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Engineering
Biomedical Engineering
Biomaterials and Tissue Engineering
1. Introduction to Biomaterials and Tissue Engineering
2. Materials Science Fundamentals
3. Classes of Biomaterials
4. Cell Biology for Tissue Engineering
5. Cell Sources for Tissue Engineering
6. Extracellular Matrix
7. Growth Factors and Signaling
8. Biocompatibility and Host Response
9. Scaffold Design and Engineering
10. Bioreactor Systems
11. Characterization Methods
12. Tissue Engineering Applications
13. Drug Delivery Systems
14. Medical Device Applications
15. Regulatory and Clinical Translation
16. Emerging Technologies and Future Directions
4.
Cell Biology for Tissue Engineering
4.1.
Cell Structure and Function
4.1.1.
Cell Membrane
4.1.1.1.
Structure
4.1.1.2.
Transport Mechanisms
4.1.1.3.
Membrane Proteins
4.1.2.
Cytoskeleton
4.1.2.1.
Microfilaments
4.1.2.2.
Intermediate Filaments
4.1.2.3.
Microtubules
4.1.2.4.
Cellular Mechanics
4.1.3.
Organelles
4.1.3.1.
Nucleus
4.1.3.2.
Mitochondria
4.1.3.3.
Endoplasmic Reticulum
4.1.3.4.
Golgi Apparatus
4.1.3.5.
Lysosomes
4.1.4.
Cell Metabolism
4.1.4.1.
Glycolysis
4.1.4.2.
Cellular Respiration
4.1.4.3.
Protein Synthesis
4.2.
Cell Cycle and Division
4.2.1.
Cell Cycle Phases
4.2.1.1.
G1 Phase
4.2.1.2.
S Phase
4.2.1.3.
G2 Phase
4.2.1.4.
M Phase
4.2.2.
Cell Cycle Regulation
4.2.2.1.
Checkpoints
4.2.2.2.
Cyclins and CDKs
4.2.3.
Mitosis
4.2.4.
Meiosis
4.3.
Cell Death
4.3.1.
Apoptosis
4.3.1.1.
Pathways
4.3.1.2.
Regulation
4.3.1.3.
Detection Methods
4.3.2.
Necrosis
4.3.2.1.
Causes
4.3.2.2.
Characteristics
4.3.3.
Autophagy
4.4.
Cell Differentiation
4.4.1.
Mechanisms
4.4.2.
Transcription Factors
4.4.3.
Epigenetic Regulation
4.4.4.
Lineage Commitment
4.5.
Cell Communication
4.5.1.
Signal Transduction
4.5.2.
Cell-Cell Communication
4.5.3.
Growth Factor Signaling
4.5.4.
Mechanical Signaling
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5. Cell Sources for Tissue Engineering