Biblio
Journal: 18 Items
Prize: 4 Items |
Symposium: 15 Items
Technology Report: 0 Items |
Book: 1 Items
Project: 5 Items |
2023
2022
Symposium
Chang Ko-Tung*, MERTK+/hi M2c Macrophages Induced by Baicalin Alleviate Non-Alcoholic Fatty Liver Disease,
Prize
110學年度推動全英語授課課程績優教師,
Prize
指導研究生成果獎勵,
2021
Journal
Withholding of M-CSF Supplement Reprograms Macrophages to M2-Like via Endogenous CSF-1 Activation,
2019
Symposium
Yu-Chih Chen, Yin-Siew Lai, Chang Ko-Tung*, The Delayed and Long-Lasting Effect of M-CSF Consolidates M2 Macrophage Polarization and High PD-L1 expression,
Symposium
Yin-Siew Lai, Chang Ko-Tung*, The Delayed and Long-Lasting Effect of M-CSF Consolidates M2 Macrophage Polarization and High PD-L1 expression,
2018
Symposium
Yi-Chu Chen, Chang Ko-Tung*, Identification of C-terminal part of glutamate-ammonia-ligase adenyltransferase by RAPD-HRM with 3H primer for ubiquitous and pathogenic E. coli screening,
Symposium
Chun-Ting Pang, Chang Ko-Tung*, Tracking growth status of mouse embryonic epidermal cell line under oxidative stress damage using a real-time cell growth recorder,
2017
2016
2015
Symposium
Wang Yao-Nan, Chang Ko-Tung*, Developing a real-time fluorescence cell growth monitoring system,
Prize
指導研究生成果獎勵,
Prize
指導研究生成果獎勵,
2014
Symposium
Chang Ko-Tung*, Ginsenoside Rg1 improves bone marrow hematopoietic activity in cyclophosphamide-induced myelosuppression mice via extramedullary hematopoiesis of the spleen,
Symposium
Chang Ko-Tung*, Down-Regulation of c-Kit Receptor on Hematopoietic Cells By Stem Cell Factor (SCF; c-Kit-ligand): No Impact on Transplantation,
2013
Symposium
Hua-Xing Liu, Chang Ko-Tung*, Ginsenoside Rg1 increases bone marrow hematopoietic stem cells in cyclophosphamide-induced myelosupression mice via extramedullary hematopoiesis of the spleen,
Book
人體生理學,
2012
2010
Symposium
Forgacova Katarina, Ludek Sefc, Emanuel Necas*, Chang Ko-Tung, Transplantation Window Created by Bone Marrow Irradiation and Its Closure,
Symposium
Emanuel Necas*, Chang Ko-Tung, Mobilization with Cyclophosphamide Shift Hematopoiesis From the Bone Marrow
to the Spleen In Mouse,