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Theme
Rise and Innovative Trends of Bioengineering and Bioinformatics
- Bioengineering 2019

About Conference

It gives a great pleasure to invite you all to the two days International Conference on Bioengineering, Biomaterials and Bioinformatics on November 18-19, 2019 in Rome, Italy. This Conference will be associated with upcoming discoveries, past research values and their implementation in this Global growing world and will be helpful for Researchers, Scientist, Businessmen, Students and anyone related to the growth of Bioengineering and Bioinformatics, its applied sources. People who will be attending this from all over the world in different sections are as follows - Directors of Bioinformatics and Drug Discovery or related Programs or Associations, Heads, Deans and Professors of Bioinformatics and Drug Discovery departments, Bioinformatics researchers, Pharmaceutical Companies, Physicians, Medical,  Doctors, Business Professionals, Scientists and Researcher organizers, Research Scholar, Lab Technicians, Healthcare professionals, Founders and Employees of the related companies, Clinical investigators & Researcher, Hospitals and Health Services, Pharmaceutical companies, Laboratory members, Training institutions, Support organizers, Bioengineering,…
 
Why to attend the conference: 
Presenting your ideas and work gives you new perspective about work as people may ask questions that make you think about your project differently. Gaining expert knowledge, exchanging views and information and allowing them to discuss tomorrow’s challenges in Bioengineering. This event emphasizes at bringing the advancements in the field of Bioengineering and related fields.
 
Target Audience: 
Directors/ Managers
Business Delegates
Director of Laboratories
Universities, Industries
Investigators and Post-Doctoral Fellows
Research and Diagnostic Laboratories
Clinical Fellows and Students
Bioengineering Research companies
Healthcare Institutions
Market Research and Consulting Firms
Bioengineering Research companies
Healthcare Institutions
Market Research and Consulting
 Firms

Submit your Abstract to any of the mentioned tracks. All related Abstracts are accepted

Welcome Message

Allied Academies invites all the participants from all over the world to attend “International Conference on Bioengineering, Biomaterials and Bioinformatics” on November 18-19, 2019 at Rome, Italy which includes prompt Keynote Presentations, Oral talks, Poster Presentations, Sponsors and Exhibitions.

Allied Academies Publication is an amalgamation of several esteemed academic and scientific associations known for promoting scientific temperament. Established in the year 1997, the conferences provide a global platform for the attendees to showcase their research and services in front of many key players in the field.

We are a globally recognized and trusted organization to provide unique scientific and business services through our Journals and we are expanding the functionality of our International conferences.

Sessions

Bioengineering:
Bioengineering is a discipline that covers engineering principles of design and analysis to biological systems and biomedical technologies. Examples of bioengineering research include bacteria engineered to produce chemicals, portable disease diagnostic devices, new medical imaging technology and tissue engineered organs.

Related: Bioengineering Conference | Biomaterials Congress | Bioinformatics Conference | Biomaterials Symposia | Bioengineering Workshop | Bioinformatics Congress | Bioengineering Meeting | Biomaterials Events

Related Associations and Societies: Biomedical Engineering Society | Bioengineering Graduate Student Association (BIOE GSA) | The Biomedical Engineering Association (BmEA) | Biomedical Engineering Global Resources | Alabama Biomedical Society

Innovations in Biomedical Engineering:
Biomedical Engineering has knocked the doors of innovation constantly in past 1 year. Here we summarise the role of few major ones there are many more innovations as well. Biomedical engineering is leading the charge for technological developments in the areas of surgical devices, Prosthetics, Diagnostics and imaging methods. They are five trends in biomedical engineering:

  • Robotics
  • Neural Technology and Brain Tools
  • Big Data, Internet of Things and Cloud Computing
  • Medical Virtual Reality
  • Technology-Fueled Medicine and Smart Drugs 

    Related: Bioengineering Conference | Advanced Biotechnology Conference | Biomedical Engineering Conference | Biomedical Imaging Congress | Biomaterials Conference | Tissue Engineering Meetings | Bioengineering Events 

    Related Associations and Societies: American Institute for Medical and Biological Engineering | Society for Biological Engineers (SBE) | Arizona Biomedical Association (AZMIA) | Southern California Biomedical Council | Florida Biomedical Society 

    Bioinformatics and Computational Biology:
    Bioinformatics and computational science are related orders enabling computational techniques to break down instinctive information and create calculations and scientific strategies by learning from different orders like software engineering, material science & measurements. This field is picking up significance in various research fields like Neural Networks. Subfields identified with this theme are computational pharmacology, computational immunology, computational disease science, computational neuroscience, and so forth this field is picking up significance in different research fields like Neural Networks. Subfields identified with this theme are computational immunology, computational pharmacology, computational neuroscience, computational disease science and so forth.

    Related: Bioinformatics Conference | Biomaterials Congress | Biology Conferences | Cell Biology Conference | Biomedical Engineering Conferences | Bioinformatics Workshop | Bioinformatics Symposia

    Related Companies: Aptus Endosystems | Atricure | CardioKinetix | Cryovascular | Devax | Epicor Medical | Heartport Inc. | Intuity Medical | Sanarus Medical | SentreHEART, Inc. | Sequent Medical | St. Francis Medical Technologies

    Advanced Biotechnology:
    Biotechnology is the vast field that uses scientific strategies with organisms to produce new kinds of organisms or new products for agricultural, medical, industrial, and scientific purposes. It includes genetic manipulation & DNA recombinant technology of organisms to produce Insulin, hormones, human albumin, antibiotics, follism, monoclonal antibodies, and many drugs for previously untreatable diseases also.

    • Recombinant DNA Technology
    • Chromatography
    • Transgenic (Genetically Modified Organisms)
    • Enzymes and Proteins

    Related: Biomedical Meetings | Dental Biomaterial Conference | Biotechnology Congress | Biochemistry Conference | Artificial Organs Workshop | Drug Design Events | Bioengineering Conference | Biomarker Conference

    Biomedical Imaging, Image Processing & Visualization:
    Biomedical imaging focuses on the capture of images for both diagnostic and therapeutic purposes. Snapshots of in vivo physiology and physiological processes can be garnered through advanced sensors and computer technology. Biomedical imaging technologies utilize either sound (ultrasound), x-rays (CT scans), magnetism (MRI), radioactive pharmaceuticals (nuclear medicine: PET, SPECT) or light (endoscopy, OCT) to assess the current condition of an organ or tissue and can monitor a patient over time over time for diagnostic and treatment evaluation.

    New imaging techniques bring new means for peering into the human body, helping to reduce the need for more invasive diagnostic and treatment method. Biomedical image processing is related to biomedical signal processing in multiple dimensions. It includes the analysis, enhancement and display of images captured via ultrasound, MRI, x-ray, nuclear medicine and optical imaging technologies.

    Related: Biological Sensors Congress | Biomedical Engineering Workshop | Medical Robotics Symposia | Nanomedicine Conference | Drug Discovery Meetings | Bioinformatics Conference | Biomaterials Congress | Nanotechnology Conference

    Drug Design and Development:
    Drug Design, generally accredit to as rational drug design, is the innovative process of decree advanced aid situated on the proficiency of a biological target.  Drug design commonly but not necessarily surmises on computer modeling techniques. This type of modeling is persistently assigned to as computer-aided drug design. Lastly, drug design that relies on the competence of the 3D structure of the biomolecular target is known as structure-based drug design. The expression "drug design" is a kind of a misnomer. An-other definite term is ligand design.

    Related: Drug Design Meetings | Biomolecular Conference | Biomedical imaging Congress | Stem Cell Conference | 3D Bioprinting Conference | Biomedical Conference | Medical Conferences | Advance Biotechnology Events | Epigenomics Congress

    Pharmaceutical Bioinformatics:
    Pharmaceutical bioinformatics is central to biomedicine in areas like biologypharmacy, medicine and medicinal chemistry. Pharmaceutical Bioinformatics mainly focuses on study chemical and biological processes in the pharmaceutical area, it helps to understand the how xenobiotic interact with the human body and the drug discovery process. It is all about how to use all the new information completely

    Related: Pharmaceutical Workshop | Bioengineering Events | Biomaterials Conferences | Nanotechnology Conference | Dental Biomaterials Congress | Biomedical Research Conferences | Biopolymers Conferences | Medical Devices Symposium

    Stem Cells:

    Immature microorganisms are undifferentiated cells, which can separate into specific cells and can partition to deliver more undeveloped cells. They are found in multicellular life forms. In warm blooded animals, there are two wide kinds of undeveloped cells: embryonic immature microorganisms, which are disconnected from the internal cell mass of blastocysts, and grown-up undifferentiated organisms, which are found in different tissues. In grown-up life forms, immature microorganisms and forebear cells go about as a repair framework for the body, recharging grown-up tissues. In a creating incipient organism, immature microorganisms can separate into all the specific cells—ectoderm, endoderm and mesoderm - yet additionally keep up the ordinary turnover of regenerative organs, for example, blood, skin, or intestinal tissues.

    Related Associations & SocietiesAustralian Society for Stem Cell Research | American Society for Cell Biology | Australian Stem Cell Centre | Cambridge Stem Cell Initiative | Columbia University Stem Cell Initiative |  European Society of Gene and Cell Therapy (ESGCT) | Euro Stem Cell

    Structural & Evolutionary Bioinformatics:

    Developmental Bioinformatics helps in storing up of data at the colossal scale has ended up being logically fetched productive through highest recent advances in high-throughput genotyping and sequencing developments. Auxiliary bioinformatics is a sub teach of bioinformatics that arrangements with the 3-dimensional structures of biomolecules. Auxiliary bioinformatics can be used for capacity and ligand expectation on account of novel targets.

    Related Companies: Arthrex | Avery Dennison | Baxter | St. Jude Medical Center | Johns Hopkins Biomedical Engineering | Duke Biomedical Engineering | Epicor Medical | SentreHEART, Inc.

    Biomaterials and its Applications:
    Biomaterials are those materials be it natural or synthetic, alive or lifeless, and usually made of multiple components that interact with biological systems. Biomaterials are mainly used in medical applications to augment or replace a natural function.

    Biomaterials are having many applications, such as cancer therapy, artificial ligaments and tendons, bone plates, orthopaedic for joint replacements, and ophthalmic applications in contact lenses, for wound healing in the form of surgical sutures, nerve regeneration, clips, in reproductive therapy as breast implants, etc. It is also having some non-medical applications such as to grow cells in culture, cell seeding, assay of blood proteins in laboratories, etc.

    Related Associations and Societies: Society for Biomaterials (SFB) | Australasian Society for Biomaterials and Tissue Engineering | Invibio Biomaterial Solutions | Genomics Bioinformatics (GBIRG) | Bioinformatics Barcelona Association (BIB) | International Society for Computational Biology

    Nanotechnology:
    Nanotechnology is manipulation of matter on an atomic, molecular, and supramolecular scale. Nanotechnology is an excellent future prospect for biomaterial and nanotechnology in the field of medicine. Nanomedicine “the application of nanotechnology to health” showed an exponential growth for the last two decades.  In now day’s nanoparticles are showing a great interest because of their unique optical, magnetic, electrical, and other properties emerge. Nanotechnology is mostly used for regeneration practices and cancer treatment. 

    Related Associations and Societies: Biology and Bioinformatics Society (BBS) | African Society for Bioinformatics and Computational Biology | Bioinformatics Italian Society | American Medical Informatics Association (AMIA) | EMBnet | South African National Bioinformatics Institute

    Dental Biomaterials:
    Dental materials are specifically fabricated materials, designed for use in dentistry. Examples include temporary dressings, endodontic materials (used in root canal therapy) dental restorations (fillings, bridges and crowns), prosthetic materials (dentures), impression materials, dental implants, and many others. The biomaterials which are in present use are Zirconia, resin composites, titanium alloys etc..

    • Nanoidentation techniques
    • Preventive dental materials

    3D Printing of Biomaterials:
    3D printing is the formation of creating 3 dimensional structures of biomaterials by means of computer control. With respect to the nano-scale dimensions the biomaterials are classified into 3 type’s as- Nano-particle (3D), Nano-fiber (2D) and Nano-sheet (1D). 3D-Bioprinting is a technique in which 3D-printing is used to merge   cells, growth factors and in fabrication of biomaterial parts. 3D-Printing is showing its profound utility in research and in regenerative medicine. Biomaterials like ceramics, metal, polymers and composites are currently used biomaterials in 3D-bioprinting.

    • Extrusion based Bioprinting
    • Fused deposition modelling
    • Polyjet Bioprinting
    • Inkjet Bioprinting
    • FDM

    Polymer Biomaterials:
    Polymer biomaterials are one of the cornerstones of tissue engineering. A broad range of materials has been used. Approaches have shown increasing sophistication over recent years employing drug delivery functionality, microfluidics and micropatterning other technologies.
    Biopolymers for food packaging

    • Polymers as Biomaterials
    • Biodegradable polymers as Biomaterials
    • Polymers for Biomedical Applications
    • Implanted polymer composites
    • Micro and nano blends based on natural polymers

    Biomedical Devices, Sensors and Artificial Organs:
    Biomedical devices are varying according to their intended use and indications. For Examples range from simple devices such as tongue depressors, medical thermometers, and disposable gloves to advanced devices such as computers which assist in the conduct of medical testing, implants, and prostheses.

    An artificial organ is an engineered device or tissue that is implanted or integrated into a human — interfacing with living tissue — to replace a natural organ, to duplicate or augment a specific function or functions so the patient may return to a normal life ASAP

    Related Associations and Societies: Swiss Institute of Bioinformatics | European Bioinformatics Institute | Japanese Society for Bioinformatics | Netherlands Bioinformatics Centre | Open Bioinformatics Foundation | Canadian Bioinformatics Workshops | New York Genome Center

    Tissue Engineering and Regenerative Medicine:
    Tissue engineering is an integrative course dealing with the building up of new organs. It reveals us the truth that nature can be imitated by the evaluation of tissue engineering. It substitutes the biological functions by replacing the replaced or damaged tissues by the combination of organic materials, cells and biochemical factors. It involves implantation, regeneration of tissues and restoration.

    Regenerative medicine is a game developing area of medicine with the probable to fully heal damaged tissues and organs, offering solutions and hope for people who have conditions that today are beyond repair. Regenerative medicine itself isn't new — the first bone marrow and solid-organ transplants were done decades ago. But advances in developmental and cell biology, immunology, and other fields have unlocked new opportunities to refine current regenerative therapies and develop novel ones.

    As we know, biologic tissues consist of the cells, the extracellular matrix (made up of a complex of cell secretions immobilized in spaces continuous with cells), and the signaling systems, which are brought into play through differential activation of genes or cascades of genes whose secreted or transcriptional products are responsible for cueing tissue building and differentiation. The principal factors of scaffolds (into which the extracellular matrix is organized in actual tissues) are collagen biopolymers, mostly in the form of fibers and fibrils. Other forms of polymer organization have also been used (foams, gels and membranes) for engineering tissue substitutes. The different forms can be combined in the laboratory to create imitations of biopolymer organization in specific tissues

    Biochemistry:
    Biochemistry is the branch of science that analyzes the chemical processes within and related to living organisms. Biochemistry is laboratory based science that brings together biology and chemistry. By using chemical knowledge and techniques, biochemists can understand and solve biological complication. Biochemistry mainly focused on processes happening at a molecular level. It targets on what’s happening inside our cells, studying components like proteins, lipids and organelles. Biochemistry also looks at how cells communicate with each other, for example during growth or fighting illness. Biochemists need to understand how the structure of a molecule describes to its function, allowing them to predict how molecules will interact. 

    Biochemistry covers a range of scientific disciplines, including microbiology, genetics, forensics, plant science and medicine. Because of its breadth, biochemistry is very crucial and advances in this field of science over the past 100 years have been staggering. It’s a very exciting time to be part of this attractive area of study.

    Next Generation Sequencing:
    Next Generation Sequencing (NGS) refers to the deep, high-throughput, in-parallel DNA sequencing technologies developed a some decades after the Sanger DNA sequencing method first emerged in 1977 and then dominated for three decades (Sanger F1997, Mards ER2008). The NGS technologies are different from the Sanger method in that they provide thickly parallel analysis, extremely high-throughput from multiple samples at much-reduced cost (Mardis ER 2011). Millions to billions of DNA nucleotides can be sequenced in parallel, yielding substantially more throughput and minimizing the need for the fragment-cloning methods that were used with Sanger sequencing.

    Epigenomics:
    EPIGENOMICS
     aims at mapping the dynamic status of the DNA. This may mean segments of open chromatin, histone locations, methylated CpG islands or binding sites of transcription factors in promoters and enhancers, for example. Our bioinformatics analyses of epigenomic NGS data allow society of the identified genomic sites to phenotypic attributes. Furthermore, the sites can be annotated with public domain database information in order to help interpret the biological meaning of this event.

    Market Analysis

    Market Analysis:
    Bioengineering or Biomedical engineering involves applying engineering principles to biology, medicine and healthcare to solve problems. It is a fast-growing area of engineering and individuals would typically find themselves working in health services, the medical devices industry or research. While its fragmented nature makes it difficult to quantify the overall biomedical engineering sector in terms of number of people employed and its worth, the global medical devices market alone is estimated to be worth US$381bn, according to medical market research company Kalorama. 

    The US government’s Accountability Office says that America accounts for around 45 per cent of the global market, with Global Medical Device Regulatory Consultancy Emergo stating that the UK market – valued at $9.5bn in 2015 – is the third largest in Europe, behind Germany and France, and the sixth largest in the world.  When surveying the sector, it is also important to factor in the growing digital healthcare market. This is expected to be worth $233.3bn by 2020 (up from $60.8bn in 2013), with Asia-Pacific predicted as a key region.

    Why Rome?

    Rome, The capital city of Italy is listed as a Global city and ranked as the 14th most visited city in world and 3rd in European region. Its historic centres considered as world heritage site by UNESCO by having several historical monuments, museums, places like the Colosseum, St. Peter's Basilica, Castel Sant'Angelo, Ponte Sant'Angelo, TreviFountain and the Pantheon to enjoy the hidden treasure of nature. Instead of that it is a perfect destination of shopping with large markets like Trajan'sMarket, Roma Termini, Euroma2, Shopping Mall Porta di Roma, Galleria Alber to Sordi .For food lovers several delicious destinations are there like Mercato Centrale Roma, Stagioni, l'Osteria di Eataly La Maisonnette Ristrot,Antico Arco, Fa-bìo ,Taverna dei Fori Imperiali and many more to satisfy their hunger.

    Instead of that, it is the hub of several research centres like  EBRI , German Archaeological Institute, Centre for American Studies, École française de Rome - laboratorio archeologico Gramsci Foundation Onlus, Escuela Española de Historia y Arqueología en Roma, UNICRI – UnitedNations Interregional Crime and Justice Research Institute, Istituto LuigiSturzo ,Centre for Global Health Research and Studies , ITB Istituto diTecnologie Biomediche, Space Science Data Center (SSDC) - Agenzia SpazialeItaliana (ASI), CREA Consiglio per la ricerca in agricoltura e l'analisidell'economia agrarian, CREA Centro di ricerca per la frutticoltura, CREACentro di Ricerca per la Patologia Vegetale, CNR-ISAC, S.Li.M. Lab and universities like Sapienza University of Rome, Roma Tre University, LiberaUniversità Internazionale degli Studi Sociali Guido Carli, Libera Università Maria SS. Assunta, Università Campus Bio-Medico, University of Rome Tor Vergata, Marconi University, Foro Italico University of Rome, American University of Rome, British School at Rome which seeks the attention of researchers and Doctors.

    Rome Experiences a Mediterranean climate with fairly warm, dry summer and cool, humid winter and having advanced transport facilities with broad roads, municipal bus, tram and metro urban railway network for local transport while it served with prime railway stations named Roma Termini, Roma Tiburtina. Three commercial airports which serve the city are, the older Rome Ciampino Airport, the Roma-Urbe Airport the new the intercontinental Leonardo da Vinci International Airport. And Port of Civitavecchia is the prime port for Transportation.

    In short, Rome is the perfect destination to plan a vacation with a proper blend of enjoyment and knowledge. 



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