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Brett E. Bouma
Researcher at Harvard University
Publications - 496
Citations - 52032
Brett E. Bouma is an academic researcher from Harvard University. The author has contributed to research in topics: Optical coherence tomography & Laser. The author has an hindex of 116, co-authored 474 publications receiving 49561 citations. Previous affiliations of Brett E. Bouma include Hope College & Lahey Hospital & Medical Center.
Papers
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Journal Article
Scanning single-mode fiber optic catheter-endoscope for optical coherence tomography
Guillermo J. Tearney,Stephen A. Boppart,Brett E. Bouma,Mark E. Brezinski,Neil J. Weissman,James F. Southern,James G. Fujimoto +6 more
TL;DR: A new optical coherence tomography catheter-endoscope for micrometer-scale, cross-sectional imaging in internal organ systems with a novel transverse scanning design is described and imaging of in vitro human venous morphology is demonstrated.
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Comprehensive esophageal microscopy by using optical frequency-domain imaging (with video)
Benjamin J. Vakoc,Milen Shishko,Seok Hyun Yun,Wang-Yuhl Oh,Melissa J. Suter,Adrien E. Desjardins,John A. Evans,Norman S. Nishioka,Guillermo J. Tearney,Brett E. Bouma +9 more
TL;DR: A new optical imaging technology, optical frequency-domain imaging (OFDI), derived from OCT, that enables comprehensive imaging of large esophageal segments with microscopic resolution is described and may open up new possibilities for improving the management of patients with Barrett's esophagus.
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Optical Coherence Tomographic Imaging of Human Tissue at 1.55 μm and 1.81 μm Using Er- and Tm-Doped Fiber Sources.
Brett E. Bouma,Brett E. Bouma,L. E. Nelson,L. E. Nelson,Guillermo J. Tearney,Guillermo J. Tearney,David J. Jones,David J. Jones,Mark E. Brezinski,James G. Fujimoto,James G. Fujimoto +10 more
TL;DR: Two short-coherence-length, rare-earth-doped fiber optical sources for performing optical coherence tomography (OCT) in human tissue are demonstrated and the OCT imaging depth of penetration in in vitro human aorta is compared.
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Imaging developing neural morphology using optical coherence tomography
TL;DR: The optical coherence tomography (OCT) technology as mentioned in this paper combines high-resolution in vivo imaging in a diode-based benchtop instrument capable of micron-scale resolution in transparent and non-transparent biological specimens.
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Spectrally encoded miniature endoscopy.
TL;DR: Spectrally encoded endoscopy (SEE) as discussed by the authors uses a broadbandwidth light source and a diffraction grating to simultaneously detect the reflectivity at multiple points along a transverse line within the sample.