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Innovate, Integrate & Motivate with Tissue Engineering and Regenerative Medicine
- Regenerative Medicine 2019


The success of the Regenerative Medicine 2019 has given us the prospect to bring the gathering one more time. Allied Academies hosted the “2nd Global Conference on Tissue Engineering and Regenerative Medicine, Stem Cell Research” during March 25-26, 2019 at Holiday Inn Amsterdam - Arena Towers, Amsterdam, Netherlands. The conference was focused on Tissue Engineering and Regenerative Medicine with the theme “Innovate, Integrate & Motivate with Tissue Engineering and Regenerative Medicine”. The meeting engrossed a vicinity of comprehensive discussions on novel subjects like Tissue Engineering, Regenerative Medicine, Stem Cell and its types, Scaffolds in Tissue Engineering, Biomaterilas3D Bioprinting Techniques and Bone Tissue Engineering etc.

The conference was embarked with an opening ceremony followed by Keynote sessions and followed by series of lectures delivered by both Honourable Guests and members of the Keynote forum. The adepts who promulgated the theme with their exquisite talk were:

  • David Capaldi, Rejuva Stem Cell Clinic, USA
  • Jim Engstrom, Cellink, Sweden
  • Ming Pei, West Virginia University, USA
  • Ralph Rogers, Rogers Regenerative Medicine Group, UK
  • Anne Rios, Princess Maxima Center of Paediatric Oncology, Netherlands
  • Rainer Fromknecht, Institute of Information and Energy Medicine, Germany

Allied Academies offers its heartfelt appreciation to Organizing Committee Members, dexterous of field, various outside experts, company representatives and is obliged to other eminent personalities who interlaced with Allied Academies and supported the conference in every aspect, without which the conference would not have been possible.

Your rejoinder is our inspiration; keeping this motto in mind and being witnessed the triumph of Regenerative Medicine 2018Allied Academies would like to announce the commencement of the “3rd Global Conference on Tissue Engineering and Regenerative Medicine, Stem Cell Research” during March 26-27, 2020 at Paris, France. We welcome all the eminent researchers, students and delegate participants to take part in this upcoming conference to witness invaluable scientific discussions and contribute to the future innovations in the fields of Tissue Engineering and Regenerative Medicine.


Tissue Engineering and Regenerative Medicine, Stem Cell Research extends the heartiest welcome to proficient delegates, scientists, professors, students, young researchers, business executives, scholars, chemists and professionals across the globe to be a part of  “2nd Global Conference on Tissue Engineering and Regenerative Medicine, Stem Cell Research", on March 25-26, 2019, to be held at Amsterdam, Netherlands. Keynote speech, exhibitions, oral and poster presentations outline the key attractions of the conference on the theme "Tissue Engineering and Regenerative Medicine, Stem Cell Research" towards Healing, Restoration and Anti-aging. 

Allied Academies organizes Tissue Engineering and Regenerative Medicine, Stem Cell Research conference along with 300+ Conferences across USA, Europe & Asia every year with support from 1000 more scientific societies and Publishes 400+ Open access journals which contain over 30000 eminent personalities as editorial board members.

Welcome Message

Regenerative Medicine 2019 extends the heartiest welcome to proficient delegates, scientists, professors, students, young researchers, business executives, scholars, chemists and professionals across the globe to be a part of  “2nd Global Conference on Tissue Engineering and Regenerative Medicine, Stem Cell Research” on March 25-26, 2019, to be held at Amsterdam, Netherlands. Keynote speech, exhibitions, oral and poster presentations outline the key attractions of the conference on the theme “Innovate, Integrate & Motivate with Tissue Engineering and Regenerative Medicine”.

Allied Academies organizes Tissue Engineering and Regenerative MedicineStem Cell Research conference along with 300+ Conferences across USA, Europe & Asia every year with support from 1000 more scientific societies and Publishes 400+ Open access journals which contain over 30000 eminent personalities as editorial board members.

We are pleased to invite you to join us at the Tissue Engineering and Regenerative Medicine, Stem Cell Research conference 2019, where you will be sure to have a meaningful experience with scholars from around the world. All members of the organizing committee look forward to meeting you in Amsterdam, Netherlands.

Scientific Sessions

Stem Cells
Scaffolds can be populated with adult-derived cells that are capable of undergoing subsequent differentiation after being cultivated in vitro. In this category are cells of the skin, cartilage, muscle,tendon, ligament, bone, adipose tissue, endothelium, and many others. Asidefrom skin, the foregoing cell types are harbored as stem cell populations in the marrow, in addition to those of the hematopoietic and immune systems, but the diversity of mesenchymal and possibly other cell types in the marrow still needs to be probed. Stimulating factors, the cytokines,which move some of the cells into the circulation, will be important for engineering Acellular Scaffolds. Other stem cells are available to Tissue Engineering, such as the satellite cells found in striated muscle and to some degree keratinocytes of the skin. Where host cells are available, an acellular scaffold, particularly one enhanced with signals and possessing the binding sites needed for cell attachment, can mobilize host cells that will populate the Prosthesis.

Tissue Engineering is an inter disciplinary course dealing with the building up of new Organs. It reveals us the truth that the nature can be imitated by the evaluation of tissue engineering. It substitutes the biological functions by replacing the replaced or damaged tissues by the combination of cells, organic materials and biochemical factors. It involves implantation, Restoration and regeneration of tissues. The main goal of tissue engineering is to develop the diseased or damaged tissues in a body or Cells attached to ECM (Extra Cellular Matrix).

  • Animal models of tissue regeneration
  • Intrinsic tissue regeneration
  • Guided tissue regeneration
  • Human tissue regeneration
  • In Silico tissue engineering

Related: Tissue Engineering Conference | Regenerative Medicine Congress | Tissue Engineering Meetings | Tissue Science Conferences | Regenerative Medicine Congress | Stem Cell Conferences | Tissue Engineering Events | Stem Cell Research Conferences

Related Associations & Societies: Tissue Engineering and Regenerative Medicine International Society, Maryland Stem Cell Research Commission, New York Stem Cell Foundation, NIH Stem Cell Centre, Norwegian Centre for Stem Cell Research, ScanBalt Stem Cell Research Network, Sheffield Centre for Stem Cell Biology
Regenerative Medicine
As we grow older our body parts fail to function in a normal way. Our current Medical Technology helps in regenerating the damaged body parts. Many species can regenerate by themselves. For example a Salomon can regrow its limbs, tails etc. whereas inhuman it is possible only for the liver to regenerate. Thus Regenerative Medicine promises the repair of body parts with their own living tissues by inculcating Scaffolds.

  • Molecular fundamentals of regeneration
  • Treatment models
  • Recapitulating tissue and organ structure 

Scaffolds are Biomaterials coated with our body cells reproducing cartilages, kidneys and even complex Organs like heart and lungs. Scaffolds are a potential to change the way we live. The type of composition depends on Tissue but involves

  • Structural protein- collagen, elastin
  • Adhesive protein- fibronectin, laminin
  • Proteoglycans including polysaccharides and glycosaminoglycans (GAGS) 

Biologic Tissues consist of the cells,the extracellular matrix (made up of a complex of cell secretions immobilized in spaces continuous with cells), and the signaling systems, which are brought into play through differential activation of Genes or cascades of genes whose secreted or transcriptional products are responsible for cueing tissue building and differentiation. The principal components of scaffolds (into which the extracellular matrix is organized in actual tissues) are collagen Biopolymers, mainly in the form of fibers and fibrils. Other forms of polymer organization have also been used (gels, foams, and membranes)for engineering tissue substitutes. The various forms can be combined in the laboratory to create imitations of biopolymer organization in specific tissues. Scaffolds can be enriched with signaling molecules,which may be bound to them or infused into them.

  • Cell seeding
  • Hydrogels
  • Cell encapsulation and micro encapsulation
  • Biopolymers
  • Biomaterials
  • Cell sheets

The use in Animal models and in humans of complex allogeneic and xenogeneic tissues, depleted of their living cells is by freezing or other methods, has been shown to be immunologically acceptable without the use of  Immunosuppressants. It is known from studies in experimental animals and humans that acellular allogeneic and tissues, many available through tissue banks, is becoming well established. Further, the growing xenogeneic implants have been accepted by their hosts. Acellular collagen matrices,in the form of foams with and without bone precursor minerals, have been usedas vehicles for delivering a variety of  Bone

  • Morphogenetic proteins
  • Prosthesis based breast reconstruction
  • Acellular dermal matrices
  • Soft tissue replacement

The field of Regenerative Medicine encompasses numerous strategies, including the use of materials and the novogenerated cells, as well as various combinations thereof, to take the place of missing tissue, effectively replacing it both structurally and functionally, or to contribute to Tissue healing. The body's innate healing response may also be leveraged to promote regeneration, although adult human spossess limited regenerative capacity in comparison with lower vertebrates.This review will first discuss regenerative medicine therapies that have reached the Market. Preclinical and early clinical work to alter the physiological environment of the patient by the introduction of materials,living cells, or growth factors either to replace lost tissue or to enhance the body's innate healing and repair mechanisms will then be reviewed. Strategies for improving the structural sophistication of  Implantable Grafts  and effectively using recently developed cell sources will also be discussed.

The formation of a 3-dimensional Structure of  Biomaterials is known as the 3D printing. According to thenumber of dimensions in nano-scale, the Biomaterials are of three types- 3D (nano-particle), 2D (i.e. nano-fiber), and 1D(nano-sheet). 3-D Bio Printing is the creation of various cell patterns by using printing techniques along with the layer-by-layer method to form tissue mimetic structures without any loss in cell function that can be further used in Tissue Engineering. Bio printing helps in the research of drugs and pills by printing tissues and Organs.  It is also used for micro-devices and micro arrays. The 3D printing materials market is expected to reach USD 1,409.5 Million by 2021 from USD 580.1 Million in 2017, at a CAGR of 22.60%.

  • High-energy handling of biomaterials
  • Electro Spinning and Allied Technologies
  • In 3D Bio-printing
  • Layer-by-layer: 1, 2 and 3D Nano Assembly
  • Hierarchical Three Dimensional Structures 
Related: Biosensor Meetings | Mesenchymal Stem Cells Conferences | Drug discovery Symposia | Skin Stem Cells Congress | Tumour Immunology Conferences | Molecular Genetics Congress | Cell Cycle Meetings | Molecular Medicine Conferences
Regenerative Medicine Market
There are strong pricing pressures from public healthcare payers globally as Governments try to reduce budget deficits. Regenerative Medicine could potentially save public health bodies money by reducing the need for long-term care and reducing associated disorders, with potential benefits for the world economy as a whole. The global market for Tissue Engineering and regeneration products reached $55.9 billion in 2010, is expected to reach $59.8 billion by 2011, and will further grow to $89.7 billion by 2016 at a compounded annual growth rate (CAGR) of 8.4%.  It grows to $135 billion to 2024. The contribution of the European region was 43.3% of the market in 2010, a value of $24.2 billion. The market is expected to reach $25.5 billion by 2011 and will further grow to$36.1 billion by 2016 at a CAGR of 7.2%. It grows to $65 billion to 2024. 

Related Associations & Societies:  The Centre for Stem Cell and Regenerative Medicine, The American Society of Gene & Cell Therapy, Texas Heart Institute and Stem Cells, UK Stem Cell Bank, The Scottish Stem Cell Network, The Swiss Stem Cell Network, Tiantan Puhua Stem Cell Centre, The New South Wales Stem Cell Network

Bone Tissue Engineering
Tissue building of musculature tissues, especially bone and ligament, is an emerging field. In bone,innovation has focused on bone graft materials and the advancement of biodegradable frameworks. Tissue designing methodologies has included cell and Gene Therapy.

Related: Tissue Engineering Conferences | Cell Biology Conferences | Regenerative Medicine Conferences | Tissue Science Congress | Tissue Engineering Workshop | Tissue Engineering Symposia | Regenerative Medicine Workshop | Stem Cell Conferences | Hematology Conferences | Tissue Culture Meetings

3D Bio-printing Techniques
The 3D Bio-printing uses techniques to combine the cells, growth factors and Bio materials to reach the maximum imitation. It can print tissues, Organs to incorporate drugs and pills and even scaffolds. It has found a massive use in the field of Regenerative Medicine.
  • Pre-bioprinting
  • Post-bioprinting
  • Biomimicry
  • Mini-tissue
  • Autonomous self-assembly

Organ Engineering
The transplantation of a whole organ with new therapeutic means that may overcome the Drawbacks involved in the current Artificial Organs.  It is an exciting  Research Area that aims at Regenerative Alternatives to harvested tissues for organ transplantation with soft tissues. As a result ofthe medical and market potential, there is significant academic and corporate interest in this technology.

  • Cellular Interactions
  • Hybrid artificial organs
  • Modeling of Organs
  • Microbial Sterilization
  • Microbial Decontamination 

Tissue Engineering has been defined for little more than a decade. Much still needs to be learned and developed to provide a firm scientific basis for Therapeutic Application. Upto date, much of the progress in this field has been related to the development of model systems, which have suggested a variety of approaches.Also, certain principles of cell biology and tissue development have been delineated. The field can draw heavily on the explosion of new knowledge from several interrelated well-established disciplines, and, in turn, may promote the coalescence of relatively new, related fields to achieve their potential.The rate of new understanding of complex living systems has been explosive in the past three decades. Tissue engineering can draw on the knowledge gained in the fields of cell biology, biochemistry, and molecular biology and apply it to the engineering of new tissues. Likewise,advances in  Materials Science, chemical engineering,and Bioengineering allow the rational application of engineering principles to living systems. Yet another branch of related knowledge is the area of human therapy as applied by surgeons and physicians.

Stem Cell Transplant
Stem Cell Transplantation is a system that is regularly suggested as a treatment choice for individuals with leukemia, different myeloma, and a few sorts of lymphoma. It might likewise be utilized to treat some hereditary sicknesses. In this process diseased bone marrow (the springy, greasy tissue found inside bigger bones) is treated with Chemotherapy as well as radiation Treatment and afterwards replaced with the stem cells. 

Related Associations & Societies:  Society for Hematology and Stem Cells, Stem Cell Action Network, Stem Cell Clinical Trials, Stem Cell Network, Stem Cell Network North Rhine-Westphalia, Stem Cell Society Singapore, Student Society for Stem Cell Research, Taiwan Society for Stem Cell Research

Embryonic Stem Cells
Embryonic Stem Cells can develop (i.e. separate) into all subsidiaries of the three essential germ layers: ectoderm, endoderm and mesoderm which make them Pluripotent. As such, they can form into each of the more than 200 cell sorts ofthe grown-up body as long as they are indicated to do as such. They are recognized by two particular properties: their pluri potency, and their capacity to duplicate.

T-Cell Therapy

A type of treatment in which a patient's T cells (a type of immune system cell) are changed in the laboratory so they will attack cancer cells. T cells are taken from a patient’s blood. Then the gene for a special receptor that binds to a certain protein on the patient’s cancer cells is added in the laboratory. The special receptor is called a chimeric antigen receptor (CAR). Large numbers of the CAR T cells are grown in the laboratory and given to the patient by infusion. CAR T-cell therapy is being studied in the treatment of some types of cancer. Also called chimeric antigen receptor T-cell therapy.

Applications in Regenerative Medicine and Tissue Engineering
Advancements in gene editing and Tissue Engineering technology have endorsed the ex vivo remodeling of stem cells grown into 3D Organoids and tissue structures for personalized applications. This review outlines the most recent advancement in transplantation and tissue engineering technologies of ESCs, TSPSCs, MSCs,UCSCs, BMSCs, and iPSCs in Regenerative Medicine. Additionally, this review also discusses stem cells regenerative application in wildlife conservation.

  • Cardiovascular
  • Oncology
  • Musculoskeletal
  • Wound healing
  • Ophtahalmology 

Future Scope- Biomedical Technology
Innovation guarantees numerous new advancements. Specialists are exploring different avenues regarding various treatment alternatives that utilize Tissue building. Tissue recovery will majorly affect twisted treatment, as patients get recovered tissue to fill insubstantial injuries that would be difficult to recuperate in the typical mold. Scarring would be diminished, giving more noteworthy personal satisfaction to patients after calamitous damage. Remade veins could be utilized to enable patients with cardiovascular illness to give better heart to work and a full come back to typical exercises. Liver Tissue from patients could be developed in lab to give methods for testing the most effective pharmaceuticals for treatment, rather than the experimentation strategy being utilized on the patient himself. Later on, entire organs might be developed to give transplant new parts to patients with kidney or heart damage. Athletic wounds to ligament and bone could be repaired all the more quickly with Regrown Tissue from the patient'sown body.

Market Analysis


The global stem cells market size was estimated at USD 6.87 billion in 2016. Despite their usage being slightly controversial, they have gained significant attention from multidisciplinary community of scientists. Factors that have influenced the growth of this market are huge success of regenerative medicine as well as exponential growth in ongoing SC-based research. 
Stem Cells are observed to aptly serve the community engaged in disease management by revealing new aspects of disease treatment. These cells have created immense opportunities for development of cellular models to provide better picture of disease mechanism. 

UK stem cells market share, by technology, 2014 - 2025 (USD Million)

Regenerative Medicine Market Overview:

Regenerative medicines are used to repair, replace, and regenerate tissues and organs affected by injury, disease, or natural aging process. These medicines restore the functionality of cells & tissues and are used in several degenerative disorders such as dermatology, neurodegenerative diseases, cardiovascular, and orthopaedic applications. Stem Cells are capable of proliferation and differentiation, which increase their importance in this field. The global regenerative medicine market was valued at $5,444 million in 2016, and is estimated to reach $39,325 million by 2023, registering a CAGR of 32.2% from 2017 to 2023.

Product Type Segment Review

Based on product type, the market is segmented into cell therapy, gene therapy, tissue engineering, and small molecules & biologics. Moreover, among all the regenerative medicine products, the cell therapy segment has the most promising future due to its efficiency to restore the lost function of tissues and organs. In addition, the small molecules & biologics segment is expected to grow at the highest CAGR of 33.3% from 2017 to 2023, due to its potential to stimulate dormant or endogenous cells to regain their regenerative properties.

Material Segment Review

Based on material, the market is divided into synthetic material, biologically derived material, genetically engineered material, and pharmaceutical. The biologically derived material was the dominant segment in 2016, and is estimated to maintain this trend during the analysis period. The demand for genetically engineered material has increased due to their unique properties such as promotion of cellular interactions, increased proliferation, and differentiation of cells that facilitate self-assembly into directionally organized structures, and control the manipulation of cellular behaviour.

Key Geographical Segment

As per region, the regenerative medicine market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. North America accounted for the largest market share in 2016, and is expected to retain its dominance throughout the forecast period.

Why Amsterdam?  

Amsterdam, capital of the Netherlands! These days the city has a population of just over 790.000 inhabitants and is the largest city in the country. Amsterdam is located in the province ‘Noord-Holland’, situated in the west. It is one of the most popular destinations in Europe, receiving more than 4.5 million tourists annually. 

Amsterdam has a great history. It is very unique for its large and untouched historic center. It has a rich architectural history, dominated by water. It is a meeting point for all different cultures around the world and has a welcoming attitude towards visitors. Well known for its museums, red light district, coffee shops but also the great variety of eating & drinking places and night life. It even claims to be the ‘Gay capital of Europe’.
Therefore a lot of hotels can be found on different locations, value for money and ambianceIt is a beautiful and romantic city with its antique houses, lovely bridges, famous canals and of course the list of world class attractions!
Organizing Committee
OCM Member
Sergey Suchkov
Director, Center of Personalized Medicine
Russian Academy of Sciences, Saratov
Moscow, Russia
OCM Member
Anne Rios
Head and Junior Principal Investigator, Princess Máxima Imaging Centre
Princess Máxima Center for Pediatric Oncology
Utrecht, Netherlands
OCM Member
Ming Pei
West Virginia University
Virginia, USA
OCM Member
Frank Leu
CEO of Novapeutics, Cell Biology
Novapeutics LLC
Philadelphia, USA
OCM Member
Murugan Ramalingam
Professor, Centre for Stem Cell Research
VIT University
Vellore, India
Scientific Program

Holiday Inn Amsterdam - Arena Towers
Hoogoorddreef 66a, 1101 BE Amsterdam, Netherlands

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