Publications

Export 512 results:
2016
K. C. Zhou, Huang, B. K. , Gamm, U. A. , Bhandari, V. , Khokha, M. K. , and Choma, M. A. , Particle streak velocimetry-optical coherence tomography: a novel method for multidimensional imaging of microscale fluid flows., Biomedical Optics Express, vol. 7, no. 4, pp. 1590 - 1603, 2016.
A. N. Kuo, Verkicharla, P. K. , McNabb, R. P. , Cheung, C. Y. , Hilal, S. , Farsiu, S. , Chen, C. , Wong, T. Y. , Ikram, M. K. , Cheng, C. Y. , Young, T. L. , Saw, S. M. , and Izatt, J. A. , Posterior Eye Shape Measurement With Retinal OCT Compared to MRI., Investigative Ophthalmology and Visual Science, vol. 57, no. 9, pp. OCT196 - OCT203, 2016.
O. M. Carrasco-Zevallos, Nankivil, D. , Viehland, C. , Keller, B. , and Izatt, J. A. , Pupil Tracking for Real-Time Motion Corrected Anterior Segment Optical Coherence Tomography., PloS one, vol. 11, no. 8, 2016.
R. P. McNabb, Farsiu, S. , Stinnett, S. S. , Izatt, J. A. , and Kuo, A. N. , Re: McNabb et al.: Optical coherence tomography accurately measures corneal power change from laser refractive surgery (Ophthalmology 2015;122:677-86) REPLY, Ophthalmology: Journal of The American Academy of Ophthalmology, vol. 123, no. 1, pp. E6 - E7, 2016.
Z. Chen, Huang, D. , Izatt, J. A. , Wang, R. K. , Werner, J. S. , and Yasuno, Y. , Re: Spaide et al.: Volume-rendering optical coherence tomography angiography of macular telangiectasia type 2 (Ophthalmology 2015;122:2261-9)., Ophthalmology: Journal of The American Academy of Ophthalmology, vol. 123, no. 3, 2016.
D. Simshaw, Proia, A. , Hauser, K. , and Cummings, M. , Regulating Healthcare Robots: Maximizing Opportunities While Minimizing Risks, Richmond Journal of Law and Technology, vol. 22, no. 3, 2016.
R. Mehta, Nankivil, D. , Zielinski, D. J. , Waterman, G. , Keller, B. , Adari, P. , Kopper, R. , Izatt, J. A. , and Kuo, A. N. , Remote, web-based interface control of handheld swept source OCT system for acute care settings, Investigative Ophthalmology and Visual Science, vol. 57, no. 12, 2016.
R. P. McNabb, Farsiu, S. , Stinnett, S. S. , Izatt, J. A. , and Kuo, A. N. , Reply., Ophthalmology: Journal of The American Academy of Ophthalmology, vol. 123, no. 1, pp. e6 - e7, 2016.
K. Hauser, Robust contact generation for robot simulation with unstructured meshes, in Springer Tracts in Advanced Robotics, 2016, vol. 114, pp. 357 - 373.
S. Chowdhury and Izatt, J. A. , Simultaneous fluorescence and phase imaging with extensions toward sub-diffraction resolution via structured-illumination, in Proceedings of SPIE - The International Society for Optical Engineering, 2016, vol. 9713.
S. Chowdhury and Izatt, J. A. , Simultaneous fluorescence and phase imaging with extensions toward sub-diffraction resolution via structured-illumination (Conference Presentation), in SPIE BiOS, 2016, p. 97131J - 97131J.
X. Chen, Mangalesh, S. , Dandridge, A. , Tran-Viet, D. , Viehland, C. , LaRocca, F. , Izatt, J. A. , and Toth, C. A. , Spectral-domain optical coherence tomography imaging of the retinal vascular-avascular junction in infants with retinopathy of prematurity, in Investigative Ophthalmology and Visual Science, 2016, vol. 57, no. 12.
A. Rocchi, Ames, B. , Li, Z. , and Hauser, K. , Stable simulation of underactuated compliant hands, in Proceedings - IEEE International Conference on Robotics and Automation, 2016, vol. 2016-June, pp. 4938 - 4944.
S. Mangalesh, Chen, X. , Dandridge, A. , Tran-Viet, D. , Viehland, C. , LaRocca, F. , Izatt, J. A. , and Toth, C. A. , Three-dimensional assessment of vascular changes secondary to neovascularization in retinopathy of prematurity, in Investigative Ophthalmology and Visual Science, 2016, vol. 57, no. 12.
B. K. Huang, Sencan, I. , Gamm, U. A. , Zhou, K. , Liu, C. , Bian, Y. , Knitter, S. , Cao, H. , Loewenberg, M. , Khokha, M. K. , and , , Towards All-Optical Quantification of Ciliary Physiology, in CLEO: Applications and Technology, 2016, p. ATh1N - 1.
R. P. McNabb, Keller, B. , Izatt, J. A. , and Kuo, A. N. , Truly simultaneous OCT of the anterior and posterior eye with full anterior chamber depth and 30 degrees retinal field of view, in Investigative Ophthalmology and Visual Science, 2016, vol. 57, no. 12.

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