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Theme
Exploring Novel Researches in the Field of Biomaterials and Tissue Engineering
- Biomaterials Congress 2022

About Conferences

Welcomes you to join "5th International Conference on Biomaterials, Cellular and Tissue Engineering" scheduled on April 20-21, 2022 | Webinar

Biomaterials Congress 2022 aims to gather global leading educational scientists, researchers and research students, to exchange and share their experiences and research results about all the aspects of  Biomaterial and Tissue Culture  with the Theme Exploring Novel Researches in the Field of Biomaterials and Tissue Engineering".

We invite all the doctors, Keynote presentationsOral talks, Poster presentations, Symposia, Workshops, Exhibitions, Advanced Biomaterial, 3d Bio printing Technology, Nanotechnology, other researchers in the field of Biomaterial, Culture, Tissue Engineering, Dental, Orthopaedic, Cardiovascular, people who believe in Tissue Engineering to explore their research and share their knowledge, help with case studies and other practices of Biomaterials.

Welcome Message

Welcome back to the "5th International Conference on Biomaterials, Cellular and Tissue Engineering" scheduled on April 20-21, 2022 | Webinar.

This year coming up with the imaginative subject “Biomaterial Congress”, which means to offers new thoughts, procedures and strategies that legitimately influence the manner in which you work together and the administration which holds prominent experts in the field of Biomaterial and Tissue Engineering.

Biomaterial Congress is the stage of famous researchers, experts, college professors, specialists, and understudies, comprising of addresses. Oral and publication introductions, presentations and substantially more learning, share your Research involvement and get name acknowledgment and Certificates marked by our prominent world-class sorting out the advisory group.

Scientific Session

Track 1: Biomaterials – An Emerging Technology
Biomaterials are the non-viable accoutrements intended to interact with the natural systems. Bio materials relate to the study of bio-compatible accoutrements used for medical specialty operations. It involves not solely synthetic accoutrements (metals, polymers, ceramics, and composites), still also natural accoutrements similar as proteins, cells, and apkins can be used.
Biomaterials analysis encompasses varied contents as well as accoutrements alloy and characterization, exterior revision, bio stability and biodegradation, biomechanics, and cell- material and/ or tissue- implant intercourses. Typical memoir mimetically inspired biomaterials include Nano-biomaterials, smart biomaterials, cold-blooded biomaterials, Nano-Bio composites, crescively pervious biomaterials, and tissue pulpits.
Biomaterials are used for the restitution or reconstruction of the muscular-cadaverous system and soft towel rejuvenescence jointly as in colorful medical instruments and bias. The eventuality varies of operations for bio materials are extensively adding, with fully different physical, mechanical and medical properties demanded for different clinical and mileage operations. One protean and extensively used fashion for the quick medication and testing of bio materials is periodic optical maser deposition (PLD).

Track 2: Tissue Engineering
Tissue Engineering is the use of a combination of cells, engineering, and materials ways, and applicable organic chemistry and chemistry factors to boost or restore biological tissues. Tissue engineering involves the enrollment of a tissue scaffold for the formation of the latest viable tissue for a medical use. Tissue engineering is that the application of natural biology of the system which results in developing therapeutic ways aimed towards the restoration, repair, maintenance, or enhancement of tissue function. The goal of tissue engineering is to mobilize useful constructs that restore, maintain, or improve broken tissues or whole organs. Artificial skin and animal tissue are samples of assembled tissues that are approved by the FDA are also used, but, presently they are restricted.

Related Societies and Associations: Netherlands society for Biomaterials and Tissue engineering | The United Kingdom Society for Biomaterials | The European Society for Biomaterials | International Union of Societies for Biomaterials Science and Engineering | Tissue and Cell Engineering Society | BIOMAT-Association for the development of Biomaterials | Society for Tissue Engineering and Regenerative Medicine

Track 3: Advanced Biomaterials
Biomaterials are natural or artificial materials that are meant to interact with the biological system either as a region of the medical device or to swap or to repair any agonized organs or tissues. Biomaterials are of natural or artificial type Silk and gelatin are some natural biomaterials, whereas the artificial biomaterials are polymers, ceramics, metals, semiconductors Bio-ceramics like corundum, bio-glass, and zirconium oxide are used. Bio composites are made by exploitation wax and natural fibers. Metals are generally a rare selection of biomaterials within the fields of dental, orthopedic, internal organ implants because metals will result in attrition, corrosion. So, surface coating and modification of metals are fundamental for medical applications. 3D printing of the biomaterials is the most leading variety of biomaterial design

Related Societies and Associations: Society for Tissue Engineering and Regenerative Medicine | International Union of Societies for Biomaterials Science and Engineering | The European Society for Biomaterials | Netherlands society for Biomaterials and Tissue engineering | The United Kingdom Society for Biomaterials  | Tissue and Cell Engineering Society | BIOMAT-Association for the development of Biomaterials

Track 4: New Approaches to Biomaterial Design
The enactment of combinatorial and computational strategies in biomaterials design was used to satisfy the specific requirements of many diverse biomedical or prosthetic applications. The concluding goal of the use of combinatory and computational approaches in biomaterials design is to turn the normal mode of materials discovery around. Virtual polymer libraries are the acceptable means to explore a wide range of new polymer compositions in a time- and cost-effective fashion. The model structures are then used to derive forecast on polymer properties, thereby creating a rational way to select a smaller subset of these virtual polymers for existing synthesis and exploration. The recent movements in the manufacture of biomaterials are 3D Technology, Additive Manufacturing Technologies, Bio photopolymer designs for bone    regeneration, etc.

Related Societies and Associations: The United Kingdom Society for Biomaterial | Tissue and Cell Engineering Society | Netherlands society for Biomaterials and Tissue engineering | The European Society for Biomaterials | International Union of Societies for Biomaterials Science and EngineeringBIOMAT-Association for the development of Biomaterials | Society for Tissue Engineering and Regenerative Medicine

Track 5: Smart Biomaterials
Smart biomaterials have the capability to respond to the physical, chemical and natural stimulants, and continue to impact numerous aspects of the ultramodern drug. Smart accoutrements can promote numerous antidotes and enrich the treatment of debilitating conditions. One aim in the field of smart accoutrements is their operation in tissue engineering, medicine delivery, immune engineering, and medical bias to develop accoutrements that are biocompatible and are suitable to respond to endogenous and exogenous signals or the surrounding ambient.
Related Societies and Associations: BIOMAT-Association for the development of Biomaterials | The European Society for Biomaterials | Netherlands society for Biomaterials and Tissue engineering | The United Kingdom Society for Biomaterials | Tissue and Cell Engineering Society | Society for Tissue Engineering and Regenerative Medicine | International Union of Societies for Biomaterials Science and Engineering

Track 6: Biomaterials and Nanotechnology
Bio-Nano-materials are molecular materials containing slightly or completely of biological molecules .Some of them consequence in structures of Nano-scale-dimension. Magnetic Nano materials are the magnetic particles of Nano size that are of licensed magnetic properties. These magnetic Nano materials exist in different forms such as dry powders, surface-functionalized powders or as stable dispersions in a variety of solvents, both aqueous and organic. These Bio Nano materials applications include novel fibers, sensors, adhesives, etc. Nano biomaterials are used for regeneration practices, cancer treatment, the polymeric Nano materials are important for gene or drug delivery systems. Nano fiber scaffolds have diameters less than 100 nm Nano scaffolding is a method to regenerate tissue and bone, which is also used in stem cell expansion.

Related Societies and Associations: BIOMAT-Association for the development of BiomaterialsThe European Society for Biomaterials | Netherlands society for Biomaterials and Tissue engineering | The United Kingdom Society for Biomaterials  | Tissue and Cell Engineering Society | Society for Tissue Engineering and Regenerative Medicine | International Union of Societies for Biomaterials Science and Engineering

Track 7: Biodegradable Biomaterials 
Degradable biomaterials have a lot of exercises in medicine and surgery. These materials are planned in such a way that they get degraded in the body over a predetermined implantation period, so that degradation achieves or helps to attain a particular function. Biodegradable polymers can be natural or synthetic. The synthetic polymers have greater bulges than the natural ones because they can be more freely tailored to give a portfolio of desired properties. The general requirement for selecting a polymer for use as a bio material includes primarily mechanical properties (tension, compression, and shear) and the degradation time necessary for the specific application. These should be decadent in the implantation site, leaving nontoxic products. In addition, surface properties of bio materials, such as hydrophobicity and hydro phobicity, surface charge, polarity, and the distribution of reactive chemical groups may be important issues that have to be considered. The most commonly used chemical groups are esters, anhydride, Orthoesters, and amides.

Related Societies and Associations: International Union of Societies for Biomaterials Science and Engineering | The United Kingdom Society for Biomaterials | Netherlands society for Biomaterials and Tissue engineering | The European Society for Biomaterials | Tissue and Cell Engineering Society | BIOMAT-Association for the development of Biomaterials | Society for Tissue Engineering and Regenerative Medicine

Track 8: Bio photonics and Biomedical Optics
Bio photonics deals with the study of optic procedures in colorful natural systems that do naturally and in bioengineered accoutrements. Imaging and Detecting cells and apkins is an important point of this field. This can be useful in medicine delivery to fit fluorescent labels and to track cell dynamics. Bio photonics is also used to study natural accoutrements like studying scattering material, on a bitsy or macroscopic scale. Microscopy and optic consonance tomography are common micro scale operations of Bio photonics. On the macroscopic scale, the light diffuses and operations typically deal with verbose optic imaging and tomography. To resolve problems in drug and biology Bio medical optics can be used in the design and operation of advanced optic ways.

Related Societies and Associations: International Union of Societies for Biomaterials Science and Engineering | Society for Tissue Engineering and Regenerative Medicine | Netherlands society for Biomaterials and Tissue engineering  | The United Kingdom Society for Biomaterials | The European Society for Biomaterials | Tissue and Cell Engineering Society | BIOMAT-Association for the development of Biomaterials

Track 9: Biosensors
A Biosensor is a logical device, used for the discovery of a chemical substance that combines a natural element with a physicochemical sensor. The sensitive natural rudiments like apkins, microorganisms, organelles, cell receptors, enzymes, antibodies, nucleic acids or a biologically deduced material or biomimetic element that interacts, binds or combines with the analyte under analysis. The biosensors can also be designed by using natural engineering. The biosensor anthology device with the electronics or signal processors is originally responsible for the display of the results in a stoner-friendly way. These are cheaper and don't bear a complex biocatalyst. A biosensor substantially consists of a bio-recognition point, memoir transducer element, and electronic system which have a signal amplifier, processor, and display.

Related Societies and Associations: Netherlands society for Biomaterials and Tissue engineering | The United Kingdom Society for Biomaterials | The European Society for Biomaterials | International Union of Societies for Biomaterials Science and Engineering | Tissue and Cell Engineering Society | BIOMAT-Association for the development of Biomaterials | Society for Tissue Engineering and Regenerative Medicine

Track 10: 3D Bio printing Technology
Three dimensional (3D) bio printing is the benefit of 3D printing–like techniques to combine cells, growth factors, and biomaterials to fabricate scientific discipline elements that maximally echo natural tissue characteristics. Generally, 3D bio printing apply the layer-by-layer technique to deposit materials called bio-inks to form tissue-like structures that are later engaged in medical and tissue engineering fields. With accordance, the Nano-scale dimensions, the biomaterials area unit classified into 3 types

·         Nano-particle

·         Nano-fiber

·         Nano-sheet

Bio printing helps within the investigation by the printing of complicated tissues and organs. it's collectively used for microscopic devices and microarrays. The initial common universal file formats used for 3D printing area unit STL (stereo lithography) and VRML (virtual reality modeling language).

Related Societies and Associations: The European Society for Biomaterials | BIOMAT-Association for the development of Biomaterials | Netherlands society for Biomaterials and Tissue engineering | The United Kingdom Society for Biomaterials  | International Union of Societies for Biomaterials Science and Engineering | Tissue and Cell Engineering Society | Society for Tissue Engineering and Regenerative Medicine

Track 11: Utility Based Biomaterials
The development of new antimicrobial Biomaterials and tenacious biomaterials are presently adding motivation. These biomaterial- grounded bias have significant advantages compared to sutures, like their sealing or repairing capability, easy use modality and delivery in-situ of composites for accelerating crack mending.

Related Societies and Associations: Netherlands society for Biomaterials and Tissue engineering | The United Kingdom Society for Biomaterials | The European Society for Biomaterials | International Union of Societies for Biomaterials Science and Engineering | Tissue and Cell Engineering Society | BIOMAT-Association for the development of Biomaterials | Society for Tissue Engineering and Regenerative Medicine

Track 12: Clinical Applications of Biomaterials For Tissue Regeneration
Millions of people endure end stage organs and tissue failure. The treatment plans for this include transplantation, reconstruction, mechanical affinity. Biomaterials are the outfit that are implanted into the body as a medical device for medical functions. These outfit have colorful medical operations like cancer medical aid, artificial ligaments and tendons, orthopedically for common reserves, bone plates, and ophthalmic exercise in contact lenses, for crack mending within the type of surgical sutures, clips, whim-whams rejuvenescence, in reproductive remedy as bone implants, spinal rods, Replace dead skin. These accoutrements indeed have some on-medical uses like to grow cells in the medium, an assay of blood proteins in laboratories.

Related Societies and Associations: International Union of Societies for Biomaterials Science and Engineering | The United Kingdom Society for Biomaterials | The European Society for Biomaterials | Tissue and Cell Engineering Society | BIOMAT-Association for the development of Biomaterials | Society for Tissue Engineering and Regenerative Medicine | Netherlands society for Biomaterials and Tissue engineering

Track 13: Plastic and Cosmetic surgeries
Plastic and Cosmetics surgeries have its exercise in the accompanying fields of medicinal businesses. The real triumph for biomaterials in Plastic medical procedure is artificial bone implant which is intended to remove cancer affected bone. The adorning surgery is predominant in bioengineered skins, cellular dermal matrices, and craniofacial medical procedures and in auxiliary nerve repair.

Related Societies and Associations: The United Kingdom Society for Biomaterials | BIOMAT-Association for the development of Biomaterials | Netherlands society for Biomaterials and Tissue engineering | The European Society for Biomaterials | International Union of Societies for Biomaterials Science and Engineering | Tissue and Cell Engineering Society | Society for Tissue Engineering and Regenerative Medicine

Track 14: Organ Transplantation
The transplantation of a undivided organ with new therapeutic means that may overcome the disadvantages involved in the current artificial organs. It's an exciting exploration area that aims at regenerative selections to gathered apkins for organ transplantation with soft apkins. As a result of the medical and request eventuality, there's significant academic and commercial interest in this technology.

Related Societies and Associations: Society for Tissue Engineering and Regenerative MedicineBIOMAT-Association for the development of BiomaterialsNetherlands society for Biomaterials and Tissue engineering | The United Kingdom Society for BiomaterialsThe European Society for Biomaterials | International Union of Societies for Biomaterials Science and Engineering | Tissue and Cell Engineering Society

Track 15: Bio inspired Materials and Systems
Bio inspired materials are synthetic outfit whose structure, tracts or function mimic those of natural accoutrements or living matter. Scientists and masterminds are decreasingly turning to nature for uplift. The results arrived at by natural selection are frequently a good starting point in the Hunt for answers to scientific and specialized problems. Designing and assembling bio-inspired bias or systems can tell us further about the original creature or plant model. Bio-inspired exploration is relatively different from chemistry exploration. This exploration doesn't concentrate on complexity and bitsy effects like molecular structure. It's grounded on observing and understanding the functions from the products of natural elaboration.

Related Societies and Associations: Society for Tissue Engineering and Regenerative Medicine | The United Kingdom Society for Biomaterials | The European Society for Biomaterials | International Union of Societies for Biomaterials Science and Engineering | Tissue and Cell Engineering Society | Netherlands society for Biomaterials and Tissue engineeringBIOMAT-Association for the development of Biomaterials

Track-16: Cell Biology
Cell Biology Research & Therapy (CBRT) is a peer- reviewed scholarly journal that aims to publish the most complete and dependable source of information in the discoveries and current developments in the field of cell biology .Compositions of various forms similar as original compositions, review compositions, case reports, etc. in all areas of cell biology.

Cell Biology: Research & Therapy focuses on the topics include:

  • Cell Anatomy
  • Cell Physiology
  • Cell Structure
  • Cell Movement
  • Cell Signalling (Lipid and Protein Signalling)

Related Societies and Associations: Tissue and Cell Engineering Society | The United Kingdom Society for Biomaterials | The European Society for BiomaterialsInternational Union of Societies for Biomaterials Science and EngineeringNetherlands society for Biomaterials and Tissue engineering |  BIOMAT-Association for the development of Biomaterials | Society for Tissue Engineering and Regenerative Medicine

Track-17: Dental, Orthopaedic, Cardiovascular Biomaterials
Dental biomaterials build both the natural dental tissues like enamel, cementum, dentin and the synthetic dental materials such as polymers, composites, ceramics, etc. They are used to repair damaged and reined teeth. Diseased or missing eyes, arms, hands, legs, or joints are reintegrated by using prosthetic devices. False teeth are known as dental prostheses.

Bone and joint deterioration and inflammatory problems are faced by millions of people worldwide. Structural and non-structural bone grafts add length, height, and quantity to change alignment, function. Bone implant assortment includes cortico cancellous auto graft, allograft, xenograft, and synthetic graft.

Biomaterials that are recycled in the cardiovascular system include biological substances, metals, and polymers . Polymeric materials that are used in the cardiovascular system build poly tetra fluoro ethylene, polyethylene terephthalate, polyvinyl chloride, etc.

Related Societies and Associations: Tissue and Cell Engineering Society | The United Kingdom Society for Biomaterials  | The European Society for Biomaterials | International Union of Societies for Biomaterials Science and EngineeringNetherlands society for Biomaterials and Tissue engineering |  BIOMAT-Association for the development of Biomaterials | Society for Tissue Engineering and Regenerative Medicine

Market Analysis

The global biomaterials market size was estimated at USD 106.5 billion in 2019 and is expected to register a CAGR of 15.9% over the forecast period. Rising prevalence of musculoskeletal and chronic skeletal medical conditions are expected to boost the demand for biomaterial-based implants, thereby augmenting the market growth. The demand for orthopedic implants is also rising owing to the increasing geriatric population, at an increased risk of osteoarthritis, osteoporosis, and other musculoskeletal disorders.

Technological advancements have made biomaterials more versatile and have increased their utility in various fields of healthcare, such as bioengineering and tissue engineering. The advent of smart biomaterials that interact with biological systems for several biomedical applications, such as from transport of bioactive molecules to cellular functioning of the engineered functional tissues, drives the revenue generation in this market.

Companies are embracing the ongoing developments in novel drug delivery approaches for the controlled release of drugs, thus fueling the market growth. For instance, in January 2019, DSM Biomedical partnered with ProMed Pharma to leverage its biomedical biomaterials with ProMed’s micro molding and extrusion capabilities to create novel controlled-release drug implants and combination devices.

The porous-coated and fully or partially porous orthopedic implants have gained immense popularity in recent years. This is because the porous structures reduce the elastic modulus and stimulate bone growth around the implant. Powder metallurgy, 3-D printing, and additive manufacturing are some of the potential techniques to manufacture porous metallic and ceramic implants.

Application Insights

The orthopedic application segment has dominated the biomaterials market in terms of revenue generation in 2019. Increasing adoption of metallic biomaterials in orthopedic applications due to their high load-bearing capacity is one of the factors driving the segment growth. Besides, continuous developments for the introduction of advanced orthopedic implants by market vendors are also expected to propel the revenue generation.

For instance, in November 2019, DiFusion Inc. received FDA approval for its Xiphos-ZF spinal interbody device, which is based on a different biomaterial Zfuze, a combination of poly-ether-ether-ketone and titanium. This new biomaterial leads to significant reductions of cytokine markers that cause inflammation and are associated with fibrous tissue formation.

Key Companies & Market Share Insights

Prominent companies in the market include Medtronic plc; Evonik Industries AG; Carpenter Technology Corporation; Berkeley Advanced Biomaterials; Invibio Ltd; Zimmer Biomet Holdings, Inc.; BASF SE; Covalon Technologies Ltd.; Stryker; Johnson & Johnson; Dentsply Sirona; CoorsTek Inc.; Corbion; and Collagen Matrix, Inc.

Key companies are making significant investments to expand their presence and maintain a competitive edge. They are also adopting strategies such as agreements, partnerships, and collaboration models to strengthen their product portfolio. Moreover, key vendors are inclined toward the development of more innovative products to expand their biomaterials offerings.

For instance, in October 2019, Evonik Industries commercially launched its bioresorbable PLA-PEG copolymers that are designed to use in implantable medical devices. This product development improved the biocompatibility, safety, and performance of implantable products used by medical device customers and further strengthened Evonik’s growth.

Previous Organizing Committee Members
OCM Member
Jane S. Lebkowski
President of Regenerative Patch Technologies , Cell and Gene theraphy
Regenerative Patch Technologies
Birmingham, USA
OCM Member
Dr Farid Menaa
Professor, Director and Independent Consultant, Departments of Internal Medicine and Nanomedicine
Fluorotronics, Inc.
California, USA
OCM Member
Yuncang Li
Associate Professor, Manufacturing, Materials and Mechatronics
RMIT university
Melbourne, Australia
OCM Member
Kelvin Brockbank
CEO
Clemson University
California, USA
OCM Member
Nadia Benkirane Jessel
University of Stransbourg
Stransbourg, France
OCM Member
Dr. G.Subramanyam
DIRECTOR, Medical
Narayana Medical Institions,Nellore,AP,INDIA
Amaravati, India
OCM Member
Dr.Ahmed G Hegazi
Professor, Microbiology and Immunology
National Research Center
Cairo, Egypt
OCM Member
Dong-An Wang
City University of Hong Kong
Toshima, Japan
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