A Postdoctoral research fellowship in the area of optical coherence tomography (OCT) is available in the Tearney Lab at the Massachusetts General Hospital (MGH) in the Wellman Center for Photomedicine. This appointment will be made at the rank of postdoctoral fellow or instructor at Harvard Medical School, commensurate with the applicant’s experience. MGH’s role as a leading teaching affiliate of Harvard Medical School and close ties to Harvard University and MIT provide an outstanding environment for developing and translating new OCT technologies with applications in basic and clinical research.
The fellowship will focus on high resolution OCT imaging devices, including development of novel optical techniques, engineering of in vivo endoscopic probes, and translation to clinical use. Examples of current medical applications of micro-OCT include imaging of mucociliary clearance to monitor treatment response in pulmonary disorders such as cystic fibrosis, high-resolution imaging of vulnerable plaques in coronary artery disease, and screening for gastrointestinal cancers using swallowable OCT capsules. The ideal candidate for this position is an organized and creative problem-solver with advanced optics, biomedical engineering, computational methods, and image analysis skills, capable of leading a multidisciplinary research team.
Representative recent publications from our group include:
Liu L, et al. Imaging the subcellular structure of human coronary atherosclerosis using micro-optical coherence tomography. Nature Medicine 17(8), 1010-4 (2011).
Gora MJ, et al. Tethered capsule endomicroscopy enables less invasive imaging of gastrointestinal tract microstructure. Nature Medicine19(2), 238-40 (2013).
Ughi GJ, et al. Clinical Characterization of Coronary Atherosclerosis with Dual-Modality OCT and Near-Infrared Autofluorescence Imaging. JACC Cardiovascular Imaging 9(11), 1304-14 (2016).
Yin B, et al. Extended depth of focus for coherence-based cellular imaging. Optica 4, 959-965 (2017).
Gora MJ, et al. Tethered capsule endomicroscopy for microscopic imaging of the esophagus, stomach, and duodenum without sedation in humans (with video). Gastrointestinal Endoscopy 88(5), 830-840 (2018).
A PhD (or equivalent) in Biomedical Engineering, Electrical Engineering, Physics or a related field is required. Demonstrated excellence in one or more of the following areas is required: optical coherence tomography, optical imaging systems, optical design, optical system fabrication, fiber optic systems and components, broadband light source development, spectroscopy, image processing and programming in Visual C++, clinical studies with novel devices. Creativity is highly desirable.
Interested candidates are encouraged send a CV accompanied by a cover letter describing any previous research training, specific areas of interest and contact information for three letters of reference. Address correspondence to Dr. Gary Tearney, note the position you are applying for in the subject line, and send by email to Valerie Madden at: email@example.com. MGH is an equal opportunity employer.
About The Tearney Lab at Massachusetts General Hospital
Until recently, visualizing the architectural and cellular morphology of human tissue has required histopathological examination. Samples would be excised from the patient, processed, sectioned, stained and viewed under a microscope. In addition to being invasive, time consuming, and costly, the static nature of conventional pathology prohibits the study of biological dynamics and function. The Tearney Laboratory at Massachusetts General Hospital leads the way in transforming the current diagnostic paradigm through the invention and translation of new noninvasive, high-resolution optical imaging modalities that enable disease diagnosis from living patients without excising tissues from the body.
Led by Guillermo (Gary) Tearney, MD, PhD, the lab’s large multidisciplinary team invents, validates and translates novel devices that use light to conduct microscopy in living patients. Light is uniquely well suited for noninvasively interrogating the microscopic structure, molecular composition and biomechanical properties of biological tissues. The goal of the laboratory’s research is to improve understanding and diagnosis of disease by imaging the human body at the highest possible level of detail in vivo.
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