recommendations.
- Asciminib demonstrates superior efficacy and safety in newly diagnosed chronic myeloid leukemia in the ASC4FIRST trial.