- Biomedical technology is the application of technology and engineering to living organisms, especially the design and use of medical equipment used. — “What is Biomedical Technology?”,
- The Department of Biomedical Engineering offers graduate programs leading to the degrees of Master of Science (thesis or non-thesis option) and Doctor of Philosophy in Biomedical Engineering. A 5-year BS/MS option is available for qualified. — “Biomedical Engineering - Graduate”, www6.miami.edu
- Computational Biomedical Engineering. Alumni and friends can connect with the department through our social media sites. Alumna Honored In Conjunction with Graduate School's 100th Anniversary. The Graduate School, which was established in 1910, is celebrating its 100th anniversary. — “Department of Biomedical Engineering”, bme.utexas.edu
- A Biomedical Engineer uses traditional engineering expertise to ***yze and solve problems in biology and medicine, providing an overall enhancement of health care. Students choose the biomedical engineering field to be of service to people, to. — “Biomedical Engineering? Is Biomedical Engineering a good”,
- Definition of biomedical in the Online Dictionary. Meaning of biomedical. Pronunciation of biomedical. Translations of biomedical. biomedical synonyms, biomedical antonyms. Information about biomedical in the free online English dictionary and. — “biomedical - definition of biomedical by the Free Online”,
- Recent junior faculty members position Tulane's Department of Biomedical Engineering as a leader in vascular bioengineering research. The Tulane Department of Biomedical Engineering has been a global leader in biomedical engineering scholarship since 1977. — “Tulane University - Department of Biomedical Engineering”, tulane.edu
- Members are from engineering, quality, and regulatory affairs affiliated with the design, manufacture and support of medical devices, FDA regulations and international standards. — “ASQ - Biomedical Division”,
- We are very excited to have moved into the new Biomedical Sciences Building, which now houses the department's administration and research labs. This 85,000 sq. ft. building is attached to the Health Sciences complex and allow easy collaborations. — “Department of Biomedical Engineering”, bme.ufl.edu
- Definition of biomedical in the Medical Dictionary. biomedical explanation. Information about biomedical in Free online English dictionary. What is biomedical? Meaning of biomedical medical term. What does biomedical mean?. — “biomedical - definition of biomedical in the Medical”, medical-
- As the healthcare industry grows, so will the need for biomedical equipment technicians. The job is not only rewarding, but the required education is reasonable and the starting salary respectable. Becoming a Biomedical Engineer. By Kev Sutton May 15, 2009. — “Biomedical - Topic - Associated Content from Yahoo!”,
- The Michigan Institute for Clinical & Health Research (MICHR) Biomedical Informatics Program (BIP) allows the U-M Center for Computational Medicine and Biology (CCMB) to extend its academically excellent Bioinformatics Graduate Program (BGP), its. — “Biomedical Informatics Program”, michr.umich.edu
- Biomedical engineering is the application of engineering principles and techniques to the medical field. Biomedical engineering has only recently emerged as its own discipline, compared to many other engineering fields; such an evolution is common as. — “Biomedical engineering - Wikipedia, the free encyclopedia”,
- Biomedical - from WN Network. WorldNews delivers latest Breaking news including World News, U.S., politics, business, entertainment, science, weather and sports news. Search News and archives in 44 languages. — “Biomedical”,
- Specialize in the translation of biomedical documents. Our extensive network of translators includes medical professionals translating into their native languages. — “Biomedical Translations”,
- MEDLINE/PubMed Biomedical Journal Literature. Provides access to over 15 million references from 5000 biomedical journals. Many of these references link to abstracts and in some cases, the full text of articles. Additional Biomedical Literature Databases: Genes and Disease. — “Biomedical Research & Informatics”, nlm.nih.gov
- Brief and Straightforward Guide: What is Biomedical Engineering? Biomedical engineering is a scientific discipline which brings the principles of engineering to biology and medical treatment. — “What is Biomedical Engineering?”,
- All biomedical jobs in USA on , the search engine for jobs in the US. — “biomedical jobs in USA | ”,
- Dedicated to the promotion, education, and information exchange of the clinical biomedical engineering and biomed tech community of Washington State. Provides job posting and training opportunities. — “Washington State Biomedical Association”,
- What areas of specialization are available in Biomedical Engineering? Biomedical Engineers specialize in a variety of functional areas, including bioinstrumentation, biomechanics, biomaterials, clinical engineering, medical imaging, rehabilitation engineering and systems physiology. — “BIOMEDICAL ENGINEERING WEB”, bme.uconn.edu
- biomedical engineering ( ′bīō′medəkəl ′enjə′niriŋ ) ( engineering ) The application of engineering technology to the solution of medical problems;. — “Biomedical engineering: Definition from ”,
- Through excellence in teaching and learning, scholarship and research, and co-operative education, the overall objective of the School of Biomedical Engineering, Science and Health Systems is to offer multidisciplinary programs with a core. — “Drexel BIOMED Website :: Graduate Academic Programs”, biomed.drexel.edu
- The modern life sciences have become more ***ytical and computer based in their approach to fundamental knowledge, and the biomedical industry is now considered one of the leading edge industries whose benefits we are just beginning to reap. — “Prentice Hall Student Success SuperSite”,
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- Along with the delivery of medical supplies and equipment the grant will pay travel expenses for MedShare s biomedical engineer Eben Amstrong He will visit the various recipient hospita ls in Zimbabwe and Swaziland to evaluate the donated biomedical equipment and to train hospital doctors and staff on their operation and maintenance
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- San Antonio structural Charles Gojer and Associates civil Research Facilities Design lab consultant SSP Design landscape architect PHOTOGRAPHER Mark Trew Photography The SHW Group an Aust in based architectural and planning firm best known for its educational building design developed the University of Texas at Brownsville s Biomedical Research
- will help staff to see that professionalism is not just for doctors and lawyers but a way of behaving within a set of values and a framework for being as effective in their work as possible Return to Module List
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- In another area of molecular diagnostics our group is interested in the early diagnosis of cancer Utilizing iron oxide nanoparticles we were able to assess the levels and enzymatic
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- Representatives Department of Biological Sciences National University of Singapore NUS Xiamen University Alliance
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- rain we made sure that nothing overlapped out of the lawn areas and added the lawn later in the computer using lawn stock we created the same day in the same lighting This location needed to be shot on short deadline for an award for a subcontractor Not only was the sky gray but fencing and a crane came into the shot The site required a
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- Undergraduate NeuroBridge Biomedical Research Team @NJIT The Neuro-Bridge is a medical device with the objective of providing rehabilitative treatment for people affected by any peripheral neural damage than can directly or indirectly causes muscular weakness. Many patients are affected by countless peripheral neural disorders that do not give a person the necessary neural signals to contract and relax the required muscles to perform a specific movement. These peripheral neural problems can be caused by stroke, multiple sclerosis, traumatic injuries, spinal cord injuries or other neural disorders. The project will work with a strategy of using healthy and unaffected EMG signals from one unaffected muscle or more. Then these EMG signals are processed through a circuit that produces usable and functional signals. These signals are consequently sent to the affected muscle that is affected by the neural problem. The unaffected and affected muscles that will be chosen are those that work together on the same specific movement. The Department of Biomedical Engineering was established in 2001 to draw on the university's expertise in such areas as microelectromechanical systems and tissue engineering, in support of New Jersey's burgeoning biotechnology industry. In just a few years, the department has become one of the largest in the Newark College of Engineering. In 2003, the Department of Biomedical Engineering moved into specially designed space in Fenster Hall. Equipped with dedicated laboratories and classrooms the faculty ...
- Biomedical Engineering An overview of the Department of Biomedical Engineering, featuring interviews with professors Dean Ho, Guillermo Ameer and Wendy Murray
- Biomedical Engineering "Prelim Love Song" (video of previous video) The song, "Prelim Love Song", has an actual name of "The test is preliminary, but my love for you is permanent." [The video is a recording of a video I made on jumpcut before the site died without letting me save a copy]. It is a song to my wife inspired by the preliminary examination required for attaining a PhD degree in the Biomedical Engineering Graduate Group at UC Davis. It is four tests in one day over the four core courses which most students have taken over the course of 1 and 1/2 years. The verses are separated by course: 1: 202, Biology 2: 281, Signals 3: 204, Physiology 4: 284, Math I started writing it one day last February (2006) while taking 202, as I thought about ***ogies between the Golden Gate Bridge and cellular biology (engineers do stuff like that). I slowly added verses as I took the rest of the core courses (the last being 284 last fall). I finished writing the song on our long drive home to Texas; the computer microphone invention helped me spread the glorious knowledge to other prelim-takers. Just to let you know, unless you are a biomedical engineer at UC Davis, you probably won't understand most of this song. Here's some of the wifey's comments after hearing the song, for example: "I probably would have cried if I knew what any of it meant." ...and... "Next time you make me a love song, make it so I can understand." See more songs/creations at:
- Bob Sears speaks about the biomedical road of autism.
- Biomedical Engineering Senior Design Projects Biomedical Engineering Senior Design Project Samples at Michigan Tech Undergraduate Research Expo 2009 More info: www.expo.mtu.edu
- The biomedical attraction of magnetic nanoparticles Magnetic-materials specialist Kevin O'Grady predicts a big future for magnetic nanoparticles in clinical applications ranging from targeted drug delivery to the heat treatment of cancerous tumours. Kevin O'Grady, professor of physics at the University of York, UK, provides an accessible overview that unpicks the fundamental science of magnetic nanoparticles as well as looking ahead to the delivery of real-world diagnostic and therapeutic nanoparticle technologies for clinical medicine.
- Biomedical Science - UCLan Biomedical Science involves the study of the scientific basis of health and disease and plays an important role in modern medical care. The biomedical scientist fulfils a pivotal function within the health care system, as he or she is responsible for ***ysing and interpreting the various causes of disease. To do so, the biomedical scientist requires knowledge not only of basic scientific areas such as chemistry, biochemistry, microbiology and physiology, but also of specialised areas involved in various disease states. The UK delivered course is accredited by both the Health Professions Council (HPC) and the Institute of Biomedical Science (IBMS) as a preliminary qualification for employment in hospital pathology laboratories. The course is primarily designed for scientists wishing to work in diagnostic and research laboratories in hospitals and other medical institutions. However, it will also equip you well for work in toxicological and forensic laboratories, as well as those wishing to pursue a higher degree, or for a career in marketing and management within biomedical related industries. A year-long placement (sandwich) route is also available, and may be beneficial for those students seeking state registration with the IBMS and HPC in pursuit of a career as a biomedical scientist. In addition, students will have the opportunity to undertake studies for one semester in an American university. If you require top-up for a current non-accredited degree it is possible ...
- Autistic Child Fully Recovered with Biomedical Treatment for Autism - Holly Riley - Holly Riley is the parent of a fully recovered autistic child, her son Quinn. Quinn was diagnosed with Autism around the age of two and yet in a just a few short years, through the use of biomedical treatment and traditional autism therapies, Quinn was able to come out of the Autism fog. In this video Holly shares that • Quinn was fairly normal in his infancy, until about 1.5 years • After his first birthday he exhibited unusual behaviors including spinning • He wasn't talking, even at two years of age • Holly figured out that Quinn had Autism after reading a book, and then confirmed the diagnosis with the State Department of Education • By 2.5 years of age Quinn was receiving speech therapy, occupational therapy and Applied Behavior ***ysis • At 2.5 years his first words were, "up, up, up" • Holly and her husband researched Autism on the Internet and read what other families did, and one of those things was the removal of dairy and gluten; also called the Gluten Free Casein Free Diet • They discovered Generation Rescue, a website devoted to helping parents understand biomedical treatment and what therapies help reverse Autism • There are multiple medical problems with most children who have Autism, including severe gut issues as well as heavy metal poisoning • Removing dairy and gluten from the diet created major improvement for Quinn, including more eye contact and social interaction • They found a DAN! Doctor - Defeat Autism Now ...
- Biomedical Engineering Technologist - Working in Canada Formore FREE and useful resources, visit WorkinginCanada.gc.ca or http -- The videos in this unique career series represent an innovative production process in two important ways: First, to ensure that the VECTOR videos represented reasonable employment possibilities, CFEE worked with the Industry Sector Councils to identify the most appropriate careers and occupations to profile via the videos. Second, in an exciting new approach to production, Canadian youth from colleges and universities across Canada were engaged to produce the videos. To learn more about occupations in Canada, visit Working in Canada (workingincanada.gc.ca), a source of free and useful information that can help you to decide where to live and work. Use the Working in Canada Tool to produce a report on job descriptions, wages, skill requirements, language training and job opportunities based on your occupation and a location. By researching different occupations and different locations, you can make settlement decisions that are right for you and your family. The information contained in this video is for information purpose only. For up to date labour market information about wages and salaries, you can use http to produce a detailed report on job descriptions, wages, skill requirements, language training and job opportunities based on your occupation and a location.
- How To Become a Biomedical Engineer Biomedical engineers develop devices and procedures that solve medical and health-related problems by combining their knowledge of biology and medicine with engineering principles and practices. Many do research, along with life scientists, chemists, and medical scientists, to develop and evaluate systems and products such as artificial organs, prostheses (artificial devices that replace missing body parts), instrumentation, medical information systems, and health management and care delivery systems. Biomedical engineers may also design devices used in various medical procedures, imaging systems such as magnetic resonance imaging (MRI), and devices for automating insulin injections or controlling body functions. Most engineers in this specialty need a sound background in another engineering specialty, such as mechanical or electronics engineering, in addition to specialized biomedical training. Some specialties within biomedical engineering include biomaterials, biomechanics, medical imaging, rehabilitation engineering, and orthopedic engineering.
- Biomedical Research The Daunert Group
- Introduction to Biomedical Ontologies #2: Anatomy of an Ontology Annotation, part 1 Even if you know something about biomedical ontologies, you might have wondered where the ontology "annotations" (that is, the assignments of ontology terms to genes, proteins, QTLs, animal strains, and so forth) come from. How are terms assigned to data objects? What are the assignments based on? And is there a way to tell just by looking at an annotation what kind of evidence it's based on? This video is the first of a pair of companion tutorials that answer these questions. Part 1 gives a general overview of how ontology annotations are assigned to data objects and how you can tell what kind of data there is to justify a particular assignment. Part 2 will delve into more detail about the variety of specific information you can find in an ontology annotation.
- 25. Biomedical Engineers and Artificial Organs Frontiers of Biomedical Engineering (BENG 100) In this final lecture, Professor Saltzman talks about artificial organs, with a stress on synthetic biomaterials. First, the body's responses (immunological and scar healing responses) to foreign materials are introduced. This leads to discussion of different types of polymer/plastic materials (ie, Dacron and GORE-TEX) and their properties. Next, Professor Saltzman talks about the design and function of some artificial organs, such as lens implants, heart valves and vessels, hip, dialyzer, heart/lung bypass machine, and the artificial heart. Lastly, challenges and areas for improvement in the field are presented. Complete course materials are available at the Open Yale Courses website: open.yale.edu This course was recorded in Spring 2008.
- Biomedical Equipment at Texas State Technical College www.tstc.edu Hospitals and medical centers stay active around the clock, and medical personnel rely on advanced biomedical equipment to make the difference when life is literally hanging in the balance. They demand that the equipment they use be repaired quickly and maintained in first-class condition to avoid malfunctions that might slow down or stop medical procedures. The up-keep and repair of this equipment requires highly skilled biomedical equipment technicians, professionals dedicated to precise work—professionals like the graduates of the Biomedical Equipment Technology (BET) program at Texas State Technical College. TSTC's program can show you the way to an exciting and challenging career as a biomedical equipment technician. This is a career with a future. The aging population will increase the need for medical care and the demand for these technicians. As a student in this highly specialized field, you can learn to inspect, calibrate, maintain, troubleshoot, repair electronic, mechanical and electro-mechanical equipment used in the medical and health care industry. Students gain knowledge and experience working with everything from the simplest suction pump to the most sophisticated laboratory equipment, cardiac monitors, X-ray and ultrasound equipment. As a Biomedical Equipment Technology graduate, you can expect to be challenged by modern medicine and technical advances daily! The program prepares graduates to work with equipment found in hospitals, medical ...
- UNM's Biomedical Sciences Graduate Program UNMs Biomedical Sciences Graduate Program (BSGP) is a cutting-edge, interdisciplinary program that prepares graduates for research and success in the modern world of biological medical and translational sciences.
- IBM Donates Supercomputer to Rice University for Biomedical Research HOUSTON -- March 2, 2010 -- Rice University and IBM today unveiled a new high-performance computing (HPC) initiative for biomedical and life sciences research that features one of the most powerful supercomputers in the Texas Medical Center. Rice scientists will use the supercomputer in collaboration with researchers from across the medical center to study cancer, AIDS and other complex diseases. The POWER 750 supercomputer is the centerpiece of a $7.6 Million IBM Shared University Research (SUR) award to Rice for advanced biomedical research. The award -- the largest for HPC infrastructure in Rice's history -- also includes HPC software, services and life sciences expertise from IBM. Dubbed "Blue BioU," the HPC project will bring together researchers from Rice, IBM and collaborating partners within the Texas Medical Center. The supercomputer at Rice is the first system deployed with IBM's new POWER7 microprocessors, which make it especially attractive for researchers faced with computationally demanding and memory-intensive problems often encountered in biomedical and life sciences research. For example, the system will be particularly useful for genomic sequencing, protein folding, drug modeling and simulations of molecular-level interactions in tissues. In addition, the real-time ***ytics capabilities of the POWER7 hardware and software are well-suited for mining vast genomic and medical databases for clues to new treatment options and cures for complex diseases ...
- Learning BIomedical Engineering from The Qur'an www.quran-
- Becoming a Biomedical Equipment Technician (BMET) Looking for an Exciting New Career? Consider Becoming a Biomedical Equipment Technician What do biomedical equipment technicians (BMETs) do? How do BMETs fit into the healthcare team? And how does one enter the field? These questions and more are addressed in this brief video, featuring members of AAMI's Technology Management Council (TMC).
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- Biomedical Engineering at Marquette University Forward-thinking but rooted in history. Scientific inquiry with a moral compass. Individualized attention with a focus on the bigger picture. Marquette's Biomedical Engineering Department prepares today's students to be tomorrows leaders. They graduate with real-world experience, industry contacts and the skills needed to Be The Difference in the lives of others.
- Biomedical Sciences at Marquette University Students in the College of Health Sciences take you on a guided tour, with a special emphasis on the biomedical sciences major.
- Understanding Biomedical Intervention Treatment for Autism, ADHD, Asperger's & PDD Understand biomedical intervention treatment options for Autism, ADHD, Asperger's Syndrome, Pervasive Development Disorder PDD, and Sensory Integration Dysfuncion SID. An exploration of heavy metal toxicity, food allergies and DAN Dr.
- GIDP: Biomedical Engineering Biomedical Engineering MS; Ph.D. Biomedical Engineering integrates the principles of engineering sciences with biology and medicine. Training in biomedical engineering provides a platform for the development of medical devices, medical procedures, and a basic understanding of biological processes. bme.arizona.edu
- Nanotechnology to improve cancer treatment: Shuming Nie, Biomedical Engineering At Emory University and the Georgia Institute of Technology, researchers are using nanotechnology to help doctors, including surgeons, precisely locate cancer cells. Related Videos Nanotechnology to Find Cancer: "Like a Smart Bomb" Future Surgery: Removing Cancer with Aid of Nanotechnology Finding Cancer Using Colloidal Gold Nanoparticles Fighting Cancer with Nanotechnology - and Academic Partnerships About Dr. Shuming Nie Dr. Shuming Nie is the Wallace H. Coulter Distinguished Chair Professor in Biomedical Engineering at Emory University and the Georgia Institute of Technology, with joint appointments in chemistry, materials science and engineering, and hematology and oncology. Related Links Nanotechnology to Improve Cancer Treatment Nie Lab Emory-Georgia Tech Nanotechnology Center for Personalized and Predictive Oncology http Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory University www.bme.emory.edu
- Biomedical Engineering & Technology Interested in how medicine and engineering combine to impact patient care? Check out these majors from the Purdue School of Engineering. Learn about the major from IUPUI students and the program director.
- Eye Mario - Biomedical ***og Circuit How To Here we describe the design of the daughter card mixed with a li'l bit of theory on how to make an electro-oculogram measurement. Detailed design disclosures and diagrams will be on soon.
- Teaching the biomedical engineers of the future The undergraduate degree program at the ***rell School's Biomedical Engineering Department graduated its first class in 2006, but already the program is the fourth largest in the nation. For undergraduates, part of the attraction to the department is the opportunity to conduct real-life, hands-on research that can have an impact on everything from cancer therapeutics to drug delivery.
- Introduction to Biomedical Ontologies #1: What is an Ontology? While reading an article or looking at a website, have you ever seen the term ontology and wondered what that meant? Do you hear people talking about using ontologies and ask yourself what the hubbub is about? This video is designed to help answer those questions. Here is a beginners look at what an ontology is and why ontologies are an important tool in the scientists toolbox.
- 2. What Is Biomedical Engineering? (cont.) Frontiers of Biomedical Engineering (BENG 100) Class begins with discussion of students' answers to the two questions given as assignment in the previous lecture. Professor Saltzman talks about the basic concept of biomedical engineering and two separate aspects of it: gaining better understanding of human physiology and developing ways to improve human health. He then introduces the term homeostasis, and talks about parameters that are involved in controlling this state. Finally, the structure of the phospholipid is discussed and how it constitutes the cell membrane. Complete course materials are available at the Open Yale Courses website: open.yale.edu This course was recorded in Spring 2008.
- Curriculum for Biomedical Engineering The program begins with a liberal arts foundation before moving to the core engineering courses divided into three, flexible tracks that meld theory and practice. BME on SEAS TV - tv.seas.columbia.edu
- Autism: Mom Uses Biomedical Treatment and Diet Change to Recover Child - Parents of autistic children have had great success using Biomedical Treatments to partially or even fully reverse the symptoms of Autism in their children. Pediatricians and doctors who practice conventional medicine don't understand the causes of Autism, and...
- Autism & Biomedical Intervention Report This is a report done by Jerod Smalley of WCMH NBC 4 in Columbus, Ohio on biomedical intervention for the treatment of autism. It spotlights our son Ian and Dr. Philip DeMio.
- Introduction to Biomedical Ontologies #3: Anatomy of an Ontology Annotation, part 2 Are you missing the added value that you could be getting from ontology annotations? You know what ontologies are—maybe you've even used them on occasion. But if the only part of an ontology annotation that you take into account is the term itself, you could be skipping over valuable information that the other components of annotations supply. This video will give you insight into what that "valuable information" is and how to interpret what you see when you examine ontology annotations.
- 1. What Is Biomedical Engineering? Frontiers of Biomedical Engineering (BENG 100) Professor Saltzman introduces the concepts and applications of biomedical engineering, providing an overview of the course syllabus, reading materials for lecture and labs and grading logistics. Various pictures are shown to highlight the current application of biomedical engineering technologies in daily life (eg. chest x-ray, PET scan, operating room, gene chip, transport). Next, living standards and medical technologies of the past and present are compared to point out the impact of biomedical engineering as well as areas for improvement in the field. Finally, Professor Saltzman draws references from the poem "London Bridge" to illustrate some societal issues in making materials and devices in biomedical engineering. Complete course materials are available at the Open Yale Courses website: open.yale.edu This course was recorded in Spring 2008.
- 24. Biomedical Engineers and Cancer Frontiers of Biomedical Engineering (BENG 100) Professor Saltzman uses cancer diagnosis and treatment as an example to demonstrate the some applications of biomedical engineering technologies and methods. Some issues involved in cancer treatment, such as tumor angiogenesis, radiation sensitivity, drug localization, and cancer stem cells are mentioned. Next, he describes the phases (I-IV), in compliance to guidelines enforced by the Food and Drug Administration (FDA), which a new drug compound must go through to gain approval prior to public distribution/sale. Finally, Professor Saltzman draws attention to the areas that biomedical engineers may contribute to, to improve this process. Complete course materials are available at the Open Yale Courses website: open.yale.edu This course was recorded in Spring 2008.
- Big Thinkers - Robert Langer [Biomedical Engineer] (1 of 3) Big Thinkers is a former ZDTV (later TechTV) television program. It featured a half-hour interview with a "big thinker" in science, technology, and other fields. Interviews were filmed in a 16:9 format and intercut with public domain material from the Prelinger Archives. This archival footage (mostly film clips from the 1940's and 50's) was used to create visual metaphors highlighting the speaker's points. This episode features Robert Langer. He is an Institute Professor at the Massachusetts Institute of Technology. He was formerly the Germeshausen Professor of Chemical and Biomedical Engineering and maintains activity in the department of chemical engineering and the department of biological engineering at MIT. He is also a faculty member of the Harvard-MIT Division of Health Sciences and Technology. He is a widely recognized and cited researcher in biotechnology, especially in the fields of drug delivery systems and tissue engineering. Dr. Langer's research laboratory at MIT is the largest biomedical engineering lab in the world, maintaining about $6 million in annual grants and over 100 researchers. (Text from Wikipedia) Here are links to all 3 parts: 1 - 2 - 3 -
- Biomedical Engineering Dr. Amit Geffen, an international leader in medical sciences, is revolutionizing human tissue engineering. Through his extensive research there will be an exponential decline in the number of test animals utilized for research. Dr. Geffens technology will allow improvements to be made on medications digitally.
- The Dr. Paul Janssen Award for Biomedical Research The Dr. Paul Janssen Award salutes the most passionate and creative scientists in basic or clinical research whose scientific achievements have made, or have strong potential to make, a measurable impact on human health. The award is named for Dr. Paul Janssen, one of the 20th century's most gifted and passionate researchers. A physician-scientist, he helped save millions of lives through his contribution to the discovery and development of more than 80 medicines, of which five are on the World Health Organizations list of essential medicines. For more information, please visit .
- Elisa Konofagou, Professor Biomedical Engineering Konofagou is going beyond ultrasound's traditional application as a diagnostic tool.
- Rose-Hulman Institute of Technology Biomedical Engineering alumni talk Rose-Hulman Institute of Technology Applied Biology and Biomedical Engineering alumni talk about how a Rose-Hulman education has prepared them for careers in Biology and in Biomedical Engineering.
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“Short description of the blog On Monday, the forum covered a range of biomedical and environmental applications of lasers. An Earth-observing lidar satellite”
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“I've been teaching a class on the subject for a few years at Duke, as noted in an early post on this blog. In April 2010, the intellectual property was transferred into the company from Palmetto Biomedical”
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“Biomedical Engineering. The Biomedical Engineering blog is the place for conversation and discussion about topics related to engineering principles of the medical field. Here, you'll find everything from discussions about emerging medical technologies to advances in medical research”
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“Snacks 22--Biomedical Engineering Forum! Wow. After teaching for ten years at my both agencies, the open forum on Biomedical Engineering was held on”
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“I started Biomedical Engineering Blog about 3 years ago when I was doing a research in the biomedical engineering department at Purdue. I stopped posting news and articles on the site after I was done with the research”
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“Entest BioMedical Blog & Streaming Presentations. Wednesday, September Entest BioMedical WebCast #4: Dr. David Koos with Dr. Carrier & Dr. Ichim”
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