Peer-Reviewed Journal Articles
Z. Hu, Y. Pan, A. M. Rollins, “Analytical model of spectrometer-based two-beam spectral interferometry.” Applied Optics 46, 8499-8505, (2007).
Z. Hu, A. M. Rollins, “Fourier domain optical coherence tomography with a linear-in-wavenumber spectrometer,” Optics Letters 32, 3525-3527 (2007).
M. W. Jenkins, O. Q. Chughtai, A. N. Basavanhally, M. Watanabe and A. M. Rollins, “In vivo imaging of the embryonic heart using gated optical coherence tomography,” Journal of Biomedical Optics 12, 030505 (2007).
R. C. Lin, Y. Li, M. Tang, M. McLain, A. M. Rollins, J. A. Izatt, D. Huang, “Screening for Previous Refractive Surgery in Eye Bank Corneas Using Optical Coherence Tomography,” Cornea 26, 594-599 (2007).
M. W. Jenkins, D. C. Adler, M. Gargesha, R. Huber, F. Rothenberg, J. Belding, M. Watanabe, D. L. Wilson, J. G. Fujimoto, A. M. Rollins, “Ultrahigh-speed optical coherence tomography imaging and visualization of the embryonic avian heart using a buffered Fourier domain mode locked laser,” Optics Express 15, 6251-6267 (2007).
http://www.opticsinfobase.org/abstract.cfm?URI=oe-15-10-6251
H. Wang, C. Fleming, A. M. Rollins, “Ultrahigh-resolution optical coherence tomography at 1.15 µm using photonic crystal fiber with no zero-dispersion wavelengths,” Optics Express 15, 3085-3092 (2007).
http://www.opticsinfobase.org/abstract.cfm?URI=oe-15-6-3085
H. Wang, A. M. Rollins, “Optimization of dual band continuum light source for ultrahigh resolution optical coherence tomography,” Applied Optics 46, 1787-1794 (2007).
M. W. Jenkins, P. Patel, H. Deng, M. M. Montano, M. Watanabe, A. M. Rollins, “Phenotyping transgenic embryonic murine hearts using optical coherence tomography,” Applied Optics 46, 1776-1781 (2007).
S. J. Bakri, A. D. Singh, C. Y. Lowder, M. R. Chalita, Y. Li, J. A. Izatt, A. M. Rollins, D. Huang, “Imaging of Iris Lesions with High Speed Optical Coherence Tomography,” Ophthalmic Surgery, Lasers & Imaging 38, 27-34 (2007). [Joural cover image]
C. J. Pedersen, D. Huang, M. A. Shure, A. M. Rollins, “Measurement of absolute flow velocity vector using dual-angle, delay-encoded Doppler optical coherence tomography,” Optics Letters 32, 506-508 (2007).
Z. Hu and A. M. Rollins, "Theory of two beam interference with arbitrary spectra ," Opt. Express 14, 12751-12759 (2006).
http://www.opticsinfobase.org/abstract.cfm?URI=oe-14-26-12751
J. Thomas, J. Wang, A. M. Rollins, J. Sturm, “Comparison of corneal thickness measured with 1310nm optical coherence tomography, ultrasonic pachymetry and a scanning slit method,” Journal of Refractive Surgery, 22, 671-678 (2006).
X. Qi, M. V. Sivak, G. Isenberg, J. E. Willis, A. M. Rollins, “Computer-Aided Diagnosis of Dysplasia in Barrett’s Esophagus Using Endoscopic Optical Coherence Tomography,” Journal of Biomedical Optics, 11, 044010 (2006).
S. W. Jeon, M .A. Shure, K. B. Baker, D. Huang, A. M. Rollins, A. Chahlavi, A. R Rezai, “A Feasibility Study of Optical Coherence Tomography for Guiding Deep Brain Probes,” Journal of Neuroscience Methods, 154, 96-101 (2006).
M. W. Jenkins, F. Rothenberg, D. Roy, V. P. Nikolski, Z. Hu, D. L. Wilson, I. R. Efimov, A. M. Rollins, “4D Embryonic Cardiography using Gated Optical Coherence Tomography,” Optics Express, 14, 736-748 (2006).
http://www.opticsexpress.org/abstract.cfm?URI=OPEX-14-2-736
P. Singh, A. Chak, J. E. Willis, A. M. Rollins, M. V. Sivak Jr., “In vivo optical coherence tomography imaging of the pancreatic and biliary ductal system,” Gastrointestinal Endoscopy, 62, 970-974, 2005.
G. Isenberg, M. V. Sivak, A. Chak, R. C. K. Wong, J. Willis, B. Wolf, D. B. Rowland, A. Das, A. M. Rollins, “Accuracy of endoscopic optical coherence tomography in the detection of dysplasia in Barrett’s esophagus: a prospective, double-blinded study,” Gastrointestinal Endoscopy, 62, 825-831, 2005
M. R. Chalita, Y. Li, S. Smith, C. Patil, V. Westphal, A. M. Rollins, J. A. Izatt, D. Huang, “High-Speed Optical Coherence Tomography of Laser Iridotomy,” Am J Ophthalmol, 140, 1133-1136, 2005
Z. Hu and A. M. Rollins, "Quasi-telecentric optical design of a microscope-compatible OCT scanner," Opt. Express 13, 6407-6415 (2005).
http://www.opticsexpress.org/abstract.cfm?URI=OPEX-13-17-6407
C. J. Pedersen, V. Westphal, S. Yazdanfar, A. M. Rollins, “Phase-referenced Doppler optical coherence tomography in scattering media,” Optics Letters, 30, 2125-2127 (2005).
Selected for the August 1, 2005 issue of Virtual Journal of Biological Physics Research.
S. Radhakrishnan, J. Goldsmith, D. Huang, V. Westphal, D. K. Dueker, A. M. Rollins, J. A. Izatt, S. D. Smith, “Comparison of optical coherence tomography and ultrasound biomicroscopy for detection of narrow anterior chamber angles,” Archives of Ophthalmology, 123, 1053-59 (2005).
M. Jenkins, R. S. Wade, A. M. Rollins, I. R. Efimov, “Optical Coherence Tomography Imaging of the Purkinje Network,” Journal of Cardiovascular Electrophysiology, 16(5), 559-560 (2005).
V. Westphal, A. M. Rollins, J. Willis, M. V. Sivak, Jr., J. A. Izatt, “Correlation of endoscopic optical coherence tomography with histology in the lower GI tract,” Gastrointestinal Endoscopy, 61(4), 537-46 (2005).
W. Thorell, M. Chow, R. Prayson, M. A. Shure, S. W. Jeon, D. Huang, E. Zeynelov, H. Woo, P. Rasmussen, A. M. Rollins, and T. J. Masaryk, “Optical Coherence Tomography: A New Method to Assess Aneurysm Healing,” The Journal of Neurosurgery, 102(2) 348-354 (2005).
J. A. Goldsmith, Y. Li, M. R. Chalita, V. Westphal, C. Patil, A. M. Rollins, J. A. Izatt, D. Huang, “Anterior Chamber Width Measurement by High-Speed Optical Coherence Tomography,” Ophthalmology; 112(2), 238-244 (2005).
B. E. Applegate, C. Yang, A. M. Rollins, J. A. Izatt, “Polarization resolved second harmonic generation optical coherence tomography in collagen,” Optics Letters, 29, 2252-2254 (2004).
J. Wang, J. Thomas, I. Cox, A. M. Rollins, “Non-contact measurements of central corneal epithelial and flap thickness after laser in situ keratomileusis,” Investigative Ophthalmology & Visual Science, 45(6), 1812-1816 (2004).
R. C. Lin, M. A. Shure, A. M. Rollins, J. A. Izatt, D. Huang, “Group index of the human cornea at 1.3 ?m wavelength obtained in vitro by optical coherence domain reflectometry,” Optics Letters, 29, 83-85 (2004).
P. R. Pfau, M. V. Sivak, A. Chak, M. Kinnard, R. C. K. Wong, G. A. Isenberg, J. A. Izatt, A. Rollins, V. Westphal, “Criteria for the diagnosis of dysplasia by endoscopic optical coherence tomography,” Gastrointestinal Endoscopy 58(2): 196-202 (2003)
K. D. Rao, M. A. Choma, S. Yazdanfar, A. M. Rollins, J. A. Izatt, "Molecular contrast in optical coherence tomography by use of a pump-probe technique," Optics Letters. 28(5), 340-342 (2003).
S. Yazdanfar, A. M. Rollins, J. A. Izatt, "In vivo imaging of human retinal flow dynamics by color Doppler optical coherence tomography," Arch. Ophthalmol. 121, 235-239 (2003).
V. Westphal, A. M. Rollins, S. Radhakrishnan, J. A. Izatt, “Correction of geometric and refractive image distortions in optical coherence tomography applying Fermat’s principle,” Optics Express, 10 (9), 397-404 (2002).
http://www.opticsinfobase.org/abstract.cfm?URI=oe-10-9-397
M. Gupta, A. M. Rollins, J. A. Izatt, and I. R. Efimov, “Imaging of the atrioventricular node using optical coherence tomography,” Journal of Cardiovascular Electrophysiology, 13 (1), 95 (2002).
A. M. Rollins, S. Yazdanfar, J. K. Barton, J. A. Izatt, “Real-time in vivo color Doppler optical coherence tomography,” Journal of Biomedical Optics, 7, 123-129 (2002).
V. Westphal, Siavash Yazdanfar, A. M. Rollins, J. A. Izatt, “Real-time, high velocity-resolution color Doppler optical coherence tomography,” Optics Letters, 27, 34-36 (2002).
S. Radhakrishnahan, A. M. Rollins, J.E. Roth, S. Yazdanfar, V. Westphal, D. S. Bardenstein, J. A. Izatt, “Real-time optical coherence tomography of the anterior segment at 1310 nm,” Archives of Ophthalmology, 119, 1179-85 (2001).
A. Das, M. V. Sivak, Jr., A. Chak, R. C. Wong, V. Westphal, A. M. Rollins, J. Willis, G. Isenberg, J. A. Izatt, “High-resolution endoscopic imaging of the GI tract: A comparative study of optical coherence tomography versus hugh-frequency catheter probe EUS.” Gastrointestinal Endoscopy, 54, 219-224 (2001).
J. E. Roth, J. A. Kozak, S. Yazdanfar, A. M. Rollins, J. A. Izatt, Simplified technique for polarization-sensitive optical coherence tomography,” Optics Letters, 26, 1069-1071 (2001).
J. K. Barton, A. M. Rollins, S. Yazdanfar, J. T. Pfefer, J. A. Izatt, “Photothermal Coagulation of Blood Vessels: A Comparison of High-Speed Optical Coherence Tomography and Numerical Modeling,” Physics in Medicine and Biology, 46 (6): 1665-1678 JUN (2001).
S. Yazdanfar, A. M. Rollins, J. A. Izatt, “Imaging and velocimetry of the human retinal circulation with color Doppler optical coherernce tomography,” Optics Letters, 25, 1448-1450 (2000).
M. V. Sivak, Jr., K. Kobayashi, J. A. Izatt, A. M. Rollins, R. Ung-arunyawee, A. Chak, R. C. K. Wong, G. Isenberg, J. Willis, “High-Resolution Endoscopic Imaging of the Gastrointestinal Tract Using Optical Coherence Tomography (OCT),” Gastrointestinal Endoscopy 51, 474-479, Part 1 APR (2000).
T. G. van Leeuwen, M. D. Kulkarni, S. Yazdanfar, A. M. Rollins, and J. A. Izatt, “High Flow Velocity and Shear Rate Imaging Using Color Doppler Optical Coherence Tomography,” Optics Letters, 24, 1584-1586 (1999).
A. M. Rollins, J. A. Izatt, “Optimal interferometer designs for optical coherence tomography,” Optics Letters 24, 1484-1486 (1999).
A. M. Rollins, R. Ung-arunyawee, A. Chak, R. C. K. Wong, K. Kobayashi, M. V. Sivak, Jr., and J. A. Izatt, “Real-time in vivo imaging of human gastrointestinal ultrastructure using endoscopic optical coherence tomography with a novel efficient interferometer design,” Optics Letters 24, 1358-1360 (1999).
A. M. Rollins, M. D. Kulkarni, S. Yazdanfar, R. Ung-Arunyawee, J. A. Izatt, “In vivo video rate optical coherence tomography,” Optics Express 3, 219-229 (1998).
http://www.opticsinfobase.org/abstract.cfm?URI=oe-3-6-219
Z. Xu, A. M. Rollins, J. R. Alcala, R. E. Marchant, “A novel fiber optic pH sensor incorporating carboxy SNAFL-2 and fluorescent wavelength-ratiometric detection,” Journal of Biomedical Materials Research 39, 9-15 (1998).
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