Director, BIO5 Institute
Professor of Biomedical Engineering
Professor of Biosystems Engineering
Professor of Electrical and Computer Engineering
Professor of Medical Imaging
Professor of Optical Sciences
Professor, BIO5 Institute
Jennifer Barton received the BS and MS degrees in electrical engineering from the University of Texas at Austin and University of California Irvine, respectively. She worked for McDonnell Douglas (now Boeing) on the Space Station program before returning to The University of Texas at Austin to obtain the Ph.D. in Biomedical Engineering in 1998. She is currently Professor of Biomedical Engineering, Electrical and Computer Engineering, Optical Sciences, and Agriculture and Biosystems Engineering at the University of Arizona. She has served as department head of Biomedical Engineering, Associate Vice President for Research, Interim Vice President for Research, and is currently Interim Director of the BIO5 Institute, a collaborative research institute dedicated to solving complex biology-based problems affecting humanity.
Barton develops miniature endoscopes that combine multiple optical imaging techniques, particularly optical coherence tomography and fluorescence spectroscopy. She evaluates the suitability of these endoscopic techniques for detecting early cancer development in patients and pre-clinical models. Additionally, her research into light-tissue interaction and dynamic optical properties of blood laid the groundwork for a novel therapeutic laser to treat disorders of the skin’s blood vessels. She has published over 90 peer-reviewed journal papers in these research areas. She is a fellow of SPIE- the International Optics Society, and a fellow of the American Institute for Medical and Biological Engineering.
- Ph.D. Biomedical Engineering
- The University of Texas at Austin, Austin, Texas, United States
- University of Arizona, Tucson, Arizona (1999 - Ongoing)
- McDonnell Douglas (1988 - 1994)
Biomedical OpticsOptical Coherence TomographyFluorescence SpectroscopyTissue OpticsColon CancerOvarian Cancer
Challenges Biomed Engrng
BME 295C (Spring 2021)
BME 295C (Spring 2020)
BME 295C (Spring 2019)
BME 295C (Spring 2018)
BME 295C (Spring 2017)
BME 295C (Spring 2016)
Honors Independent Study
OPTI 299H (Fall 2018)
BME 492 (Spring 2018)
BME 492 (Fall 2017)
BME 492 (Spring 2017)
OPTI 492 (Summer I 2016)
CBIO GIDP Seminar Series
CBIO 596H (Spring 2019)
CBIO 596H (Spring 2018)
CBIO 596H (Spring 2017)
Rsrch Meth Biomed Engr
BME 597G (Fall 2019)
BME 597G (Fall 2018)
BME 597G (Spring 2017)
OPTI 599 (Spring 2020)
CBIO 695A (Fall 2018)
CBIO 695A (Fall 2017)
Directed Graduate Research
OPTI 792 (Spring 2021)
OPTI 792 (Fall 2020)
OPTI 792 (Spring 2020)
OPTI 792 (Spring 2017)
BME 900 (Fall 2020)
BME 910 (Spring 2018)
BME 910 (Fall 2017)
OPTI 910 (Spring 2019)
OPTI 910 (Fall 2018)
OPTI 910 (Fall 2017)
OPTI 910 (Spring 2017)
OPTI 910 (Fall 2016)
BME 920 (Spring 2016)
CBIO 920 (Fall 2018)
CBIO 920 (Fall 2017)
OPTI 920 (Spring 2021)
OPTI 920 (Fall 2020)
OPTI 920 (Spring 2020)
OPTI 920 (Fall 2019)
OPTI 920 (Spring 2019)
OPTI 920 (Fall 2018)
OPTI 920 (Fall 2016)
OPTI 920 (Spring 2016)
- Kiekens, K. C., Romano, G., Galvez, D., Cordova, R., Heusinkveld, J., Hatch, K., Drake, W., Kmeid, Z., & Barton, J. K. (2020). Reengineering a falloposcope imaging system for clinical use. Translational Biophotonics, 2(4), e202000011.
- Sawyer, T. W., Koevary, J. W., Howard, C. C., Austin, O. J., Rice, P. F., Hutchens, G. V., Chambers, S. K., Connolly, D. C., & Barton, J. K. (2020). Fluorescence and Multiphoton Imaging for Tissue Characterization of a Model of Postmenopausal Ovarian Cancer. Lasers in surgery and medicine, 52(10), 993-1009.
- Vega, D., Sawyer, T. W., Pham, N. Y., & Barton, J. K. (2020). Use of embedded and patterned dichroic surfaces with reflective optical power to enable multiple optical paths in a micro-objective. Applied optics, 59(22), G71--G78.
- Barton, J. K., & Kiekens, K. C. (2019). 3D printed lens for depth of field imaging. OSA Continuum, 2(11), 3019-3025.
- Hoyer, P. B., Rice, P. F., Howard, C. C., Koevary, J. W., Dominguez Cooks, J. P., Hutchens, G. V., Chambers, S. K., Craig, Z. R., Connolly, D. C., & Barton, J. K. (2019). Comparison of Reproductive Function in Female Transgenic and Wildtype C57BL/6 Mice. Comparative medicine, 69(1), 16-21.
- Loh, T. Y., Goldberg, M. S., Falsey, R. R., Barton, J. K., Sagerman, P., & Goldberg, G. N. (2019). Insight into the mechanisms of type III minocycline-induced pigmentation removal: A case of repeated immediate pigment clearing with the Q-switched 755-nm alexandrite laser over a 13-year period. JAAD case reports, 5(10), 865-867.
- Qin, Y., Ou, Y., Cromey, B., Batjargal, O., Barton, J. K., & Kieu, K. Q. (2019). Watt-level All-fiber Optical Parametric Chirped-Pulse Amplifier Working at 1300 nm. Optics Letters, 44(14), 3422-3425.
- Sawyer, T. W., Koevary, J. W., Rice, F. P., Howard, C. C., Austin, O. J., Connolly, D. C., Cai, K. Q., & Barton, J. K. (2019). Quantification of multiphoton and fluorescence images of reproductive tissues from a mouse ovarian cancer model shows promise for early disease detection. Journal of biomedical optics, 24(9), 1-16.
- Sawyer, T. W., Rice, P. F., Sawyer, D. M., Koevary, J. W., & Barton, J. K. (2019). Evaluation of segmentation algorithms for optical coherence tomography images of ovarian tissue. Journal of medical imaging (Bellingham, Wash.), 6(1), 014002.
- Akhoundi, F., Qin, Y., Peyghambarian, N., Barton, J. K., & Kieu, K. (2018). Compact fiber-based multi-photon endoscope working at 1700 nm. Biomedical optics express, 9(5), 2326-2335.
- Barton, J. K., Connolly, D. C., Craig, Z. R., Chambers, S. K., Hutchens, G. V., Dominguez Cooks, J. P., Koevary, J. W., Howard, C. C., Rice, P. F., & Hoyer, P. (2018). Comparison of Markers of Reproductive Function in Female C57Bl/6 versus TgMISIIR-TAg Transgenic Mice: Effect of VCD exposure on Ovarian Failure.. Comparative Medicine.
- Batjargal, O., Ou, Y. H., Keikens, K., Barton, J. K., & Kieu, K. (2018). All-fiber dissipative soliton Raman laser based on phosphosilicate fiber. IEEE photonics technology letters : a publication of the IEEE Laser and Electro-optics Society, 30(21), 1846-1849.
- Rice, P. F., Ehrichs, K. G., Jones, M. S., Chen, H., Hsu, C. H., Abril, E. R., Nagle, R. B., Besselsen, D. G., Barton, J. K., & Ignatenko, N. A. (2018). Does Mutated K-RAS Oncogene Attenuate the Effect of Sulindac in Colon Cancer Chemoprevention?. Cancer prevention research (Philadelphia, Pa.), 11(1), 16-26.
- Sawyer, T. W., Chandra, S., Rice, P. F., Koevary, J. W., & Barton, J. K. (2018). Three-dimensional texture analysis of optical coherence tomography images of ovarian tissue. Physics in medicine and biology, 63(23), 235020.
- Black, K. C., Kirkpatrick, N. D., Troutman, T. S., Xu, L., Vagner, J., Gillies, R. J., Barton, J. K., Utzinger, U., & Romanowski, M. (2008). Gold nanorods targeted to delta opioid receptor: plasmon-resonant contrast and photothermal agents. Molecular imaging, 7(1), 50-7.
- Kiekens, K. C., Galvez, D., Romano, G., Cordova, R., & Barton, J. K. (2020). Falloposcope Modifications for Clinical Trials. In CLEO: Applications and Technology.
- Vega, D., & Barton, J. K. (2020). Using customized computational analyses to evaluate the feasibility and risk of endoscopes with an SNR analysis as an example (Conference Presentation). In Design and Quality for Biomedical Technologies XIII, 11231.
- Barton, J. K., Tate, T., & McGregor, D. (2017, February). Single lens system for forward-viewing navigation and scanning side-viewing optical coherence tomography. In SPIE Photonics West, Endoscopic Microscopy XII, Proc. SPIE 10040.
- Winkler, A. M., F., P., Troutman, T. S., Backer, M. V., Backer, J. M., Drezek, R. A., Romanowski, M., & Barton, J. K. (2008, January). Fluorescent and scattering contrast agents in a mouse model of colorectal cancer. In Progress in Biomedical Optics and Imaging - Proceedings of SPIE, 6851.
- Barton, J. K. (2016, June 9, 2016). Optical Imaging Falloposcope for Ovarian Cancer Detection. Point of Care Translational Research Network. Bethesda, MD: NIH.
- Barton, J. K. (2016, Nov 9). Validating a mouse model of ovarian cancer for early detection through imaging. Oncology Models Forum. Bethesda, MD: NIH/NCI.
- Keenan, M., Tate, T., Swan, E. J., Black, J. F., Utzinger, U., & Barton, J. K. (2015, Spring). Dual-modal optical imaging microendoscope for ovarian cancer detection. BIOS Photonics West. San Francisco.
- Thomas R. Brown Distinguished Chair
- College of Engineering, Fall 2020
- Best Campus Collaborator
- Tech Launch Arizona, Spring 2019
- President's Award
- SPIE, Fall 2016