Unlike earlier innovations that focused on manipulation and task precision,the latest surgical advancements emphasize data visualization and the acceleration of surgeons’decision-making.Before entering the operating ...Unlike earlier innovations that focused on manipulation and task precision,the latest surgical advancements emphasize data visualization and the acceleration of surgeons’decision-making.Before entering the operating room,digital tools help surgeons develop patient-specific approaches,outline procedural steps,and prepare strategies for managing potential crises.During the operation,relevant data appear at the right moment to assist decision-making and guide performance in formats tailored to the surgeon’s physical and cognitive state,all without causing distractions.In the future operating room,performance data from surgeons will be gathered,integrated,and analyzed to interpret surgeons’behavior and confidence.Advanced techniques,including artificial intelligence,can be employed to automatically detect moments of performance difficulty or cognitive overload.As a result,digital surgery provides timely,context-specific assistance to surgeons in high-stakes situations.Key components of digital surgery are highlighted in this narrative review.展开更多
Advances in machine learning,computer vision and artificial intelligence methods,in combination with those in processing and cloud computing capability,portend the advent of true decision support during interventions ...Advances in machine learning,computer vision and artificial intelligence methods,in combination with those in processing and cloud computing capability,portend the advent of true decision support during interventions in real-time and soon perhaps in automated surgical steps.Such capability,deployed alongside technology intraoperatively,is termed digital surgery and can be delivered without the need for high-end capital robotic investment.An area close to clinical usefulness right now harnesses advances in near infrared endolaparoscopy and fluorescence guidance for tissue characterisation through the use of biophysics-inspired algorithms.This represents a potential synergistic methodology for the deep learning methods currently advancing in ophthalmology,radiology,and recently gastroenterology via colonoscopy.As databanks of more general surgical videos are created,greater analytic insights can be derived across the operative spectrum of gastroenterological disease and operations(including instrumentation and operative step sequencing and recognition,followed over time by surgeon and instrument performance assessment)and linked to value-based outcomes.However,issues of legality,ethics and even morality need consideration,as do the limiting effects of monopolies,cartels and isolated data silos.Furthermore,the role of the surgeon,surgical societies and healthcare institutions in this evolving field needs active deliberation,as the default risks relegation to bystander or passive recipient.This editorial provides insight into this accelerating field by illuminating the nearfuture and next decade evolutionary steps towards widespread clinical integration for patient and societal benefit.展开更多
Introduction: Iliac particulate cancellous bone and marrow (PCBM) is commonly used as a high-quality reconstruction material;however, PCBM cannot be extracted in sufficient amounts to meet demand. To determine the app...Introduction: Iliac particulate cancellous bone and marrow (PCBM) is commonly used as a high-quality reconstruction material;however, PCBM cannot be extracted in sufficient amounts to meet demand. To determine the appropriate amount of iliac PCBM to be collected, we used digital technology to measure the volume required for jaw reconstruction before surgery. Clinical Case: The patient, a 23-year-old man, underwent surgery for a calcifying odontogenic cyst. A maxillary cyst occupied the left anterior-premolar region (tooth 21 - 25) and the deciduous canine remained;a permanent canine was included in the cyst. We planned to preserve the teeth except for the impacted canine, completely excise the maxillary cyst, and preserve the alveolar ridge morphology. Preoperative digital imaging was used to determine the amount of alveolar ridge reconstruction required and accordingly determine the amount of iliac cancellous bone to be harvested. We used a titanium mesh tray and grafts of iliac particulate cancellous bone and marrow to reconstruct the alveolar ridge. The amount of iliac cancellous bone that needed to be collected was clarified and the supply amount could be collected in just the right amount;thus, the cortical bone of the iliac inner plate could be preserved. The alveolar bone morphology was reconstructed to allow the placement of dental implants as per the preoperative digital surgery. Three years after the operation, no sign of recurrence has been observed. Conclusion: Minimally invasive surgery was performed by clarifying the amount of iliac cancellous bone graft that needs to be harvested, which improved the accuracy of surgery.展开更多
Objective To create an unique new method of digital orthopedic surgery and widely apply to spinal surgery,treatment of bone and joint injuries,ligament reconstruction and repair,bone minor resection and reconstruction...Objective To create an unique new method of digital orthopedic surgery and widely apply to spinal surgery,treatment of bone and joint injuries,ligament reconstruction and repair,bone minor resection and reconstruction,serious bone and展开更多
文摘Unlike earlier innovations that focused on manipulation and task precision,the latest surgical advancements emphasize data visualization and the acceleration of surgeons’decision-making.Before entering the operating room,digital tools help surgeons develop patient-specific approaches,outline procedural steps,and prepare strategies for managing potential crises.During the operation,relevant data appear at the right moment to assist decision-making and guide performance in formats tailored to the surgeon’s physical and cognitive state,all without causing distractions.In the future operating room,performance data from surgeons will be gathered,integrated,and analyzed to interpret surgeons’behavior and confidence.Advanced techniques,including artificial intelligence,can be employed to automatically detect moments of performance difficulty or cognitive overload.As a result,digital surgery provides timely,context-specific assistance to surgeons in high-stakes situations.Key components of digital surgery are highlighted in this narrative review.
基金by Disruptive Technologies and Innovation Fund,Enterprise Ireland,Ireland.
文摘Advances in machine learning,computer vision and artificial intelligence methods,in combination with those in processing and cloud computing capability,portend the advent of true decision support during interventions in real-time and soon perhaps in automated surgical steps.Such capability,deployed alongside technology intraoperatively,is termed digital surgery and can be delivered without the need for high-end capital robotic investment.An area close to clinical usefulness right now harnesses advances in near infrared endolaparoscopy and fluorescence guidance for tissue characterisation through the use of biophysics-inspired algorithms.This represents a potential synergistic methodology for the deep learning methods currently advancing in ophthalmology,radiology,and recently gastroenterology via colonoscopy.As databanks of more general surgical videos are created,greater analytic insights can be derived across the operative spectrum of gastroenterological disease and operations(including instrumentation and operative step sequencing and recognition,followed over time by surgeon and instrument performance assessment)and linked to value-based outcomes.However,issues of legality,ethics and even morality need consideration,as do the limiting effects of monopolies,cartels and isolated data silos.Furthermore,the role of the surgeon,surgical societies and healthcare institutions in this evolving field needs active deliberation,as the default risks relegation to bystander or passive recipient.This editorial provides insight into this accelerating field by illuminating the nearfuture and next decade evolutionary steps towards widespread clinical integration for patient and societal benefit.
文摘Introduction: Iliac particulate cancellous bone and marrow (PCBM) is commonly used as a high-quality reconstruction material;however, PCBM cannot be extracted in sufficient amounts to meet demand. To determine the appropriate amount of iliac PCBM to be collected, we used digital technology to measure the volume required for jaw reconstruction before surgery. Clinical Case: The patient, a 23-year-old man, underwent surgery for a calcifying odontogenic cyst. A maxillary cyst occupied the left anterior-premolar region (tooth 21 - 25) and the deciduous canine remained;a permanent canine was included in the cyst. We planned to preserve the teeth except for the impacted canine, completely excise the maxillary cyst, and preserve the alveolar ridge morphology. Preoperative digital imaging was used to determine the amount of alveolar ridge reconstruction required and accordingly determine the amount of iliac cancellous bone to be harvested. We used a titanium mesh tray and grafts of iliac particulate cancellous bone and marrow to reconstruct the alveolar ridge. The amount of iliac cancellous bone that needed to be collected was clarified and the supply amount could be collected in just the right amount;thus, the cortical bone of the iliac inner plate could be preserved. The alveolar bone morphology was reconstructed to allow the placement of dental implants as per the preoperative digital surgery. Three years after the operation, no sign of recurrence has been observed. Conclusion: Minimally invasive surgery was performed by clarifying the amount of iliac cancellous bone graft that needs to be harvested, which improved the accuracy of surgery.
文摘Objective To create an unique new method of digital orthopedic surgery and widely apply to spinal surgery,treatment of bone and joint injuries,ligament reconstruction and repair,bone minor resection and reconstruction,serious bone and
