Chang Kyoung Choi

Publications

Cullen, C., Taneja, K., Beyhan, S., Choi, C., Woloszynek, S., Convertino, M., McCoy, J., Zhang, Y., Anderson, J., Alvarez-Ponce, D., Smirnova, E., Karstens, L., Dorrestein, P., Li , H., Sen Gupta, A., Cheung, K., Powers, J., Zhao, Z., & Rosenwald, G. (2020). Emerging Priorities for Microbiome Research.. Frontiers in microbiology, 11 , 136.
Wang, S., Bruning, A., Jeon, O., Long, F., Alsberg, E., & Choi, C. (2018). An in-situ photocrosslinking microfluidic technique to generate non-spherical, cytocompatible, degradable, monodisperse alginate microgels for chondrocyte encapsulation.. Biomicrofluidics, 12 (1), 014106.
Wang, S., Bruning, A., Jeon, O., Long, F., Alsberg, E., & Choi, C. (2018). An in-situ photocrosslinking microfluidic technique to generate non-spherical, cytocompatible, degradable, monodisperse alginate microgels for chondrocyte encapsulation. Biomicrofluidics, 12 (1).
Wang, S., Jeon, O., Shankles, P., Liu, Y., Alsberg, E., Retterer, S., Lee, B., & Choi, C. (2016). In-situ photopolymerization of monodisperse and discoid oxidized methacrylated alginate microgels in a microfluidic channel. BIOMICROFLUIDICS, 10 (1).
Wang, S., Jeon, O., Shankles, P., Liu, Y., Alsberg, E., Retterer, S., Lee, B., & Choi, C. (2016). In-situ photopolymerization of monodisperse and discoid oxidized methacrylated alginate microgels in a microfluidic channel. Biomicrofluidics [19321058], 10 (1).
Wang, S., Jeon, O., Shankles, P., Liu, Y., Alsberg, E., Retterer, S., Lee, B., & Choi, C. (2016). In-situ photopolymerization of monodisperse and discoid oxidized methacrylated alginate microgels in a microfluidic channel. BIOMICROFLUIDICS, 10 (1).
Bhang, S., Jeon, O., Choi, C., Kwon, Yun Hee Kim, C., & Kim, B. (2007). Controlled release of nerve growth factor from fibrin gel. JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, 80A (4), 998-1002.
Cho, S., Jeon, O., Kim, J., Gwak, S., Kim, S., Choi, C., Kim, D., & Kim, B. (2006). Preliminary experience with tissue engineering of a venous vascular patch by using bone marrow-derived cells and a hybrid biodegradable polymer scaffold. JOURNAL OF VASCULAR SURGERY, 44 (6), 1329-1340.