Intelligent medicine in focus: the 5 stages of evolution in robot-assisted surgery for prostate cancer in the past 20 years and future implications.
Jia-Kun LiTong TangHui ZongEr-Man WuJing ZhaoRong-Rong WuXiao-Nan ZhengHeng ZhangYi-Fan LiXiang-Hong ZhouChi-Chen ZhangZi-Long ZhangYi-Hang ZhangWei-Zhe FengYi ZhouJiao WangQi-Yu ZhuQi DengJia-Ming ZhengLu YangQiang WeiBai-Rong ShenPublished in: Military Medical Research (2024)
Robot-assisted surgery has evolved into a crucial treatment for prostate cancer (PCa). However, from its appearance to today, brain-computer interface, virtual reality, and metaverse have revolutionized the field of robot-assisted surgery for PCa, presenting both opportunities and challenges. Especially in the context of contemporary big data and precision medicine, facing the heterogeneity of PCa and the complexity of clinical problems, it still needs to be continuously upgraded and improved. Keeping this in mind, this article summarized the 5 stages of the historical development of robot-assisted surgery for PCa, encompassing the stages of emergence, promotion, development, maturity, and intelligence. Initially, safety concerns were paramount, but subsequent research and engineering advancements have focused on enhancing device efficacy, surgical technology, and achieving precise multi modal treatment. The dominance of da Vinci robot-assisted surgical system has seen this evolution intimately tied to its successive versions. In the future, robot-assisted surgery for PCa will move towards intelligence, promising improved patient outcomes and personalized therapy, alongside formidable challenges. To guide future development, we propose 10 significant prospects spanning clinical, research, engineering, materials, social, and economic domains, envisioning a future era of artificial intelligence in the surgical treatment of PCa.
Keyphrases
- robot assisted
- minimally invasive
- artificial intelligence
- big data
- prostate cancer
- coronary artery bypass
- current status
- machine learning
- mental health
- healthcare
- deep learning
- multiple sclerosis
- white matter
- coronary artery disease
- stem cells
- case report
- atrial fibrillation
- mesenchymal stem cells
- replacement therapy
- percutaneous coronary intervention
- resting state