| Title | Author(s) | Year | View Count |
 | Biocide resistance of Candida and Escherichia coli biofilms is associated with higher antioxidative capacities | Leung, CY; Chan, YC; Samaranayake, LP; Seneviratne, CJ | 2012 | 77 |
| Oral health promotion to elderly people with dementia | Chan, YC; Chu, CH; Lo, ECM | 2011 | 149 |
 | Automaticity And Conduction Properties Of Bioartificial Pacemakers Assessed In An In Vitro Monolayer Model | Tse, HF; Siu, DCW; Chan, YC; Wang, K; Li, RA | 2009 | 122 |
| Synergistic Effects of Inward Rectifier (IK1) and Pacemaker (If) Currents on The Induction of Bioengineered Cardiac Automaticity. | Chan, YC; Siu, DCW; Lau, YM; Lau, CP; Li, RA; Tse, HF | 2009 | 114 |
| Promotion Of Mouse Embryonic Stem Cell Differentiation Into Cardiomyocytes Via Electrical Stimulation | Chan, YC; Lee, YK; Siu, DCW; Tse, HF | 2009 | 115 |
| Synergistic Effects of Inward Rectifier (IK1) and Pacemaker (If) Currents on The Induction of Bioengineered Cardiac Automaticity. | Chan, YC; Siu, DCW; Lau, YM; Lau, CP; Li, RA; Tse, HF | 2009 | 138 |
| Distinct preferences of two human embryonic stem cell (hESC) lines to differentiate into chamber-specific cardiomyocytes and the underlying basis, as probed by electrophysiological and proteomic analyses. | Moore, JC; Fu, JD; Tran, H; Li, RA; Siu, DCW; Chan, YC; Lau, CP; Tse, HF; Chan, WY | 2008 | 96 |
| Electrophysiological Properties Of The Effect Of USPIO-Labeling On Embryonic Stem Cells | Chow, MKA; Chan, YC; Lau, YM; Cheung, JS; Chow, TY; Tse, HF; Wu, EX | 2008 | 150 |
| Electrophysiological properties of the effect of USPIO-labeling on embryonic stem cells | Chow, AM; Chan, YC; Lau, YM; Cheung, JS; Chow, TY; Tse, HF; Wu, EX | 2007 | 92 |
| Electrophysiological properties of the effect of USPIO-labeling on embryonic stem cells. | Chow, AM; Chan, YC; Lau, YM; Cheung, JS; Chow, TY; Tse, HF; Wu, EX | 2007 | 136 |
| Determination of magnetic labeling of SSPIO on effect of differentiation on D3 mouse embryonic stem cells. | Au, KW; Chan, YC; Lai, WHK; Yip, MCP; Lau, CP; Tse, HF | 2007 | 71 |
| Mechanistic Role Of “If” Shown By Atrial Automaticity Induction With Engineered Pacemaker (HCN) Channels - Possibility of Nodal Cell Bio-Engineering and Bio-Artificial Pacemaker Creation | Chan, YC; Siu, DCW; Lau, CP; Tse, HF; Li, RA | 2007 | 64 |
| Distinct cardiogenic preferences of two human embryonic stem cell (hESC) lines and the underlying basis probed by proteomic analyses: Implications for the need of additional hESC lines for disease-specific therapies. | Chan, YC; Moore, J; Fu, J; Tran, H; Lau, CP; Tse, HF; Li, RA | 2007 | 82 |
| Functional Role of If in Automaticity Induction via gene transfer of a bio-engineered Pacemaker Channel in Atrial Cardiomyocytes - Bigger is not always better | Chan, YC; Siu, DCW; Lau, CP; Li, RA; Tse, HF | 2007 | 93 |
| Mechanistic Role Of 'If' Shown By Atrial Automaticity Induction With Engineered Pacemaker (HCN) Channels: Is Nodal Cell Bio-Engineering Possible? | Chan, YC; Lieu, D; Lau, CP; Tse, HF; Li, RA; Siu, DCW | 2007 | 83 |
| Probing the Drug Binding Site in the Inner Pore Vestibule of The HCN-encoded Pacemaker Channels | Chan, YC; Wang, K; Au, KW; Lau, CP; Li, RA; Tse, HF | 2006 | 66 |
| Understanding The Cardiogenic Potential of Human Embryonic Stem Cells | Chan, YC; Moore, J; Tse, HF; Li, RA | 2006 | 78 |
| Feasibility of Nodal Cell Bio-engineering Shown by Automaticity in Guinea Pig Atrial Cardiomyocytes | Chan, YC; Siu, DCW; Lau, CP; Tse, HF; Li, RA | 2006 | 69 |
| Raloxifene relaxes rat pulmonary arteries and veins: Roles of gender, endothelium, and antagonism of Ca2+ influx | Chan, YC; Leung, FP; Yao, X; Lau, CW; Vanhoutte, PM; Huang, Y | 2005 | 91 |
| Regulation of vascular reactivity by periadventitial fat in rat small arteries | Ho, KW; Chan, YC; Wong, KM; Chan, FL; Yao, X; Gollasch, M; Vanhoutte, PMGR; Huang, Y | 2004 | 84 |
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