Yamamoto Kiyotaka | Cell Biology Tokyo Metropolitan Institute Of Gerontology
スポンサーリンク
概要
関連著者
-
Ueda Seigo
Cardiovascular Adivision Toyo Metropolitan Geriatric Hospital
-
Ueda Seigo
Tokyo Metropolitan Geriatric Hospital
-
MORI Mayumi
Department of Hematology, Tokyo Metropolitan Geriatric Hospital
-
Mori Mayumi
Department Of Hematology Tokyo Metropolitan Geriatric Hospital
-
Mori Mayumi
Cardiovascular Adivision Toyo Metropolitan Geriatric Hospital
-
Matsushita Satoru
Cardiovascular Adivision, Toyo Metropolitan Geriatric Hospital
-
Yamamoto Kiyotaka
Cell Biology, Tokyo Metropolitan Institute of Gerontology
-
MATSUSITA Satoru
Tokyo Metropolitan Geriatric Hospital
-
Yamamoto Kiyotaka
Cell Biology Tokyo Metropolitan Institute Of Gerontology
-
Ozawa Toshio
Cardiovascular Adivision Toyo Metropolitan Geriatric Hospital
-
Matsushita Satoru
3rd Dept. Of Intern. Med. Faculty Of Med. Univ. Of Tokyo:the Yokufukai Geriatric Hosp.
-
Mori Mayumi
Department Of Anesthesiology School Of Medicine Fukuoka University
-
Mori Mayumi
Department Of Internal Medicine Tokyo Metropolitan Geriatric Hospital
-
Ueda Seigo
Cardiovascular Division Toyo Metropolitan Geriatric Hospital
-
Ozawa Toshio
Cardiovascular Adivision, Toyo Metropolitan Geriatric Hospital
-
Nagura Hirosi
Department of Internal Medicine, Tokyo Metropolitan Geriatric Hospital
-
Yamamoto Kiyotaka
Department of Cell Biology, Tokyo Metropolitan Institute of Gerontology
-
Matsusita Satoru
Cardiovascular Division, Toyo Metropolitan Geriatric Hospital
-
Ozawa Tosio
Cardiovascular Division, Toyo Metropolitan Geriatric Hospital
-
Matsushita Satoru
Cardiovascular Adivision Toyo Metropolitan Geriatric Hospital
-
Matsusita Satoru
Cardiovascular Division Toyo Metropolitan Geriatric Hospital
-
Yamamoto Kiyotaka
Department Of Cell Biology Tokyo Metropolitan Institute Of Gerontology
-
Nagura Hirosi
Department Of Internal Medicine Tokyo Metropolitan Geriatric Hospital
-
Ozawa Tosio
Cardiovascular Division Toyo Metropolitan Geriatric Hospital
著作論文
- PE-330 Diabetes Mellitus Promotes Platelet Reactive Oxygen Species (ROS) Production via NOS Uncoupling(Atherosclerosis, Clinical 6 (IHD) : PE56)(Poster Session (English))
- Diabetes Mellitus Decreases Endogenous NO Production and Increases Expression of Adhesive Molecules in Platelet of Elderly Patients