Recent advances in the synthesis of anticancer pyrazole derivatives using microwave, ultrasound, and mechanochemical techniques

Pyrazole and its derivatives have attracted considerable attention in pharmaceutical and medicinal chemistry, as reflected in their presence in numerous FDA-approved drugs and clinical candidates. This review presents a comprehensive analysis of articles published between 2014 and 2024, focusing on the microwave-, ultrasound-, and mechanochemical-assisted synthesis of pyrazole derivatives with anticancer activity. It explores synthetic methodologies, anticancer efficacy, and molecular docking studies, underscoring the significance of pyrazole derivatives in drug discovery and medicinal chemistry. Notably, microwave irradiation stands out as the most widely employed technique, providing high efficiency by significantly reducing reaction times while maintaining moderate temperatures. Ultrasound irradiation serves as a valuable alternative, particularly for processes that require milder conditions, whereas mechanochemical activation, though less frequently employed, offers distinct advantages in terms of sustainability.