Slide 1: Title Slide. Slide 2: Introduction to Regenerative Medicine. Slide 3: Cell-Based Therapies. Slide 4: Introducing Stromal Vascular Fraction (SVF). Slide 5: Why Adipose Tissue?. Slide 6: Adipose Microenvironment. Slide 7: Composition of SVF. Slide 8: Adipose-Derived Stem Cells (ADSCs). Slide 9: Beyond Differentiation: Paracrine Effects. Slide 10: Biological Significance of SVF. Slide 11: The Need for SVF Isolation. Slide 12: Traditional Isolation Methods. Slide 13: Challenges of Traditional Methods. Slide 14: Introducing Adipose / SVF Collectors. Slide 15: Evolution of Isolation Technology. Slide 16: The Role of Automated Systems. Slide 17: Mechanism: Harvesting Integration. Slide 18: Mechanism: Processing the Lipoaspirate. Slide 19: Mechanical vs. Enzymatic Isolation in Collectors. Slide 20: Mechanism: Separation and Concentration. Slide 21: The Closed System Advantage. Slide 22: Key Features: Sterility and Safety. Slide 23: Key Features: Efficiency and Speed. Slide 24: Key Features: Standardization and Consistency. Slide 25: Key Features: User Interface and Ease of Use. Slide 26: The SVF Isolation Workflow with a Collector. Slide 27: From Lipoaspirate to SVF. Slide 28: Quality Control Considerations. Slide 29: Clinical Applications of SVF. Slide 30: Advantages of Using Adipose Collectors. Slide 31: Regulatory Landscape. Slide 32: Challenges and Considerations. Slide 33: Comparing Collector Systems. Slide 34: Case Study/Example (Conceptual). Slide 35: Technological Advancements. Slide 36: Future Outlook for SVF Therapy. Slide 37: Role of Adipose Collectors in the Future. Slide 38: Summary: SVF and Collectors. Slide 39: Advantages for Clinicians. Slide 40: Advantages for Patients. Slide 41: The Ecosystem of SVF Therapy. Slide 42: Investment in Technology. Slide 43: Conclusion: The Impact of SVF Collectors. Slide 44: Questions & Discussion