鈴诧笍 TIME: 9:00 AM CDT / 10:00 AM EDT / 3:00 PM BST / 4:00 PM CEST
IVIM Technology will host a webinar by Dr. Pilhan Kim (KAIST) on recent advances in skin disease research, including atopic dermatitis. The session will explore how intravital microscopy enables real-time imaging in living tissues providing new insights into disease mechanisms and therapeutic responses. Through practical research examples, we will highlight how advanced in vivo imaging can support skin disease research and drug development.
鈻讹笍 Who should attend
Pharmaceutical and biotech researchers working on skin disease drug development
Preclinical scientists using skin disease models & in vivo evaluation
Industry scientists focused on drug delivery & DDS technologies
Researchers interested in in vivo imaging for drug discovery
Pilhan Kim, Ph.D.
Professor, Graduate School of Medical Science and Engineering, KAIST
Dr. Kim specializes in in vivo imaging and intravital microscopy, developing advanced two-photon and confocal imaging techniques to enable real-time visualization of cellular dynamics and disease mechanisms.
IVIM Technology will host a webinar by Dr. Pilhan Kim (KAIST) on recent advances in skin disease research, including atopic dermatitis. The session will explore how intravital microscopy enables real-time imaging in living tissues providing new insights into disease mechanisms and therapeutic responses. Through practical research examples, we will highlight how advanced in vivo imaging can support skin disease research and drug development.
鈻讹笍 Who should attend
Pharmaceutical and biotech researchers working on skin disease drug development
Preclinical scientists using skin disease models & in vivo evaluation
Industry scientists focused on drug delivery & DDS technologies
Researchers interested in in vivo imaging for drug discovery
Pilhan Kim, Ph.D.
Professor, Graduate School of Medical Science and Engineering, KAIST
Dr. Kim specializes in in vivo imaging and intravital microscopy, developing advanced two-photon and confocal imaging techniques to enable real-time visualization of cellular dynamics and disease mechanisms.
