Biodegradable and biocompatible semiconductor nanocrystals as NIR-II photoacoustic imaging contrast agents

Vincely, V.D., Katakam, S.P., Huda, K., Zhong, X., Kays, J.C., Dennis, A. and Bayer C.L., “Biodegradable and biocompatible semiconductor nanocrystals as NIR-II photoacoustic imaging contrast agents” Proc. SPIE 12379-137, Photons Plus Ultrasound: Imaging and Sensing 2023, ???? (30 January 2023) [POSTER]

Simulations-informed optimization of photoacoustic imaging depth and validation with phantoms

Vincely, V.D. and Bayer C.L., “Simulations-informed optimization of photoacoustic imaging depth and validation with phantoms.” Proc. SPIE 12379-164, Photons Plus Ultrasound: Imaging and Sensing 2023, ???? (30 January 2023) [POSTER]

Improved Photoacoustic Signal Stability in Melanin Phantom with NIR-II Wavelengths

Katakam, S. P., Vincely, V. D., Bayer, C. L., “Improved Photoacoustic Signal Stability in Melanin Phantom with NIR-II Wavelengths,” 2022 BMES Conference: Biomedical Imaging and Instrumentation, (12-15 October 2022) [POSTER]

Improved estimation of hemoglobin oxygen saturation derived from spectral photoacoustic images within NIR-II

Vincely, V.D., and Bayer, C.L., “Improved estimation of hemoglobin oxygen saturation derived from spectral photoacoustic images within NIR-II,” Gordon 2022 Research Conference: In Vivo Ultrasound Imaging, (14-19 August 2022) [POSTER];

Deeper photoacoustic imaging in tissue using an NIR-II contrast agent

Vincely, V.D., Katakam, S., Kays, J., Dennis., Allison, Bayer, C.L., “Deeper photoacoustic imaging in tissue using an NIR-II contrast agent,” Optica Biophotonics Congress 2022, (27 April 2022);

Towards Transabdominal Functional Photoacoustic Imaging of the Placenta: Improvement in Imaging Depth Through Optimization of Light Delivery

Huda, K, Swan, KF, Gambala, CT, Bayer CL,. Towards Transabdominal Functional Photoacoustic Imaging of the Placenta: Improvement in Imaging Depth Through Optimization of Light Delivery. Ann Biomed Eng 49, 1861–1873 (2021).

Monte Carlo simulation for improving spectral photoacoustic imaging-based oxygen saturation estimation of human placental tissue

Huda, K., Bayer, CL, “Monte Carlo simulation for improving spectral photoacoustic imaging-based oxygen saturation estimation of human placental tissue,” Proc. SPIE 11240, Photons Plus Ultrasound: Imaging and Sensing 2020, 112400D (17 February 2020);

Improving Spectral Photoacoustic Imaging-Based Oxygen Saturation Estimates of Ex Vivo Human Placenta Through Simulation

Huda, K, Kolkin, AD, Bayer, CL, “Improving Spectral Photoacoustic Imaging-Based Oxygen Saturation Estimates of Ex Vivo Human Placenta Through Simulation”, BMES 2019 Annual Meeting, October 19, 2019, Philadelphia, PA.