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Radiofrequency ablation: mechanisms and clinical applications

Jianhua Wu, Zhiyuan Zhou, Yuanwen Huang, Xinyue Deng, Siting Zheng, Shangwen He, Genjie Huang, Binghui Hu, Min Shi, Wangjun Liao, Na Huang

2024MedComm41 citationsDOIOpen Access PDF

Abstract

Radiofrequency ablation (RFA), a form of thermal ablation, employs localized heat to induce protein denaturation in tissue cells, resulting in cell death. It has emerged as a viable treatment option for patients who are ineligible for surgery in various diseases, particularly liver cancer and other tumor-related conditions. In addition to directly eliminating tumor cells, RFA also induces alterations in the infiltrating cells within the tumor microenvironment (TME), which can significantly impact treatment outcomes. Moreover, incomplete RFA (iRFA) may lead to tumor recurrence and metastasis. The current challenge is to enhance the efficacy of RFA by elucidating its underlying mechanisms. This review discusses the clinical applications of RFA in treating various diseases and the mechanisms that contribute to the survival and invasion of tumor cells following iRFA, including the roles of heat shock proteins, hypoxia, and autophagy. Additionally, we analyze‌ the changes occurring in infiltrating cells within the TME after iRFA. Finally, we provide a comprehensive summary of clinical trials involving RFA in conjunction with other treatment modalities in the field of cancer therapy, aiming to offer novel insights and references for improving the effectiveness of RFA.

Topics & Concepts

Radiofrequency ablationMedicineTumor microenvironmentHeat shock proteinClinical trialCancer researchMetastasisCancer cellAblationAutophagyImmunogenic cell deathCancerHypoxia (environmental)Tumor cellsPathologyInternal medicineApoptosisChemistryOrganic chemistryOxygenBiochemistryGeneEndoplasmic Reticulum Stress and DiseaseHepatocellular Carcinoma Treatment and PrognosisAutophagy in Disease and Therapy
Radiofrequency ablation: mechanisms and clinical applications | Litcius