Theme: Innovative Biomaterial and Synthetic Biology Technologies for Life and Society

Synthetic Biomaterials 2018

Renowned Speakers

Synthetic Biomaterials 2018

 
 
                                                                    
 
 
 
 
Dear Colleagues,
 
Being a Keynote Speaker, it is my great honor and pleasure to invite you to participate in the 5th World Congress on Synthetic Biology and Advanced Biomaterials to be held in Tokyo, Japan, on 19 – 20 September, 2018.
Synthetic Biomaterial 2018 brings together domain experts, researchers, clinicians, industry representatives, postdoctoral fellows, and students from around the world, providing them with the opportunity to report, share, and discuss scientific questions, achievements, and challenges in this field.
One of our aim is to generate new investigations and collaboration between scientists. We also are very interested to welcome students and postdoctoral researchers in order to provide them the opportunity to show their investigations about Synthetic Biomaterial 2018.
 
Examples of the diverse tissue science and regenerative medicine topics that will be covered in this comprehensive conference include Advanced Biomaterials, Biopolymer, Cyber genetics, Bio photonics , Regenerative Medicine and Tissue Engineering, DNA and Microbial Genome Resources, Gene Networks, Bio fluid Mechanics, Bio hybrid Artificial Organs, 3D Printing of Biomaterials, Biomimetic Chemistry and Synthetic Biology, Biomaterials in Medicine/Drug Formation, Biocompatibility of Nanomaterial – Cellular Signaling. In Synthetic Biomaterial 2018, you will be able to share experiences and research results, discuss challenges encountered and solutions adopted and have opportunities to establish productive new academic and industry research collaborations.
We hope that this conference will be productive and satisfying. Personally, I hope that you have a very enjoyable and entertaining stay here, in Tokyo
 
 
 
Head of the Transgenic Core Facility
MPI of Molecular Cell Biology and Genetics

 

Gene editing (or genome editing) is the insertion, deletion or replacement of DNA at a specific site in the genome of an organism or cell. Gene editing is derived from molecular biology and is widely used in gene circuits too. It is usually achieved in the lab using engineered nucleases also known as molecular scissors. Targeted alterations may be accomplished in different ways, including through the use of new and emerging techniques such as the CRISPR-Cas9 system. ‘Genome editing’ also includes making alterations to non-coding regions of genomes and to epi genomes (in order to modify whether all or part of the genome is active or silent, and to ‘tune’ the level of activity).
 
International Conference on Biomaterials for Healthcare Apr 13-14, 2019 Venice, Italy; International Conference on Regenerative Biomaterials May 04-05, 2019 Rome, Italy; International Conference on Biomaterials Engineering May 21-22, 2019 Berlin, Germany; International Conference on Biomaterials Applications May 19-20, 2019 Dubai, UAE; International Conference on Biomaterials Science and Technology May 04-05, 2019 Singapore
 
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Synthetic gene networks can be constructed to emulate digital circuits and devices, giving one the ability to program and design cells with some of the principles of modern computing, such as counting. A cellular counter would enable complex synthetic programming and a variety of biotechnology applications. Here, we report two complementary synthetic genetic counters in Escherichia coli that can count up to three induction events: the first, a ribo regulated transcriptional cascade, and the second, a recombinase-based cascade of memory units. These modular devices permit counting of varied user-defined inputs over a range of frequencies and can be expanded to count higher numbers.
 
 
International Conference on Biomaterials Applications May 07-08, 2018 Dubai, UAE;  International Conference on Nanobiotechnology and Biomaterials Sep 17-18, 2018 Rome, Italy; International Conference on Metallic Biomaterials for Biomedical Engineering Oct 08-09, 2018 Tokyo, Japan; International Conference on Metallic Biomaterials and Biomedical Engineering Oct 04-05, 2018 Sydney, Australia; International Conference on Biomimetics, Biomaterials and Biomedical Engineering Oct 15-16, 2018 Chicago, USA;
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Biomaterials are natural and synthetic materials used in medical field to improve quality of life by either replacing tissue/organ or assisting their function. Biomaterials, such as bone substitutes, collagen membranes and matrices, are used regularly in regenerative dentistry as well as for bone and cartilage regeneration in orthopaedics. Biopolymers are polymers that are naturally found in nature. Biopolymers are complex molecules with biological activity. Polymers are the macromolecules obtained from various repeated subunits. Polymers used for biomaterials, can be of following types, i.e., Natural Polymers: Chitosan, Collagen, Alginate. These are used for drug delivery, wound dressing, tissue engineering of organs. Synthetic Polymers: Polyvinylchloride (PVC), Polypropylene, Polymethyl methacrylate. Used in implants, medical disposable supplies, dressings, etc. Biodegradable Biomaterials: Polyactide, Polyglycolide, etc.It is advantageous as it regenerates tissue and does not leave residual traces on implantation. Used for tissue screws, cartilage repair and drug delivery systems. Biopolymers are those polymers which are developed from the living organisms. Examples are DNA, RNA, proteins, carbohydrates, etc. It can also be used as packaging material. Polymer composites are used for preparing medical implants.
 
 
 
International Conference on Biomaterials for Healthcare Apr 13-14, 2019 Venice, Italy; International Conference on Regenerative Biomaterials May 04-05, 2019 Rome, Italy; International Conference on Biomaterials Engineering May 21-22, 2019 Berlin, Germany; International Conference on Biomaterials Applications May 19-20, 2019 Dubai, UAE; International Conference on Biomaterials Science and Technology May 04-05, 2019 Singapore
 
Associations and Societies
 
 
 
 
Biomaterials are the non-drug substances which are designed to interact with the biological system either as a  part of medical device or to  replace or repair any damaged organs or tissues. Biomaterials can be derived either naturally or synthetically. Natural Biomaterials are silk, gelatin, etc. while the Synthetic ones are  the various polymers. Bioceramics like Alumina, Bioglass, Zirconia are used to repair damaged portions of musculoskeletal system and also used in dental and orthopaedic fields. Biocomposites are formed by using resin and natural fibres. It can be non wood natural fibres (rice, wheat, coconut, etc.) or wood fibres (magazines, soft and hard woods). Metals are mainly a choice of biomaterials in fields of dental, orthopaedic, cardiac implants. As metals can lead to wear, corrosion, so surface coating and modification of metals are necessary for medical applications.
 
 
International Conference on Biomaterials Applications May 07-08, 2018 Dubai, UAE;  International Conference on Nanobiotechnology and Biomaterials Sep 17-18, 2018 Rome, Italy; International Conference on Metallic Biomaterials for Biomedical Engineering Oct 08-09, 2018 Tokyo, Japan; International Conference on Metallic Biomaterials and Biomedical Engineering Oct 04-05, 2018 Sydney, Australia; International Conference on Biomimetics, Biomaterials and Biomedical Engineering Oct 15-16, 2018 Chicago, USA;
 
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Biomaterials play a vital role in delivery systems mainly in drug delivery. The design of various drug delivery systems, surgical implants, wound closure devices, artificial organs are mostly depends on the biomaterials. Biomaterials help in gene delivery that ultimately induce transgene expression and tissue growth along with regeneration of tissues. By Immunomodulation i.e, modulating or changing the various aspects of immune system, the potency and efficiency of regenerative medicine therapies can be increased. Nowadays, hydrogels are termed as the smart drug delivery system; they are mostly used as sustained drug release systems, which have importance in treatment of cancer. Extracellular media or vesicles are used for the macromolecular drug delivery. Biomaterials can also be used for islet delivery, for imaging, etc.
 
 
International Conference on Biomaterials for Healthcare Apr 13-14, 2019 Venice, Italy; International Conference on Regenerative Biomaterials May 04-05, 2019 Rome, Italy; International Conference on Biomaterials Engineering May 21-22, 2019 Berlin, Germany; International Conference on Biomaterials Applications May 19-20, 2019 Dubai, UAE; International Conference on Biomaterials Science and Technology May 04-05, 2019 Singapore
 
Associations and Societies
 
Bio photonics is the study of optical processes in biological systems, both those that occur naturally and in bioengineered materials. A particularly important aspect of this field is imaging and sensing cells and tissue. This includes injecting fluorescent markers into a biological system to track cell dynamics and drug delivery. Bio photonics can be used to study biological materials or materials with properties similar to biological material, i.e., scattering material, on a microscopic or macroscopic scale. On the microscopic scale common applications include microscopy and optical coherence tomography. On the macroscopic scale, the light is diffuse and applications commonly deal with diffuse optical imaging and tomography (DOI and DOT).
 
 
International Conference on Biomaterials Applications May 07-08, 2018 Dubai, UAE;  International Conference on Nanobiotechnology and Biomaterials Sep 17-18, 2018 Rome, Italy; International Conference on Metallic Biomaterials for Biomedical Engineering Oct 08-09, 2018 Tokyo, Japan; International Conference on Metallic Biomaterials and Biomedical Engineering Oct 04-05, 2018 Sydney, Australia; International Conference on Biomimetics, Biomaterials and Biomedical Engineering Oct 15-16, 2018 Chicago, USA;
 
Associations and Societies
 
The success of any implant depends so much on the biomaterial used. Naturally derived biomaterials have been demonstrated to show several advantages compared to synthetic biomaterials. These are biocompatibility, biodegradability and remodelling. Therefore, these biomaterials are usually applied in the repair or replacement of damaged human tissues and organs. Naturally derived biomaterials have been attracting scientist’s interest all over the world. Naturally derived biomaterial can be classified into many groups including protein-based biomaterials , polysaccharide-based biomaterials and de cellularized tissue-derived biomaterials.
 
 
International Conference on Biomaterials for Healthcare Apr 13-14, 2019 Venice, Italy; International Conference on Regenerative Biomaterials May 04-05, 2019 Rome, Italy; International Conference on Biomaterials Engineering May 21-22, 2019 Berlin, Germany; International Conference on Biomaterials Applications May 19-20, 2019 Dubai, UAE; International Conference on Biomaterials Science and Technology May 04-05, 2019 Singapore
 
Associations and Societies
 
The flow behaviour of biological fluids in living organisms plays a crucial role in determining the state of the tissue through which they flow. Bio fluid mechanics, the study of the fundamentals of biological fluid flow, has been recognized to be extremely important for the understanding of how changes in the flow behaviour within living tissue maybe affect both the fluid and the tissue. Fluids in living tissue include blood, water, air and bodily fluids of animals, as well as the fluids in plants. The movement and balance of forces in resting fluids and fluids in motion are among the basic subjects for research. Bio fluid mechanics is a field whose importance to the field of bioengineering has increased over the last two decades as pharmaceuticals, biomaterials and non-invasive diagnostic and surgical procedures create changes in the fluid mechanics of bio fluids. Bio fluid mechanics is a complex field including one of the most important areas of study--blood flow and cardiovascular diseases.
 
 
International Conference on Biomaterials Applications May 07-08, 2018 Dubai, UAE;  International Conference on Nanobiotechnology and Biomaterials Sep 17-18, 2018 Rome, Italy; International Conference on Metallic Biomaterials for Biomedical Engineering Oct 08-09, 2018 Tokyo, Japan; International Conference on Metallic Biomaterials and Biomedical Engineering Oct 04-05, 2018 Sydney, Australia; International Conference on Biomimetics, Biomaterials and Biomedical Engineering Oct 15-16, 2018 Chicago, USA;
 
 
Associations and Societies
 
 
The studies of Polymer Sciences begin with understanding the methods by which these materials are synthesized. Polymer synthesis is a complex procedure and can take place in various of ways. Addition polymerization describes the method where monomers are added one by one to an active site on the growing chain. Polymers are huge macromolecules composed of repeating structural units. While polymer in popular usage suggests plastic, the term actually refers to a large class of natural and synthetic materials. Due to the extraordinary range of properties accessible, Polymer Sciences have come to play an essential and ubiquitous role in everyday life - from plastics and elastomers on the one hand to natural biopolymers such as DNA and proteins on the other hand. The study of polymer sciences begins with understanding the methods in which these materials are synthesized.
 
 
International Conference on Biomaterials for Healthcare Apr 13-14, 2019 Venice, Italy; International Conference on Regenerative Biomaterials May 04-05, 2019 Rome, Italy; International Conference on Biomaterials Engineering May 21-22, 2019 Berlin, Germany; International Conference on Biomaterials Applications May 19-20, 2019 Dubai, UAE; International Conference on Biomaterials Science and Technology May 04-05, 2019 Singapore
 
Associations and Societies
 
An artificial organ is a man-made device that is implanted or integrated into a human — interfacing with living tissue — to replace a natural organ, for the purpose of duplicating or augmenting a specific function or a group of related functions so the patient may return to a normal life as soon as possible.
 
 
International Conference on Biomaterials Applications May 07-08, 2018 Dubai, UAE;  International Conference on Nanobiotechnology and Biomaterials Sep 17-18, 2018 Rome, Italy; International Conference on Metallic Biomaterials for Biomedical Engineering Oct 08-09, 2018 Tokyo, Japan; International Conference on Metallic Biomaterials and Biomedical Engineering Oct 04-05, 2018 Sydney, Australia; International Conference on Biomimetics, Biomaterials and Biomedical Engineering Oct 15-16, 2018 Chicago, USA;
 
Associations and Societies
 
Remarkable progress has been made in the field of nanotechnology in the past decade. Many new nanoparticles, which are defined as particles with at least one dimension between 1 and 100 nm, have been created, and new medical applications for these nanoparticles are now expected. To be able to create effective and safe Nano medicines, more information is needed about the effects and safety of nanoparticles in vivo because physical properties such as material composition, particle size, surface area, surface chemistry, surface charge, and agglomeration state all influence nanoparticle biocompatibility, particularly with regard to activation of the complement, coagulation, and immune systems. In this chapter, we introduce the most recent developments in our understanding of the biocompatibility of nanoparticles and discuss how our current understanding translates to the field of nanomedicine.
 
 
International Conference on Biomaterials for Healthcare Apr 13-14, 2019 Venice, Italy; International Conference on Regenerative Biomaterials May 04-05, 2019 Rome, Italy; International Conference on Biomaterials Engineering May 21-22, 2019 Berlin, Germany; International Conference on Biomaterials Applications May 19-20, 2019 Dubai, UAE; International Conference on Biomaterials Science and Technology May 04-05, 2019 Singapore
 
Associations and Societies
 
 
Clinical Tools and Applications aims to translate basic science discoveries into regenerative therapies with the application of clinical tool in aging and tissue regeneration. The understanding of the characteristics affecting the aging process is an effort to guide approaches for preventing and treating age-related diseases. Recent advances in biomaterial science and tissue engineering technology have greatly spurred the development of regenerative endodontic. This has led to a paradigm shift in endodontic treatment from simply filling the root canal systems with biologically inert materials to restoring the infected dental pulp with functional replacement tissues.
 
 
International Conference on Biomaterials Applications May 07-08, 2018 Dubai, UAE;  International Conference on Nanobiotechnology and Biomaterials Sep 17-18, 2018 Rome, Italy; International Conference on Metallic Biomaterials for Biomedical Engineering Oct 08-09, 2018 Tokyo, Japan; International Conference on Metallic Biomaterials and Biomedical Engineering Oct 04-05, 2018 Sydney, Australia; International Conference on Biomimetics, Biomaterials and Biomedical Engineering Oct 15-16, 2018 Chicago, USA;
 
Associations and Societies
 
 
3D Printing promises to produce complex biomedical devices according to computer design using patient-specific anatomical data. Since its initial use as pre-surgical visualization models and tooling molds, 3D Printing has slowly evolved to create one-of-a-kind devices, implants, scaffolds for tissue engineering, diagnostic platforms, and drug delivery systems. Fueled by the recent explosion in public interest and access to affordable printers, there is renewed interest to combine stem cells with custom 3D scaffolds for personalized regenerative medicine.
 
 
International Conference on Biomaterials for Healthcare Apr 13-14, 2019 Venice, Italy; International Conference on Regenerative Biomaterials May 04-05, 2019 Rome, Italy; International Conference on Biomaterials Engineering May 21-22, 2019 Berlin, Germany; International Conference on Biomaterials Applications May 19-20, 2019 Dubai, UAE; International Conference on Biomaterials Science and Technology May 04-05, 2019 Singapore
 
Associations and Societies
 
 
Biosensors are powerful tunable systems able to switch between an ON/OFF status in response to an external stimulus. This extraordinary property could be engineered by adopting synthetic biology or biomimetic chemistry to obtain tailor-made biosensors having the desired requirements of robustness, sensitivity and detection range. Recent advances in both disciplines, in fact, allow to re-design the configuration of the sensing elements - either by modifying toggle switches and gene networks, or by producing synthetic entities mimicking key properties of natural molecules. The present review considered the role of synthetic biology in sustaining biosensor technology, reporting examples from the literature and reflecting on the features that make it a useful tool for designing and constructing engineered biological systems for sensing application. Besides, a section dedicated to bioinspired synthetic molecules as powerful tools to enhance biosensor potential is reported, and treated as an extension of the concept of biomimetic chemistry, where organic synthesis is used to generate artificial molecules that mimic natural molecules. Thus, the design of synthetic molecules, such as aptamers, biomimetic, molecular imprinting polymers, peptide nucleic acids, and ribozymes were encompassed as "products" of biomimetic chemistry.
 
Related Conferences : Advanced Biomaterial Symposium | Biopolymer Conferences |  Advanced Biomaterial Workshops Japan
 
International Conference on Biomaterials Applications May 07-08, 2018 Dubai, UAE;  International Conference on Nanobiotechnology and Biomaterials Sep 17-18, 2018 Rome, Italy; International Conference on Metallic Biomaterials for Biomedical Engineering Oct 08-09, 2018 Tokyo, Japan; International Conference on Metallic Biomaterials and Biomedical Engineering Oct 04-05, 2018 Sydney, Australia; International Conference on Biomimetics, Biomaterials and Biomedical Engineering Oct 15-16, 2018 Chicago, USA;
 
Associations and Societies
                                                                                                                                                                  
 
Biodegradable metals are those which are intended to get degraded in the body safely. The metals are either magnesium based or iron based alloys. They are mainly applied for cardiovascular implants as stents and orthopaedics. Hydrogels are the polymeric materials containing water, which are the first biomaterials for human use. They help in tissue engineering, implantable devices, biosensors, materials controlling the activity of enzymes, etc. Degradation of Biomaterials is a serious problem for any medical device whether it is precluding degradation of implantable devices or forecasting the amount of degradation of tissue engineering scaffolds or drug releasing elements. Nanofiber scaffolds are used for orthopaedic tissue repair and regeneration. Biomimetic materials are those which can show cellular responses mediated by scaffold and peptide interactions from extracellular matrix. There are approximately 300 universities, 400 companies and 50 societies working in the field of Bio-degradable materials.
 
 
International Conference on Biomaterials for Healthcare Apr 13-14, 2019 Venice, Italy; International Conference on Regenerative Biomaterials May 04-05, 2019 Rome, Italy; International Conference on Biomaterials Engineering May 21-22, 2019 Berlin, Germany; International Conference on Biomaterials Applications May 19-20, 2019 Dubai, UAE; International Conference on Biomaterials Science and Technology May 04-05, 2019 Singapore
Associations and Societies
 
 
Cyber genetics, Norbert Wiener presented a vision where the study of control and communication in the animal and the machine are unified. The field of Cybernetics (art of steering) was born. Predating the discovery of the structure of DNA and the ensuing molecular biology revolution, cybernetic applications in the life sciences at the time were limited. More than 60 years later, the confluence of modern genetic manipulation techniques, powerful measurement technologies, and advanced analysis methods is enabling a new area of research in which systems, communications, and control theory notions are used for synthetically regulating cellular processes at the gene level. We refer to this nascent field as Cyber genetics.
 
 
International Conference on Biomaterials Applications May 07-08, 2018 Dubai, UAE;  International Conference on Nanobiotechnology and Biomaterials Sep 17-18, 2018 Rome, Italy; International Conference on Metallic Biomaterials for Biomedical Engineering Oct 08-09, 2018 Tokyo, Japan; International Conference on Metallic Biomaterials and Biomedical Engineering Oct 04-05, 2018 Sydney, Australia; International Conference on Biomimetics, Biomaterials and Biomedical Engineering Oct 15-16, 2018 Chicago, USA;
 
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About the Conference
Conferenceseries llc ltd takes great pleasure and feels esteemed in welcoming the contributors over the globe to attend  “5th World Congress on Synthetic Biology and Advanced Biomaterials, September 19th-20th,2018  Tokyo, Japan, which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions. The theme of this Conference is “Innovative Biomaterial and Synthetic Biology Technologies for Life and Society”, which means just not to explore the recent advancement rather it could be expanded to all possible ways which will be helpful in more and more advance research in this emerging field.
 
The scientific event offers a best platform with its well organized scientific program to the audience which includes interactive panel discussions, keynote lectures, plenary talks and poster sessions on the topics like Advanced BiomaterialsBiopolymer, Cyber genetics, Bio photonics , Regenerative Medicine and Tissue Engineering, DNA and Microbial Genome Resources, Gene Networks, Bio fluid Mechanics, Bio hybrid Artificial Organs, 3D Printing of Biomaterials, Biomimetic Chemistry and Synthetic Biology, Biomaterials in Medicine/Drug Formation, Biocompatibility of Nanomaterial – Cellular Signalling.
 
Conferenceseries llc ltd has organized more than 3000 Global Events which includes 600+ Conferences, 1200+ Symposiums and 1200+ Workshops in Europe, USA & Asia with a collective support from 1000 more scientific societies and publishers Over 30000 eminent personalities, reputed scientists as editorial board members have contributed to 700+ Open access journals.
 
Why to Attend?
5th World Congress on Synthetic Biology and Advanced Biomaterials” operates as a platform to bridge the innovative difference between the Academic and Industrial discussion in research methods of Biomaterials and Synthetic Biology.
The focus of this year’s conference is to connect the global synthetic biology community by fostering the dialogue between entrepreneurs, business executives, tech practitioners, technology scouts, academics, and investors. Join us for insightful discussions on advancements in metabolic engineering, designer biomaterials, engineering biology for consumer products, engineering environmental sustainability in the circular economy, hardware to make biology easier to engineer, public perception on engineering biology, and if synthetic biology will be the key to our future health. Conduct presentations, distribute information, meet with current and potential scientists, make a splash with new drug developments, and receive name recognition at this 2-day event. World-renowned speakers,   the most recent techniques, developments, and the newest updates in 5th World Congress on Synthetic Biology and Advanced Biomaterials are hallmarks of this conference.
 
Target Audience:         
  •  Bio-based Materials and Sustainability
  • Biomedical Engineering, Materials Science and Nano Science Students, Scientists
  • Biomaterials Researchers
  • Biomedical Engineering, Materials Science and Nano Science Faculty
  • Medical Colleges
  • Biomedical Engineering, Materials Science and Nanomaterial’s Associations and Societies
  • Biomedical Business Entrepreneurs
  • 3D Printing companies
  • Medical Devices manufacturing Companies
  • Synthetic Biology Young Researchers
  • Synthetic Biology and Biology Faculty Members
  • All Medical and Life Science Colleges
  • Synthetic Biology Associations and Societies
  • Business Entrepreneurs
  • Training Institutes
  • Worldwide Synthetic Biology Medicine Companies
  • Exhibitors and Sponsors
  • Companies related to Biodegradable materials industry
 
Conference Highlights:
  • Biomaterials and Biopolymers
  • Advanced Biomaterials
  • Biomaterials in Medicine/Drug Formation
  • Bio photonics
  • Biomimetic Chemistry and Synthetic Biology
  • Naturally Derived Biomaterials
  • Bio fluid Mechanics
  • Polymer Synthesis and Innovations
  • Bio hybrid Artificial Organs
  • Genetic Engineering of Microbes
  • DNA and Microbial Genome Resources
  • Gene Networks
  • Regenerative Medicine and Tissue Engineering
  • Biocompatibility of Nanomaterial – Cellular Signalling
  • Advances in Regenerative Technologies
  • Advances in 3D printing of Biomaterials
  • Cybergenetics
 
 
Come and be a part of it !!!
We welcome you to the 5th World Congress on Synthetic Biology and Advanced Biomaterials popularly known as Synthetic Biomaterials Congress 2018, which is going to be held during September 19th-20th , 2018,Tokyo,Japan. The theme of the conference " Innovative Biomaterial and Synthetic Biology Technologies for Life and Society " is all about increased genome sequencing efforts have ushered in a new era of systems biology, in which entire cellular networks are analyzed and optimized for application in the development of strains and Bioprocesses. The challenge the field of biomaterials is currently facing: to provide effective and affordable biomaterials-based methods to repair and regenerate damaged and diseased tissues and organs.
This challenge can only be overcome by converging breakthrough developments from the fields of chemistry, physics, materials science, biology and engineering to address real clinical needs, while also considering the translational pathway from bench to bedside.
 
Highlights:
  • Biomaterials and Biopolymers
  • Advanced Biomaterials
  • Biomaterials in Medicine/Drug Formation
  • Bio photonics
  • Biomimetic Chemistry and Synthetic Biology
  • Naturally Derived Biomaterials
  • Bio fluid Mechanics
  • Polymer Synthesis and Innovations
  • Bio hybrid Artificial Organs
  • Genetic Engineering of Microbes
  • DNA and Microbial Genome Resources
  • Gene Networks
  • Regenerative Medicine and Tissue Engineering
  • Biocompatibility of Nanomaterial – Cellular Signalling
  • Advances in Regenerative Technologies
  • Advances in 3D printing of Biomaterials
  • Cybergenetics
Why to attend??
 
Meet, partner and be inspired by the Industry’s leading experts.The focus of this year’s conference is to connect the global synthetic biology community by fostering the dialogue between entrepreneurs, business executives, tech practitioners, technology scouts, academics, and investors. Join us for insightful discussions on: advancements in metabolic engineering, designer biomaterials, engineering biology for consumer products, engineering environmental sustainability in the circular economy, hardware to make biology easier to engineer, public perception on engineering biology, and if synthetic biology will be the key to our future health. Conduct presentations, distribute information, meet with current and potential scientists, make a splash with new drug developments, and receive name recognition at this 2-day event. World-renowned speakers, the most recent techniques, developments, and the newest updates in   are hallmarks of this conference.
 
Target Audience
 
Synthetic biology and Biomaterial scientists and companies looking to learn the latest engineering and synthetic biology technologies for converting small molecule, natural product pathways into novel compounds. Presidents and Chair persons of World wide Universities associated with Biology background, CEOs , Faculty members , Research scientist as well as budding scientist of world wide Universities , Students etc.
The organization committee is all set for an informative Conference program which will include Symposia and Lectures from renowned speakers as well as scientist which will be an informative session as well as meaningful experience with scholars all around the world. We invite you to join Synthetic Biomaterials Congress 2018. All members who are part of Synthetic Biomaterials Congress 2018 are looking to share a great experience in this emerging field of Science as well as to share a formal meet in Tokyo, Japan.
 
MARKET ANALYSIS OF BIOMATERIALS AND SYNTHETIC BIOLOGY
 
The properties of these complex cellular networks cannot be understood by monitoring individual components alone, but from the integration of non-linear gene, protein, and metabolite interactions across multiple metabolic and regulatory networks via computer simulation.  The global synthetic biology market for the forecast period of 2013 to 2018.This market is expected to reach $5,630.4 million by 2018 from $1,923.1 million in 2013, growing at a CAGR of 24% during the forecast period. The global synthetic biology market is segmented on the basis of tools, technologies, applications, and geographies.
 
The market has been estimated to be USD 70.03 billion in 2016 and it is poised to grow USD 130.17 billion by the end of 2021 at a CAGR of 13.2% during the forecast period from 2016 to 2021. Biomaterial is a biological or synthetic substance used to make devices to replace a part or an organ in a safe, reliable & compatible to the body. Biomaterials can be either extracted from the nature or synthesized using artificial processes. The usage of biomaterials is based on factors like its biocompatibility, bio-functionality & availability. Global synthetic biology market was valued at $3.0 billion in 2013 and is expected to reach $38.7 billion by 2020, supported by a CAGR of 44.2% during the forecast period 2013 - 2020. Synthetic biology is a novel field that finds its origin at the intersection of biology and engineering. It involves designing and construction of biological systems or devices that can be applied in varied domains to get specified results.
 
Its a multidisciplinary effort made by scientists to understand the functioning of biological organisms, cells & genes and implementation of artificial genetic processes to give specific characteristics to an organism. It can even be used to develop a completely new biological system.
Prominent players in the global biomaterials market include Royal DSM (Netherlands), BASF SE (Germany), Corbion N.V. (Netherlands), Covestro (Germany), Invibio Ltd. (U.K.), Carpenter Technology Corporation (U.S.), Evonik Industries AG (Germany), Berkeley Advanced Biomaterials, Inc. (U.S.), CAM Bioceramics BV (Netherlands), and Celanese Corporation (U.S.).
 
Serving 1700 global fortune enterprises with more than 1200 premium studies in a year, M&M is catering to a multitude of clients across 8 different industrial verticals.
Companies active in the synthetic biology market and discussed in this research include Amyris Inc., E. I. du Pont de Nemours and Co., Thermo Fisher Scientific Inc., Synthetic Genomics Inc., Algenol Biofuels Inc., ATG: biosynthetics GmbH, Bayer AG, Bioneer Corp., Biosearch Technologies Inc., Bristol-Myers Squibb Co., CBC Comprehensive Biomarker Center GmbH, Cobalt Technologies, Evolva Holdings SA, Exxon Mobil Corp., GeneWorks Pty Ltd., Genomatica Inc., Gevo Inc., Ginkgo Bioworks, Green Biologics Ltd., New England Biolabs Inc., OriGene Technologies Inc., REG Life Sciences LLC, Royal DSM and Synthorx Inc. 
 
Synthetic Biology is a relatively newer field, came into existence a decade ago. Many of its applications have recently entered the commercial market. Other potential applications would see commercialization in near future. As the market holds huge potential in future and has widespread applications, namely in industries such as chemical, pharmaceuticals, fuels, agricultural, healthcare, etc., the understanding of the market beforehand will give an upper hand to the stakeholders.
 
The report provides comprehensive analysis of the key players operating in the global biomaterials industry, which include Royal DSM, Wright Medical Technology, Inc., Corbion N.V., Zimmer Biomet Holdings, Inc., Bayer AG, Carpenter Technology Corporation, Technologies Ltd., Evonik Industries AG, BASF SE, Invibio Ltd., and Collagen Matrix. The report presents competitive study of the market by analysing market shares and position of major players, recent strategic moves, and detailed profiles of these players.
 

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Conference Date September 19-20, 2018
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