Annual Congress on

Biomedical Engineering

Theme: Approaching advancements in Biomedical Engineering

Registration and abstract submission now open

Event Date & Time

Event Location

Dubai, UAE

18 years of lifescience communication


Performers / Professionals From Around The Globe

Tracks & Key Topics

Biomedical Engineering 2019

About Conference


EuroSciCon is satisfied to declare Annual Congress on Biomedical Engineering during November 04-05, 2019 at Dubai, UAE. Biomedical Engineering is a field dedicated to the use of design standards and strategies to the field of the drug. Our focus will be on Medical Engineering, Biomedical Instrumentation, Biomechanical Engineering, and Chemical Engineering, Industrial Engineering, Materials Engineering. This Conference will bring together practitioners, biomedical engineering researchers, educators biomedical engineering technology, biomedical engineering scope and from around the world who are engaged in bioengineering research works. The logical program centers on momentum progress in the examination, generation and utilization of medical engineering with a specific spotlight on their jobs in keeping up scholarly dimension and hoisting the science level.  

Biomedical Engineering Conferences searches for critical commitments to the designing in hypothetical and reasonable viewpoints. The point of the gathering is to give a stage to specialists and professionals from both the scholarly community and additionally industry to meet and offer front line advancement in the field. The primary subject of the gathering is "Approaching advancements in Biomedical Engineering".

For the benefit of Biomedical Engineering, Medical Engineering EuroSciCon welcomes you to accept this open door to go along with us for scholastic trade and visit the city of Seoul, South Korea.

We anticipate seeing you in Seoul, South Korea in September 2019… !!!

What’s new?

Biomedical Engineering is an exceptionally interdisciplinary and entrenched control spreading over crosswise over designing, medication, and science. The field of biomedical designing has extended extraordinarily in the previous ten years. This development is bolstered by advances in organic science, which have made new open doors for improvement of biomedical devices for conclusion and treatment for human illness. The control centers both around the improvement of new biomaterials, scientific strategies and on the use of ideas drawn from building, processing, arithmetic, concoction, and physical sciences to progress biomedical information while enhancing the viability and conveyance of clinical medication and bioengineering technology. The biomedical building currently envelops a scope of fields of specialization including bioinstrumentation, bioimaging, biomechanics, biomaterials, and bimolecular designing. The biomedical building covers ongoing advances in the developing field of biomedical innovation, instrumentation, and organization. Commitments center on hypothetical and handy issues related with the advancement of restorative innovation; the presentation of new building strategies into general wellbeing; healing centers and patient consideration; the enhancement of analysis and treatment; and biomedical data stockpiling and recovery.

Target Audience

Biomedical Engineering Students
Business Entrepreneurs
Radiation Therapists
Nuclear Medicine Physicians
Manufacturing Medical Devices Companies
Young Research people
Biomedical Engineering Scientists
Biomedical Engineering Researchers
Biomedical Engineering Faculty
Biomedical Engineering Associations and Societies
Business Entrepreneurs
Healthcare Industries
Pharmaceutical Industries

Why to attend

Biomedical Engineering social events enable you to cover a more extensive scope of subjects, where you utilize the inside and out understanding that you have of designing to tackling restorative and organic issues. With innovation progressing at such a fast pace, it is no big surprise that the advancements in science and building are being coordinated into the therapeutic part. Any new information on living frameworks increased through systematic strategies dependent on designing sciences adds to the advancement of prescription. This joining has offered to ascend to the interdisciplinary field of biomedical building, biochemical engineering companies, engineering science, biomedical engineering instruments and therefore, made biomedical designing employments. Unmistakable leaps forward in the biomedical building field incorporate life-sparing and extraordinary innovation such counterfeit organs, prosthetics, careful gadgets, pacemakers, EEGs, regenerative tissue development, pharmaceutical medications, kidney dialysis, to give some examples. A portion of the prior developments that you think about today incorporate braces, dentures, stage shoes and the electron magnifying lens.

Why Dubai, UAE

Dubai got ranked seventh global's maximum visited towns by way of international vacationers which have visited Dubai in line with a survey performed by using Euro monitor. Dubai has been nicknamed the "buying capital of the Middle East." The town attracts large numbers of purchasing tourists from nations inside the area and from as far as Eastern Europe, Africa, and the Indian Subcontinent. Modern buying shops and boutiques are also found within the city. Dubai Duty-Free at Dubai International Airport offers merchandise catering to the multinational passengers the usage of Dubai International Airport. While boutiques, some electronics stores, branch shops, and supermarkets may perform on a hard and fast-rate foundation, maximum other retailers do not forget pleasant negotiation as a way of existence.

Sessions & Tracks

Dental Materials / Biomedical Engineering

Current research in biomaterials encompasses bodily, chemical and biological factors of ceramic, metal, polymer and composite substances. Recent research have investigated the strengthening mechanisms of dental ceramics and the improvement of new ceramic substances, the metallurgy and shape-property relationships for high-palladium alloys, the synthesis and characterization of polymeric substances to be used in composite resins and glass ionomer cements, the esthetic traits of restorative and natural dental materials, the formulation of direct dental composite restorative materials based totally on top-rated medical performance, and the interactions of fibroblasts and epithelial cells with dental materials. Studies originating inside the Biomedical Engineering Center have evaluated a copolymer method of bone cement for orthopedic implants. Research strategies employed include analytical and descriptive spectrometry, analytical electron microscopy, cellular culturing, human visual assessment, mechanical testing, rheology, thermal analysis (which include calorimetry and thermomechanical evaluation), and x-ray diffractometry.

  • Dental Implants
  • Root canal
  • Oral surgery
  • Oral health disparities


Cardiovascular disorder (CVD) is a class of illnesses that contain the coronary heart or blood vessels.[2] CVD includes coronary artery diseases (CAD) inclusive of angina and myocardial infarction (generally called a coronary heart attack).[2] Other CVDs consist of stroke, coronary heart failure, hypertensive coronary heart disease, rheumatic heart sickness, cardiomyopathy, heart arrhythmia, congenital coronary heart sickness, valvular heart disease, carditis, aortic aneurysms, peripheral artery sickness, thromboembolic disease, and venous thrombosis.[2][3]The underlying mechanisms vary relying on the sickness.[2] Coronary artery disease, stroke, and peripheral artery disorder involve atherosclerosis.[2] This may be caused by high blood pressure, smoking, diabetes mellitus, loss of exercising, obesity, excessive blood ldl cholesterol, terrible weight-reduction plan, and immoderate alcohol consumption, among others.[2] High blood stress is envisioned to account for approximately 13% of CVD deaths, even as tobacco debts for 9%, diabetes 6%, lack of exercise 6% and weight problems five%.[2] Rheumatic coronary heart disorder may also observe untreated strep throat.[2]

  • Heart disease
  • Heart attack
  • Heart failure
  • Arrhythmia
  • Stroke

Nanotechnology for biomedical application

Nanotechnology has many definitions and packages. However, all definitions spotlight the design and development of exceptionally ordered bottom–up nanostructured materials that provide particular responses whilst uncovered to positive stimuli (Saji et al. 2010). Surface chemistry and physics “music” the applications of Nanosized substances. The concentration of atoms on the floor of those structures represents as much as ninety% of their overall mass and consequences in superior reactivity. In this experience, editing the surface of a nanomaterial in special ways can produce substances with wonderful biological residences and functionalities for a specific end application and with advanced solubility below physiological situations (Gupta et al. 2007; Kasemo 2002). Nanotechnology products have become an increasing number of users in biomedicine and feature brought about the advent of hybrid technological know-how named Nanobiotechnology (Saji et al. 2010). Nanomaterial has noteworthy applications in Nanobiotechnology, in particular in diagnosis, drug delivery structures (Faraji and Wipf 2009), prostheses, and implants.

  • Metal nanoparticles
  • Carbon nanotubes
  • Toxicology of nanomaterial
  •  Biomedical applications of metal oxide nanoparticles
  •  Liposomes and Nanobiotechnology
  • Nanotechnology to engineer the surface of metallic implants

Assistive Technologies in Bio-engineering

Bionanoengineering approaches have been under scrutiny for over 30 years now and a wide range of strategies have been produced with the end goal to design different tissues of the body. Some of them have been made an interpretation of from seat to bedside, yet many are still under escalated examination. Biodegradable platforms connected in tissue designing expect to incidentally substitute for the extracellular grid and its complex organic capacities amid the recovery as well as renovating period and are along these lines debased and supplanted by new tissue.

  • Liquid-based template assembly
  • Bioartificial organs
  • Nanofiber self-assembly
  • Bioartificial organs

Biosensors & Biomedical Signal Processing

Biosensor is a logical gadget which changes over an organic reaction into an electrical flag. The gadget is comprised of a transducer and an organic component that might be a catalyst, a counter acting agent or a nucleic corrosive. The bio component interfaces with the analyte being tried and the organic reaction is changed over into an electrical flag by the transducer. Electrochemical biosensors are ordinarily founded on enzymatic catalysis of a response that produces or devours electrons (such proteins are properly called redox compounds). Amperometric biosensors are independent coordinated gadgets dependent on the estimation of the current coming about because of the oxidation or decrease of an electro dynamic organic component giving particular quantitative systematic data.

  • Amperometric Biosensors
  • Biodetection
  • Biosecurity
  • Biocomputing

Biomaterial and tissue engineering

Biomaterials are manufactured materials which can be utilized to supplant harmed part or capacity in human body. Biomaterials can be inferred as materials which are perfect with the human body and can be embedded into human body to supplant an infected part or irregular capacity. Utilization of biomaterials dated back to 1900s where Bone plates were acquainted with help in the obsession of broken bones. Inserts made of Vanadium were utilized due to its great mechanical properties. Vanadium caused antagonistic impacts in the body because of its fast consumption. Presentation of Stain less steels settled the issue of consumption. Metallic Biomaterials Tissue engineering advanced from the field of biomaterials improvement and alludes to the act of joining platforms, cells, and naturally dynamic particles into utilitarian tissues. The objective of tissue building is to gather practical develops that reestablish, keep up, or enhance harmed tissues or entire organs. Counterfeit skin and ligament are models of designed tissues that have been affirmed by the FDA; in any case, presently they have restricted use in human patients.

  • Ceramic Biomaterials
  • Polymeric Biomaterials
  • Composite Biomaterials
  • Biodegradable Polymeric Biomaterials
  • Biologic Biomaterials
  • Biofunctional Hydrogels
  • Modular Tissue Engineering
  • Tissue Remodeling
  • Scaffold Design
  • Tissue Printing
  • Cell Sheet Technologies

Neural Engineering 

Neural Engineering  might be characterized as the innovation that impacts how individuals grasp the cerebrum and distinctive kind of parts of cognizance, thought, and higher request exercises/practices in the mind. It additionally incorporates advances that are intended to create, enhance and fix mind work and enable analysts and clinicians to picture the cerebrum

  • Transcranial magnetic stimulation
  • Transcranial direct current stimulation
  • Cranial surface measurements
  • Implant technologies
  • Cell therapy
  • Pharmaceuticals

Rehabilitation Engineering

Structuring and building up a steady medicinal item with the guide of drifting innovation to make an answer for the issues looked by the people with the debilitations in the useful zones like versatility, correspondences, hearing, vision, and comprehension is considered under the subject Rehabilitation Engineering. Interestingly, the restoration designing gives a strong component for the people with practical impedances, though regenerative drug experiments with to convey back the incapacitated organ to the first shape.

  • Medical Implants & Prosthetics
  • Artificial Organs
  • Prosthetic Cardiac Valves
  • Artificial Lung (oxygenator)
  • Bio Artificial Windpipe

Medical Robotics & Biomechanics

Biorobotics includes a various exhibit of orders with a horde of uses. Scientists in Italy, for instance, are creating fake detecting skin that can distinguish weight as contact is made with an article. Material sensors are imperative not just for self-standing robots and appendage prostheses yet as methods for reestablishing the feeling of touch to diabetics with fringe neuropathy by mirroring sensations ordinarily gathered by fingerpads and feet. This one use of biorobotics requires commitments from biomedical architects examining tissue designing, neural building, biomimetics and BioMEMS.

  • Telepresence
  • Surgical Assistants
  • Rehabilitation Robots
  • Medical Transportation Robots
  • Sanitation and Disinfection Robots

3D Bioprinting

3D printing is a 3-dimentional printing machine which gives the data of a 2D picture as 3D question. The layer of materials to frame a 3D question is controlled by the PC by giving geometry of the protest. 3D Bioprinting helps Tissue Engineering by giving an inside and out data of the picture and structure investigation of the picture, which helps in taking care of the basic issues. Biofabrication is alluded to the generation of fake tissues or organs to address wellbeing challenges in medication. It frequently utilizes the standard of 3D Bioprinting to frame cells, gels and strands into an organ.

  • Bioprinting using microfluidics
  • Bioinks
  • Engineered Tissue
  • 3D printing technologies
  • Innovative development in 3D-bioprinting
  • Intelligent bio materials

Organ Engineering

This interdisciplinary designing that has pulled in a great deal of consideration as a spic and span remedial infers that may defeat the downsides associated with the current fake organs and organ transplantation that have been additionally going for supplanting lost or extremely harmed tissues or organs. Tissue designing and the regenerative prescription is an energizing examination zone that goes for regenerative options to gathered tissues for organ transplantation with delicate tissues. In spite of the fact that huge advancement has been made inside the tissue designing field, a few difficulties remain and any improvement here would require on-going associations and coordinated efforts among the researchers from different orders, and in organization with the administrative and subsequently the subsidizing offices. In light of the medicinal and market potential, there's critical scholastic and corporate enthusiasm amid this innovation.

  • Cell Types Selection
  • Scaffold Creation
  • Quality Assurance
  • Functionality Testing

Medical Devices & Diagnostics

The improvement of the restorative gadgets is controlled by the maturing populace alongside rising extra cash, which is persuading people to settle on better human services models. Additionally, mechanical advancements are obliging players in the restorative gadget market to weight on improvement. Today, doctor's facilities are stacked with therapeutic gadgets that are used to perform insignificantly intrusive medical procedures, as they have a prevalent outcome and quicker recuperating rate than customary measures.

  • Telemedicine
  • Medical Device Manufacturing
  • Standardization and Regulation Concerns
  • Medical device Safety
  • In Vitro Diagnostics

Artificial Organs Engineering

Organ transplantation is a therapeutic strategy in which an organ is expelled from one body and set in the body of a beneficiary, to supplant a harmed or missing organ. The contributor and beneficiary might be at a similar area, or organs might be transported from a giver site to another area. Organs or tissues that are transplanted inside a similar individual's body are called auto unites. Transplants that are as of late performed between two subjects of similar species are called allografts. Allografts can either be from a living or cadaveric source.

  • Heart Transplant
  • Liver Transplant
  • Kidney Transplant


Bioelectronics is a field of examination in the conflux of science and hardware. Organic properties can be estimated and modified utilizing hardware, magnetics, photonics, sensors, circuits, and calculations. Bio sub-atomic Electronics is a part of Nano-science and innovation managing the examination and the mechanical misuse of electron transport properties in extraordinary classes of biomolecules. Bioelectronics, particularly bio-sub-atomic gadgets, were depicted as 'the innovative work of bio-roused (i.e. self-get together) inorganic and natural materials and of bio-propelled (i.e. monstrous parallelism) equipment designs for the usage of new data preparing frameworks, sensors and actuators, and for sub-atomic assembling down to the nuclear scale. Biomedicine is a part of therapeutic sciences that bargains with applying organic and regular science standards to clinical practices. It contemplates our capacity to adapt to the ecological changes.

  • Bioelectrochemistry
  • Biomechatronics
  • Bioelectrochemical reactor
  • Electrochemical engineering
  • Bioelectronic Devices in Medical Applications
  • Bioelectronics in Automation science


It might be considered as the adjustment of natural building or biomedical designing in which the basic belief systems of liquid elements are utilized to illuminate the components of organic streams and their interrelationships with practical procedures, in wellbeing and in illnesses/issue. It interims from cells to organs, covering different highlights of the usefulness of fundamental physiology, including cardiovascular, respiratory, regenerative, urinary, musculoskeletal and neurological frameworks and so on.

  • Cardiovascular fluid dynamics
  • Distributed Control Systems
  • Humanoid robots, service robots
  • Aneurysms
  • Conservation Laws

MEMS and NEMS for Biomedical Applications

The growing and creating fields of smaller scale electromechanical frameworks (MEMS) and nano-electromechanical (NEMS) are exceedingly interdisciplinary and depend vigorously on test mechanics for materials choice, process approval, plan advancement, and gadget portrayal. These gadgets extend from mechanical sensors and actuators, to microanalysis and compound sensors, to smaller scale optical frameworks and bioMEMS for tiny medical procedure. Their applications length the car business, correspondences, guard frameworks, national security, medicinal services, data innovation, flight, and natural observing. This part gives a general prologue to the creation procedures and materials regularly utilized in MEMS/NEMS, just as a talk of the use of trial mechanics strategies to these gadgets. Mechanics issues that emerge in chosen model gadgets are likewise introduced.

  • Residual Stress
  • Chemical Vapor Deposition
  • Particle Image Velocimetry
  • Silicon Nitride
  • Microfluidic Device 

Artificial Intelligence in Healthcare

Artificial intelligence, by expansion, is the capacity for a computer, or really complex calculations, to decide connections of these informational collections and to discover relationships that may yield testable speculations. AI is the capacity for the PCs to fuse these new information for future evaluations. Tweaking of programming by people makes these procedures progressively effective. At the point when the programming to improve AI and the calculations for preparing information never again require human PC researchers, i.e., the steady improvement in the innovation is driven by the innovation itself.

  • Data mining
  • Medical imaging
  • Clinical decision support

Medical Imaging Techniques

Biomedical imaging focuses on the catch of pictures for both demonstrative and remedial purposes. Depictions of in vivo physiology and physiological procedures can be collected through cutting edge sensors and PC innovation. Biomedical imaging innovations use either x-beams (CT examines), sound (ultrasound), attraction (MRI), radioactive pharmaceuticals (atomic prescription: SPECT, PET) or light (endoscopy, OCT) to survey the current state of an organ or tissue and can screen a patient after some time after some time for analytic and treatment assessment.

  • Radiography
  • Magnetic Resonance Imaging (MRI)
  • Nuclear medicine
  • Ultrasound
  • Tomography

Wearable & Implantable Technologies

Wearable and implantable innovations sense parameters of different ailments and can either exchange information to a remote focus, direct the patient to make a particular move, or consequently play out a capacity dependent on what the sensors are perusing. For instance, if blood glucose is running high, insulin could be naturally controlled.

  • Heart Monitoring
  • Monitoring Parkinson’s
  • Smart Tattoos
  • Dermally-Implanted Sensors

Bio materials in Regenerative Medicine

Materials structured at the sub-atomic and supramolecular scales to interface with cells, biomolecules, and pharmaceuticals will significantly influence propels concentrating on advances focusing on the recovery of body parts. Materials science is an incredible accessory to undeveloped cell science, genomics, and proteomics in creating the platforms that will adequately initiate tissue Regeneration lost to injury, infection, or hereditary imperfections. The fix of people ought to be insignificantly obtrusive, and subsequently the best frameworks would be fluids adjusted to make materials inside our bodies. In such manner, self-gathering materials will assume a key job in future advances. The structure of biomaterials, which have properties wanted for their specific application, and the improvement of predominant Tissue embed situations, that tries to meet the nourishing needs of the tissue has a promising tissue building model.

  • Bio Mineralization
  • Macrophage Polarization
  • Naturally Derived Biomaterials
  • Applications of Biomaterials
  • Regenerative medicine therapies  

Drug Engineering & Gene Delivery

Drug delivery has gotten consideration in the ongoing years in light of the fact that as a rule the medications don't achieve the objective organs and neglect to convey the restorative activity. Along these lines, a few different ways of medication conveyance are being inquired about upon. Aside from customary techniques for medication conveyance, there are a few different strategies like liposomes-intervened, microspheres-exemplified, gels and so forth. Nano-epitomized tranquilize conveyance is likewise getting consideration because of moderate discharge, biocompatibility, target-situated highlights and so on. Tissue building depends on the utilization of platforms. For tissue recovery development factors are required. The conveyance of these components decides the achievement of the procedure. To address this, different medication conveyance courses are looked into upon and connected in tissue building strategies.

  • Controlled Release of drugs
  • Growth Factor

Advancement in Cancer Engineering

Cancer Technologies seeks to enhance our understanding and treatment options for cancer using the latest methods and approaches in engineering. The broad goals of Cancer Technologies are to apply the latest engineering methods and techniques (imaging, microfluidics, optogenetics) to enhance understanding and therapy for cancer.

  • Physical Sciences in Oncology Network
  • Cancer Systems Biology Consortium
  • Alliance of Glycobiologists for Detection of Cancer
  • Barrett's Esophagus Translational Research Network 

Bioinformatics and Computational Biology

Computational science is interrelated controls enabling computational techniques to examine natural information and create calculations and explanatory strategies by procuring learning from different orders like software engineering, material science, insights and so on. This field is picking up significance in different research fields like Neural Networks, information mining, machine learning and Artificial Intelligence for creating calculations. It is utilized in creating bioinformatics programming and apparatuses for medication structuring, sub-atomic reproductions, sedate revelation, sub-atomic displaying and a few organic databases. Subfields identified with this subject are computational immunology, computational pharmacology, computational neuroscience, computational malignant growth science, Computational science and Chemical science and so on.

  • Data mining and Machine Learning
  • Computational anatomy
  • Artificial Intelligence
  • Computational biomodeling

Digital Health Engineering

Because of progression of human services advances, various new businesses uses computerized and Internet-based wellbeing advances to roll out social and way of life improvements in patients. Various new businesses dependent on Digital Health Therapeutics, telehealth, Digital Pathology, Digital wellbeing, e Health, mHealth Companies are being advanced with their most recent inventive strategies that utilizes computerized actualizes like cell phones, applications, sensors, and so on to goad social changes in patients.

  • Elements
  • Domains
  • Implementation

Market Analysis

Medical devices and material market is developing at a noteworthy rate because of increment in the predominance of maladies and developing government impetuses in social insurance segment. Biomedical materials allude to the materials that are utilized in assembling of therapeutic devices utilized in human services part. A biomedical material might be normal or manufactured in nature, and is utilized to supplant or get the tissue or organ bolster its legitimate working. Different biomedical materials that are accessible in the market incorporate silicone hydrogels, biostable polyurethanes, polymer balancing out innovation, resorbable materials, hydrophilic and non-biofouling coatings and ultra-high-sub-atomic weight polyethylene (UHMWPE) filaments.

North America overwhelms the worldwide market for biomedical materials because of substantial number of maturing populace and wide specialized utilization of biomedical materials in the district. Europe, trailed by Asia, is required to encounter high development rate in the following couple of years in worldwide biomedical materials showcase. China and India are relied upon to be the quickest developing biomedical materials showcases in Asian area. A portion of the key main impetuses for biomedical materials showcase in developing nations are expanding R&D venture, vast pool of patients and rising government subsidizing.

Maturing populace, expanding predominance of perpetual sicknesses and developing mindfulness for accessibility of various sorts of biomaterials has been driving the worldwide biomedical materials advertise. Moreover, improvement in medicinal services offices and mechanical headway has been driving the biomedical materials showcase. Be that as it may, mind-boggling expense included and absence of experienced experts has been controlling the worldwide biomedical materials advertise.

Developing markets hold an incredible potential for development of biomedical materials advertise. Advancement of some new items with better adequacy is required to offer great open door for biomedical materials showcase. Reactions, for example, consuming sensation and others are a test for biomedical materials showcase. The absolute most recent patterns that have been seen in the biomedical materials showcase incorporate developing notoriety of bioabsorbable materials and organizations engaged with associations and coordinated efforts. What's more, organizations have been associated with R&D of new items. A portion of the real organizations managing in worldwide biomedical materials showcase incorporate Johnson and Johnson, 3M Healthcare, DSM Biomedical, Biomet, Smith and Nephew. Different organizations having critical nearness in the biomedical materials advertise incorporate CR Bard, RTI Biologics, Wright Medical, Zimmer and Tornier.

Medical devices are strong and expendable in nature. These devices can be utilized for a wide assortment of conditions for surgeries, home human services, clinical settings or in the therapeutic office setting. A restorative gadget is an instrument, mechanical assembly, embed, in vitro reagent or anything comparative which can be utilized to analyze, anticipate or treat an infection inside the body. It very well may be as straightforward as a tongue depressor, medicinal thermometer or dispensable gloves. It can likewise be as intricate as a PC which can aid therapeutic testing, an embed like a stent or a prosthesis. Universally, the medicinal device showcase is over $209 billion.


Learn More

Top Biomedical Engineering Universities Worldwide:

Biomedical Engineering Universities in Europe

University of Poitiers | Biomedical Engineering Conferences | University of Pau and Adour Country | University of Reims Champagne-Ardenne | University of Strasbourg | University in Aachen | University of Bayreuth | Biomedical Engineering Submit | Technical University of Berlin | Ruhr University Bochum | Biomedical Engineering 2019 | Sapienza University of Rome | University of Navarra | University of Oxford | Biomedical Engineering Events | University of Bologna | University of Antwerp | University of Bonn | University of Alicante KTH Royal University | Imperial College London | ETH Zurich | University of Cambridge | KU Leuven | University of Groningen | Trinity College Dublin | Biomedical Engineering Expo | University of Sheffield | Pompeu Fabra University | Sorbonne University | Charles University | University of Pardubice | University of Copenhagen | Aalto University | University of Grenoble | Lille University | University of Lyon | Chimie Paris tech | Technical University of Berlin | |Biochemical Engineering Conferences | Sapienza University of Rome | University of Navarra | University of Oxford | Cell Therapy Conferences USA | University of Bologna | Biomedical Engineering Congress | University of Antwerp | University of Bonn | Biochemical Engineering Conferences | Biomedical Engineering meetings | University of Alicante | Tissue Engineering Conferences | University of Barcelona |

Biomedical Engineering Universities in USA

West Chester University | Indiana University | Biochemical Engineering Conferences | Purdue University Indianapolis | Biomedical Engineering Events | State University of New York | Biomedical Engineering Congress | Binghamton University | State University of New York | Cell Therapy Conferences | University of Arizona | Community Colleges of Spokane | Biomedical Engineering Conferences | Valencia College | Tissue Engineering Conferences | Madonna University | San Jose State University | Kent State University | Mississippi State University | Biomedical Engineering Submit | Western Michigan University | Biomaterial Conferences | Biomedical Engineering Expo | Montana State University | Biomedical Engineering 2019 | Texas A&M University | Biomedical Engineering Conferences | University of New Mexico | California State University | Tissue Science Conferences London | University of Maine | Virginia Commonwealth University | University of Alabama | Virginia Tech | Biomedical Engineering meetings | St. John's University | Northern Arizona University | Arizona State University | University of Cincinnati | Colorado State University | Wright State University | Old Dominion University | Long Island University | Loyola University Chicago | Troy University | Stem Cell Conferences | Wichita State University

Biomedical Engineering Universities in Asia

Shanghai Jiao Tong University | King Abdullah University of Science & Technology | Hong Kong University of Science and Technology | Biomedical Engineering Summit |  KAIST - Korea Advanced Institute of Science and Technology | Biomedical Engineering Congress | City University of Hong Kong | Biomedical Engineering Meetings | Peking University | Biomedical Engineering Conferences | Chinese University of Hong Kong | Biomedical Engineering Expo | Nanyang Technological University | Tsinghua University | Biomedical Engineering 2019 | National University of Singapore | Biomedical Engineering Congress | Peking University | University of Tokyo | Biomaterials Conferences | Nanjing University | Kyoto University | Biomedical Engineering Congress | Fudan University | University of Science and Technology of China | Osaka University | Biomedical Engineering Conferences | Korea Advanced Institute of Science and Technology | Stem Cell Conferences USA | East China University of Science and Technology | Dalian University of Technology | Xiamen University | Biomedical Engineering Conferences | Xenotransplantation Conferences | Jilin University | Nankai University | Tohoku University | National Taiwan University | Gene Therapy Conferences | Biomedical Engineering Events | Seoul National University |

Top Biomedical Engineering Societies and Associations Worldwide

American Institute for Medical and Biological Engineering | American Society of Biomechanics | American Society for Engineering Education, Biomedical Engineering Division (ASEE BME) | American Society of Mechanical Engineers, Bioengineering Division | Association for the Advancement of Medical Instrumentation | Biomedical Engineering Conferences | Biomedical Engineering Society (BMES) | European Society for Biomaterials (ESB) | Biomedical Engineering Summit | European Society of Biomechanics (ESB) Cancer Stem Cell Society | Biomedical Engineering 2019 | International Stem Cell Society  | International Society for Cellular Therapy (ISCT) | Biomedical Engineering Events | European Society of Gene and Cell Therapy (ESGCT) | European Tissue Engineering Society (ETES) | European Tissue Repair Society  | UK society for Biomaterials | Biomedical Engineering Meetings | British Society for Gene and Cell TherapyJapanese Society for Regenerative Medicine | European Society of Regenerative Medicine | Biomedical Engineering Expo | European Society of Stem Cell Biology | IPLASS International Placenta Stem Cell Society | European Tissue Engineering Society (ETES) | European Tissue Repair Society | Tissue and Cell Engineering Society | UK society for Biomaterials | Tissue Engineering Conferences 2019 USA | Biomedical Engineering 2019 | British Society for Gene and Cell Therapy | Biomedical Engineering Events | Japanese Society for Regenerative Medicine | Regenerative Medicine Conferences | European Society of Regenerative Medicine | European Society of Gene and Cell Therapy (ESGCT) | Biomedical Engineering Conferences | International Stem Cell Society | Biomedical Engineering Conferences | Xenotransplantation Conferences | Cancer Stem Cell Society | Gene Therapy Conferences | European Society of Stem Cell Biology | Biomedical Engineering Congress | IPLASS International Placenta Stem Cell Society | Biomolecular Engineering Conferences | | IEEE Engineering in Medicine and Biology Society (EMBS) | Institute of Biological Engineering (IBE) | Institute of Physics and Engineering in Medicine (IPEM) | International Federation for Medical and Biological Engineering | International Society of Biomechanics | Biomedical Engineering Meetings | International Society for Prosthetics and Orthotics (ISPO) | International Union for Physical and Engineering Sciences in Medicine (IUPESM) | Public Library of Science (PLoS) | PLoS Medicine | Society for Biomaterials | American College of Sports Medicine (ACSM) | American Society of Biomechanics | American Society of Mechanical Engineers (ASME) | Biomedical Engineering Conferences | Biomedical Engineering Society (BMES) | SBE (Society for Biological Engineering) | European Society of Biomechanics (ESB) | Biomedical Engineering Summit | American Society of Gene Therapy | Biotechnology and Biological Research Council | German Resource Centre for Genome Research | European Association of Pharma Biotechnology | European Federation of Biotechnology | European Peptide Society | International Union of Toxicology | American association for cancer research | Alliance for cellular signaling | Australasian Proteomics Society | American Society for Cell Biology | American Society of human genetics | Association for studies in computational biology | The Australian biotechnology association | European federation of biotechnology  | European molecular biology laboratory | Biomedical Engineering Conferences | Biomedical Engineering Expo | The European Association for Bioindustries | Biomedical Engineering Congress | The human genome variation society  | Biomedical Engineering Summit | The international centre for genetic engineering and biotechnology | World health organization | American Society of Human Genetics (ASHG)

Top Biomedical Engineering Journals Worldwide

Journal of Diagnostic Techniques and Biomedical Analysis | ISRN Biomedical Engineering | Journal of Biomedical Physics and Engineering | Biomedical Engineering Summit | Journal of Biomedical Science | British Journal of Biomedical Science | Journal of Biomedical Science and Engineering | Nature Nanotechnology | Nature Biotechnology | Biomedical Engineering Meetings | Nano Today | Biomedical Engineering Conferences | Annual Review of Biomedical Engineering ACS Synthetic Biology | Biomedical Engineering 2019 | Current Opinion in Biotechnology | Lab on a Chip - Miniaturisation for Chemistry and Biology | International Journal of Robust and Nonlinear Control | IEEE Transactions on Biomedical Circuits and Systems | Tissue Engineering - Part B: Reviews | Biomedical Engineering Events | Biosensors and Bioelectronics | Advanced healthcare materials | Nanomedicine: Nanotechnology, Biology, and Medicine | Osteoarthritis and Cartilage | Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology | Journal of | Neural Engineering | Biomedical Engineering Congress | Journal of the Royal Society Interface | Open Nanomedicine Journal | Frontiers in Neuroinformatics | Tissue Engineering - Part C: Methods | IEEE Reviews in Biomedical Engineering | Journal of Biological Engineering | Biomedical Engineering Summit | Biomaterials Science | Biomedical Engineering Conferences | Journal of Biomechanics | Journal of Biomedical Optics | Interface Focus | Biomedical Engineering Expo | IEEE Transactions on Neural Systems and Rehabilitation Engineering | Journal of the Mechanical Behavior of Biomedical Materials | Biomedical Engineering Congress | Cell Transplantation | Biochemical Engineering Journal | Journal of Bionanoscience | Annals of Biomedical Engineering | Nanotechnology, Science and Applications | Biomedical Engineering Meetings | Journal of Nanobiotechnology | Journal of Tissue Engineering and Regenerative Medicine | Magnetic Resonance Imaging | Biomedical Microdevices | International Journal for Numerical Methods in Biomedical Engineering | Journal of Biomedical Materials Research - Part A | IEEE Transactions on Biomedical Engineering | Journal of Tissue Engineering

Biomedical Engineering Job Opportunities

Quality Engineer | Software Engineer | Biomedical Engineering Conferences | Researcher | Physician | Agricultural Engineers | Biomedical Engineering Meetings | Architectural and Engineering Managers | Biochemists and Biophysicists | Biomedical Engineering Congress | Chemical Engineers | Biomedical Engineering 2019 | Electrical and Electronics Engineers | Materials Engineers | Mechanical Engineers | Physicians and Surgeons | Sales Engineers | Bioinstrumentation | Biomaterials |  Biomechanics | Cellular, Tissue, and Genetic Engineer | Biomedical Engineering Congress | Clinical Engineer | Medical Imaging Engineer | Orthopedic Bioengineer | Rehabilitation Engineer | Systems Physiology | Manufacturing Engineer | Chief Scientific Officer | Biomedical Engineering Expo | Pharmaceutical Scientist | Biomedical Engineering Events | Scientist/Senior Scientist | Regulatory Affairs Specialist | R&D Engineer | Agricultural Engineer | Environmental Engineer | Sales Representative | Marketing Representative | Business Consultant | Venture Capital Associate | Business Develop. Associate | Design Quality Engineer | Biomedical Engineering Summit | Procurement Engineer | Chief Scientific Officer | Procurement Engineers

Media Partners/Collaborator

A huge thanks to all our amazing partners. We couldn’t have a conference without you!

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A huge thanks to all our amazing partners. We couldn’t have a conference without you!