Learning Curve of Thoracoscopic Nonrobotic Harvest of the Left Internal Mammary Artery in Minimally Invasive Coronary Artery Bypass Grafting
Ferdi Akca, Joost Ter Woorst
Abstract
Objective: Harvest of the left internal mammary artery (LIMA) is a technically demanding element of minimally invasive coronary surgery. We aimed to evaluate the learning curve of thoracoscopic, nonrobotic LIMA harvest during endoscopic coronary artery bypass (Endo-CAB) surgery. Methods: Eighty patients undergoing Endo-CAB surgery were included. LIMA harvest was performed using commonly available video-assisted thoracoscopic instruments. Time from incision until heparin administration was defined as total LIMA harvest time (this includes opening of the pericardium and identification of coronary targets). LIMA harvest times ( N = 80) and total procedure times for single-vessel grafting ( n = 51) were analyzed. Results: The mean LIMA harvest time was 58 ± 19 min, ranging from 15 to 113 min. The mean procedure time was 150 ± 39 min. Significant reductions in both LIMA harvest and total Endo-CAB procedure times were observed with increasing experience (logarithmic regression Y = 109 − 14.9*log(x), P < 0.001; Y = 227 − 24.4*log(x), P < 0.001, respectively). No damage to the LIMA occurred during thoracoscopic harvesting. Conclusions: Total thoracoscopic (nonrobotic) LIMA harvest is an efficient technique with a steep learning curve using routine instruments. More patients might benefit from minimally invasive coronary surgery using thoracoscopic LIMA harvest techniques.