Research Articles
- Hernandez Vargas S, Lin C, Tran Cao HS, Ikoma N, AghaAmiri S, Ghosh SC, Uselmann AJ and Azhdarinia A (2021) Receptor-Targeted Fluorescence-Guided Surgery With Low Molecular Weight Agents. Front. Oncol. 11:674083. doi: 10.3389/fonc.2021.674083
- Lin, C., 2021. Applications of a Novel Translational Fluorescence-guided Surgery Platform. (Invited Talk)
- Albano, N.J., Zeng, W., Dingle, A.M., Lin, C., Uselmann, A., Eliceiri, K., Bentz, M.L. and Poore, S., 2020, May. Augmentation of Chicken Thigh Model With Fluorescence Imaging Allows for Real-Time, High Fidelity Assessment in Supermicrosurgery Training. Plastic and Reconstructive Microsurgery. DOI: 10.1055/s-0040-1722184.
- Albano, N.J., Zeng, W., Lin, C., Uselmann, A., Eliceiri, K., and Poore, S., 2020, Sept. The Addition of Fluorescence to the University of Wisconsin “Blue-Blood” Chicken Thigh Model Significantly Enhances Its Effectiveness As a Supermicrosurgery Training Tool. Plastic and Reconstructive Surgery Global Open.
- Hernandez Vargas, S., Lin, C., Voss, J., Ikoma, N., Cao, H.S.T., Ghosh, S.C., Uselmann, A.J. and Azhdarinia, A. 2020. Development of a drug-device combination for fluorescence-guided surgery in neuroendocrine tumors. Journal of Biomedical Optics. (12), 126002.
- Karim, A.S., Liu, A., Lin, C., Uselmann, A.J., Eliceiri, K.W., Brown, M.E. and Gibson, A.L., 2020. Evolution of ischemia and neovascularization in a murine model of full thickness human wound healing. Wound Repair and Regeneration (28 (6), 812-822).
- Karim, A., Thadikonda, K., Lin, C., Uselmann, A., Elicieiri, K., Poore, S. and Gibson, A., 2020, July. Detection of necrosis avidity using indocyanine green fluorescence in human wound healing. Wound Repair And Regeneration (Vol. 28, pp. S12-S12). 111 River St, Hoboken 07030-5774, NJ USA: Wiley.
- Karim, A., Liu, A., Lin, C., Uselmann, A., Eliceiri, K., Brown, M. and Gibson, A., 2020, July. The use of indocyanine green fluorescence in a preclinical model of human wound healing. Wound Repair And Regeneration (Vol. 28, pp. S11-S12). 111 River St, Hoboken 07030-5774, NJ USA: Wiley.
- Albano, N.J., Zeng, W., Dingle, A.M., Lin, C., Uselmann, A., Eliceiri, K., Bentz, M.L. and Poore, S., 2020. Augmentation of the Wisconsin “Blue-Blood” Chicken Thigh Model with Fluorescent Imaging Enhances the Assessment of Anastomotic Patency in Supermicrosurgical Training. Plastic and Reconstructive Surgery–Global Open, 8(5S), pp.10-11.
- Hernandez Vargas, S., Lin, C., AghaAmiri, S., Voss, J., Ikoma, N., Cao, H.S.T., Ghosh, S.C., Uselmann, A.J. and Azhdarinia, A., 2020, February. A proof-of-concept methodology to validate the in situ visualization of residual disease using cancer-targeted molecular agents in fluorescence-guided surgery. Molecular-Guided Surgery: Molecules, Devices, and Applications VI (Vol. 11222, p. 112220P). International Society for Optics and Photonics.
- Albano N.J., Zeng W., Dingle A., Lin C., Uselmann A.J., Eliceiri K., Bentz M., Poore S. 2020, February. Fluorescent Augmentation Of The Wisconsin “Blue-Blood” Chicken Thigh Model Enhances The Assessment Of Anastomotic Patency In Supermicrosurgical Training. American Council of Academic Plastic Surgeons.
- Lin, C., Hernandez Vargas, S., Seemuth, D., Voss, J., Ghosh, S.C., Azhdarinia, A., and Uselmann, A.J., 2019. Intraoperative, high contrast in vivo detection of subcutaneous tumors in real-time with a novel fluorescence-guided surgery imaging platform. World Molecular Imaging Congress.
- Hernandez Vargas, S., Lin, C., Voss, J., Ghosh, S.C., Uselmann, A.J., and Azhdarinia, A., 2019. Preclinical evaluation of a drug-device combination for fluorescence-guided surgery in somatostatin receptor subtype-2 overexpressing tumors. World Molecular Imaging Congress. (Poster)
- Velten, Uselmann, Prajapati, et al. 2020. Transient Room Lighting for Ambient Light Multiphoton Microscopy. bioRxiv.