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Under-sensing by a temporary pacemaker after cardiac surgery and ventricular fibrillation.
The Lancet. 399(10325), 677.
(2022).
2021 MiECTiS focused update on the 2016 position paper for the use of minimal invasive extracorporeal circulation in cardiac surgery.
Perfusion. 026765912211190.
(2022).
Minimal invasive extracorporeal circulation preserves coagulation integrity..
Perfusion. 267659121998544.
(2021).
From less invasive to minimal invasive extracorporeal circulation..
J Thorac Dis. 13(3), 1909-1921.
(2021).
‘Where there’s smoke, there’s fire’: near-infrared spectroscopy as a safeguard perioperative perfusion tool in cardiac surgery.
European Journal of Cardio-Thoracic Surgery.
(2021).
Perfusion matters, and it will always matter in cardiac surgery.
Perfusion. 026765912110251.
(2021).
Virtual 4th MiECT Symposium: Innovation and Future.
Perfusion. 36(7), 654 - 655.
(2021).
Virtual 4th MiECT Symposium: Innovation and Future..
Perfusion. 36(7), 654-655.
(2021).
Minimal invasive extracorporeal circulation preserves platelet function after cardiac surgery: a prospective observational study..
Perfusion. 35(2), 138-144.
(2020).
Point-of-care coagulation management during surgery with minimal invasive extracorporeal circulation..
J Thorac Dis. 11(Suppl 10), S1519-S1524.
(2019).
Minimal invasive extracorporeal circulation (MiECC): the state-of-the-art in perfusion..
J Thorac Dis. 11(Suppl 10), S1507-S1514.
(2019).
Quantification of Operational Learning in Minimal Invasive Extracorporeal Circulation..
Artif Organs. 41(7), 628-636.
(2017).
A multidisciplinary perioperative strategy for attaining "more physiologic" cardiac surgery..
Perfusion. 32(6), 446-453.
(2017).
Use of minimal invasive extracorporeal circulation in cardiac surgery: principles, definitions and potential benefits. A position paper from the Minimal invasive Extra-Corporeal Technologies international Society (MiECTiS)..
Interact Cardiovasc Thorac Surg. 22(5), 647-62.
(2016).
Minimal invasive extracorporeal circulation should become the standard practice in coronary revascularization surgery..
Eur J Cardiothorac Surg. 50(1), 189.
(2016).
Minimally Invasive Extracorporeal Circulation (MiECC): Towards a More Physiologic Perfusion..
J Cardiothorac Vasc Anesth. 30(2), 280-1.
(2016).
Implantation of a Novel Allogeneic Mesenchymal Precursor Cell Type in Patients with Ischemic Cardiomyopathy Undergoing Coronary Artery Bypass Grafting: an Open Label Phase IIa Trial..
J Cardiovasc Transl Res. 9(3), 202-13.
(2016).
Arterial Coronary Bypass Grafting: Targeting the Interventricular Septum..
J Am Coll Cardiol. 67(17), 2086-7.
(2016).
Minimally invasive extracorporeal circulation improves quality of life after coronary artery bypass grafting..
Eur J Cardiothorac Surg. 50(6), 1196-1203.
(2016).
Effectiveness of prophylactic levosimendan in patients with impaired left ventricular function undergoing coronary artery bypass grafting: a randomized pilot study..
Interact Cardiovasc Thorac Surg. 23(5), 740-747.
(2016).
MICS - MiECC: Can't have one without the other..
Perfusion. 31(5), 438-9.
(2016).
Modular minimally invasive extracorporeal circulation systems; can they become the standard practice for performing cardiac surgery?.
Perfusion. 30(3), 195-200.
(2015).
Evidence for neoangiogenesis in the ischemic human heart after mechanical support and autologous bone marrow stem cell implantation..
J Heart Lung Transplant. 34(9), 1208-10.
(2015).
A tribute to Viking O. Björk (1918-2009): a four-decade functioning Björk-Shiley aortic valve prosthesis..
Scand Cardiovasc J. 48(2), 67-8.
(2014).
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