Will previous palliative surgery for congenital heart disease be detrimental to subsequent pig heart xenotransplantation?

[1]  Luz A. Padilla,et al.  The Genetically Engineered Heart as a Bridge to Allotransplantation in Infants Just Around the Corner? , 2021, The Annals of thoracic surgery.

[2]  D. Cooper,et al.  The immune system in infants: Relevance to xenotransplantation , 2020, Pediatric transplantation.

[3]  D. Eckhoff,et al.  Old World Monkeys are less than ideal transplantation models for testing pig organs lacking three carbohydrate antigens (Triple-Knockout) , 2020, Scientific Reports.

[4]  N. Karlsson,et al.  Identification by mass spectrometry and immunoblotting of xenogeneic antigens in the N- and O-glycomes of porcine, bovine and equine heart tissues , 2020, Glycoconjugate Journal.

[5]  D. Cooper,et al.  The Role of SLAs in Xenotransplantation. , 2020, Transplantation.

[6]  Luz A. Padilla,et al.  ANTI-PIG ANTIBODY IN INFANTS: CAN A GENETICALLY-ENGINEERED PIG HEART BRIDGE TO ALLOTRANSPLANTATION? , 2020, The Annals of thoracic surgery.

[7]  D. Cooper,et al.  Human CTLA4-Ig therapy can give false-positive anti-pig antibody results in primates after xenotransplantation. , 2019, Transplant immunology.

[8]  A. Barnes,et al.  Outcomes of children with congenital heart disease implanted with ventricular assist devices: An analysis of the Pediatric Interagency Registry for Mechanical Circulatory Support (Pedimacs). , 2018, The Journal of heart and lung transplantation : the official publication of the International Society for Heart Transplantation.

[9]  D. Cooper,et al.  The Case for Cardiac Xenotransplantation in Neonates: Is Now the Time to Reconsider Xenotransplantation for Hypoplastic Left Heart Syndrome? , 2018, Pediatric Cardiology.

[10]  Rongfeng Li,et al.  Antigenicity of tissues and organs from GGTA1/CMAH/β4GalNT2 triple gene knockout pigs. , 2018, Journal of biomedical research.

[11]  Rongfeng Li,et al.  Reducing immunoreactivity of porcine bioprosthetic heart valves by genetically-deleting three major glycan antigens, GGTA1/β4GalNT2/CMAH. , 2018, Acta biomaterialia.

[12]  A. Oron,et al.  Comparison of Transplant Waitlist Outcomes for Pediatric Candidates Supported by Ventricular Assist Devices Versus Medical Therapy , 2018, Pediatric Critical Care Medicine.

[13]  C. McGregor,et al.  B4GALNT2 and xenotransplantation: A newly appreciated xenogeneic antigen , 2018, Xenotransplantation.

[14]  D. Eckhoff,et al.  Swine Leukocyte Antigen Class II Is a Xenoantigen , 2017, Transplantation.

[15]  P. Eghtesady,et al.  Outcomes of children supported with devices labeled as "temporary" or short term: A report from the Pediatric Interagency Registry for Mechanical Circulatory Support. , 2018, The Journal of heart and lung transplantation : the official publication of the International Society for Heart Transplantation.

[16]  L. Bailey,et al.  Neonatal heart transplantation. , 2018, Annals of cardiothoracic surgery.

[17]  C. Canter,et al.  Berlin Heart EXCOR use in patients with congenital heart disease. , 2017, The Journal of heart and lung transplantation : the official publication of the International Society for Heart Transplantation.

[18]  A. Throckmorton,et al.  Mechanical Circulatory Support Devices for Pediatric Patients With Congenital Heart Disease , 2017, Artificial organs.

[19]  M. Breimer,et al.  Characterization of immunogenic Neu5Gc in bioprosthetic heart valves , 2016, Xenotransplantation.

[20]  David Ayares,et al.  Human antibody recognition of xenogeneic antigens (NeuGc and Gal) on porcine heart valves: could genetically modified pig heart valves reduce structural valve deterioration? , 2016, Xenotransplantation.

[21]  P. Eghtesady,et al.  Outcomes of children implanted with ventricular assist devices in the United States: First analysis of the Pediatric Interagency Registry for Mechanical Circulatory Support (PediMACS). , 2016, The Journal of heart and lung transplantation : the official publication of the International Society for Heart Transplantation.

[22]  J. Jefferies,et al.  Pediatric heart transplant waiting list mortality in the era of ventricular assist devices. , 2014, The Journal of heart and lung transplantation : the official publication of the International Society for Heart Transplantation.

[23]  L. Rigatti,et al.  T-Cell-Based Immunosuppressive Therapy Inhibits the Development of Natural Antibodies in Infant Baboons , 2012, Transplantation.

[24]  H. Tai,et al.  Late onset of development of natural anti‐nonGal antibodies in infant humans and baboons: implications for xenotransplantation in infants , 2007, Transplant international : official journal of the European Society for Organ Transplantation.