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4th Annual Conference and Expo on Biomaterials
We take immense pleasure and feel honored in welcoming the participants over the globe to attend ‘4th Annual Conference & Expo on Biomaterials (Biomaterials 2019) during February 25-26,2019 at London, UK which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.
Conference will be organized around the theme: 'Enhancing the facet of Biomaterials Science for human health’.
This scientific event offers a best platform with its well organized scientific program to the audience which comprises interactive panel discussions, keynote lectures, plenary talks and poster sessions on the subjects like Polymer Biomaterials, Dental Biomaterials Advanced Biomaterials, Properties of Biomaterials, Biomaterials Applications, Biomaterials Companies and Market Analysis, Biomaterials and Nanotechnology, Tissue Engineering and Regenerative Medicine, Biomaterials in Delivery Systems, Biomaterials in Biological Engineering, Biodegradable Biomaterials, and 3D Printing of Biomaterials.
Conference Series LLC Ltd organizes a conference series of 3000+ Global Events with over 600+ Conferences, 1200+ Symposiums and 1200+ Workshops in USA, Europe & Asia with support from 1000 more scientific societies and publishes 700+ Open access journals which contains over 30000 eminent personalities, reputed scientists as editorial board members.
We are assured that the biomaterials conference series that has started with "Biomaterials 2016" will gain remarkable and consistent success in future.
Why Should I Attend?
Biomaterials 2019 conference acts as a podium for bridging the gap between Academia and Industry through discussion on innovative research methods in Biomaterials Science.
The conference gives best opportunity for meeting with Industrial experts, Academic speakers, Pharmaceutical Companies, Decision-makers, interacting and defining novel prospects in Biomaterials business. It helps in dynamically adding value to biomedical, pharmaceutical, R&D businesses. Novel approaches and applications about biomaterials like the gene/drug delivery systems development and industrializing insights & gain the latest technologies about novel biomaterials and bionanomaterials.
It emphasizes on novel approaches for biomedical applications and up-to-date apprises to drive your market share accordingly. Learn on the applications of innovative biomaterials and other alternatives for treating major diseases to progress the materials portfolio industrialization pathways.
Biomaterials as a field has seen steady growth over its approximately half century of existence and uses ideas from medicine, biology, chemistry, materials science and engineering. There is also a powerful human side to biomaterials that considers ethics, law and the health care delivery system. The biomaterials market is expected to reach USD 149.17 Billion by 2021 from an assessed USD 70.90 Billion in 2016, at a CAGR of 16.0%. The development of the overall biomaterials market (Metallic, Ceramic, Polymers, Natural) can be attributed to increased funds & grants by government bodies worldwide.
We are proud to invite all the contributors across the earth to attend the 4th Annual Conference and Expo on Biomaterials (Biomaterials-2019) during February 25-26, 2019 London, UK.
Theme of the conference is Enhancing the facet of Biomaterials Science for human health with an objective to encourage young minds and their research abilities by providing an occasion to meet the experts in the field of Biomaterials Science & Tissue Engineering .Biomaterials events are designed to discover various applications in diverse fields.
ConferenceSeries LLC Ltd organizes a conference series of 3000+ Global Events with over 600+ Conferences, 1200+ Symposiums and 1200+ Workshops in USA, Europe & Asia with support from 1000 more scientific societies and publishes 700+ Open access journals which contains over 30000 eminent personalities, reputed scientists as editorial board members.
Track 1: Properties of Biomaterials
Biomaterials are primarily used for tissue growth and delivery of drugs, likewise their properties are also having a great impact on cell growth and proliferation of tissues. Physical properties like size, shape, surface, compartmentalization, etc. Mechanical properties includes hardness, fatigue, fracture toughness, elastic modulus, etc. Biosensors are the analytical devices which uses biological molecules can convert biological responses into electrical signals. Nanotopography means the surface characters that are formed at Nanoscale, having applications in the field of medicine and cell engineering. It can be formed by using numerous techniques such as etching, plasma functionalization, etc. Surface properties includes surface tension, surface characterization, charge - charge interaction, etc. Biohybrid materials or Bioconjugates are those substances which are formed by linking of biogenic and non- biogenic compounds via chemical bond. Bioinspired materials are the synthetic ones which looks like that of the natural materials or living matter in case of structure, function, and properties.
Track 2: Advanced Biomaterials
Biomaterials are constituents that are intended to interrelate with the biological system either as a part of medical device or to replace or repair any injured organs or tissues. Biomaterials can be derived either naturally or synthetically. Some of the natural Biomaterials are silk, gelatin, etc. while the Synthetic ones are the various forms of polymers, ceramics and composites. Bioceramics like Alumina, Bioglass, Zirconia are used to reestablish injured portions of musculoskeletal system and used in dental and orthopaedic fields. Biocomposites are designed 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 mostly 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 essential for medical applications.
Track 3: Polymer Biomaterials
Polymers are the macromolecules attained from various repeated subunits. Polymers are used as biomaterials and that can be of the following types, i.e., Natural Polymers: Chitosan, Collagen, Alginate. These natural polymers are used for drug delivery, wound dressing and tissue engineering. Synthetic Polymers like Polyvinylchloride (PVC),Polypropylene, Polymethyl methacrylate are used in implants, medical disposable supplies, dressings, etc. Biodegradable Biomaterials: Polyactide, Polyglycolide, etc. It is valuable as it regenerates tissue and does not leave residual traces on implantation. Mostly used for tissue screws, cartilage repair and drug delivery systems. Biopolymers are those which are established from the living organisms. Some of the examples are DNA, RNA, proteins, carbohydrates, etc. It can also be used as packaging material. Polymer composites are widely used for preparing medical implants.
Track 4: Dental Biomaterials
Dental biomaterials encompass both the natural dental tissues like enamel, cementum, dentin as well as the synthetic dental materials such as polymers, composites, ceramics, etc. They are used to repair damaged, decayed teeth. These dental biomaterials are of diverse types i.e. orthodontics, braces, implants, etc. Orthodontics is a fragment of dentistry that leads to the alignment of teeth and jaws to improve oral health. Braces are mainly used in orthodontics to straighten teeth and to treat irregularities in teeth. Dental implants are the cylindrical forms made up of titanium, which is used as substitute for any missing teeth. Prosthesis means a device intended to substitute a missing part of the body Diseased or missing eyes, arms, hands, legs, or joints are replaced by using prosthetic devices. False teeth are known as dental prostheses. The dental devices report estimates the size of global dental devices and consumables market over the period 2010 – 2015. The report evaluates the key trends of the market and segments the global dental equipment and consumables market by components. The dental consumables market is predictable to witness substantial development in the coming years. The worldwide dental consumables market is expected to reach USD 35.35 Billion by 2021 from USD 25.45 Billion in 2016, at a CAGR of 6.8% from 2016 to 2021. Though, the high cost and partial reimbursement for dental care and shortage of dental professionals are likely to detain the development of this market.
Track 5: Biomaterials and Nanotechnology
Bionanomaterials are molecular materials composed partly or completely of biological molecules and resulting in structures having a Nano-scale-dimension. Magnetic nanomaterials are the magnetic particles of Nano size that are having exclusive magnetic properties. They are existing in numerous forms such as dry powders, as surface functionalized powders or as stable dispersions in a variety of solvents, both aqueous and organic. These Bionanomaterials will have possible applications as novel fibers, sensors, adhesives etc. Nano biomaterials accounts for 28.3% of the market share. Nano biomaterials are used for regeneration practices, cancer treatment, and the polymeric ones are important for gene delivery systems. Nanofiber scaffolds has diameters less than 100 nms. Nano scaffolding is a method to regrow tissue and bone, also used in stem cell expansion.
Track 6: 3D Printing of Biomaterials
3D printing is the process of creating three- dimensional structure of biomaterials by means of computer control. With respect to the nano-scale dimensions the biomaterials are classified into three types as- Nano-particle (3D), Nano-fiber(2D) and Nano-sheet (1D). 3D bioprinting is the formation of numerous cell patterns by using printing techniques along with the layer-by-layer method to produce tissue mimetic structures without any harm in cell function that can be further used in tissue engineering. Electrospinning technology means deposition of polymer nanofibers on an object by using high voltage to a liquid polymer solution. Bioprinting helps in the research of drugs and pills by printing tissues and organs. It is also used for micro devices and microarrays. The 3D printing materials market is expected to reach USD 1,409.5 Million by 2021 from USD 530.1 Million in 2016, at a CAGR of 21.60%.
Track 7: Biodegradable Biomaterials
Biodegradable metals are those that are projected to get degraded in the body securely. The metals will be mostly magnesium based or iron-based alloys. They are chiefly useful for cardiovascular implants as stents and orthopaedics. Hydrogels are the polymeric materials encompassing water, that was the primary biomaterials used. They aid in tissue engineering, implantable devices, biosensors, materials controlling the activity of enzymes, etc. Degradation of Biomaterials is a serious issue for any medical device whether it is preventing degradation of implantable devices or predicting the quantity of degradation of tissue engineering scaffolds or drug releasing elements. Nanofiber scaffolds are used for orthopaedic tissue repair and regeneration. Biomimetic materials are those materials that are capable to mimic the host system by showing cellular responses facilitated by scaffolds and peptide interactions from extracellular matrix.
Track 8: Biomaterials in Delivery Systems
Biomaterials plays an active role in delivery systems exclusively in drug delivery. Numerous kinds of drug delivery systems, surgical implants, wound closure devices, artificial organs are usually reliant on on biomaterials. Biomaterials help in gene delivery that in due course make transgene expression and tissue growth along with regeneration of tissues. Immunomodulation i.e., modulating or altering several features of immune system, the power and competence of regenerative medicine therapies can be enlarged. At present, hydrogels are termed as the smart drug delivery system, that are often used as sustained drug release systems, which has importance in the healing of cancer. Extracellular media or vesicles are used for the macromolecular drug delivery. Biomaterials can also be used for islet delivery, for imaging, etc.
Track 9: Biophotonics and Biomedical Optics
Biophotonics is the subject that deals with the study of optical procedures in biological systems, composed those which occur naturally and in bioengineered materials. The important feature of this field is imaging and detecting cells and tissue. It also comprises of injecting fluorescent markers into a biological system to track cell dynamics and drug delivery. Biophotonics is similarly used to study biological materials or materials with assets like biological material, i.e., scattering material, on a microscopic or macroscopic scale. On the microscopic scale common applications encompass microscopy and optical coherence tomography. On the macroscopic scale, the light is diffuse and applications normally deal with diffuse optical imaging and tomography. Biomedical optics accents on the design and application of advanced optical techniques to resolve problems in medicine and biology.
Track 10: Bio-based Materials and Sustainability
Bio-based material are formed by means of present living life forms (rather than non-sustainable non-renewable energy sources that are produced by ancient plants), with horticultural harvests and deposits, trees, and green growth. "Sustainable biomaterials" are those which are obtained from economically developed and gathered cropland or woodlands. They are fabricated without risky information sources and effects, and also sound and safe for the earth amid utilize. These materials are projected to be reutilized for example, by means of recycling or fertilizing the soil.
Track 11: Tissue Engineering and Regenerative Medicine
Tissue Engineering is the study of materials that uses the combination of cells to engineer biologically active molecules to produce well-organized tissues and organs, which can be implanted into the donor with the use of many engineered methods along with some physicochemical factors. Biomaterial supports the engineered tissues physically, and guide cells by topographical and chemical signals. Regenerative medicine is a branch of tissue engineering that deals with the process of replacing or regenerating human cells, tissues or organs to reestablish the usual biological function by means of cells, stem cells and biomaterials. Scaffolds are the materials designed to cause cellular interactions that ultimately aids in formation of new tissues. Biomaterials helps in creating new materials for tissue engineering and stem cell delivery. Bone and cartilage tissue engineering is a quickly advancing field. New method of this engineering includes periodontal tissue regeneration with mesenchymal stem cells and platelet rich plasma.
Track 12: Biomaterials Applications
Biomaterials are the kind of materials that are introduced into the body as a medical device for medical purposes. These materials are having numerous medical applications such as cancer therapy, artificial ligaments and tendons, orthopaedic 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. These materials also have some non-medical applications such as to grow cells in culture medium, assay of blood proteins in laboratories, etc.
Track 13: Biomaterials Companies and Market Analysis
The biomaterials market comprises all kinds of biomaterials such as ceramics, composites, biodegradable, orthopaedic materials, etc. The market is anticipated to reach $130.57 billion by 2020, at a progress of CGAR of 16% from 2015-2020 prediction. Biomaterials have applications in the field of oncology i.e, the study of prevention, treatment of cancer. Few biomaterials companies that are comprised in the global biomaterials market are Zimmer Biomet Holdings, Inc. (U.S.), Carpenter Technology Corporation (U.S.), Covalon Technologies Ltd. (Canada), Evonik Industries AG (Germany), BASF SE (Germany), Invibio Ltd. (U.K.), Berkeley Advanced Biomaterials, Inc. (U.S.), CAM Bioceramics BV (Netherlands), and Collagen Matrix, Inc. (U.S.).
(Theme: Enhancing the facet of Biomaterials Science for human health).
Biomaterials are either natural or synthetic substances synthesized in the laboratory using a variety of chemical approaches employing metallic components, polymers, ceramics or composite materials for medical applications. Biomaterials are engineered to interact with the biological system either to treat and replace the damaged organ or a diagnostic one. Biomaterials science includes elements of medicine, biology, chemistry, tissue engineering and materials science.
Operating Committee invites all the contributors across the world to attend the 4th Annual Conference and Expo on Biomaterials on February 25-26, 2019, London, UK. Biomaterials 2019 covers a broad range of subjects to discuss on this international platform by conducting keynote lectures, plenary speeches, workshops and poster presentations. Biomaterials-2019 is intended to discover the implications of Biomaterials Science and Tissue Engineering.
Importance & Scope:
Biomaterials research is a major field in Medicine, which is still under research and the advancements are maximizing day by day.
The main speakers will be renowned personalities in the field of Biomaterials Science.
People from the research community, Doctors, Students, Company CEO’s related particularly to this domain are more inclined towards this Conference. By this conference the advancements in the Biomaterials research gets exposure globally.
This conference will highlight the important topics like
London, being the capital city of England and the United Kingdom, is the densely populated region, urban zone and metropolitan area in the United Kingdom. Nearby the River Thames, London has been a foremost reimbursement for two millennia, and it is found by the Romans, who termed it as Londinium. London is a foremost global city, with strengths in the arts, commerce, education, entertainment, fashion, finance, healthcare, media, professional services, research and development, tourism and transport all contributing to its prominence. It is one of the world’s important financial centers and has the fifth-or sixth-largest city in the world depending on measurement. London is a world cultural capital. It is the world’s most-visited city as measured by international arrivals and has the world’s largest city airport system measured by passenger traffic. London’s 43 universities form the largest concentration of higher education in Europe. London became the foremost city to host the modern Summer Olympic Games thrice by the year 2012.
London has a varied range of societies and cultures, and more than 300 languages are spoken within its boundaries. It is a chief center of higher education and research and its 43 universities form the largest concentration of higher education in Europe. London contains four World Heritage Sites: The Tower of London; Kew Gardens; the site comprising the Palace of Westminster, Westminster Abbey, and St Margaret’s Church; and the historic settlement of Greenwich. Other renowned landmarks consist of Buckingham Palace, the London Eye, Piccadilly Circus, St Paul’s Cathedral, Tower Bridge, Trafalgar Square, and The Shard. London has abundant museums, galleries, libraries, sporting events and other cultural institutions, along with the eminent British Museum, National Gallery, British Library and 40 West End theatres.
Why to attend??
Biomaterials 2018 conference acts as a platform for bridging the gap between Academia and Industry through discussion on novel research methods in Biomaterials research.
The conference gives best opportunity for meeting with Industrial experts, Academic speakers, Pharmaceutical Companies, Decision-makers, interacting and defining novel prospects in Biomaterials business. It helps in dynamically adding value to biomedical, pharmaceutical, R&D businesses. Novel approaches and applications about biomaterials like the gene/drug delivery systems development and industrializing insights & gain the latest technologies about novel biomaterials and tissue engineering.
It emphasizes on novel strategies for biomedical applications and latest updates to drive your market share accordingly. Learn on the applications of novel biomaterials and other alternatives for treating major diseases to progress the materials portfolio industrialization pathways.
Please contact the event manager Marilyn (bWFyaWx5biAhIGIgISB0dXJuZXIgfCBueWV2ZW50c2xpc3QgISBjb20= ) below for:
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