Issue Date | Title | Author(s) | Relation | scopus | WOS | Fulltext/Archive link |
2016 | A Biocompatible Chemically Modified mRNA Drives Sustained VEGF-A Protein Production, Human Endothelial Angiogenesis and Epicardial Progenitor Expansion, and Reduces Infarct Size and Partially Reverses Global Cardiac Dysfunction When Intracardially Injected One Week Post-Myocardial Infarction in the Pig | Yen, Chris; Hsieh, PC | | | | |
2014 | A nanopatterned cell-seeded cardiac patch prevents electro-uncoupling and improves the therapeutic efficacy of cardiac repair. | Lin, YD; Ko, MC; Wu, ST; Li, SF; Hu, JF; Lai, YJ; Harn, HI; Laio, IC; Yeh, ML; Yeh, HI; Tang, MJ; Chang, KC; Su, FC; Wei, EI; Lee, ST; Chen, JH; Hoffman, AS; Wu, WT; Hsieh, PC | Biomaterials Science 2, 567-580 | | | |
2015 | A self-navigating drug delivery system for ischemic disease treatment | Wu, PJ; Cheng, B; Chen, P; Roffler, SR; Hsieh, PC | | | | |
2014 | Bcl3 Bridges LIF-STAT3 Signaling to Oct4 Transcription and DNA Binding Activity in the Maintenance of Naïve Pluripotency | Chen, CY; Hsieh, PC | | | | |
2015 | Bcl3 Bridges LIF-STAT3 to Oct4 Signaling in the Maintenance of Naive Pluripotency. | Chen, CY; Lee, DS; Yan, YT; Shen, CN; Hwang, SM; Lee, ST; Hsieh, PC | Stem cells 33(12), 3468-3480 | | | |
2012 | Biosafety of non-surface modified carbon nanocapsules as a potential alternative to carbon nanotubes for drug delivery purposes. | Tang, AC; Hwang, GL; Tsai, SJ; Chang, MY; Tang, ZC; Tsai, MD; Luo, CY; Hoffman, AS; Hsieh, PC | PloS one 7(3), e32893 | | | |
2020 | Chrysophanol Regulates Cell Death, Metastasis, and Reactive Oxygen Species Production in Oral Cancer Cell Lines | Hsu, PC; Cheng, CF ; Hsieh, PC; Chen, YH; Kuo, CY; Sytwu, HK | Evidence-based complementary and alternative medicine : eCAM 2020, 5867064 | | | |
2015 | Circulating cells contribute to cardiomyocyte regeneration after injury. | Wu, JM; Hsueh, YC; Ch’ang, HJ; Luo, CY; Wu, LW; Nakauchi, H; Hsieh, PC | Circulation research 116(4), 633-641 | | | |
2011 | Combined Delivery of Self-assembling Peptide Nanofibers and Vascular Endothelial Growth Factor (VEGF) Creates An Intramyocardial Microenvironment for Post-infarction Neovascularization | Lin, YD; Luo, CY; Hu, YN; Yeh, ML; Hsueh, YC; Springer, ML; Hsieh, PC | | | | |
2015 | Conjugated carbon nanocapsules | Hwang, GL; Tang, AC; Hsieh, PC | USA | | | |
2006 | Controlled delivery of PDGF-BB for myocardial protection using injectable self-assembling peptide nanofibers. | Hsieh, PC; Davis, ME; Gannon, J; MacGillivray, C; Lee, RT | The Journal of clinical investigation 116(1), 237-248 | | | |
2005 | Custom design of the cardiac microenvironment with biomaterials. | Davis, ME; Hsieh, PC; Grodzinsky, AJ; Lee, RT | Circulation research 97(1), 8-15 | | | |
2012 | DDA3 stabilizes microtubules and suppresses neurite formation. | Hsieh, PC; Chiang, ML; Chang, JC; Yan, YT; Wang, FF; Chou, YC | Journal of cell science 125(14), 3402-3411 | | | |
2015 | Defined MicroRNAs Promote the Maturation of Embryonic Stem Cells-Derived Cardiomyocytes | Lee, Desy S; Hsieh, PC | | | | |
2016 | Distribution of Systemically Administered Nanoparticles following Cardiac Ischemia-Reperfusion Injury Reveals a Size-Dependent Effect | Lundy, DJ; Hsieh, PC | | | | |
2014 | Early cardiomyocyte reprogramming-- A dynamic process | Cheng, YY; Lee, ST; Yan, YT; Hsieh, PC | | | | |
2015 | Early Reprogramming-derived Cocktail Increases Cardiomyocyte Proliferation for Heart Regeneration | Cheng, YY; Hsieh, PC | | | | |
2004 | Effect of nano-scale additions on the enhancement of superconductivity in Y-Ba-Cu-O materials | Chen, SY; Chen, IG; Hsieh, PC; Wu, MK | JOURNAL OF ELECTROCERAMICS13(1-3),857-863 | | | |
2006 | Endothelial-cardiomyocyte interactions in cardiac development and repair. | Hsieh, PC; Davis, ME; Lisowski, LK; Lee, RT | Annual review of physiology 68, 51-66 | | | |
2007 | Evidence from a genetic fate-mapping study that stem cells refresh adult mammalian cardiomyocytes after injury. | Hsieh, PC; Segers, VF; Davis, ME; MacGillivray, C; Gannon, J; Molkentin, JD; Robbins, J; Lee, RT | Nature medicine 13(8), 970-974 | | | |