Sequential bone-marrow cell delivery of VEGFA/S1P improves vascularization and limits adverse cardiac remodeling after myocardial infarction in mice
Microvascular dysfunction and resulting tissue hypoxia is a major contributor to the
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
Sequential Bone-Marrow Cell Delivery of VEGFA/S1P Improves Vascularization and Limits Adverse Cardiac Remodeling After Myocardial Infarction in Mice
MM Żak, P Gkontra, C Clemente… - Human Gene Therapy …, 2019 - diposit.ub.edu
Microvascular dysfunction and resulting tissue hypoxia is a major contributor to the
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
Sequential Bone-Marrow Cell Delivery of VEGFA/S1P Improves Vascularization and Limits Adverse Cardiac Remodeling After Myocardial Infarction in Mice
MM Zak, P Gkontra, C Clemente… - Human Gene …, 2019 - infoscience.epfl.ch
Microvascular dysfunction and resulting tissue hypoxia is a major contributor to the
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
Sequential Bone-Marrow Cell Delivery of VEGFA/S1P Improves Vascularization and Limits Adverse Cardiac Remodeling After Myocardial Infarction in Mice
MM Żak, P Gkontra, C Clemente… - Human gene …, 2019 - pubmed.ncbi.nlm.nih.gov
Microvascular dysfunction and resulting tissue hypoxia is a major contributor to the
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
Sequential Bone-Marrow Cell Delivery of VEGFA/S1P Improves Vascularization and Limits Adverse Cardiac Remodeling After Myocardial Infarction in Mice.
MM Żak, P Gkontra, C Clemente, ML Squadrito… - Human gene …, 2019 - folia.unifr.ch
English Microvascular dysfunction and resulting tissue hypoxia is a major contributor to the
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
Sequential bone marrow-cell delivery of VEGFA/S1P improves vascularization and limits adverse cardiac remodeling after myocardial infarction in mice
MM Zak, P Gkontra, C Clemente, ML Squadrito… - 2019 - digital.csic.es
Microvascular dysfunction and resulting tissue hypoxia is a major contributor to the
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
[引用][C] Sequential Bone-Marrow Cell Delivery of VEGFA/S1P Improves Vascularization and Limits Adverse Cardiac Remodeling After Myocardial Infarction in Mice
MM Zak, P Gkontra, C Clemente… - Human Gene …, 2019 - produccioncientifica.ucm.es
Sequential Bone-Marrow Cell Delivery of VEGFA/S1P Improves Vascularization and Limits Adverse Cardiac Remodeling After Myocardial Infarction in Mice.
MM Żak, P Gkontra, C Clemente, ML Squadrito… - Human gene …, 2019 - sonar.ch
English Microvascular dysfunction and resulting tissue hypoxia is a major contributor to the
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
Sequential Bone-Marrow Cell Delivery of VEGFA/S1P Improves Vascularization and Limits Adverse Cardiac Remodeling After Myocardial Infarction in Mice.
MM Żak, P Gkontra, C Clemente, ML Squadrito… - Human Gene …, 2019 - europepmc.org
Microvascular dysfunction and resulting tissue hypoxia is a major contributor to the
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …
pathogenesis and evolution of cardiovascular diseases (CVD). Diverse gene and cell …