[{"data":1,"prerenderedAt":27},["ShallowReactive",2],{"program-mechanobiology-in-epithelial-3d-98357":3},{"id":4,"name":5,"program":6,"department":7,"degree":8,"code":9,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":11,"years":10,"unit":12,"tuition":10,"startDate":10,"deadlineDate":10,"description":13,"add01Html":10,"universityId":14,"subjectAreaCode":8,"subjectAreaName":15,"subjectCode":16,"subjectName":17,"qsRank":18,"usNewsRank":18,"timesRank":18,"shanghaiRank":18,"dstatus":11,"createdTime":19,"updatedTime":20,"universityName":21,"unEnglishName":22,"unAbbreviation":23,"unQsRank":24,"unCode":25,"unCity":10,"universityCode":10,"countryCode":26},98357,"上皮3D组织构建中的力学生物学","Mechanobiology in Epithelial 3D Tissue Constructs","Institute of Molecular and Cellular Anatomy (MOCA), Uniklinik RWTH Aachen","3","mechanobiology-in-epithelial-3d-98357",null,1,"CNY","ME3T是一个专注于上皮3D组织构建中力学生物学的研究生院。它研究机械反馈循环如何决定细胞和组织在空间和时间上的功能和自组织。该项目旨在融合工程学、生物材料科学、生物物理学、细胞生物学和医学等学科，培养博士研究人员在国际环境中取得卓越成就。主要研究领域包括3D细胞组装中分化和侵袭的力学生物学、多层上皮的机械生理学和病理学、上皮与其直接环境之间的力学生物学交叉对话以及用于分析和指导上皮力学生物学的生物制造技术。",2478,"生命科学与医学","303","生物医学工程",0,"2025-10-25 13:04:08","2026-02-05 13:45:15","亚琛工业大学","RWTH Aachen University","RWTH","0","rwth","de",1772699377582]