莊峻鍠
醫師
糖尿病、代謝症候群、甲狀腺及內分泌疾病
醫生資料
經歷
- 長庚大學醫學院醫學系教授
- 長庚紀念醫院內分泌暨新陳代謝科教授級主治醫師
- 長庚紀念醫院新陳代謝科主任
- 長庚紀念醫院營養治療科主任
- 長庚紀念醫院新陳代謝一科主任
- 美國Joslin Diabetes Center研究員及Harvard Medical School客座講師
- 長庚紀念醫院內分泌暨新陳代謝科主治醫師
- 美國Stanford University研究員
學會與認證
- 合格糖尿病衛教人員
- 內分泌暨新陳代謝科專科醫師
- 內科專科醫師
論文及期刊發表
- The Image–Histology Correlation of Subcutaneous mPEG-poly(Ala) Hydrogel-Embedded MIN6 Cell Grafts in Nude Mice.
- Magnetic resonance imaging of transplanted porcine neonatal pancreatic cell clusters labeled with exendin-4-conjugated manganese magnetism-engineered iron oxide nanoparticles.
- Exendin-4-conjugated manganese magnetism-engineered iron oxide nanoparticles as a potential magnetic resonance imaging contrast agent for tracking transplanted β-cells.
- Effectiveness of a problem-solving program in improving problem-solving ability and glycemic control for diabetics with hypoglycemia.
- Magnetic Resonance imaging of transplanted porcine neonatal pancreatic cell clusters labeled with chitosan-coated superparamagnetic iron oxide nanoparticles in mice.
- Noninvasive tracking of mPEG-poly(Ala) hydrogel-embedded MIN6 cells after subcutaneous transplantation in mice.
- Codelivery of sustainable antimicrobial agents and platelet-derived growth factor via biodegradable nanofibers for repair of diabetic infectious wounds.
- Enhancement of subcutaneously transplanted β cell survival using 3D stem cell spheroids with proangiogenic and prosurvival potential.
- In situ gelling-polypeptide hydrogel systems for the subcutaneous transplantation of MIN6 cells.
- Core-shell insulin-loaded nanofibrous scaffolds for repairing diabetic wounds.
- Nanofibrous vildagliptin-eluting stents enhance re-endothelialization and reduce neointimal formation in diabetes: in vitro and in vivo.
- Promoting vascular healing using nanofibrous ticagrelor-eluting stents.
- Oral nonviral gene delivery for chronic protein replacement therapy.
- An Intestinal "Transformers"-like Nanocarrier System for Enhancing the Oral Bioavailability of Poorly Water-Soluble Drugs.
- Porcine neonatal pancreatic cell clusters maintain their multipotency in culture and after transplantation.