Peer-reviewed Journal Articles

20.     Lee, S. Y., Brothers, R. O., Turrentine, K. B., Sathialingam, E., Cowdrick, K. R., Gillespie, S., Bai, S., Goldman-Yassen, A., Joiner, C. H., Brown, R. C., and Buckley, E. M., “Quantifying the cerebral hemometabolic response to blood transfusion in pediatric sickle cell disease with diffuse optical spectroscopies” Frontiers in Neurology, 2022; 13:869117 *equally contributed

19.     Kim, Y., Lee, H. C., Kim, J., Oh, E., Yoo, J., Ning, B., Lee, S.Y., Ali, K. M., Tufano, R. P., Russel, J. O., and Cha, J., “A co-axial excitation, dual-RGB/NIR paired imaging system toward computer-aided detection (CAD) of parathyroid glands in situ and ex vivo”, Journal of Biophotonics, 2022; e20220008  

18.     Oh, E., Lee, H. C., Kim, Y., Ning, B., Lee, S.Y., Cha, J., and Kim, W.W., “A pilot feasibility study to assess vascularity and perfusion of parathyroid glands using a portable hand-held imager”, Lasers Surg Med, 2021;1-8

17.     Lee, S.Y.*, Lloyd, W.R.*, Elahi, S.F., Chen, L.-C., Kuo, S., Kim, H.M., Marcelo, C.L., Feinberg, S.E., and Mycek, M.-A., “Noninvasive assessment of implanted tissue-engineered construct success in situ by quantitative diffuse reflectance spectroscopy,” Tissue Engineering, Part C, 2021; 27(5): 287-295  *equally contributed

16.     Lee, S.Y., Pakela, J.M., Na, K., Shi, J., McKenna, B., Simeone, D., Scheiman, J., Yoon, E., and Mycek, M.-A., “Needle-compatible miniaturized optoelectronic sensor for pancreatic cancer detection”, Science Advances, 2020; 6(47): eabc1746 

15.     Sathialingam, E., Williams, E.K., Lee, S.Y., McCracken C.E., Lam, W., and Buckley, E.M., “Hematocrit significantly confounds diffuse correlation spectroscopy measurements of blood flow”, Biomedical Optics Express, 2020; 11(8): 4786-4799 

14.     Grijalva, S.I., Gu, J., Li, J., Fernandez, N., Sung, J.H., Fan, J., Lee, S.Y, Henderson, C., Buckley, E.M., Park, S.-J., Fenton, F. and Cho, H.C., "Engineered cardiac pacemaker nodes created by TBX18 gene transfer overcome source-sink mismatch", Advanced Science, 2019; 1901099 

13.     Lee, S.Y., Zheng, C., Brothers R., and Buckley, E. M., “Small separation frequency-domain near-infrared spectroscopy for recovery of tissue optical properties at millimeter depths”, Biomedical Optics Express, 2019; 10(10): 5362-5377 

12.     Lee, S.Y., Cowdrick, K., Sanders, B., Sathialingam, E., Lam, W., Joiner, C. H., Buckley, E. M., “Noninvasive optical assessment of resting-state cerebral blood flow in children with sickle cell disease”, Neurophotonics 2019; 6(3): 035006  (Featured in Physics World) 

11.  Lee, S.Y*., Sathialingam, E*., Sanders B., Park, J., Bryan, L., McCracken, C., Buckley, E. M., “Small separation diffuse correlation spectroscopy for measurement of cerebral blood flow in rodents”, Biomedical Optics Express , 2018; 9(11): 5719-5734.  *equally contributed.

10.  Lee, S.Y., and Mycek, M.-A., “Hybrid Monte Carlo simulation with ray tracing for fluorescence measurements in turbid media”, Optics Letters, 2018; 43(16): 3846-3849 

9.  Lee, S.Y., Chung, G. Y., and Mycek, M.-A., “Miniaturized optoelectronic sensors for tissue diagnostics”, In: Encyclopedia of Modern Optics 2nd edition, Oxford Elsevier, 2018; Vol 3:86-94.

8.  Pan, W., Lee, S. Y., Billings, J., Nezafati, M., Majeed, W., Buckley, E.M., and Keilholz, S., "Detection of neural swelling activity in vivo: optical transmittance study in the rat brain, " NeuroImage, 2018; 179: 207-21 

7.  Elahi, S.F., Lee, S.Y., Lloyd, W., Chen, L.-C., Kuo ,S., Kim, H.M., Marcelo, C.L., Feinberg, S.E., and Mycek, M.-A., ”Noninvasive optical assessment of implanted engineered tissues correlates with cytokine secretion”, Tissue Engineering, Part C, 2018; 24(4): 214-221 

6.  Lee, S.Y*., Pakela, J.M*., Helton, M.C., Vishwanath, K., Chung, Y.G., Kolodziejski, N.J., Stapels, C.J., McAdams, D.R., Fernandez, D.E., Christian, J.F., O’Reilly, J., Farkas, Dana., Ward, B.B., Feinberg, S.E., and Mycek, M.-A., “Compact dual-mode diffuse optical system for blood perfusion monitoring in a porcine model of microvascular tissue flaps”, Journal of Biomedical Optics, 2017; 22(12): 121609 *equally contributed. 

5.  Wilson, R.H., Chandra, M., Scheiman, J., Lee, S.Y., Lee, O., McKenna, B., Simeone, D., Taylor, J., Mycek, M.-A., “Tissue classification using optical spectroscopy accurately differentiates cancer and chronic pancreatitis”, Pancreas, 2017; 46(2):244-251. 

4.  Lloyd, W.R., Wilson, R.H., Lee, S.Y., Chandra, M., McKenna, B., Simeone, D., Scheiman, J., and Mycek, M.-A., “In vivo optical spectroscopy for improved detection of pancreatic adenocarcinoma: a feasibility study,” Biomedical Optics Express, 2014; 5(1):9-15. 

3.  Lee, S.Y., Lloyd, W.R., Chandra, M., Wilson, R.H., McKenna, B., Simeone, D., Scheiman, J., and Mycek, M.-A., "Characterizing human pancreatic cancer precursor using quantitative tissue optical spectroscopy," Biomedical Optics Express, 2013; 4(12):2828-34.  

2.  Kang, U., Makarov, D. A., Lee, S. Y., Bae, S. J., and Papayan, G. V., “Illuminator for photodynamic therapy and fluorescence diagnosis with lightguide output of the radiation”, Journal of Optical Technology, 2008;75(12): 764 – 768. 

1.  Lee, S. Y., Kang, J., Shin, I. H., J. H. Lee, C. T. Lee, and H. C. Kim, “CDMA-Based SaO2 Monitoring System for Oxygen Therapy Patients”, Journal of Biomedical Engineering Research, 2006;27(4): 274 – 281.