KirklinJKPaganiFDKormosRLet al. Eighth annual INTERMACS report: special focus on framing the impact of adverse events. J Heart Lung Transplant2017; 36(10): 1080–1086.
2.
ThamsenBGraneggerMKertzscherU.Blood damage in ventricular assist devices. Int J Artif Organs2016; 39(4): 147–149.
3.
SelmiMChiuW-CChivukulaVKet al. Blood damage in left ventricular assist devices: pump thrombosis or system thrombosis?Int J Artif Organs. Epub ahead of print 24October2018. DOI: 10.1177/0391398818806162.
4.
GoubergritsLKertzscherULommelM.Past and future of blood damage modelling in a view of translational research. Int J Artif Organs. Epub ahead of print 3August2018. DOI: 10.1177/0391398818790343.
5.
RadleyGAliSPieperILet al. Mechanical shear stress and leukocyte phenotype and function: implications for ventricular assist device development and use. Int J Artif Organs. Epub ahead of print 26December2018. DOI: 10.1177/0391398818817326.
6.
LommelMAGoubergritsLAffeldKet al. Couette shearing device for the investigation of shear-induced damage of the primary hemostasis by left ventricular assist devices. Int J Artif Organs. Epub ahead of print 22October2018. DOI: 10.1177/0391398818802950.
7.
McNameeAPRichardsonKHorobinJet al. Susceptibility of density-fractionated erythrocytes to subhaemolytic mechanical shear stress. Int J Artif Organs. Epub ahead of print 3August2018. DOI: 10.1177/0391398818790334.
