BIOMEDICAL RESEARCH INNOVATION AND IMAGING CENTER

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Mayo Clinic () is a private American academic medical center focused on integrated healthcare, education, and research. It maintains three major campuses in Rochester, Minnesota; Jacksonville, Florida; and Phoenix/Scottsdale, Arizona. Mayo Clinic employs over 7,300 physicians and scientists, along with another 66,000 administrative and allied health staff. The practice specializes in treating difficult cases through tertiary care and destination medicine. It is home to the top-15 ranked Mayo Clinic Alix School of Medicine in addition to many of the highest regarded residency education programs in the United States. It spends over $660 million a year on research and has more than 3,000 full-time research personnel. William Worrall Mayo settled his family in Rochester in 1864 and opened a sole proprietorship medical practice that evolved under his sons, Will and Charlie Mayo, along with practice partners Stinchfield, Graham, Plummer, Millet, Judd, and Balfour, into Mayo Clinic. Today, in addition to the hospital at Rochester, Mayo Clinic has major campuses in Arizona and Florida. Most recently, in 2020, the Mayo Clinic bought a facility in central London, UK. The Mayo Clinic Health System also operates affiliated facilities throughout Minnesota, Wisconsin, and Iowa. Mayo Clinic has been ranked number one in the United States for seven consecutive years in U.S. News & World Report's Best Hospitals Honor Roll, maintaining a position at or near the top for more than 35 years. It has been on the list of "100 Best Companies to Work For" published by Fortune magazine for fourteen consecutive years and has continued to achieve this ranking through 2017. Drawing in patients from around the globe, Mayo Clinic performs near the highest number of transplants in the country, including both solid organ and hematologic transplantation.

In connection with: Mayo Clinic

Mayo

Clinic

Title combos: Clinic Mayo

Description combos: ranked UK with and employs organ another in Mayo

National Institute of Biomedical Imaging and Bioengineering

The National Institute of Biomedical Imaging and Bioengineering (NIBIB), founded at the National Institutes of Health (NIH) in 2000, is located in Bethesda, Maryland. It is one of 27 institutes and centers that are part of NIH, an agency of the U.S. Department of Health and Human Services (HHS). NIBIB programs accelerate the development and application of biomedical imaging and bioengineering technologies to study, diagnose, and treat human diseases. The institute is an engine and testbed for innovative biomedical technologies, which it generates at a robust rate; NIBIB is first among NIH institutes for patents generated per funding dollar. NIBIB-funded research integrates engineering and the physical sciences with the life sciences, building on opportunities and technical discoveries in biomedicine. The institute spearheads development of medical technologies that are better, faster, smaller, less costly and more accessible to people across the United States and around the world. NIBIB prepares the life-sciences workforce for paradigm shifts and catalyzes vital biomedical advances that will impact healthcare in the 21st century.

In connection with: National Institute of Biomedical Imaging and Bioengineering

Title combos: Institute National National Institute Imaging Bioengineering National and Biomedical

Description combos: advances is vital technical accelerate discoveries Human Institutes one

Athinoula A. Martinos Center for Biomedical Imaging

The Athinoula A. Martinos Center for Biomedical Imaging, usually referred to as just the "Martinos Center," is a major hub of biomedical imaging technology development and translational research. The Center is part of the Department of Radiology at Massachusetts General Hospital and is affiliated with both Harvard University and MIT. Bruce Rosen is the Director of the Center and Monica Langone is the Administrative Director. The core technologies being developed and used at the Center are magnetic resonance imaging (MRI) and in vivo magnetic resonance spectroscopy (MRS), magnetoencephalography (MEG) and electroencephalography (EEG), optical imaging techniques (microscopy and near-infrared spectroscopy), positron emission tomography (PET), molecular imaging, medical image computing (MIC), health informatics, artificial intelligence in healthcare, and transcranial magnetic stimulation. A particular area of innovation at the Center is Multimodal Functional Neuroimaging, which involves the integration of imaging technologies for neuroscience applications. Major areas of research at the Center include: psychiatric, neurologic and neurovascular disorders; basic and cognitive neuroscience; cardiovascular disease; cancer; and more. Scientific investigation and technology development is funded through government, industry and other research grants. The center is located in the Massachusetts General Hospital (MGH) East Campus in the Charlestown Navy Yard, 149 13th St. Charlestown, MA 02129. Separately, Massachusetts Institute of Technology (MIT) is home to its own Martinos Imaging Center. The Martinos Center is home to approximately 120 faculty members and more than 100 postdoctoral research fellows and graduate students, and is a resource to hundreds of researchers and students throughout Boston, the United States and the world. The research faculty are basic scientists and clinicians interested in a broad range of biologically and medically important questions. They work in conjunction with physical scientists, computer scientists, and engineers to develop new imaging technologies and research applications, and to bring these developments to the sphere of medical care. Some of the prominent faculty at the Center include Bruce Rosen, Lawrence Wald, David Boas, Jacob Hooker, Julie C. Price, Peter Caravan, Anna Moore, Umar Mahmood, Randy Buckner, Matthew S. Rosen, Maria Angela Franceschini, Bruce Fischl and Marco Loggia. The Center includes investigators and their laboratories based at the MGH research campus in Charlestown, as well as numerous other researchers from various departments within MGH, and other local, national and international institutions. Most Martinos Center-based faculty members have primary appointments in Radiology at MGH and Harvard, some with secondary appointments at MIT. Several of the investigators from other MGH departments and other institutions work at the Center, while even more conduct long- and short-term imaging studies at the Center and maintain their base elsewhere. The center is a member or collaborator with NCRR (and BIRN), NIDA, NIBIB, National Cancer Institute, NINDS, NCCAM, ONDCP, and The MIND Institute. The center also has a strategic corporate partnerships with Siemens Medical Solutions, Pfizer Inc., and Canon Inc. It is also a Harvard Catalyst site, and incorporates research projects from Boston University, McLean Hospital, and other Boston institutions. At the MGH Navy Yard site, there are eight large bore and five small bore MRI scanning bays used primarily for research, including the high-gradient field Human Connectome Project scanner, a 7 Tesla magnet for human radiography, and a combined PET-MRI. The Martinos Center also served as the site for the development of magnetoencephalography (MEG), and software development for analysis of MEG data is ongoing at the facility. New MRI and MRS sequences are developed in conjunction with Martinos, Harvard, and MIT faculty. In addition, the Center serves as a development site for new Siemens equipment, such as 32, 64, and 128 channel MRI coils which were designed and prototyped there.

In connection with: Athinoula A. Martinos Center for Biomedical Imaging

Title combos: for Center Athinoula Martinos Center Athinoula Martinos Biomedical Center

Description combos: imaging Martinos from and postdoctoral Lawrence resonance 100 Institute

Samuel Achilefu

Samuel Achilefu is a Nigerian-born scientist and medical researcher who has pioneered both fundamental and applied research in science, engineering, and medicine. Dr. Samuel Achilefu is Professor and Chair of the Department of Biomedical Engineering at the University of Texas Southwestern Medical Center, where he holds the Lyda Hill Distinguished University Chair in Biomedical Engineering. He is also Professor of Radiology and a member of the Simmons Comprehensive Cancer Center. Before joining UT Southwestern, he was the Michel M. Ter-Pogossian Professor of Radiology and Vice Chair for Innovation and Entrepreneurship at the Mallinckrodt Institute of Radiology, Washington University School of Medicine. He held joint appointments as a professor of medicine, biochemistry and molecular biophysics, and biomedical engineering. He also served as the Director of the Washington University Molecular Imaging Center and the privately funded Theranostic Innovation Program and was co-director of the Center for Multiple Myeloma Nanotherapy and co-Leader of the Oncologic Imaging Program of the Alvin J. Siteman Cancer Center at Washington University. Achilefu is a member of the National Academy of Medicine and a fellow of the National Academy of Inventors as well as many professional societies, including the Royal Society of Chemistry, American Association for the Advancement of Science, the Optical Society of America, the International Society for Optics and Photonics Engineers (SPIE), the American Institute for Medical and Biological Engineering, and the St. Louis Academy of Science. A member of the National Advisory Council for Biomedical Imaging and Bioengineering (NACBIB) and the Scientific Advisory Board of the National Cancer Institute’s intramural Molecular Imaging Program, he also serves as Editor-in-Chief of Current Analytical Chemistry and an editorial board member of many scientific publications. Dr. Achilefu is a former trustee of Loma Linda University in California. He was a member of the College of Reviewers for the National Institutes of Health (NIH) and served as a member and chair of grant review panels for the NIH, the Department of Defense (DoD), and the Susan G. Komen Foundation.

In connection with: Samuel Achilefu

Samuel

Achilefu

Title combos: Samuel Achilefu

Description combos: Washington and including Program fundamental the School and Lyda

Carnegie Mellon University Computational Biology Department

The Ray and Stephanie Lane Computational Biology Department (CBD) is one of the seven departments within the School of Computer Science at Carnegie Mellon University in Pittsburgh, Pennsylvania, United States. Now situated in the Gates-Hillman Center, CBD was established in 2007 as the Lane Center for Computational Biology by founding department head Robert F. Murphy. The establishment was supported by funding from Raymond J. Lane and Stephanie Lane, CBD officially became a department within the School of Computer Science in 2009. In November 2023, Carnegie Mellon named the department as the Ray and Stephanie Lane Computational Biology Department, in recognition of the Lanes' significant investment in computational biology at CMU. CBD specializes in genomics, systems biology, and biological imaging, pioneering advanced computational methods, including AI and machine learning. The accolades of its faculty (current and former) include leadership roles such as president of the National Science Foundation and the International Society of Advanced Cytometry, and as membership in the National Institutes of Health Council of Councils. They have received numerous prestigious awards, including the Overton Prize, Guggenheim Fellowship, Okawa Award, United States Air Force Young Investigator Award, Presidential Young Investigator Award, NSF CAREER Award, Sloan Fellowship, and New Innovator's Award from the NIH, among others. Additionally, faculty members have been elected to the National Academy of Sciences, American Association for the Advancement of Science, and the International Society of Computational Biology. As part of the HHMI-NIBIB Interfaces Initiative, CBD received funding from Howard Hughes Medical Institute and the National Institute of Biomedical Imaging and Bioengineering (NIBIB) to develop an interdisciplinary Ph.D. program in computational biology with the University of Pittsburgh, which was founded as the Joint CMU-Pitt Ph.D. Program in Computational Biology in 2005. This program is currently receiving training support through a National Institutes of Health T32 Training Grant. CBD is the home of the B.S. in Computational Biology, one of the four B.S. degree programs within Carnegie Mellon School of Computer Science. The Computational Biology undergraduate program has been consistently ranked as one of the top 3 programs by US News. CBD is the home of an NIH Center for the HuBMAP Integration, Visualization & Engaging (HIVE) Initiative led by Ziv Bar-Joseph and an NIH Center for Multiscale Analysis of 4D Nucleome Structure and Function by Comprehensive Multimodal Data Integration led by Jian Ma. CBD houses the Center for AI-Driven Biomedical Research (AI4BIO) at CMU, a catalyst for innovations at the intersection of AI and biomedicine across the School of Computer Science and campus.

In connection with: Carnegie Mellon University Computational Biology Department

Title combos: Computational University Department Mellon Computational Department Biology Computational University

Description combos: International program currently HHMI The Training of Initiative School

Johns Hopkins University Department of Biomedical Engineering

The Johns Hopkins University Department of Biomedical Engineering has both undergraduate and graduate biomedical engineering programs located at the Johns Hopkins University in Baltimore, Maryland. Research is focused in the general areas of biomedical imaging, computational genomics, computational medicine, data intensive biomedical science, genomic-epigenomic engineering, neuroengineering, regenerative and immune engineering, systems biology, and medical technologies. The department offers several degrees including a Bachelor of Science in Biomedical Engineering, a Master of Science in Biomedical Engineering, a Master of Science in Bioengineering Innovation and Design, and a Doctor of Philosophy in Biomedical Engineering. Undergraduate degree offerings are administered at the Homewood campus of the university with the graduate degree programs co-located at both the Homewood and the East Baltimore campuses.

In connection with: Johns Hopkins University Department of Biomedical Engineering

Title combos: Engineering Johns Hopkins Department of Engineering Biomedical of Johns

Description combos: Biomedical medicine genomics the in is immune data The

Biomedical Research, Innovation, and Imaging Center

The Biomedical Research, Innovation, and Imaging Center (BRIIC) is a $31 million 20,000-square-foot research center with collaborative laboratories and imaging equipment at New York Institute of Technology that was opened in 2025.

In connection with: Biomedical Research, Innovation, and Imaging Center

Title combos: Imaging Biomedical and Innovation Center Biomedical Research Innovation and

Description combos: million was Center The of and at The 20

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