Publications


  • H. Pouraria, R. Foudazi, and J. P. Houston, "Exploitation of elasto-inertial fluid flow for the separation of nano-sized particles: simulating the isolation of extracellular vesicles" Cytometry Part A, 2023, accepted
  • J. Sambrano, F. Rodriguez, J. Martin, and J. P. Houston, "Toward the Development of an On-Chip Acoustic Focusing Fluorescence Lifetime Flow Cytometer," Frontiers in Physics, 2021 9:253 https://www.frontiersin.org/article/10.3389/fphy.2021.647985 
  • A. Bitton, J. Sambrano, S. Valentino, and J. P. Houston, "A Review of New High-Throughput Methods Designed for Fluorescence Lifetime Sensing From Cells and Tissues," Frontiers in Physics, 2021 9:163 https://www.frontiersin.org/article/10.3389/fphy.2021.648553
  • A. Bitton, Y. Zheng, K. D. Houston, and J. P. Houston, "Investigating differences between tamoxifen resistant and sensitive breast cancer cells with flow cytometry," Cytometry A, 2021 99(2):164-169; PMC7986838
  • K. Nichani, J. Li, M. Suzuki, and J. P. Houston, “Evaluation of caspase-3 activity during apoptosis with fluorescence lifetime-based cytometry measurements and phasor analyses,” Cytometry A, 2020 97(12):1265-1275; PMC7738394 
  • F. Alturkistany, K. Nichani, K. D. Houston, and J. P. Houston, “Fluorescence lifetime shifts of NAD(P)H during apoptosis measured by time-resolved flow cytometry,” Cytometry A  2019; 95(1):70-79 PMC6587805 
  • J. Thomas, J. P. Houston, and  L. Boucheron, “Measuring Self-Efficacy in Diverse First-Year Engineering Students Exposed to Entrepreneurial Minded Learning,”  IEEE Frontiers in Education (FIE) 2018 T3G: Engineering Education Research 10.1109/FIE.2018.8658540
  • J. Sambrano, K. Nichani, L. Smagley, A. Chigaev, L. Sklar, J. P. Houston, “Evaluating integrin activation with time-resolved flow cytometry,” Journal of Biomedical Optics 2018; 23(7):1-10 PMCID:PMC6232766
  • J. P. Houston and M. Naivar,  “Methods of measuring fluorescence lifetime using a flow cytometer” United States Patent, Pub no. US9632030 B1, App no. US 14/072,521, Apr 25, 2017.
  • L. Yan, J. Yu, J.P. Houston, N. Flores, and H. Luo, “Biomass derived porous nitrogen doped carbon for electrochemical devices,” Green Energy & Environment,  2017; 2(2):84-99
  • J. Sambrano, Y. Smagley, A. Chigaev, L. A. Sklar, and J. P. Houston, “Using FRET to quantify changes in integrin structures in human leukocytes induced by chemoattractants with multi-frequency flow cytometry,” Proc. SPIE 
  • Z. Yang, B. Rutherford, R. McDonald, and J. P. Houston “Development of far-red and ultraviolet digital frequency-domain flow cytometry systems,” IEEE Journal of Selected Topics in Quantum Electronics 2017; 23(3):7100105
  • W. Li, K. D. Houston, and J. P. Houston, “Shifts in the fluorescence lifetime of EGFP during bacterial phagocytosis measured by phase-sensitive flow cytometry,”  Scientific Reports 2017; 7:40341 PMCID:PMC5238435
  • Z. Yang, D. M. Shcherbakova, V. Verkhusha, and J. P. Houston, “Developing a time-resolved flow cytometer for fluorescence lifetime measurements of near-infrared fluorescent proteins,”  Conference on Lasers and Electro-Optics, OSA Technical Digest  2016; https://doi.org/10.1364/CLEO_SI.2016.SW4G.1
  • R. Cao,  Jenkins P, Peria W, Sands B, Naivar M, Brent R, and J. P. Houston, “Phasor plotting with frequency-domain flow cytometry,” Optics Express 2016; 24(13):14596-607  PMCID:PMC5025209
  • E. Dahal, J. Curtiss, D. Subedi, G. Chen, J. P. Houston, and S. Smirnov, “Evaluation of the Catalytic Activity and Cytotoxicity of Palladium Nanocubes,” ACS Appl. Mater. Interfaces 2015; 7 (18): 9364–9371  PMCID:PMC4663053
  • P. Jenkins, M. Naivar, and J. P. Houston, “Toward the measurement of multiple fluorescence lifetimes in flow cytometry: maximizing multi-harmonic content from cells and microspheres,” Journal of Biophotonics 2015; 8(11-12):908-917  PMCID:PMC4869968
  • B. Sands, P. Jenkins, B. J. Peria, M. Naivar, J. P. Houston, and R. Brent, “Measuring and sorting cell populations expressing isospectral fluorescent proteins with different fluorescence lifetimes,” PLoS One 2014; 9(10):e109940  PMCID:PMC4193854
  • R. Cao, M. Naivar, M. Wilder, and J. P. Houston, “Expanding the potential of standard flow cytometry by extracting fluorescence lifetimes from cytometric pulse shifts.,” Cytometry A  2014; 85(12):999-1010 PMCID:PMC4257068  **selected for the 2014 Best Paper Award
  • W. Li, G. Vacca, and J. P. Houston, “Fluorescence lifetime excitation cytometry by kinetic dithering,” Electrophoresis 2014; 35(12-13):1846-54 PMCID:PMC4231566
  • A. Gohar, R. Cao, P. Jenkins, W. Li, J.P. Houston, and K. D. Houston, “Subcellular localization-dependent changes in EGFP fluorescence lifetime measured by time-resolved flow cytometry,” Biomedical Optics Express 2013; 4(8):1390-1400  PMCID:PMC3756581
  • R. Cao, V. Pankayatselvan, and J. P. Houston, “Cytometric sorting based on the fluorescence lifetime of spectrally overlapping signals,” Optics Express 2013; 21(12): 14816-14831 PMCID:PMC3726248
  • J. P. Houston, M. Naivar, P. Jenkins and J. P. Freyer, “Capture of fluorescence decay times by flow cytometry,” Current Protocols in Cytometry 2012;  59(1):1.25.1-1.25.12  PMCID:PMC4240630
  • J. P. Houston, M. Naivar, and J. P. Freyer, “Digital Acquisition of fluorescence lifetime by frequency domain flow cytometry,” Cytometry A  2010; 77A(9):861- 872  PMCID:PMC2930036 
  • E. M. Sevick-Muraca, R. Sharma, J. C. Rasmussen, M. V. Marshall, J. A.Wendt, H. Q. Pham, E. Bonefas, J. P. Houston, L. Sampath, K. E. Adams, D. Blanchard, R.E. Fisher, S. Chiang, R. Elledge, and M. E. Mawad, “Imaging of lymph flow in breast cancer patients after microdose administration of a near-infrared fluorophore – feasibility,” Radiology 2008, 246(3) 734-741.
  • R. Sharma, W. Wang, J. Rasmussen, A. Joshi, J. P. Houston, K. Adams, A. Cameron, S. Ke, M. Mawad, and E. Sevick, “Quantitative imaging of lymph function,” American Journal of Physiology: Heart and Circulation 2007, 292:H3109-H3118.
  • J. P. Houston, S. Ke, W. Wang, C. Li, and E. M. Sevick-Muraca, “Quality analysis of in vivo NIR fluorescence and conventional gamma images acquired using a dual-labeled tumor-targeting probe,” Journal of Biomedical Optics 2005, 10(5):54010.
  • K. Hwang, J. P. Houston, J. Rasmussen, S. Ke, C. Li, and E. M. Sevick-Muraca, “Enhanced fluorescent optical imaging with improved excitation light rejection,” Molecular Imaging 2005, 4(3):194-204.
  • S. Kwon, S. Ke, J. P. Houston, W. Wang, Q. Wu, C. Li, and E. M. Sevick-Muraca, “Imaging dose-dependent pharmacokinetics of an RGD-fluorescent dye conjugate targeted to avb3 receptor expressed in Kaposi’s sarcoma,” Molecular Imaging 2005, 4:75-87 (cover of issue).
  • C.Li, W. Wang, Q. Wu, S. Ke, J. P. Houston, E. M. Sevick-Muraca, L. Dong,  D. Chow, C. Charnsangavej and J. P. Gelovani, “Dual optical and nuclear imaging in human melanoma xenografts using a single targeted imaging probe,” Nuclear Medicine and Biology 2006, 33(3):349-358.
  • J. P. Houston and E. M. Sevick-Muraca, “Sensitivity and depth penetration of CW versus FDPM NIR fluorescence contrast-enhanced imaging,” Photochemistry and Photobiology 2003, 77:420-430.