Suman Mondal

Program Years: 2013

Mentors: 

Primary: Samuel Achilefu

Graduate Thesis Title: Goggle Augmented Imaging and Navigation System for Fluorescence-Guided Surgery

Publications: 

Gao, S., Mondal, S., Zhu, N., Liang, R., Achilefu, S., & Gruev, V. (2015, May). A compact NIR fluorescence imaging system with goggle display for intraoperative guidance. In Circuits and Systems (ISCAS), 2015 IEEE International Symposium on (pp. 1622-1625). IEEE.

Gao, S., Mondal, S. B., Zhu, N., Liang, R., Achilefu, S., & Gruev, V. (2015). Image overlay solution based on threshold detection for a compact near infrared fluorescence goggle system. Journal of biomedical optics, 20(1), 016018-016018.

Gao, S., Mondal, S., Zhu, N., Liang, R., Achilefu, S., & Gruev, V. (2015, March). Performance comparison of different compact NIR fluorescent imaging systems with goggle display for intraoperative Iimage-guidance. In SPIE BiOS (pp. 931304-931304). International Society for Optics and Photonics.

Kotagiri, N., Li, Z., Xu, X., Mondal, S., Nehorai, A., & Achilefu, S. (2014). Antibody quantum dot conjugates developed via copper-free click chemistry for rapid analysis of biological samples using a microfluidic microsphere array system. Bioconjugate chemistry25(7), 1272-1281.

Liu, Y., Njuguna, R., Matthews, T., Akers, W. J., Sudlow, G. P., Mondal, S., … & Achilefu, S. (2013). Special Section on Fluorescence Molecular Imaging Honoring Prof. Roger Tsien, a Pioneer in Biomedical Optics: Near-infrared fluorescence goggle system with complementary metal–oxide–semiconductor imaging sensor and see-through display. Journal of Biomedical Optics, 18(10).

Liu, Y., Njuguna, R., Matthews, T., Akers, W. J., Sudlow, G. P., Mondal, S., … & Achilefu, S. (2013). Near-infrared fluorescence goggle system with complementary metal–oxide–semiconductor imaging sensor and see-through display. Journal of biomedical optics, 18(10), 101303-101303.

Liu, Y., Akers, W. J., Bauer, A. Q., Mondal, S., Gullicksrud, K., Sudlow, G. P., … & Achilefu, S. (2013). Intraoperative detection of liver tumors aided by a fluorescence goggle system and multimodal imaging. Analyst, 138(8), 2254-2257.

Mondal, S. B., Gao, S., Zhu, N., Sudlow, G. P., Liang, K., Som, A., … & Gruev, V. (2015). Binocular Goggle Augmented Imaging and Navigation System provides real-time fluorescence image guidance for tumor resection and sentinel lymph node mapping. Scientific reports, 5.

Mondal, S. B., Gao, S., Zhu, N., Liu, Y., Sudlow, G. P., Akers, W. J., … & Achilefu, S. (2014, March). Intraoperative imaging and fluorescence image guidance in oncologic surgery using a wearable fluorescence goggle system. In SPIE BiOS (pp. 89360P-89360P). International Society for Optics and Photonics.

Ringhausen, E., Sarder, P., Wang, T., Gullicksrud, K., Mondal, S., Achilefu, S., & Akers, W. (2014). Clinical feasibility of optical projection of acquired luminescence for sentinel lymph node biopsy. Journal of Nuclear Medicine, 55(supplement 1), 2132-2132.

Sarder, P., Gullicksrud, K., Mondal, S., Sudlow, G. P., Achilefu, S., & Akers, W. J. (2013). Dynamic optical projection of acquired luminescence for aiding oncologic surgery. Journal of biomedical optics, 18(12), 120501-120501.

Zhu, N., Mondal, S., Gao, S., Achilefu, S., Gruev, V., & Liang, R. (2014). Engineering light-emitting diode surgical light for near-infrared fluorescence image-guided surgical systems. Journal of biomedical optics, 19(7), 076018-076018.