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Roberto Accorsi, Ph.D.
Assistant Professor of Radiology at the Children’s Hospital of Philadelphia and an expert on the mathematics and physics of coded aperture radioscintigraphic imaging systems.
Link to webpage |
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Moungi G. Bawendi, Ph.D.
Professor of Chemistry at the Massachusetts Institute of Technology and our main collaborator on the development of near-infrared and infrared quantum dots for in vivo use.
Link to webpage |
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Yolonda L. Colson, M.D., Ph.D.
Assistant Professor of Surgery (Brigham and Women’s Hospital) and our main collaborator for the translation of our intraoperative near-infrared fluoresence imaging technology to the thoracic surgery clinic.
Link to webpage
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Roger J. Hajjar, M.D.
Director, Cardiovascular Research Center, Mt. Sinai School of Medicine and our main collaborator on stem cell tracking and in vivo gene delivery technology. |
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John D. Idoine, Sc.D.
Professor of Physics at Kenyon College and an expert on reconstruction algorithms for radioscintigraphic medical imaging.
Link to webpage |
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Deborah Knapp, Ph.D.
Professor of Veterinary Medicine at the Purdue University School of Veterinary Medicine where they are testing our intraoperative near-infrared fluorescence imaging system.
Link to webpage |
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Richard C. Lanza, Ph.D.
Professor of Nuclear Engineering at Massachusetts Institute of Technology and an expert on coded aperture radioscintigraphic imaging systems for medical use.
Link to webpage |
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Robert E. Lenkinski, Ph.D.
Professor of Radiology (Beth Israel Deaconess Medical Center) at Harvard Medical School and our main collaborator on the development of novel contrast agents and detection technology for magnetic resonance imaging. In collaboration with Dr. Frangioni, Dr. Lenkinski is part of the discovery engine for the BIDMC Center for Imaging Technology and Molecular Diagnostics.
Link to webpage |
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Wolfgang Maison, Ph.D.
Assistant Professor of Chemistry at University of Hamburg, Germany. Dr. Maison is our main collaborator on organic synthesis approaches to the multimerization of small molecule ligands.
Link to webpage
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J. Anthony Parker, M.D., Ph.D.
Associate Professor of Radiology (Beth Israel Deaconess Medical Center) at Harvard Medical School and our collaborator on mathematical modeling of contrast agent biodistribution and clearance in living systems and the development of radioscintigraphic contrast agents and imaging systems.
Link to webpage
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Prof. K. Dane Wittrup. The Wittrup Lab develops protein
engineering technology and applies it to the discovery of new biopharmaceuticals.
In particular, yeast surface display is used for the directed evolution of protein
expression stability, affinity, and specificity. A particular focus is on the development of anti-cancer drugs, with quantitative studies of cellular-level pharmacokinetics and pharmacodynamics.
Link to webpage |
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Chroma Technology
Collaborator on the development of optimized sputtered filter sets for intraoperative imaging applications.
Link to webpage |
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Draper Laboratory
Collaborator on the development of novel contrast mechanisms for magnetic resonance imaging.
Link to webpage |
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GE Global Research
Licensee of our intraoperative near-infrared fluorescence imaging system and collaborators on a major Bioengineering Research Partnership (BRP) grant aimed at translating the technology to the clinic.
Link to webpage |
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KPS Technologies produces unique cyanine dyes that absorb and fluoresce at NIR wavelengths, and which can be used as contrast agents for image-guided surgery. |
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MGI (formerly Guilford Pharmaceuticals)
Collaborator on the development of high affinity small molecules specific for the active site of prostate-specific membrane antigen and their optimization for diagnostic and therapeutic applications.
Link to webpage
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Siemens Corporate Research
Collaborator on our major Bioengineering Research Partnership grant; working on software prototype development, control, image acquisition, and display/analysis for the intraoperative near-infrared fluorescence imaging system.
Link to webpage
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Yankee Modern Engineering
Yankee Modern Engineering is expert in the design and
construction of mobile imaging system carts and hardware. They are our
major collaborator on the mechanical design of the intraoperative NIR
fluorescence imaging system.
Link to webpage
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