NCHU Course Outline

Course Name	(中) 進階組織工程學(8050)
	(Eng.) Advanced Tissue Engineering
Offering Dept	Doctoral Program in Biotechnology Industrial Management and Innovation
Course Type	Elective	Credits	2	Teacher	田川陽一
Department	Doctoral Program in Biotechnology Industrial Management and InnovationPh.D	Language	English	Semester	2026-SPRING
Course Description	Advanced Tissue engineering is a biomedical engineering discipline that uses a combination of cells, engineering, materials methods, and suitable biochemical and physicochemical factors to restore, maintain, improve, or replace different types of biological tissues. The course here will involve from the basic concepts of cellular physiology and molecular biology to transgenic mouse and stem cell that already become tools for regenerative medicine.(Syllabus, teaching materials and assessment methods are all in English，密集課程，集中上課。)
Prerequisites				self-directed learning in the course	Y

Relevance of Course Objectives and Core Learning Outcomes(%)			Teaching and Assessment Methods for Course Objectives
Course Objectives	Competency Indicators	Ratio(%)	Teaching Methods	Assessment Methods
Advanced Tissue engineering is the core for regenerative medicine, the course would like to bring the students to understand the basic concepts and related molecule tools.			Discussion Lecturing	Written Presentation Attendance Assignment
Course Content and Homework/Schedule/Tests Schedule
Week Course Content Week 1 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 2 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 3 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 4 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 5 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 6 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 7 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 8 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 9 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 10 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 11 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 12 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 13 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 14 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 15 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) Week 16 March 2: 1 PM–5 PM (4 hours): Introduction to mammalian (human) tissues and organs, with a focus on the liver. (Classroom 104) March 23: 1 PM–5 PM (4 hours): General Tissue Structure and Cell Adhesion (Classroom 104) March 24: 1 PM–5 PM (4 hours): Molecular Biology for Tissue Engineering (Classroom 1111) March 25: 1 PM–5 PM (4 hours): Decellularization Technology for Regenerative Medicine (Classroom 1111) April 27: 1PM-5PM (4 hours): Stem Cells, ES/iPS Cells for Regenerative Medicine, and Bioethics (Classroom 104) April 28: 10 a.m.-5 p.m. (6 hours): Developmental engineering, including transgenic and gene knockout animals (Classroom 1111) April 29: 10 a.m.-3 p.m. (4 hours): 3Rs for animal testing and MPS, such as organoids and organ-on-a-chip. (Classroom 1111) April 29: 3 p.m.-5 p.m. (2 h): Exam (Classroom 1111) self-directed learning    03.Preparing presentations or reports related to industry and academia.
Evaluation
Interaction in the class 50% Report 50%
Textbook & other References
Principles of Tissue Engineering (Robert Lanza, ‎Robert Langer, ‎Joseph P. Vacanti · 2020)
Teaching Aids & Teacher's Website
ilearning
Office Hours
By Appointment
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