Optical Sensing and Imaging Lab

Optical Sensing and Imaging Lab

Publications

Journal Papers

  1. W. Xu and H. Wang, “Using beam-offset optical coherence tomography to reconstruct backscattered photon profiles in scattering media,” Biomed. Opt. Express, BOE 13(11), 6124–6135 (2022).
  2. Z. Xu, H. Zhu, and H. Wang, “Segmentation of the urothelium in optical coherence tomography images with dynamic contrast,” J. Biomed. Opt. 26(08), (2021).
  3. W. Chen, G. Tsissios, A. Sallese, B. Smucker, A.-T. Nguyen, J. Chen, H. Wang, and K. D. Rio-Tsonis, “In Vivo Imaging of Newt Lens Regeneration: Novel Insights Into the Regeneration Process,” Trans. Vis. Sci. Tech. 10(10), 4–4 (2021).
  4. P. Franz, X. Wang, H. Zhu, R. Chia, T. Hasenberg, and H. Wang, “Detection of blackbody radiation during fiber guided laser-tissue vaporization,” Biomedical Optics Express 11(2), 791–800 (2020).
  5. P. L. Franz and H. Wang, “Development of hyperthermia measurable fiber radiometric thermometer for thermotherapy,” Journal of Biophotonics 13(5), e201960205 (2020).
  6. Y. Zhao and H. Wang, “Spectral calibration for spectral domain optical coherence tomography based on B-scan Doppler shift with tissue images,” Journal of Optics 21(9), 095302 (2019).
  1. J. J. Zhang, D. Rajabhandharaks, J. R. Xuan, H. Wang, R. W. Chia, T. Hasenberg, and H. W. Kang, “Water content contribution in calculus phantom ablation during Q-switched Tm: YAG laser lithotripsy,” Journal of biomedical optics 20(12), 128001 (2015).
  2. X. Fu, Z. Wang, H. Wang, Y. T. Wang, M. W. Jenkins, and A. M. Rollins, “Fiber-optic catheter-based polarization-sensitive OCT for radio-frequency ablation monitoring,” Optics letters 39(17), 5066–5069 (2014).
  3. R. Silver, A. Helms, W. Fu, H. Wang, D. Diaconu, C. M. Loyd, A. M. Rollins, and N. L. Ward, “Using optical coherence tomography for the longitudinal non-invasive evaluation of epidermal thickness in a murine model of chronic skin inflammation,” Skin Research and Technology 18(2), 225–231 (2012).
  4. H. Wang, W. Kang, H. Zhu, G. MacLennan, and A. M. Rollins, “Three-dimensional imaging of ureter with endoscopic optical coherence tomography,” Urology 77(5), 1254–1258 (2011).
  5. H. Wang, W. Kang, T. Carrigan, A. Bishop, N. Rosenthal, M. Arruda, and A. M. Rollins, “In vivo intracardiac optical coherence tomography imaging through percutaneous access: toward image-guided radio-frequency ablation,” J Biomed Opt 16(11), 110505 (2011).
  6. N. Suzuki, G. Guagliumi, H. G. Bezerra, V. Sirbu, N. Rosenthal, G. Musumeci, A. Aprile, H. Wang, H. Kyono, S. Tahara, and others, “The impact of an eccentric intravascular ImageWire during coronary optical coherence tomography imaging.,” EuroIntervention: journal of EuroPCR in collaboration with the Working Group on Interventional Cardiology of the European Society of Cardiology 6(8), 963–969 (2011).
  7. W. Kang, H. Wang, Z. Wang, M. W. Jenkins, G. A. Isenberg, A. Chak, and A. M. Rollins, “Motion artifacts associated with in vivo endoscopic OCT images of the esophagus,” Optics express 19(21), 20722–20735 (2011).
  8. Z. Wang, H. Kyono, H. G. Bezerra, H. Wang, M. Gargesha, C. Alraies, C. Xu, J. M. Schmitt, D. L. Wilson, M. A. Costa, and others, “Semiautomatic segmentation and quantification of calcified plaques in intracoronary optical coherence tomography images,” Journal of biomedical optics 15(6), 061711 (2010).
  9. W. Kang, H. Wang, Y. Pan, M. W. Jenkins, G. A. Isenberg, A. Chak, M. Atkinson, D. Agrawal, Z. Hu, and A. M. Rollins, “Endoscopically guided spectral-domain OCT with double-balloon catheters,” Optics express 18(16), 17364–17372 (2010).
  10. C. P. Fleming, H. Wang, K. J. Quan, and A. M. Rollins, “Real-time monitoring of cardiac radio-frequency ablation lesion formation using an optical coherence tomography forward-imaging catheter,” Journal of biomedical optics 15(3), 030516 (2010).
  11. C. P. Fleming, K. J. Quan, H. Wang, G. Amit, and A. M. Rollins, “In vitro characterization of cardiac radiofrequency ablation lesions using optical coherence tomography,” Optics express 18(3), 3079–3092 (2010).
  12. H. Wang and A. M. Rollins, “Speckle reduction in optical coherence tomography using angular compounding by B-scan Doppler-shift encoding,” Journal of biomedical optics 14(3), 030512 (2009).
  13. G. Isenberg, W. Kang, H. Wang, Y. Pan, M. Jenkins, A. Chak, D. Agrawal, and A. Rollins, “Spectral-Domain Endoscopic Optical Coherence Tomography (EOCT) Using a Balloon Probe for Esophageal Imaging: 72,” American Journal of Gastroenterology 104, S29–S30 (2009).
  14. H. Wang, Y. Pan, and A. M. Rollins, “Extending the effective imaging range of Fourier-domain optical coherence tomography using a fiber optic switch,” Optics letters 33(22), 2632–2634 (2008).
  15. H. Wang, M. W. Jenkins, and A. M. Rollins, “A combined multiple-SLED broadband light source at 1300 nm for high resolution optical coherence tomography,” Optics communications 281(7), 1896–1900 (2008).
  16. H. Wang and A. M. Rollins, “Optimization of dual-band continuum light source for ultrahigh-resolution optical coherence tomography,” Applied optics 46(10), 1787–1794 (2007).
  17. H. Wang, C. P. Fleming, and A. M. Rollins, “Ultrahigh-resolution optical coherence tomography at 1.15 μm using photonic crystal fiber with no zero-dispersion wavelengths,” Optics Express 15(6), 3085–3092 (2007).