Efficient Anticancer Drug Delivery Using Nanocolloids Self-assembled with an Unconventional Amphiphile Bearing Pumpkin-Shaped Host Molecule
Efficient Anticancer Drug Delivery Using Nanocolloids Self-assembled with an Unconventional Amphiphile Bearing Pumpkin-Shaped Host Molecule
Asian J. Pharm. Sci., DOI: 10.1016/j.ajps.2024.101014
Sticky organisms create underwater biological adhesives driven by interactions between EGF- and GlcNAc- containing polysaccharides
Sticky organisms create underwater biological adhesives driven by interactions between EGF- and GlcNAc- containing polysaccharides
Structure-guided design and synthesis of C22- and C32-modified FK520 analogs with enhanced activity against human pathogenic fungi
Structure-guided design and synthesis of C22- and C32-modified FK520 analogs with enhanced activity against human pathogenic fungi
Proc. Natl. Acad. Sci. USA, DOI: 10.1073/pnas.2419883121
2025-01
바이오·의료융합
한빛사논문
정원우/upload/board/files/hbs_author/author_6/0047136_1.png(UNIST, Wake Forest Institute for Regenerative Medicine)정원우 / 한종혁 / 강현욱
Embedded Bioprinting of Breast Cancer-Adipose Composite Tissue Model for Patient-Specific Paracrine Interaction Analysis
Embedded Bioprinting of Breast Cancer-Adipose Composite Tissue Model for Patient-Specific Paracrine Interaction Analysis
Identifying Parkinson's disease and its stages using static standing balance
Identifying Parkinson's disease and its stages using static standing balance
Scalable production of uniform and mature organoids in a 3D geometrically-engineered permeable membrane
Scalable production of uniform and mature organoids in a 3D geometrically-engineered permeable membrane
Deciphering the effects of radiopharmaceutical therapy in the tumor microenvironment of prostate cancer: an in-silico exploration with spatial transcriptomics
Deciphering the effects of radiopharmaceutical therapy in the tumor microenvironment of prostate cancer: an in-silico exploration with spatial transcriptomics
IAMSAM: image-based analysis of molecular signatures using the Segment Anything Model
IAMSAM: image-based analysis of molecular signatures using the Segment Anything Model
Genome Biol., DOI: 10.1186/s13059-024-03380-x
2024-11
바이오·의료융합
한빛사논문
정원우/upload/board/files/hbs_author/author_6/0047136_1.png(UNIST, Wake Forest Institute for Regenerative Medicine)정원우 / 강현욱
Clinically Relevant and Precisely Printable Live Adipose Tissue-Based Bio-Ink for Volumetric Soft Tissue Reconstruction
Clinically Relevant and Precisely Printable Live Adipose Tissue-Based Bio-Ink for Volumetric Soft Tissue Reconstruction