The 5th International Conference on Tissue Engineering & Regenerative Medicine which is going to be held during September 12-14, 2016 at Berlin, Germany will bring together world-class personalities working on stem cells, tissue engineering and regenerative medicine to discuss materials-related strategies for disease remediation and tissue repair.

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-situtissue 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 signaling, morphogenetic proteins. Most of the neurological disorders occurred accidental having a scope of recovery by replacement or repair of intervertebral discs repair, spinal fusion and many more advancements. The global market for tissue engineering and regeneration products such as scaffolds, tissueimplants, biomimetic materials reached $55.9 billion in 2010 and it is expected to reach $89.7 billion by 2016 at a compounded annual growth rate (CAGR) of 8.4%. It grows to $135 billion by 2024.

Related Conferences

5th InternationalConference on Tissue Engineering and Regenerative Medicine September 12-14, 2016 Berlin, Germany; 5th International Conference onCell and Gene Therapy May 19-21, 2016 San Antonio, USA; InternationalConference on Cancer Immunologyand ImmunotherapyJuly 28-30, 2016 Melbourne, Australia; InternationalConference on Molecular BiologyOctober 13-15, 2016 Dubai, UAE; Tissue Niches and Resident Stem Cells in Adult Epithelia Gordon Research Conference, Regulation of Tissue Homeostasis by Signalling in the Stem Cell Niche August 7-12, Hong Kong, China; 10 Years of IPSCs, Cell Symposia, September 25-27, 2016 Berkeley, CA, USA; World Stem Cells and Regenerative Medicine Congress May 18-20, 2016 London, UK; Notch Signaling in Development, Regeneration and Disease Gordon Research Conference, July 31-August 5, 2016 Lewiston, ME, USA

Designs for Tissue Engineering

The developing field of tissue engineering aims to regenerate damaged tissues by combining cells from the body withbioresorbablematerials, biodegradable hydrogel, biomimetic materials, nanostructures andnanomaterials, biomaterials and tissue implants which act as templates for tissue regeneration, to guide the growth of new tissue by using with the technologies. The global market for biomaterials, nanostructures and bioresorbable materials are estimated to reach $88.4 billion by 2017 from $44.0 billion in 2012 growing at a CAGR of 15%. Further the biomaterials market estimated to be worth more than 300 billion US Dollars and to be increasing 20% per year.

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5th International ConferenceonCell and Gene Therapy May 19-21, 2016 San Antonio, USA; International Conference on Restorative Medicine October 24-26, 2016 Chicago, USA; InternationalConference on Molecular Biology October 13-15, 2016 Dubai, UAE; 2nd International Conference on Bio-banking August 18-19, 2016 Portland, USA; ISSCR Annual Meeting 22-25 June, 2016 San Francisco, California, USA; Keystone Cardiac Development, Regeneration and Repair (Z2) April 3 7, 2016 Snowbird, Utah, USA;EMBL Hematopoietic Stem Cells: From the Embryo to the Aging Organism, June 3-5, 2016 Heidelberg, Germany; ISSCR Pluripotency: From basic science to therapeutic applications March 22-24, 2016 Kyoto, Japan

Organ Engineering

This interdisciplinary engineering has attracted much attention as a new therapeutic means that may overcome the drawbacks involved in the current artificial organs and organtransplantationthat have been 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 in thetissue engineeringfield, many challenges remain and further development in this area will require ongoing interactions and collaborations among the scientists from multiple disciplines, and in partnership with the regulatory and the funding agencies. As a result of the medical and market potential, there is significant academic and corporate interest in this technology.

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International Conference on Restorative Medicine October 24-26, 2016 Chicago, USA; 5th InternationalConference on Cell and Gene Therapy May 19-21, 2016 San Antonio, USA; 5th International Conference on Regenerative Medicine September 12-14, 2016 Berlin, Germany; 2nd International Conference on Tissue preservation August 18-19, 2016 Portland, USA;Cell and Gene TherapyJanuary 25-27, 2016 Washington D.C., USA; ISSCR Stem Cell Models of Neural Degeneration and Disease February 1-3, 2016 Dresden, Germany; Craniofacial Morphogenesis and Tissue Regeneration March 12-18, 2016 California, USA; Keystone Stem Cells and Cancer (C1) March 6-10, Colorado, USA; Keystone Stem Cells and Regeneration in the Digestive Organs (X6) March 13 17 Colorado, USA

Cancer Stem Cells

The characterization of cancer stem cell is done by identifying the cell within a tumor that possesses the capacity to self-renew and to cause theheterogeneous lineagesof cancer cells that comprise the tumor. This stem cell which acts as precursor for the cancer acts as a tool against it indulging the reconstruction of cancer stem cells, implies as the therapeutic implications and challenging the gaps globally. The global stem cell market will grow from about $5.6 billion in 2013 to nearly $10.6 billion in 2018, registering a compound annual growth rate (CAGR) of 3.6% from 2013 through 2018. The Americas is the largest region of globalstem cellmarket, with a market share of about $2.0 billion in 2013. The region is projected to increase to nearly $3.9 billion by 2018, with a CAGR of 13.9% for the period of 2013 to 2018. Europe is the second largest segment of the global stem cell market and is expected to grow at a CAGR of 13.4% reaching about $2.4 billion by 2018 from nearly $1.4 billion in 2013.

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5th InternationalConference Cell and Gene Therapy May 19-21, 2016 San Antonio, USA; International Conference on Molecular Biology October 13-15, 2016 Dubai, UAE; 5th International Conference on Tissue EngineeringSeptember 12-14, 2016 Berlin, Germany; 2nd International Conference on Tissue preservationAugust 18-19, 2016 Portland, USA; Molecular and Cellular Basis of Growth and Regeneration (A3) January 10 14, 2016 Colorado, USA; Cell and Gene TherapyJanuary 25-27, 2016 Washington D.C., USA; ISSCR Stem Cell Models of Neural Degeneration and Disease March 13 17, 2016 Dresden, Germany; Craniofacial Morphogenesis and Tissue Regeneration March 12-18, 2016 California, USA; World Stem Cells Congress May 18-20, 2016 London, UK

Bone Tissue Engineering

Tissue engineering ofmusculoskeletal tissues, particularly bone and cartilage, is a rapidly advancing field. In bone, technology has centered on bone graft substitute materials and the development of biodegradable scaffolds. Recently, tissue engineering strategies have included cell and gene therapy. The availability of growth factors and the expanding knowledge base concerning the bone regeneration with modern techniques like recombinant signaling molecules, solid free form fabrication of scaffolds, synthetic cartilage, Electrochemical deposition,spinal fusionand ossification are new generated techniques for tissue-engineering applications. The worldwide market for bone and cartilage repairs strategies is estimated about $300 million. During the last 10/15 years, the scientific community witnessed and reported the appearance of several sources of stem cells with both osteo and chondrogenic potential.

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5th International Conference on Tissue Engineering and Regenerative Medicine September 12-14, 2016 Berlin, Germany; 3rd 2nd International Conference on Tissue preservation and Bio-banking August 18-19, 2016 Portland, USA; 5th International Conference on Cell and Gene Therapy May 19-21, 2016 San Antonio, USA; International Conference on Restorative Medicine October 24-26, 2016 Chicago, USA; 10th World Biomaterials Congress May 17-22, 2016 Quebec, Canada; 2016 TERMIS-EU Conference June 28- July1, 2016 Uppsala, Sweden; 2016 TERMIS-AP Conference Tamsui Town of New Taipei City May 23-28, 2016; 2016 TERMIS-AM Conference September 3-6, 2016, San Diego, USA; Pluripotency: From basic science to therapeutic applications 22-24 March 2016 Kyoto, Japan

Scaffolds

Scaffolds are one of the three most important elements constituting the basic concept of regenerative medicine, and are included in the core technology of regenerative medicine. Every day thousands of surgical procedures are performed to replace or repair tissue that has been damaged through disease or trauma. The developing field of tissue engineering (TE) aims to regeneratedamaged tissuesby 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 has a prominent role in tissue regeneration the designs, fabrication, 3D models, surface ligands and molecular architecture, nanoparticle-cell interactions and porous of thescaffoldsare been used in the field in attempts to regenerate different tissues and organs in the body. The world stem cell market was approximately 2.715 billion dollars in 2010, and with a growth rate of 16.8% annually, a market of 6.877 billion dollars will 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 2021.

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InternationalConference on Restorative MedicineOctober 24-26, 2016 Chicago, USA; 5th InternationalConference onCell and Gene TherapyMay 19-21, 2016 San Antonio, USA; 5th InternationalConference on Regenerative MedicineSeptember 12-14, 2016 Berlin, Germany; 2ndInternational Conference on Tissue preservationAugust 18-19, 2016 Portland, USA;Cell and Gene TherapyJanuary 25-27, 2016 Washington D.C., USA; ISSCRStem Cell Modelsof Neural Degeneration and Disease February 1-3, 2016 Dresden, Germany; Craniofacial Morphogenesis andTissue RegenerationMarch 12-18, 2016 California, USA; KeystoneStem Cells and Cancer(C1) March 6-10, Colorado, USA; KeystoneStem Cells and Regenerationin the Digestive Organs (X6) March 13 17 Colorado, USA

Tissue Regeneration Technologies

Guided tissue regeneration is defined as procedures attempting to regenerate lost periodontal structures through differential tissue responses. Guidedbone regenerationtypically refers to ridge augmentation or bone regenerative procedures it typically refers to regeneration of periodontal therapy. The recent advancements and innovations in biomedical and regenerative tissue engineering techniques include the novel approach of guided tissue regeneration and combination ofnanotechnologyand regenerative medicine.

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5th InternationalConferenceCell and Gene TherapyMay 19-21, 2016 San Antonio, USA; InternationalConference on Restorative MedicineOctober 24-26, 2016 Chicago, USA; InternationalConference on Molecular BiologyOctober 13-15, 2016 Dubai, UAE; 2nd InternationalConference on Bio-bankingAugust 18-19, 2016 Portland, USA;ISSCR Annual Meeting22-25 June, 2016 San Francisco, California, USA; KeystoneCardiac Development, Regeneration and Repair (Z2) April 3 7, 2016 Snowbird, Utah, USA;EMBLHematopoietic Stem Cells: From the Embryo to the Aging Organism, June 3-5, 2016 Heidelberg, Germany; ISSCRPluripotency: From basic science to therapeutic applications March 22-24, 2016 Kyoto, Japan

Regeneration and Therapeutics

Regenerative medicinecan be defined as a therapeutic intervention which replaces or regenerates human cells, tissues or organs, to restore or establish normal function and deploys small molecule drugs, biologics, medical devices and cell-based therapies. It deals with the different therapeutic uses like stem cells for tissue repair, tissue injury and healing process, cardiacstem cell therapyfor regeneration, functional regenerative recovery, effects of aging on tissuerepair/regeneration, corneal regeneration & degeneration. The global 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 is expected to reach $65 billion mark by 2024.

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5th InternationalConference on Tissue Engineering and Regenerative MedicineSeptember 12-14, 2016 Berlin, Germany; 5th InternationalConference onCell and Gene TherapyMay 19-21, 2016 San Antonio, USA; InternationalConference on Cancer Immunologyand ImmunotherapyJuly 28-30, 2016 Melbourne, Australia; InternationalConference on Molecular BiologyOctober 13-15, 2016 Dubai, UAE; Tissue Niches andResident Stem Cells in Adult EpitheliaGordon Research Conference,Regulation of Tissue Homeostasisby Signalling in the Stem Cell Niche August 7-12, Hong Kong, China;10 Years of IPSCs, Cell Symposia, September 25-27, 2016 Berkeley, CA, USA; WorldStem Cells and Regenerative Medicine CongressMay 18-20, 2016 London, UK; Notch Signaling in Development,Regenerationand Disease Gordon Research Conference, July 31-August 5, 2016 Lewiston, ME, USA

Regenerative medicine

Regenerative medicine is a branch oftranslational researchin tissue engineering and molecular biology which deals with the process of replacing, engineering or regenerating human cells, tissues or organs to restore or establish normal function. The latest developments involve advances in cell and gene therapy and stem cell research, molecular therapy, dental and craniofacial regeneration.Regenerative medicineshave the unique ability to repair, replace and regenerate tissues and organs, affected due to some injury, disease or due to natural aging process. These medicines are capable of restoring the functionality of cells and tissues. The global regenerative medicine market will reach $ 67.6 billion by 2020 from $16.4 billion in 2013, registering a CAGR of 23.2% during forecast period (2014 - 2020). Small molecules and biologics segment holds prominent market share in the overall regenerative medicine technology market and is anticipated to grow at a CAGR of 18.9% during the forecast period.

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InternationalConference on Restorative MedicineOctober 24-26, 2016 Chicago, USA; 5th InternationalConference onCell and Gene TherapyMay 19-21, 2016 San Antonio, USA; 5th InternationalConference on Regenerative MedicineSeptember 12-14, 2016 Berlin, Germany; 2ndInternational Conference on Tissue preservationAugust 18-19, 2016 Portland, USA;Cell and Gene TherapyJanuary 25-27, 2016 Washington D.C., USA; ISSCRStem Cell Modelsof Neural Degeneration and Disease February 1-3, 2016 Dresden, Germany; Craniofacial Morphogenesis andTissue RegenerationMarch 12-18, 2016 California, USA; KeystoneStem Cells and Cancer(C1) March 6-10, Colorado, USA; KeystoneStem Cells and Regenerationin the Digestive Organs (X6) March 13 17 Colorado, USA

Applications of Tissue Engineering

The applications of tissue engineering and regenerative medicine are innumerable as they mark the replacement of medication andorgan replacement. The applications involve cell tracking andtissue imaging, cell therapy and regenerative medicine, organ harvesting, transport and transplant, the application of nanotechnology in tissue engineering and regenerative medicine and bio banking. Globally the research statistics are increasing at a vast scale and many universities and companies are conducting events on the subject regenerative medicine conference like tissue implants workshops, endodontics meetings, tissue biomarkers events, tissue repair meetings, regenerative medicine conferences, tissue engineering conference, regenerative medicine workshop, veterinary regenerative medicine, regenerative medicine symposiums, tissue regeneration conferences, regenerative medicine congress.

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5th InternationalConferenceCell and Gene TherapyMay 19-21, 2016 San Antonio, USA; InternationalConference on Restorative MedicineOctober 24-26, 2016 Chicago, USA; InternationalConference on Molecular BiologyOctober 13-15, 2016 Dubai, UAE; 2nd InternationalConference on Bio-bankingAugust 18-19, 2016 Portland, USA;ISSCR Annual Meeting22-25 June, 2016 San Francisco, California, USA; KeystoneCardiac Development, Regeneration and Repair (Z2) April 3 7, 2016 Snowbird, Utah, USA;EMBLHematopoietic Stem Cells: From the Embryo to the Aging Organism, June 3-5, 2016 Heidelberg, Germany; ISSCRPluripotency: From basic science to therapeutic applications March 22-24, 2016 Kyoto, Japan

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 fortissue engineeringand 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. Themarketis 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.

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5th InternationalConference on Tissue Engineeringand Regenerative MedicineSeptember 12-14, 2016 Berlin, Germany; 3rd 2nd InternationalConference on Tissue preservationand Bio-bankingAugust 18-19, 2016 Portland, USA; 5th InternationalConference on Cell and Gene TherapyMay 19-21, 2016 San Antonio, USA; InternationalConference on Restorative MedicineOctober 24-26, 2016 Chicago, USA; 10thWorld Biomaterials CongressMay 17-22, 2016 Quebec, Canada; 2016TERMIS-EU ConferenceJune 28- July1, 2016 Uppsala, Sweden; 2016TERMIS-AP ConferenceTamsui Town of New Taipei City May 23-28, 2016; 2016TERMIS-AM ConferenceSeptember 3-6, 2016, San Diego, USA;Pluripotency: From basic science to therapeutic applications22-24 March 2016 Kyoto, Japan

Regenerative Medicine Europe

Leading EU nations with strong biotech sectors such as the UK and Germany are investing heavily in regenerative medicine, seeking competitive advantage in this emerging sector. The commercial regenerative medicine sector faces governance challenges that include a lack of proven business models, an immature science base and ethical controversy surrounding hESC research. The recent global downturn has exacerbated these difficulties: private finance has all but disappeared; leading companies are close to bankruptcy, and start-ups are struggling to raise funds. In the UK the government has responded by announcing 21.5M funding for the regenerative medicine industry and partners. But the present crisis extends considerably beyond regenerative medicine alone, affecting much of the European biotech sector. A 2009 European Commission (EC) report showed the extent to which the global recession has impacted on access to VC finance in Europe: 75% of biopharma companies in Europe need capital within the next two years if they are to continue their current range of activities.

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InternationalConference on Restorative MedicineOctober 24-26, 2016 Chicago, USA; 5th InternationalConference onCell and Gene TherapyMay 19-21, 2016 San Antonio, USA; 5th InternationalConference on Regenerative MedicineSeptember 12-14, 2016 Berlin, Germany; 2ndInternational Conference on Tissue preservationAugust 18-19, 2016 Portland, USA;Cell and Gene TherapyJanuary 25-27, 2016 Washington D.C., USA; ISSCRStem Cell Modelsof Neural Degeneration and Disease February 1-3, 2016 Dresden, Germany; Craniofacial Morphogenesis andTissue RegenerationMarch 12-18, 2016 California, USA; KeystoneStem Cells and Cancer(C1) March 6-10, Colorado, USA; KeystoneStem Cells and Regenerationin the Digestive Organs (X6) March 13 17 Colorado, USA

Embryonic Stem Cell

Embryonic stem cells are pluripotent, meaning they are able to grow (i.e. differentiate) into all derivatives of the three primary germ layers: ectoderm, endoderm and mesoderm. In other words, they can develop into each of the more than 200 cell types of the adult body as long as they are specified to do so. Embryonic stem cells are distinguished by two distinctive properties: their pluripotency, and their ability to replicate indefinitely. ES cells are pluripotent, that is, they are able to differentiate into all derivatives of the three primary germ layers: ectoderm, endoderm, and mesoderm. These include each of the more than 220 cell types in the adult body. Pluripotency distinguishes embryonic stem cells from adult stem cells found in adults; while embryonic stem cells can generate all cell types in the body, adult stem cells are multipotent and can produce only a limited number of cell types. Additionally, under defined conditions, embryonic stem cells are capable of propagating themselves indefinitely. This allows embryonic stem cells to be employed as useful tools for both research and regenerative medicine, because they can produce limitless numbers of themselves for continued research or clinical use.

Related Conferences

5th InternationalConference on Tissue Engineering and Regenerative MedicineSeptember 12-14, 2016 Berlin, Germany; 5th InternationalConference onCell and Gene TherapyMay 19-21, 2016 San Antonio, USA; InternationalConference on Cancer Immunologyand ImmunotherapyJuly 28-30, 2016 Melbourne, Australia; InternationalConference on Molecular BiologyOctober 13-15, 2016 Dubai, UAE; Tissue Niches andResident Stem Cells in Adult EpitheliaGordon Research Conference,Regulation of Tissue Homeostasisby Signalling in the Stem Cell Niche August 7-12, Hong Kong, China;10 Years of IPSCs, Cell Symposia, September 25-27, 2016 Berkeley, CA, USA; WorldStem Cells and Regenerative Medicine CongressMay 18-20, 2016 London, UK; Notch Signaling in Development,Regenerationand Disease Gordon Research Conference, July 31-August 5, 2016 Lewiston, ME, USA

Stem Cell Transplant

Stem cell transplantation is a procedure that is most often recommended as a treatment option for people with leukemia, multiple myeloma, and some types of lymphoma. It may also be used to treat some genetic diseases that involve the blood. During a stem cell transplant diseased bone marrow (the spongy, fatty tissue found inside larger bones) is destroyed with chemotherapy and/or radiation therapy and then replaced with highly specialized stem cells that develop into healthy bone marrow. Although this procedure used to be referred to as a bone marrow transplant, today it is more commonly called a stem cell transplant because it is stem cells in the blood that are typically being transplanted, not the actual bone marrow tissue.

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5th InternationalConference Cell and Gene TherapyMay 19-21, 2016 San Antonio, USA; InternationalConference on Molecular BiologyOctober 13-15, 2016 Dubai, UAE; 5th InternationalConference on Tissue EngineeringSeptember 12-14, 2016 Berlin, Germany; 2nd InternationalConference on Tissue preservationAugust 18-19, 2016 Portland, USA; Molecular and Cellular Basis ofGrowth and Regeneration(A3) January 10 14, 2016 Colorado, USA;Cell and Gene TherapyJanuary 25-27, 2016 Washington D.C., USA; ISSCRStem Cell Modelsof Neural Degeneration and Disease March 13 17, 2016 Dresden, Germany; Craniofacial Morphogenesis andTissue RegenerationMarch 12-18, 2016 California, USA;World Stem Cells CongressMay 18-20, 2016 London, UK

Market Analysis Report:

Tissue engineering is an interdisciplinary field that applies the principles of engineering and life sciences toward the development of biological substitutes that restore, maintain, or improve tissue function or a whole organ. Regenerative medicine is not one discipline. It can be defined as a therapeutic intervention which replaces or regenerates human cells, tissues or organs, to restore or establish normal function and deploys small molecule drugs, biologics, medical devices and cell-based therapies

Currently it has emerged as a rapidly diversifying field with the potential to address the worldwide organ shortage issue and comprises of tissue regeneration and organ replacement. 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 tissue engineering and regeneration market reached $17 billion in 2013. This market is expected to grow to nearly $20.8 billion in 2014 and $56.9 billion in 2019, a compound annual growth rate (CAGR) of 22.3%. On the basis of geography, Europe holds the second place in the global market in the field of regenerative medicine & tissue engineering. In Europe countries like UK, France and Germany are possessing good market shares in the field of regenerative medicine and tissue engineering. Spain and Italy are the emerging market trends for tissue engineering in Europe.

Tissue engineering is "an interdisciplinary field that applies the principles of engineering and life sciences toward the development of biological substitutes that restore, maintain, or improve tissue function or a whole organ. Currently it has emerged as a rapidly diversifying field with the potential to address the worldwide organ shortage issue and comprises of tissue regeneration and organ replacement. A novel set of tissue replacement parts and implementation strategies had shown a great revolution in this field. Cells placed on or within the tissue constructs is the most common methodology in tissue engineering.

Regenerative medicine is not one discipline. It can be defined as a therapeutic intervention which replaces or regenerates human cells, tissues or organs, to restore or establish normal function and deploys small molecule drugs, biologics, medical devices and cell-based therapies

This field continues to evolve. In addition to medical applications, non-therapeutic applications include using tissues as biosensors to detect biological or chemical threat agents, and tissue chips that can be used to test the toxicity of an experimental medication. Tissue Engineering and Regenerative Medicine is the major field in Medicine, which is still under research and the advancements are maximizing day to day.

Regenerative Medicine-2015 is an engrossed a vicinity of cognizant discussions on novel subjects like Tissue Regeneration, Materials & Designs for Tissue Engineering, Stem CellTools to Battle Cancer, Bioreactors in Tissue Engineering, Regeneration & Therapeutics, Cord Blood & Regenerative Medicine and Clinical Medicine, to mention a few. The three days event implants a firm relation of upcoming strategies in the field of Tissue Science & Regenerative Medicine with the scientific community. The conceptual and applicable knowledge shared, will also foster organizational collaborations to nurture scientific accelerations.We bring together business, creative, and technology leaders from the tissue engineering, marketing, and research industry for the most current and relevant.

Berlin is one of the largest and most diverse science regions in Europe. Roughly 200,000 people from around the world teach, research, work and study here. Approximately 17 percent of all students come from abroad, most of them from China, Russia and the USA. Many cooperative programs link Berlins institutes of higher education with partner institutes around the world. Berlin is a city of science at the heart of Europe a city whose history of scientific excellence stems from its many important research institutions and its long track record of scientific breakthroughs. Berlin has numerous modern Technology Centers. Their science-oriented infrastructure makes them attractive locations for young, technology-oriented companies.

Germany places great emphasis on globally networked research cooperation. Many organizations support international researchers and academics: Today more than 32,000 are being supported with scholarships. Besides this, research funding in Germany has the goal of financing the development of new ideas and technologies. The range covers everything from basic research in natural sciences, new technologies to structural research funding at institutions of higher education. On the basis of geography, the regenerative medicine bone and joint market Europe hold the second place in the global market in the field of regenerative medicine & tissue engineering. The market growth is expected to reach $65 billion by 2024 in Europe. In Europe countries like UK, France, and Germany are possessing good market share in the field of regenerative medicine and tissue engineering. Spain and Italy are the emerging market trends for tissue engineering in Europe. As per the scope and emerging market for tissue engineering and regenerative medicine Berlin has been selected as Venue for the 5th International Conference on Tissue Science and Regenerative Medicine.

Meet Your Target MarketWith members from around the world focused on learning about Advertising and marketing, this is the single best opportunity to reach the largest assemblage of participants from the tissue engineering and regenerative medicine community. The meeting engrossed a vicinity of cognizant discussions on novel subjects like Tissue Regeneration, Materials & Designs for Tissue Engineering, Stem CellTools to Battle Cancer, Bioreactors in Tissue Engineering, Regeneration & Therapeutics, Cord Blood & Regenerative Medicine and Clinical Medicine, to mention a few. The three days event implants a firm relation of upcoming strategies in the field of Tissue Engineering & Regenerative Medicine with the scientific community. The conceptual and applicable knowledge shared, will also foster organizational collaborations to nurture scientific accelerations.Conduct demonstrations, distribute information, meet with current and potential customers, make a splash with a new product line, and receive name recognition.

International Stem Cell Forum (ISCF)

International Society for Stem Cell Research (ISSCR)

UK Medical Research Council (MRC)

Australian Stem Cell Center

Canadian Institutes of Health Research (CIHR)

Euro Stem Cell (ACR)

Center for Stem Cell Biology

Stem Cell Research Singapore

UK National Stem Cell Network

Spain Mobile Marketing Association

European Marketing Confederation (EMC)

European Letterbox Marketing Association(ELMA)

European Sales & Marketing Association (ESMA)

The Incentive Marketing Association (IMA Europe)

European Marketing Academy

Figure 1: Statistical Analysis of Societies and Associations

Source: Reference7

Presidents or Vice Presidents/ Directors of Associations and Societies, CEOs of the companies associated with regenerative medicine and tissue engineering Consumer Products. Retailers, Marketing, Advertising and Promotion Agency Executives, Solution Providers (digital and mobile technology, P-O-P design, retail design, and retail execution), Professors and Students from Academia in the study of Marketing and Advertising filed.

Industry 40%

Academia 50%

Others 10%

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