AED
UAD Dirham
Code: AED
Industrial Program
Bioprinting: From Tissues to Organs
Printing the future of healthcare: Biofabrication from fundamentals to function.
Early access to e-LMS included
About This Course
This intensive program delves into the exciting world of bioprinting, exploring its potential to revolutionize regenerative medicine and drug development. Through a combination of lectures, workshops, and discussions, participants will gain a thorough understanding of the scientific principles, technical aspects, and future directions of this rapidly evolving field.
Aim
To equip participants with a comprehensive understanding of bioprinting technologies, their applications in tissue and organ regeneration, and the future landscape of this transformative field.
Program Objectives
- Understand the core principles and techniques of bioprinting.
- Explore the development of bioinks and their properties.
- Gain insights into cell selection, viability, and differentiation in bioprinting.
- Analyze the current state of bioprinting for tissue and organ engineering.
- Discuss the ethical considerations and challenges associated with bioprinting.
- Identify potential applications of bioprinting in drug discovery and personalized medicine.
Program Structure
Week 1: Foundations of Bioprinting and Biofabrication
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Principles of tissue engineering and regenerative biology
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Types of bioprinters: inkjet, extrusion, and laser-assisted
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Bioink properties and cell-material compatibility
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Structural design strategies: scaffolds, hydrogels, and biomimicry
Week 2: Cell Biology and Biomaterials in Bioprinting
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Cell sourcing, expansion, and differentiation
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Stem cells and induced pluripotent stem cells (iPSCs)
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Natural vs. synthetic biomaterials in tissue construction
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Vascularization and nutrient diffusion challenges
Week 3: 3D Printing for Functional Tissues and Organs
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Organ-specific printing: skin, cartilage, liver, heart prototypes
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Integration of sensors and smart biomaterials
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3D bioprinting with microfluidics and organ-on-chip systems
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Deep tech in simulation and model-based design
Week 4: Translational Pathways and Future Trends
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Clinical applications and preclinical validation pipelines
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Regulatory landscape: FDA, ISO, and GMP considerations
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AI and robotics in precision bioprinting
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Future outlook: 4D bioprinting, personalized organ fabrication
Who Should Enrol?
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Students & Postgraduates in Biotechnology, Biomedical Engineering, Tissue Engineering, or Regenerative Medicine
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PhD Scholars & Researchers in biomaterials, stem cells, or translational tissue science
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Industry Professionals in bioprinting, medtech, biotech R&D, and biofabrication
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Innovators & Tech Enthusiasts exploring AI-powered bioengineering, 3D/4D printing, or future-ready healthcare devices
Program Outcomes
- Acquire the knowledge and skills to critically evaluate bioprinting research and applications.
- Gain the ability to design and develop bioprinted constructs for specific biomedical needs.
- Understand the challenges and opportunities associated with bioprinting for tissue and organ regeneration.
- Identify potential career paths within the bioprinting industry.
Fee Structure
Standard: ₹8,998 | $198
Discounted: ₹4499 | $99
We accept 20+ global currencies. View list →
What You’ll Gain
- Full access to e-LMS
- Real-world dry lab projects
- 1:1 project guidance
- Publication opportunity
- Self-assessment & final exam
- e-Certificate & e-Marksheet
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