Call for Abstract

13th International Conference on

Tissue Engineering & Regenerative Medicine

, will be organized around the theme “Exploring new Ideas in regenerative medicine to treat degenerative diseases”

Tissue Engineering 2018 is comprised of 14 tracks and 67 sessions designed to offer comprehensive sessions that address current issues in Tissue Engineering 2018.

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.

Tissue Engineering is a scientific field and also defined as understanding the principles of tissue and its growth by functional replacement of defective tissue for clinical use. Tissue engineering deals about the study of combination of cells, engineering, materials methods, physicochemical and biochemical factors to replace or improve biological tissues. Tissue Engineering involves the use of Scaffolds to form functional tissues and organs, which can be implanted back into the donor host with the use of many engineering and materials methods along with some physicochemical factors. It is related to more than one branch which applies engineering knowledge and life science concepts towards the development of biological substitutes which can improve or restore physiological characteristics of organ.


  • Track 1-1Tissue Biomarkers
  • Track 1-2Mechanobiology
  • Track 1-3In-Site Regeneration
  • Track 1-4Tissue Graft Tolerance
  • Track 1-5Bone Materials

Bio Material is a substance that has been designed to interact with biological systems for a medical purpose. Bio Materials are often used in medical applications to augment or replace a natural function. Bio Materials are used to create artificial organs for patients who need organ transplants. They are having many medical applications such as cancer therapy, orthopedic for joint replacements, bone plates, and ophthalmic applications in contact lenses, for wound healing in the form of surgical sutures, clips, nerve regeneration, in reproductive therapy as breast implants, etc.


  • Track 2-1Protein Analogs
  • Track 2-2Molecular Architecture
  • Track 2-3Bone Materials
  • Track 2-4Biomimetics
  • Track 2-5Nano Technology
  • Track 2-6Bio Degradable Materials

Scaffolds are the bio materials used   in the human body to regenerate the damaged tissues by combining cells from the body. Scaffolds  are used to support organs and organ systems that may have been damaged after injury or disease. These are created by using tissue culture along with regenerative medicine. Tissue Engineering involves the use of a Scaffold for the formation of new feasible tissue for a medical purpose.


  • Track 3-1Scaffold Designs
  • Track 3-2Bio Degradable Nano Fibre Scaffolds
  • Track 3-3Fabrication Of Scaffolds
  • Track 3-4Porous Scaffolds
  • Track 3-5Molecular Architecture

Stem Cells are the cells originate in all multi-cellular organisms. They are undifferentiated biological cells that can differentiate into specialized cells and can divide to produce more stem cells. Stem Cells have a capacity for self-renewal and capability of proliferation and differentiation to various cell lineages. In stem Cell therapy, or Regenerative Medicine, stem cells are used to repair, replace, or renew damaged cells including adult and embryonic stem cells.


  • Track 4-1Sources Of Stem Cells
  • Track 4-2Hard Tissue Repairs and Stem Cells
  • Track 4-3OrthopedicRepairs and Stem Cells
  • Track 4-4Medical Devices and Artificial Organs
  • Track 4-5Advancements In Biomedical and Tissue Engineering Techniques
  • Track 4-6Organ Transplantation and Its New Techniques
  • Track 4-7Recent Innovations In Regenerative And Tissue Engineering

Bio Medicine is a branch of medicinal science that arrangements with the capacity of people to endure natural burdens and varieties. Bio Medicine identifies with numerous different classes in wellbeing and organic fields and furthermore includes the investigation of physiological procedures with strategies from science and physiology. Uses of improvement and obsessive procedures in people, creatures and cell models are known as framework solution.


  • Track 5-1Bio Analysis Methods
  • Track 5-2Molecular Bio Medicine
  • Track 5-3Bio Medicine And Pharmacotherapy
  • Track 5-4Medical Biology
  • Track 5-5Applications In Bio Medicine

Cell Therapy is the transfer of cells into a patient and GeneTherapy is the introduction or alteration of genetic material within a cell or organism with an intention of curing the disease. In biomedical research cell and gene therapy are the overlapping fields with the goals of repairing the direct cause of genetic diseases in DNA or cellular population respectively. In the early-phase clinical trials of Cell and Gene Therapy products often involves the consideration of clinical safety issues, preclinical issues, and manufacturing and controls (CMC) issues that are encountered.


  • Track 6-1in-Vivo Gene Transfer
  • Track 6-2Ex-Vivo Gene Transfer
  • Track 6-3Gene doping
  • Track 6-4Allogeneic Cell Therapy
  • Track 6-5Applications Of Gene Therapy

Tissue Regeneration means regrowing or restoring the damaged or missing organ part from the remaining tissue. Many embryonic tissues, such as the spinal cord, heart, and limbs, have some regenerative potential and may utilize mechanisms that can be exogenously activated in adult tissues. By using similar molecular and cellular pathways embryonic development can be recapitulated by using Tissue Regeneration.


  • Track 7-1Regeneration Of Complex Tissues
  • Track 7-2Cell Interactions
  • Track 7-3Effects Of Guided Tissue Regeneration

Cancer Stem Cells are rare immortal cells within a tumor that can both self-renew by dividing and give rise to many cell types that constitute the tumors, and can therefore form tumors. These cells specially have the ability to give rise to all cell types found in a cancer sample. Cancer Stem Cells have been found in various types of human tumors and might be attractive targets for cancer treatment. Through the stem cell processes, Cancer Stem Cells generate tumors of self-renewal and differentiate into multiple cell types.


  • Track 8-1Cancer Immunotherapy
  • Track 8-2Cancer Genetics
  • Track 8-3Chemotherapy
  • Track 8-4Radiation And Surgical therapy

Bio Medical Engineering is the application of engineering principles in designing techniques and technology to medicine and biology for healthcare purposes .Biomedical techniques on tissue science and Regenerative Medicine are computer modeling, Tissue Mechanics, Bio patterning technology, Bio-inspired Computing to promote Tissue Regeneration. In the advancement of the health care treatment Bio Medical Engineering acts as a link between medicine and engineering combining the design and problem solving skills of engineering with medical biological sciences. Prominent applications of Bio Medical Engineering include the development of biocompatible prostheses, various diagnostic and therapeutic medical devices ranging from clinical equipment to micro-implants.


  • Track 9-1Molecular and Cellular Engineering
  • Track 9-2Tissue Engineering
  • Track 9-3Bio medicine
  • Track 9-4Bio Medical Instrumentation
  • Track 9-5Mechanobiology

Regenerative Rehabilitation is the mix of standards and methodologies from recovery and regenerative drug with an expectation of creating imaginative and conspicuous strategies that advance the reclamation of capacity through tissue recovery and repair. The real objective of regenerative recovery is to reestablish ordinary usefulness of deteriorated tissue by methods for joined cell and bioengineering advancements alongside physical modalities and exercise to enhance therapeutics.


  • Track 10-1Damaged Tissue Regeneration
  • Track 10-2rehabilitation Methods
  • Track 10-3Translating regeneration

Anti-Aging is also known as life extension science. It is the study of reversing the process of aging or slowing down of aging up to maximum lifespan. Anti-Aging Medicine is a clinical specialty based  on advanced biomedical technologies and scientific research application mainly focused on the early detection of causes, prevention of occurrence , treatment of aging-related disease ,reversal of age-related dysfunction, disorders  and diseases which is based on principles of sound and responsible medical care that are consistent with those  innovative science and research applied in other preventive health specialties to prolong the healthy lifespan of tissues in humans. 


  • Track 11-1Risks Of Anti Aging Medicine
  • Track 11-2Anti Aging Certifications
  • Track 11-3New Anti Aging Treatments

3D Bio Printing alongside tissue culture is vital for eventually understanding the maximum capacity of regenerative drug. It is the way toward making cell designs in a limited space where cell capacity and reasonability are protected inside the printed build. A co-found display delivers the advances and business items in the Tissue Engineering, 3D-BioPrinting and Bio creation fields and highlights organizations expansive and little. From a strategy point of view, this meeting tends to Tissue Engineering and in addition Bio creation and Bio printing as we investigate the most recent improvements in this field.


  • Track 12-1Importance Of 3D Bio Printing
  • Track 12-23D Printing For Life Science
  • Track 12-3Material Consideration For 3D Printing In Tissue Engineering

Tissue Engineering involves scientific areas such as cell biology, material science, chemistry, molecular biology, engineering and medicine. Tissue Engineering is emerging as a vibrant industry with a huge potential market includes genetic, biotechnology, cell and gene therapy market. Applications in view of the biomaterials, platforms, counterfeit organs, and separating cells consolidated to make a tissue building item address critical therapeutic needs, and the major application of Tissue Engineerings is found to be bio banking, treatment against rare and common diseases.


  • Track 13-1Cartilage Tissue Engineering
  • Track 13-2Bone Tissue Engineering
  • Track 13-3Bio Molecules
  • Track 13-4Regeneration Of Damaged Tissues
  • Track 13-5Cardiac Tissue Engineering

Regenerative Medicine is branch of translational research in tissue designing which manages the way toward supplanting, building or recovering human cells, tissues or organs to reestablish or set up typical capacity. It is a diversion changing range of prescription with the possibility to completely mend harmed tissues and organs, offering arrangements and seek after individuals who have conditions that today are destroyed. The instruments used to understand these results are tissue building, cell treatments, and restorative gadgets and manufactured organs.


  • Track 14-1Cellular Therapies
  • Track 14-2Organ Transplantation
  • Track 14-3Clinical Translation
  • Track 14-4Periodontal Therapy
  • Track 14-5Innovations Regenerative and Tissue Engineering
  • Track 14-6Medical Devices And Artificial Organs
  • Track 14-7Regenerative Medicine Approach
  • Track 14-8Dental Biomaterials