Integrated Precision in High-Risk Surgery: Bridging General Surgery, Neurosurgery, and Minimally Invasive Approaches

Abstract

Precision in high-risk surgical fields has evolved into a multidimensional paradigm that integrates technological innovation, advanced surgical techniques, and structured perioperative care. This review analyzes the translational principles shared between general surgery, neurosurgery, and minimally invasive approaches, with the aim of understanding how these elements interact to improve surgical outcomes. A structured integrative review was conducted using high-impact literature published from 2020 onward, focusing on key domains such as artificial intelligence, intraoperative monitoring, advanced visualization, laparoscopic and robotic surgery, and Enhanced Recovery After Surgery (ERAS) protocols. The findings demonstrate that precision in surgery is not determined by a single factor, but by the coordinated interaction of multiple components. Minimally invasive techniques serve as the structural foundation, while visualization technologies and intraoperative monitoring enhance real-time decision-making and safety. Artificial intelligence contributes to the standardization and support of surgical cognition, and perioperative protocols optimize recovery and reduce complications. Together, these elements form an integrated system that extends beyond the operating room and encompasses the entire surgical process. The review also highlights the adaptability of these principles across diverse healthcare settings, including regions such as Mexico, Colombia, and Ecuador, where variability in resources requires context-sensitive implementation. Ultimately, precision surgery is defined as a system-based approach that aligns technique, technology, and perioperative care to achieve optimal patient outcomes. This framework has important implications for clinical practice, surgical education, and future research.

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