Maximal blood flow acceleration analysis in the early diastolic phase for aortocoronary artery bypass grafts: a new transit-time flow measurement predictor of graft failure following coronary artery bypass grafting

Cerrito PB(1999)Neural network pattern recognition analysis of graft flow characteristics improves intraoperative anastomotic error detection in minimally invasive CABG Eur J Cardiothorac Surg 16 88-93

Koenig SC(2000)Graft revision after transit time flow measurement in off-pump coronary artery bypass grafting Eur J Cardiothorac Surg 17 287-293

Van Himbergen DJ(2010)Transit-time flow predicts outcomes in coronary artery bypass graft patients: a series of, 1000 consecutive arterial grafts Eur J Cardiothorac Surg 38 155-162

Jaber SF(1998)In vivo observations of the intramural arterioles and venules in beating canine hearts J Physiol 509 619-628

Ewert DL(2015)Maximal blood flow acceleration analysis in the early diastolic phase for in situ internal thoracic artery bypass grafts: a new transit-time flow measurement predictor of graft failure following coronary artery bypass grafting Interact Cardiovasc Thorac Surg 20 449-457

Spence PA(2009)Preliminary experience for the evaluation of the intraoperative graft patency with real color charge-coupled device camera system: an advanced device for simultaneous capturing of color and near-infrared images during coronary artery bypass graft Interact Cardiovasc Thorac Surg 9 150-154

D’Ancona G(2010)New device for intraoperative graft assessment: HyperEye charge-coupled device camera system Gen Thorac Cardiovasc Surg. 58 68-77

Karamanoukian HL(2015)Ultra-minimally invasive cardiac surgery: robotic surgery and awake CABG Surg Today 45 1-7

Ricci M(2005)Prediction of graft flow impairment by intraoperative transit time flow measurement in off-pump coronary artery bypass using arterial grafts Ann Thorac Surg 80 594-598

Schmid S(2006)Predictive value of intraoperative transit-time flow measurement for short-term graft patency in coronary surgery J Thorac Cardiovasc Surg 132 468-474

Cerrito PB(1999)Neural network pattern recognition analysis of graft flow characteristics improves intraoperative anastomotic error detection in minimally invasive CABG Eur J Cardiothorac Surg 16 88-93

Koenig SC(2000)Graft revision after transit time flow measurement in off-pump coronary artery bypass grafting Eur J Cardiothorac Surg 17 287-293

Van Himbergen DJ(2010)Transit-time flow predicts outcomes in coronary artery bypass graft patients: a series of, 1000 consecutive arterial grafts Eur J Cardiothorac Surg 38 155-162

Jaber SF(1998)In vivo observations of the intramural arterioles and venules in beating canine hearts J Physiol 509 619-628

Ewert DL(2015)Maximal blood flow acceleration analysis in the early diastolic phase for in situ internal thoracic artery bypass grafts: a new transit-time flow measurement predictor of graft failure following coronary artery bypass grafting Interact Cardiovasc Thorac Surg 20 449-457

Spence PA(2009)Preliminary experience for the evaluation of the intraoperative graft patency with real color charge-coupled device camera system: an advanced device for simultaneous capturing of color and near-infrared images during coronary artery bypass graft Interact Cardiovasc Thorac Surg 9 150-154

D’Ancona G(2010)New device for intraoperative graft assessment: HyperEye charge-coupled device camera system Gen Thorac Cardiovasc Surg. 58 68-77

Karamanoukian HL(2015)Ultra-minimally invasive cardiac surgery: robotic surgery and awake CABG Surg Today 45 1-7

Ricci M(2005)Prediction of graft flow impairment by intraoperative transit time flow measurement in off-pump coronary artery bypass using arterial grafts Ann Thorac Surg 80 594-598

Schmid S(2006)Predictive value of intraoperative transit-time flow measurement for short-term graft patency in coronary surgery J Thorac Cardiovasc Surg 132 468-474