Histotripsy: Recent Advances, Clinical Applications, and Future Prospects.

Histotripsy is a novel, non-invasive ultrasound-based ablative therapy that destroys tissue through focused cavitation. As solid tumors continue to be a major global health burden, there is interest in image-guided ablation techniques that reduce collateral damage and promote immune activation. This narrative review aims to synthesize current advancements, clinical applications, limitations, and future directions of histotripsy in both oncologic and non-oncologic contexts. A comprehensive literature search was conducted from database inception to July 2025. Search terms included combinations of subject headings and keywords such as "histotripsy," "mechanical ablation," "ultrasound," and "solid tumors." Boolean operators and truncation were used to increase sensitivity. Peer-reviewed studies were included, encompassing preclinical, clinical, and review articles. Reference lists of relevant articles were examined to identify additional sources. Histotripsy has shown strong potential in the treatment of tumors involving the liver, pancreas, kidney, brain, and cardiovascular system. It offers real-time imaging guidance, sharp lesion boundaries, and minimal damage to surrounding structures. Early clinical trials have demonstrated encouraging safety and efficacy, particularly in liver and kidney tumors. Its ability to preserve critical anatomy and stimulate innate and adaptive immune responses through the release of cellular debris and cytokines offers advantages over thermal ablation. Limitations include acoustic aberration, motion-related targeting challenges, and the need for further long-term clinical data. Histotripsy represents a promising advancement in noninvasive tumor ablation. Continued clinical investigation and technological refinement are necessary to validate its therapeutic value and define its role within comprehensive cancer care.