|
|
Taiwan Academic Institutional Repository >
Browse by Title
|
Showing items 481191-481200 of 2348419 (234842 Page(s) Totally)
<< < 48115 48116 48117 48118 48119 48120 48121 48122 48123 48124 > >>
View [10|25|50] records per page
| 國家衛生研究院 |
2016-01 |
Hydroxyapatite-calcium sulfate-hyaluronic acid composite encapsulated with collagenase as bone substitute for alveolar bone regeneration
|
Subramaniam, S;Fang, YH;Sivasubramanian, S;Lin, FH;Lin, CP |
| 臺大學術典藏 |
2020-02-26T01:32:55Z |
Hydroxyapatite-calcium sulfate-hyaluronic acid composite encapsulated with collagenase as bone substitute for alveolar bone regeneration
|
Subramaniam, S.; Fang, Y.-H.; Sivasubramanian, S.; Lin, F.-H.; Lin, C.-P.; FENG-HUEI LIN |
| 臺大學術典藏 |
2021-07-26T06:52:53Z |
Hydroxyapatite-calcium sulfate-hyaluronic acid composite encapsulated with collagenase as bone substitute for alveolar bone regeneration
|
Subramaniam S.; Fang Y.-H.; Sivasubramanian S.; Lin F.-H.; CHUN-PIN LIN |
| 國立臺灣大學 |
2007 |
Hydroxychavicol, a Novel Betel Leaf Component, Inhibits Platelet Aggregation by Suppression of Cyclooxygenase, Thromboxane Production and Calcium Mobilization
|
張美姬; 汪炳鈞; 蔡長佑; 林伯儒; 陳羿貞; 蔡宜玲; 鄭景暉; CHANG, MEI-CHI; UANG, BIING-JIUN; TSAI, C-Y; LIN, BOR-RU; CHEN, YI-JANE; TSAI, YI-LING; JENG, JIIANG-HUEI |
| 國立臺灣大學 |
2007-09 |
Hydroxychavicol, a novel betel leaf component, inhibits platelet aggregation by suppression of cyclooxygenase, thromboxane production and calcium mobilization
|
Chang, M. C.; Uang, B. J.; Tsai, C. Y.; Wu, H. L.; Lin, B. R.; Lee, C. S.; Chen, Y. J.; Chang, C. H.; Tsai, Y. L.; Kao, C. J.; Jeng, J. H. |
| 臺大學術典藏 |
2021-07-08T01:23:52Z |
Hydroxychavicol, a novel betel leaf component, inhibits platelet aggregation by suppression of cyclooxygenase, thromboxane production and calcium mobilization
|
Chang M.C.; Uang B.J.; Tsai C.Y.; Wu H.L.; Lin B.R.; Lee C.S.; Chen Y.J.; Chang C.H.; Tsai Y.L.; Kao C.J.; JIIANG-HUEI JENG |
| 臺大學術典藏 |
2021-02-02T08:29:51Z |
Hydroxychavicol, a novel betel leaf component, inhibits platelet aggregation by suppression of cyclooxygenase, thromboxane production and calcium mobilization
|
Chang M.C.; Uang B.J.; Tsai C.Y.; Wu H.L.; BOR-RU LIN; Lee C.S.; Chen Y.J.; Chang C.H.; Tsai Y.L.; Kao C.J.; Jeng J.H. |
| 臺大學術典藏 |
2021-07-06T08:49:03Z |
Hydroxychavicol, a novel betel leaf component, inhibits platelet aggregation by suppression of cyclooxygenase, thromboxane production and calcium mobilization
|
Chang M.C.; Uang B.J.; Tsai C.Y.; Wu H.L.; Lin B.R.; Lee C.S.; Chen Y.J.; Chang C.H.; YI-LING TSAI; Kao C.J.; Jeng J.H. |
| 臺大學術典藏 |
2021-10-08T00:36:49Z |
Hydroxychavicol, a novel betel leaf component, inhibits platelet aggregation by suppression of cyclooxygenase, thromboxane production and calcium mobilization
|
Chang M.C.; Uang B.J.; Tsai C.Y.; Wu H.L.; Lin B.R.; Lee C.S.; YI-JANE CHEN; Chang C.H.; Tsai Y.L.; Kao C.J.; Jeng J.H. |
| 中山醫學大學 |
2021 |
Hydroxychloroquine Does Not Increase the Risk of Cardiac Arrhythmia in Common Rheumatic Diseases: A Nationwide Population-Based Cohort Study
|
Lo, CH; Wei, JCC; Wang, YH; Tsai, CF; Chan, KC; Li, LC; Lo, TH; Su, CH |
Showing items 481191-481200 of 2348419 (234842 Page(s) Totally)
<< < 48115 48116 48117 48118 48119 48120 48121 48122 48123 48124 > >>
View [10|25|50] records per page
|
