Data
Official data in SubjectManager for the following academic year: 2024-2025
Course director
Pongrácz Judit Erzsébet
professor,
Department of Pharmaceutical Biotechnology
Number of hours/semester
Lectures: 0 hours
Practices: 0 hours
Seminars: 14 hours
Total of: 14 hours
Subject data
- Code of subject: OBH-008-S
- 1 Credit
- Biotechnology MSc
- Specialty in Medical Biotechnology module
- autumn
OBH-008-E parallel
Course headcount limitations
min. 1 people – max. 50 people
Topic
The course material is designed to provide theoretical background to currently employed three dimensional tissue culture techniques including scaffold-based (biodegradable) and scaffold-free (tissue printing, pelleting and hanging-drop) systems. The course will detail the importance of the tissue microenvironment in normal and artificial tissue development. Directed cellular growth, organ formation for surgical implantation and drug target identification in human tissue systems and in vitro testing of pharmaceutical compounds in complex tissue systems are also part of the curriculum. The course will discuss the latest advances in technology and medicine for replacing tissues and organs damaged by disease and of developing therapies for previously untreatable conditions.
Lectures
Practices
Seminars
- 1. Basic principles of tissue engineering (TE). Characteristics of 2D and 3D cell cultures - Bóvári-Biri Judit
- 2. Cells and tissue types in tissue engineering: isolation, culturing and directed differentiation of different stem cells I. - Bánfai Krisztina
- 3. Cells and tissue types in tissue engineering: isolation, culturing and directed differentiation of different stem cells II. - Bánfai Krisztina
- 4. Characteristics and use of bioreactors - Bánfai Krisztina
- 5. Scaffolds and biomaterials in TE I. - Bóvári-Biri Judit
- 6. Scaffolds and biomaterials in TE II. - Bóvári-Biri Judit
- 7. Scaffold-free technologies used for the generation of aggregate cultures. I. - Bánfai Krisztina
- 8. Scaffold-free technologies used for the generation of aggregate cultures. II. - Bánfai Krisztina
- 9. Advanced tissue models using transwell inserts: methodology of Air-Liquid Interface (ALI) and Blood-Brain-Barrier (BBB) models. - Bóvári-Biri Judit
- 10. Hepatocyte models for drug induced liver injury I. - Bóvári-Biri Judit
- 11. Hepatocyte models for drug induced liver injury II. - Bánfai Krisztina
- 12. Tissue printing technologies I. - Bóvári-Biri Judit
- 13. Tissue printing technologies II. - Bóvári-Biri Judit
- 14. Test - Bóvári-Biri Judit
Reading material
Obligatory literature
Literature developed by the Department
Notes
Recommended literature
Pongracz & Keen: Medical Biotechnology, Elsevier, 2009
Joseph D. Bronzino: Tissue Engineering and Artificial Organs
Ali Khademhosseini (ed.): Micro- and Nanoengineering of the Cell Microenvironment, Technologies and Applications (Engineering in Medicine & Biology)
Challa S. S. R. Kumar (ed.): Tissue, Cell and Organ Engineering (Nanotechnologies for the Life Sciences)
W. Mark Saltzman: Tissue Engineering: Engineering Principles for the Design of Replacement Organs and Tissues
Robert Lanza, Robert Langer, Joseph Vacanti: Principles of Tissue Engineering, 3rd edition
Will W. Minuth, Raimund Strehl, Karl Schumacher: Tissue Engineering: From Cell Biology to Artificial Organs
Fen Ontaigne: Medicine by Design: The Practice and Promise of Biomedical Engineering, Forgacs & Newman, 2005.
Conditions for acceptance of the semester
Completion of seminars and practices
Mid-term exams
Every seminar will contain a fast, 10 min test.
Making up for missed classes
None
Exam topics/questions
The list of test questions correlates with the lecture and seminar titles.
Examiners
Instructor / tutor of practices and seminars
- Bóvári-Biri Judit
- Steinerbrunnerné Nagy Alexandra