Impact of robot-assisted spine surgery on health care quality and neurosurgical economics: A systemic review
Brian Fiani 1, Syed A Quadri 2, Mudassir Farooqui 3, Alessandra Cathel 1, Blake Berman 1, Jerry Noel 1, Javed Siddiqi 1Affiliations expand
- PMID: 29611081
- DOI: 10.1007/s10143-018-0971-z
Abstract
Whenever any new technology is introduced into the healthcare system, it should satisfy all three pillars of the iron triangle of health care, which are quality, cost-effectiveness, and accessibility. There has been quite advancement in the field of spine surgery in the last two decades with introduction of new technological modalities such as CAN and surgical robotic devices. MAZOR SpineAssist/Renaissance was the first robotic system to be approved for the use in spine surgeries in the USA in 2004. In this review, the authors sought to determine if the current literature supports this technology to be cost-effective, accessible, and improve the quality of care for individuals and populations by increasing the likelihood of desired health outcomes. Robotic-assisted surgery seems to provide perfection in surgical ergonomics and surgical dexterity, consequently improving patient outcomes. A lot of data is present on the accuracy, effectiveness, and safety of the robotic-guided technology which reflects remarkable improvements in quality of care, making its utility convincingly undisputable. The technology has been claimed to be cost-effective but there seems to be lack of data in the literature on this topic to validate this claim. Apart from just the outcome parameters, there is an immense need of studies on real-time cost-efficacy, patient perspective, surgeon and resident learning curve, and their experience with this new technology. Furthermore, new studies looking into increased utilities of this technology, such as brain and spine tumor resection, deep brain stimulation procedures, and osteotomies in deformity surgery, might authenticate the cost of the equipment.
Keywords: Mazor robotics; Minimally invasive spine surgery; Neurosurgical economics; Robotic spine surgery.
https://link.springer.com/article/10.1007%2Fs10143-018-0971-z