Theme: Advancements in Biomedical Engineering
OMICS International is one of the leading Open Access publishers and organizers of international scientific conferences and events around the world. OMICS Group has so far organized 300+ International Conferences across the World and is managing 500+ peer-reviewed open access journals in basic science, health, and technology. OMICS International is also in association with more than 1000 International scientific and technological societies and associations.
The success of the 1st Biomedical Engineering conference series has given us the prospect to bring the gathering one more time for our 2nd Biomedical Engineering Conference and Expo. The highly exalted conference hosted by OMICS International was marked with the attendance of young and brilliant researchers, business delegates and talented student communities representing more than 20 countries around the world. The conference has tried grounding every aspect related to Biomedical engineering, covering all the possible research areas and crux. Awareness of Biomedical Engineering and its application is becoming popular among the general population. Parallel offers of hope add woes to the researchers of biomedical science due to the potential limitations experienced in the real-time.
OMICS International cordially invites all participants across the globe to attend the 2nd Biomedical Engineering Conference and Expo (Biomedical 2015) which is going to be held during November 30 - December 1 in San Antonio, USA to share the advancements in the field of Biomedical Engineering and technology. The main theme of the conference is “Advancements in Biomedical Engineering". This conference aimed to expand its coverage in the areas of Biomedical Engineering where expert talks, young researchers presentations will be placed in every session of the meeting will be inspired and keep up your enthusiasm. We feel our expert Organizing Committee is our major asset, however your presence over the venue will add one more feather to the crown of Biomedical 2015.
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An updated market analysis from the US Bureau of Labor Statistics employment in biomedical engineering is projected to see the fastest job growth of about 72% through 2018. The field is growing. By checking out the department of labor and industries, the growth rate for Biomedical Engineering is 72% over the next 10 years.
Biomedical engineering is the application of engineering principles and design concepts to medicine and biology for healthcare purposes for various biomedical companies. Biomedical 2015 is comprised of the following sessions with 11 tracks and 65 sub sessions designed to offer comprehensive sessions that address current issues of Biomedical Device Engineering.
It includes Medical imaging devices, Artificial organs, Prosthetic, Physiotherapy and Radiotherapy devices, Regulating or Assisting devices for Rheumatoid Arthritis Biomedical Device Design and Standards, Endoscopy & Colonoscopy, Pediatric intensive care, Photo detectors, Implants and Therapeutic engineering, BioMedical Signal/Image Analysis, Device integration and interoperability.
Track 2 Biomedical Robotics:
It includes Mechanobiology and developmental control, Biomechanics and Bio-transport, Bio robotics, Neuro-robotics, Surgical Robotics and Surgical Planning, Human augmentation, Interaction and collaboration among robots and humans.
The issue is often raised whether robotics needs to be regulated. It is often concerned with the Robot ethics in human society, Robot laws, Medical Robotics, Rehabilitation robotics, robotics for stroke patients.
It incorporates Biomedical Computing, Microarray Data Analysis, Machine learning in Bioinformatics, Molecular evolution and phylogenetic modeling, Simulation and visualization of biological systems.
Track 4 Biosensors and Bioelectronics:
Research topics includes Radiation safety and novel radiation based therapeutic agents, Applications of Environmental Biosensors and Bioelectronic Devices, Biometric, Bio-signal processing and analysis, Types of biosensors and their applications, Telemedicine, Biochips and bioinstrumentation, Wireless biomedical sensors and also design of biosensors and their applications.
Rehabilitation engineering is the systematic application of engineering sciences to design, develop, adapt, test, evaluate, apply, and distribute technological solutions to problems confronted by individuals with disabilities. Rehabilitation Engineering and Surgical Devices includes Prosthetics and orthotics, Neural engineering and latest research in rehabilitation engineering, Cyberknife treatments and therapies, Assistive and rehabilitation technology, Rehabilitation engineering and therapeutic health system, Audiology, Dental Medicine, Ophthalmology.
Tissue mechanics and neuro modeling, Neuro-robotics, Research and development in tissue engineering and neuro engineering, Clinical and Neural Systems Engineering, Molecular and Cellular Systems are of importance.
Track 7 Nano materials and Nanotechnology:
Biomedical Engineering research is the leading research which includes Nano applications to biomedical sciences and tissue engineering, Nano medicines, Cell interactions with nano particles, Revolutionary opportunities and future scope of nanotechnology, Bio-nanotechnology Biomedical Nanotechnology, Tissue Growing Nanostructures, Nano-Mechanisms for Molecular Systems, Nano-Bio-Computing, Biomedical Application of Nanoparticles and Functional Nanomaterials and Devices for Biomedical Engineering.
It includes Biomedical imaging, image processing and visualization, Molecular imaging and nuclear medicine, Optical imaging and Wireless monitoring system, Bio-MEMS and their applications in tissue engineering, medical implants and surgery, Bioelectrical signal processing, analysis and their applications and Radiation Oncology.
Laser scanning microscopy, Dermoscopy and cutaneous oncology, Polarization imaging and tissue optics, Soft tissue augmentation, Cosmetic dermatology for ethnic skin, Advancements in mastoplasty techniques shall be discussed.
Bio-Medical & Healthcare Engineering includes Biomedical services and outcomes Research, Healthcare quality and patient safety, Biomedical healthcare and nursing, Design concepts and principles of engineering to medicine.
Track 10 Biomedical Metals:
It includes Biocompatibility of metals, Processing of metals for Biomedical application, Wear and Tear of Biomedical metals, Advanced Biomedical metals
Medical devices and material market is growing at a significant rate due to increase in the prevalence of diseases and growing government incentives in healthcare sector. Biomedical Engineering companies has shown a tremendous growth in USA. Biomedical Emerging markets hold a great potential for growth of biomedical materials market. Innovation of some new products with better efficacy is expected to offer good opportunity for biomedical materials market.
An updated analysis from the US Bureau of Labor Statistics employment in biomedical engineering is projected to see the fastest job growth of about 72% through 2018. The field is growing. By checking out the department of labor and industries, the growth rate for Biomedical Engineering is 72% over the next 10 years.
Why San Antonio?
San Antonio is the seventh most populated city in the United States of America and the second most populated city in the state of Texas, with a population of 1,409,019. It was the fastest growing of the top 10 largest cities in the United States from 2000 to 2010, and the second from 1990 to 2000. The city is located in the American Southwest, the south–central part of Texas, and the southwestern corner of an urban region known as the Texas Triangle.
San Antonio serves as the seat of Bexar County. Greater San Antonio, the metropolitan area has a population of over 2.27 million based on the 2013 US Census estimate, making it the 25th-largest metropolitan area in the United States and third-largest in the state of Texas. The River Walk, meanders through the Downtown area, is the city's second most visited attraction.
San Antonio hosts over 100,000 students in its 31 higher-education institutions. Private universities include top-rated Trinity University, St. Mary's University, Our Lady of the Lake University, University of the Incarnate Word, Webster University, Wayland Baptist University - San Antonio, Baptist University of the Americas, Hallmark University.
Conferences related to Biomedical Engineering were being held to bring awareness among the general population. One of such conference was Biomedical 2015 held at Philadelphia.
Biomedical Engineering in USA has a tremendous growth forecast according to the U.S. Bureau of Labor Statistics (BLS).
Why to attend??
Biomedical 2015 with members from around the world focused on learning about various biomedical aspects. Conduct demonstrations, distribute information, meet with current and potential customers, make a splash with a new product line, and receive name recognition at this 3-day event. World-renowned speakers, the most recent techniques, and the new updates in biomedical field are hallmarks of this conference.
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- Clinical and Diagnostic Biomedical Devices
- Biomedical Robotics
- Computational Biological Systems For Modeling Biological Processes
- Biosensors and Bioelectronics
- Rehabilitation Engineering and Surgical Devices
- Applications of Biomedical Engineering
- Nano materials and Nanotechnology
- Research On Biomedical Imaging and Bio signals
- Diagnostic Techniques in Dermatology and Cosmetic Dermatology
- Biomedical Metals
- Global Biomedical Market Research, Forecasts and Industry Analysis
To share your views and research, please click here to register for the Conference.
Special Issues [OMICS Journals]
All accepted abstracts will be published in respective OMICS International Journals.
- Journal of Bioengineering & Biomedical Science
- Journal of Molecular Imaging & Dynamics
- Journal of Biosensors and Bioelectronics
Abstracts will be provided with Digital Object Identifier by