Lecture 1 - Basics of Regeneration: Basics and Types
Lecture 2 - Regeneration, Wound Healing and Scar Formation in Different Regenerative Capacity
Lecture 3 - Regeneration: In Normal Life and Implications
Lecture 4 - Tissue Regeneration: Mammalian Context
Lecture 5 - Liver Regeneration: Signaling Events
Lecture 6 - Liver Regeneration: Mechanistic Insights
Lecture 7 - Regeneration: lessons from animal model Hydra
Lecture 8 - Mechanisms of regeneration in Hydra
Lecture 9 - Asexual Reproduction - Fragmentation. Morphallaxis, Epimorphosis, lessons from Hydra
Lecture 10 - Mechanisms of regeneration in Planaria
Lecture 11 - Planaria regeneration-polarity and gradient in regeneration
Lecture 12 - Planaria regeneration: Neoblasts and organ formation and Species type and environment
Lecture 13 - Position control genes and regeneration - Part A
Lecture 14 - Position control genes and regeneration - Part B
Lecture 15 - Progenitor targeting and ectopic organs
Lecture 16 - Tissue dedifferentiation, cellular reprograming into blastema Cellular types in regeneration. Neural crest cells in vertebrates
Lecture 17 - Totipotency, pluripotency, multipotency and unipotency, in regeneration context
Lecture 18 - Adult stem cells: Natural and induced and their roles in regeneration-zebrafish
Lecture 19 - Common cellular events during regeneration, embryonic development, and cancer
Lecture 20 - Epithelial to mesenchymal transition (EMT) and mesenchymal to epithelial transition (MET) in regeneration
Lecture 21 - Organ regeneration: Basics with examples
Lecture 22 - Zebrafish fin regeneration-in a brief
Lecture 23 - Zebrafish heart regeneration-in a brief
Lecture 24 - Zebrafish retina regeneration-in a brief
Lecture 25 - Spinal cord and brain regeneration-Conclusive mechanisms of regeneration
Lecture 26 - Cellular, Molecular and Genetic factors involved in retina regeneration
Lecture 27 - Detailed mechanisms of fin regeneration
Lecture 28 - Retina regeneration-importance of Shh signaling Roles of epigenetic factors and their involvement in regeneration
Lecture 29 - Importance of regeneration associated gene induction events-Transcription activators and repressors
Lecture 30 - Roles of different cellular signaling in regeneration: Examples- Wnt signaling
Lecture 31 - Different cellular signaling during regeneration-Overview
Lecture 32 - Different cellular signaling during regeneration. Examples- Jak-STAT and Fgf signaling
Lecture 33 - Different cellular signaling during regeneration-Egf, and Hippo signaling
Lecture 34 - Roles of Delta-Notch signaling during regeneration
Lecture 35 - Tgf-beta signaling during regeneration
Lecture 36 - Organ regeneration: An overview
Lecture 37 - Accessory limb model of regeneration: lessons from Axolotl and newt
Lecture 38 - Nerve-dependent regeneration-Axolotl and Newt
Lecture 39 - Roles of Histone deacetylases in regeneration of vertebrates like fishes and amphibians
Lecture 40 - Dynamics of immune system in organ regeneration
Lecture 41 - Extracellular matrix and its roles in tissue regeneration
Lecture 42 - Induced pluripotency and roles of iPFs during tissue Hox genes and homeotic transformation
Lecture 43 - Animal cloning: implications in regeneration
Lecture 44 - Embryonic stem cells, cord blood stem cells and adult stem cells
Lecture 45 - Ethics of stem cell research in regeneration studies, regenerative medicine and biotechnology
Lecture 46 - Tissue engineering-Why and how?
Lecture 47 - History of tissue engineering
Lecture 48 - Different steps in tissue engineering
Lecture 49 - Different aspects of organ culture
Lecture 50 - Major challenges in tissue engineering in practice
Lecture 51 - Tissue 3D printing and organ culture
Lecture 52 - Importance of scaffolds in tissue engineering
Lecture 53 - Stem cells for tissue engineering-Use of CRISPR-Cas9 for genome targeting
Lecture 54 - Types of adult stem cells and trans-differentiation for tissue engineering
Lecture 55 - Influence of niches and scaffolds on stem cells: An organ culture perspective
Lecture 56 - The basics of regeneration put into practice in vitro
Lecture 57 - Adhesion, migration and aggregation of stem cells
Lecture 58 - Artificial, liver, kidney and urinary bladder for transplantation in patients
Lecture 59 - Limbal stem cells and artificial cornea
Lecture 60 - Xenotransplantation vs organ culture in practice
Lecture 61 - Future implications of regeneration in mammals
Lecture 62 - Future implications of Organ culture in patient care
