Tissue Regeneration
In the field of biology, regeneration is the progression of renewal, regeneration, and growth that makes it possible for genomes, cells, organ regeneration to natural changes or events that cause damage or disturbance. This study is carried out as craniofacial tissue engineering, in-situ tissue regeneration, adipose-derived stem cells for regenerative medicine which is also a breakthrough in cell culture technology. The study is not stopped with the regeneration of tissue where it is further carried out in relation with cell signalling, morphogenetic proteins. The initial step is rearrangement of pre-existing tissue followed by de-differentiation and trans-differentiation of the cells. This involves cells called stem cells which have the potential to regenerate themselves. There are intrinsic signals that activate stem cells to undergo regeneration when needed. There are amazing instances of tissue regeneration, for example heart regeneration in zebra fish. In humans, liver cells can regenerate themselves. But there are many cells and tissue that lack this ability. To help humans fight tissue damages in a better way tissue regeneration needs immediate attention. Researchers across the globe should come together to unleash the mystery of the signals and genetics that trigger regeneration in some tissues.
- Tissue biomarkers
- Tissue graft tolerance
- Photodynamic therapy
- Tissue mechanics & mechanobiology
- Histopathology
- Tissue biomarkers
- Tissue graft tolerance
- Photodynamic therapy
- Tissue mechanics & mechanobiology
- Histopathology
Related Conference of Tissue Regeneration
21th World Congress on Tissue Engineering Regenerative Medicine and Stem Cell Research
16th International Conference on Human Genetics and Genetic Diseases
19th International Conference on Genomics & Pharmacogenomics
Tissue Regeneration Conference Speakers
Recommended Sessions
- Advances in Stem Cell
- Applications of Tissue Engineering and Regenerative Medicine
- Biochips and Tissue Chips
- Biomarkers
- Biomaterials and Bioengineering
- Bioreactors in Tissue Engineering
- Bone and Cartilage Tissue Engineering
- Cancer Stem Cells
- Chemotherapy
- Clinical Medicine
- Clinical Trials with Stem Cells
- Cord Blood Stem Cells and Regenerative Medicine
- Immunotherapy
- Materials and Designs for Tissue Engineering
- Novel Approaches in Guided Tissue Regeneration
- Regeneration and Therapeutics
- Rejuvenation
- Scaffolds
- Stem Cell Engineering (SCE)
- Stem Cell Treatment for Diabetes
- Stem Cells-Tools to Battle Cancer
- Tissue Engineering and 3D Printing
- Tissue Regeneration
- Whole Organ Engineering and Approaches
Related Journals
Are you interested in
- Artificial Intelligence and Computational Biology in Regenerative Medicine - Stemgen 2026 (Japan)
- Biomaterials and Nanotechnology in Regenerative Medicine - Stemgen 2026 (Japan)
- Cancer Stem Cells and Oncology - Stemgen 2026 (Japan)
- Cardiovascular Regeneration - Stemgen 2026 (Japan)
- Clinical Trials and Translational Stem Cell Research - Stemgen 2026 (Japan)
- Ethical, Legal, and Social Implications in Stem Cell Research - Stemgen 2026 (Japan)
- Future Trends: Organoids, Bioengineering, and Next-Generation Therapies - Stemgen 2026 (Japan)
- Gene Editing and CRISPR Technologies - Stemgen 2026 (Japan)
- Induced Pluripotent Stem Cells (iPSCs) and Reprogramming - Stemgen 2026 (Japan)
- Mesenchymal Stem Cells (MSCs) in Therapy - Stemgen 2026 (Japan)
- Regenerative Dentistry and Craniofacial Applications - Stemgen 2026 (Japan)
- Regenerative Medicine and Tissue Engineering - Stemgen 2026 (Japan)
- Stem Cell Banking and Cryopreservation - Stemgen 2026 (Japan)
- Stem Cell Biology and Cellular Mechanisms - Stemgen 2026 (Japan)
- Stem Cells in Neurological and Neurodegenerative Disorders - Stemgen 2026 (Japan)