Innovations : technology and techniques in cardiothoracic and vascular surgery
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Innovations (Phila) · Sep 2017
Case ReportsMinimally Invasive Redo Mitral Valve Replacement Using a Robotic-Assisted Approach.
Minimally invasive, robotic-assisted cardiac surgery has been shown to decrease transfusion rates, decrease wound infection rates, shorten hospital length of stay, and allow for a faster return to full activity compared with traditional sternotomy approaches. However, its application has chiefly been limited to primary, isolated procedures such as primary mitral valve repair or replacement. We describe the first reported use of a robotic surgery platform to perform reoperative mitral valve replacement using a minimally invasive, totally endoscopic, port-access approach.
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Innovations (Phila) · Sep 2017
Ultrafast Track Robotic-Assisted Minimally Invasive Coronary Artery Surgical Revascularization.
Contemporary anesthetic techniques have enabled shorter sedation and early extubation in off-pump and minimally invasive coronary artery bypass (CABG) surgery. Robotic-assisted CABG represents the optimal surgical approach for ultrafast track anesthesia, with patients able to bypass the cardiac surgical intensive care unit with recovery in the postanesthesia care unit (PACU) and inpatient ward. ⋯ In patients undergoing robotic-assisted CABG, ultrafast-track cardiac surgery with immediate postprocedure extubation and transfer to the inpatient ward has been demonstrated to be safe with no increase in perioperative morbidity or mortality. It requires a dedicated heart team with a carefully selected group of patients. Avoiding cardiac surgical intensive care unit expedites recovery, with possible avoidance of infection and early discharge from hospital.