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Scientific Program
17th International Conference on Tissue Engineering & Regenerative Medicine, will be organized around the theme “Analyzing the Innovation & Future Trends in Regenerative Medicine”
Regenerative Medicine-2023 is comprised of 24 tracks and 4 sessions designed to offer comprehensive sessions that address current issues in Regenerative Medicine-2023.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
Insulin may be a vital hormone that's produced by the pancreas and helps to stay the body’s blood glucose (glucose) levels in restraint. Diabetes is caused when there's an imbalance of insulin within the body. Type 1 Diabetes: this is often usually diagnosed during childhood where the body makes little or no or no insulin. In conventional therapy, there's only how to take care of the proper levels of insulin with daily injections. Type 2 Diabetes: during this condition, the body becomes resistive to insulin and therefore the pancreas loses the potential to form enough insulin which is required to stay blood sugar levels normal. This is often actually because of incorrect diet, lack or exercise or being overweight. Most diabetics suffer from Type 2 Diabetes.
- Track 1-1Cell culture
- Track 1-2 Detection of Transcription Factor
- Track 1-3 Analysis of Insulin Gene Expression
- Track 1-4 Immunohistochemistry
- Track 1-5 Application of tissue engineering
- Track 2-1Tissue engineering
- Track 2-2Stem cell research
- Track 2-3Stem cell
- Track 2-4Tissue science
- Track 3-1Organ engineering
- Track 3-2Extracellular matrix
- Track 3-3Regenerative medicine
- Track 3-4Three-dimensional scaffold
- Track 3-5Tissue engineering
- Track 4-13D cell culture techniques and tools
- Track 4-2Commercialization and 3D cell culture
- Track 4-3Cell culture platforms
- Track 4-4Tissue engineering translation
- Track 4-5Advancements in tissue engineering
- Track 4-6Decellularization
- Track 5-1Scaffold Features for Tissue Engineering
- Track 5-2Significance of Tissue Engineering
- Track 6-1Axonal regeneration
- Track 6-2Stem cell transplantation
- Track 7-1Chondrogenesis
- Track 7-2B -Tissue Regeneration
- Track 7-3Mechanism of tissue regeneration
- Track 8-1Chemotherapy Side effects
- Track 8-2Purpose of chemotherapy
- Track 8-3Stages of cancer
- Track 9-1Stem cell research
- Track 9-2Stem cell biology
- Track 9-3cancer stem cell
- Track 9-4stem cell therapy
- Track 9-5Types of cancer
Biochips ask the entire fundamental functional unit, capable of performing multi biochemical tasks simultaneously. Tissue chips on the other hand are similar miniaturized units which can replace a tissue or some a neighborhood of it, enabling the organ to work normally. Both biochips & tissue chips have been elemental in tissue engineering technology and have proven to be of utmost importance in the same arena. DNA microarray also called as biochip in simple terms consists of a two dimensional grid system where upon sensors or solid flat substrates are incorporated. These solid substrates are often either charged a touch like silicon or glass or can also be consisting of integrated circuitry units that perform best in signal transduction studies. These kinds of microarrays have application in micromechanical studies.
- Track 10-1Protein chip
- Track 10-2Mass spectrometry
- Track 10-3Electrophoresis
- Track 10-4Surface enhanced laser
- Track 10-5Differential profiling
Bioreactors in Tissue Engineering a bioreactor may be a device that utilizations mechanical shall impact organic procedures. In tissue designing bioreactors are often utilized to assist within the in vitro advancement of latest tissue by giving biochemical and physical administrative signs to cells and urging them to experience separation also on create extracellular network before in vivo implantation. This section examines the necessity for bioreactors in tissue building, the varied sorts of bioreactor that exist, the methods by which they empower cells and therefore the way their usefulness is represented by the prerequisites of the actual tissue being built and the cell compose experiencing incitement.
- Track 11-1Bio reactor designs
- Track 11-2 Current challenges bioreactors
- Track 11-3 Future trends in bioreactors
There are many applications of Tissue engineering but majorly they're utilized in Organ Transplantation and biomedical cloning like Bio Artificial liver device, artificial pancreas, artificial bladders, and Cartilage. When there's damage in our body cells or organs we use tissue engineering techniques to beat the damage by replacing the old cell. There’s wide selection of Tissue Engineered product or materials which are wont to cure diseases in human and save life.
- Track 12-1Future scopes of tissue engineering
- Track 12-2In-vitro human models
- Track 12-3Advantages of bioreactor systems
Scaffolds are one among the three most vital essentials constituting the essential concept of Regenerative Medicine, and are included within the core technology of Regenerative Medicine. Every day thousands of surgical procedures are done to exchange or repair tissue that has been damaged through disease or trauma. The developing field of tissue engineering (TE) aims to regenerate damaged tissues by combining cells from the body with highly porous scaffold biomaterials, which act as templates for tissue regeneration, to guide the growth of new tissue. Scaffolds features a prominent role in tissue regeneration the designs, fabrication, 3D models, surface ligands and molecular architecture, nanoparticle-cell interactions and porous of the scaffolds are been utilized in the field in attempts to regenerate different tissues and organs within the body. The world somatic cell market was approximately 2.715 billion dollars in 2010, and with a rate of growth of 16.8% annually, a market of 6.877 billion dollars are going to be formed in 2016. From 2017, the expected annual growth rate is 10.6%, which would expand the market to 11.38 billion dollars by 2022.
- Track 13-1Biological scaffolds
- Track 13-2Biomaterials
- Track 13-3 Structure function relationship
- Track 13-4Biomarkers
- Track 13-5Myogenesis
- Track 13-6Spinal cord injury
Immunotherapy, also called biologic treatment, may be a quite disease treatment that lifts the body's common guards to battle the malignancy. It utilizes substances made by the body or during a research center to reinforce or re-establish safe framework work. Immunotherapy may go in these ways: Halting or abating the event of tumor cells, preventing malignancy from spreading to different parts of the body, helping the safe framework work better at crushing disease cells. There are several sorts of immunotherapy, including: Monoclonal antibodies, Non-specific immunotherapies, oncolytic virus therapy, T-cell therapy, Cancer vaccines
- Track 14-1 T cell transfer therapy
- Track 14-2 Monoclonal antibodies
- Track 14-3 Immune checkpoint inhibitors
- Track 14-4 Immune system modulators
Rejuvenation may be a medical discipline focused on the sensible reversal of the aging process. Rejuvenation is distinct from life extension. Life extension strategies often study the causes of aging and check out to oppose those causes so as to slow aging. Rejuvenation is that the reversal of aging and thus requires a special strategy, namely repair of the damage that's related to aging or replacement of damaged tissue with new tissue. Rejuvenation are often a way of life extension, but most life extension strategies don't involve rejuvenation.
- Track 15-1 Cell immortalization and senescence
- Track 15-2 Pluripotent stem cells
- Track 15-3DNA damage
- Track 15-4 Gene targeting
Some parts of our bodies can repair themselves quite well after injury, but others don’t repair in the least. We certainly can’t regrow an entire leg or arm, but some animals can regrow - or regenerate - whole body parts. Regeneration means the regrowth of a damaged or missing organ part from the remaining tissue. As adults, humans can regenerate some organs, like the liver. If a part of the liver is lost by disease or injury, the liver grows back to its original size, though not its original shape. And our skin is consistently being renewed and repaired. Unfortunately many other human tissues don’t regenerate, and a goal in regenerative medicine is to seek out ways to kick-start tissue regeneration within the body, or to engineer replacement tissues.
- Track 16-1Signaling
- Track 16-2Tissue engineering
- Track 16-3Biomaterials
Biomarkers, within the hands of clinical investigators, provide a dynamic and powerful approach to understanding the spectrum of diseases with obvious applications in analytic epidemiology, biomarkers and clinical research in disease prevention, diagnosis and disease management. Biomarkers have the extra potential to spot individuals vulnerable to particular diseases. This conference may be a podium that brings and shares collective knowledge and research explorations in biomarkers study. In the recent years, the knowledge about cancer biomarkers has increased largely providing an enormous potential for improving the management of cancer patients by improving the accuracy of detection and efficacy of treatment. Latest technological advancements have enabled the examination of the many possible biomarkers and renewed interest in developing new biomarkers. All such developments are often evidenced during this biomarker congress. Cancer Biomarkers, Molecular Biomarkers, Genomics biomarkers, Biomarkers in Clinical Research & Development, Biomarkers and Pathology
- Track 17-1 Evaluation of Biomarkers
- Track 17-2 Clinical endpoints
- Track 17-3 Tissue regeneration
Biomaterials are being utilized for the social insurance applications from old circumstances. In any case, consequent development has made them more flexible and has expanded their utility. Biomaterials have reformed the territories like bioengineering and tissue designing for the advancement of novel methodologies to battle perilous infections. Together with biomaterials, immature microorganism innovation is additionally being utilized to reinforce the present human services offices. These ideas and innovations are being utilized for the treatment of varied maladies like cardiovascular disappointment, cracks, profound skin wounds, then forth. Presentation of nanomaterial’s but is popping into a serious seek after a superior and an inexpensive social welfare. Mechanical headways are ongoing for the advancement of persistent observing and controlling glucose levels by the implantation of sensor chips.
- Track 18-1 Biodegradable scaffolds
- Track 18-2Novel strategies
- Track 18-3 Emergence of biomaterials
- Track 18-4 Diseases
- Track 18-5 Technological advancements
Stem cell treatments and clinical trials are happening for over 40 years; however we are still within the initial stages of somatic cell therapy being utilized as an efficient alternative treatment method to traditional pharmaceutical based treatments. Much of the first add somatic cell clinical trials focused on the general effectiveness and safety of the procedures involved. the first concern with any new treatment is that the future safety and standardization of results. There are countless journals and research papers focusing in on these clinical trials that have revealed promising results from these initial trials round the world.
- Track 19-1 Stem cell therapy
- Track 19-2 Stem cell techniques
Clinical medicine relates to medicine field that deals mainly with the study and practice of drugs supported the interrogation of the patient. In clinical medicine, medical practitioners assess patients so as to diagnose, treat, and stop disease
- Track 20-1High standards of medical care
- Track 20-2 Good clinical practice
- Track 20-3Current issues
- Track 20-4 Law and ethics
GTR are dental surgical procedures that use barrier membranes to direct the expansion of latest bone and gingival tissue at sites with insufficient volumes or dimensions of bone or gingiva for correct function, esthetics or prosthetic restoration.
- Track 21-1 Nano functionalization
- Track 21-2 Human mesenchymal stem cells
- Track 21-33D printing
Stem cell transplant is treatment in some sorts of cancers like leukemia, myeloma, or some sorts of lymphoma. Somatic cell transplantation is that the procedure that restores blood-forming stem cells in patients who have had theirs destroyed by the very high doses of chemotherapy or radiotherapy that are wont to treat certain cancers.
- Track 22-1 Stem cell transplantation
- Track 22-2Autologous stem cell
- Track 22-3 Allogenic stem cell
This interdisciplinary engineering has attracted much attention as a replacement therapeutic means may overcome the drawbacks involved within the current artificial organs and organ transplantation that are also aiming at replacing lost or severely damaged tissues or organs. Tissue engineering and regenerative medicine is an exciting research area that aims at regenerative alternatives to harvested tissues for organ transplantation with soft tissues. Although significant progress has been made within the tissue engineering field, many challenges remain and further development during this area would require on-going interactions and collaborations among the scientists from multiple disciplines, and in partnership with the regulatory and therefore the funding agencies. As a results of the medical and market potential, there's significant academic and company interest during this technology.
- Track 23-1 Tissue engineering applications
- Track 23-2 Cell culture
Recently, cord blood stems cells are developed within the treatment of various diseases, including a broad range of cancers, blood disorders, and genetic diseases. During a cord blood transplant, stem cells are infused in to a patient’s bloodstream for healing and repairing damaged cells and tissue. During a successful transplant, new healthy system has been created. The natural power and purity of newborn's cord blood are liable for healthy development during gestation. Cord blood applications have developed beyond transplant medicine into the areas of regenerative medicine including brain injuries, autism, Cardiac Problems, and Autoimmune Deficiencies. the newest research in routine transplantation of cord blood are reviewed followed by the critical role of cord blood stem cells in regenerative medicine research and novel approaches using cord blood as a source of blood for transfusion.
- Track 24-1 Therapy or transplantation
- Track 24-2 Stem cell and diseases
- Track 24-3 Stem cell niches
- Track 24-4Stem cell collection and preservation