Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
Fanny Wulkan, Rocco Romagnuolo, Beiping Qiang, Tamilla Valdman Sadikov, Kyung-Phil Kim, Elya Quesnel, Wenlei Jiang, Naaz Andharia, Jill J Weyers, Nilesh R Ghugre, Bilgehan Ozcan, Faisal J Alibhai, Michael A Laflamm. Stem cell-derived cardiomyocytes expressing a dominant negative pacemaker HCN4 channel do not reduce the risk of graft-related arrhythmias. Frontiers in cardiovascular medicine. vol 11. 2024-07-24. PMID:39045008. |
stem cell-derived cardiomyocytes expressing a dominant negative pacemaker hcn4 channel do not reduce the risk of graft-related arrhythmias. |
2024-07-24 |
2024-07-26 |
human |
Yukihiro Saito, Kazufumi Nakamura, Masashi Yoshida, Hiroki Sugiyama, Satoshi Akagi, Toru Miyoshi, Hiroshi Morita, Hiroshi It. Enhancement of pacing function by HCN4 overexpression in human pluripotent stem cell-derived cardiomyocytes. Stem cell research & therapy. vol 13. issue 1. 2022-04-02. PMID:35365232. |
the aim of this study was to determine whether hcn4 overexpression in human induced pluripotent stem cell-derived cardiomyocytes (ipsc-cms) can strengthen the pacing function of the cells. |
2022-04-02 |
2023-08-13 |
mouse |
Yukihiro Saito, Kazufumi Nakamura, Masashi Yoshida, Hiroki Sugiyama, Satoshi Akagi, Toru Miyoshi, Hiroshi Morita, Hiroshi It. Enhancement of pacing function by HCN4 overexpression in human pluripotent stem cell-derived cardiomyocytes. Stem cell research & therapy. vol 13. issue 1. 2022-04-02. PMID:35365232. |
enhancement of pacing function by hcn4 overexpression in human pluripotent stem cell-derived cardiomyocytes. |
2022-04-02 |
2023-08-13 |
mouse |
Yukihiro Saito, Kazufumi Nakamura, Masashi Yoshida, Hiroki Sugiyama, Makoto Takano, Satoshi Nagase, Hiroshi Morita, Kengo F Kusano, Hiroshi It. HCN4-Overexpressing Mouse Embryonic Stem Cell-Derived Cardiomyocytes Generate a New Rapid Rhythm in Rats with Bradycardia. International heart journal. vol 59. issue 3. 2018-06-12. PMID:29628472. |
we previously reported hcn4 overexpression enhances pacemaking ability of mouse embryonic stem cell-derived cardiomyocytes (mesc-cms) in vitro. |
2018-06-12 |
2023-08-13 |
mouse |
Yukihiro Saito, Kazufumi Nakamura, Masashi Yoshida, Hiroki Sugiyama, Tohru Ohe, Junko Kurokawa, Tetsushi Furukawa, Makoto Takano, Satoshi Nagase, Hiroshi Morita, Kengo F Kusano, Hiroshi It. Enhancement of Spontaneous Activity by HCN4 Overexpression in Mouse Embryonic Stem Cell-Derived Cardiomyocytes - A Possible Biological Pacemaker. PloS one. vol 10. issue 9. 2016-05-24. PMID:26384234. |
enhancement of spontaneous activity by hcn4 overexpression in mouse embryonic stem cell-derived cardiomyocytes - a possible biological pacemaker. |
2016-05-24 |
2023-08-13 |
mouse |