Publication

Co-First Author, *Author for Correspondence

2020~ Present  

Li, H.†, Qiang, Y.†, Li, X., Brugnara, C., Buffet, P.A., Dao, M., Karniadakis, G.E. and Suresh, S., 2024. Biomechanics of phagocytosis of red blood cells by macrophages in the human spleen. Proceedings of the National Academy of Sciences121(44), p.e2414437121.

Qiang, Y.*, Xu, M., Pochron, M. P., Jupelli, M., & Dao, M. ,2024. A framework of computer vision-enhanced microfluidic approach for automated assessment of the transient sickling kinetics in sickle red blood cells. Frontiers in Physics, 12, 1331047.

Zhang Y†, Qiang Y †, He Li, Guansheng Li, Lu Lu, Ming Dao, George E. Karniadakis, Aleksander S. Popel, and Chen Zhao., 2024. Signaling-biophysical modeling unravels mechanistic control of red blood cell phagocytosis by macrophages in sickle cell disease. PNAS Nexus: pgae031.

Qiang, Y., Sissoko, A., Liu, Z. L., Dong, T., Zheng, F., Kong, F., … & Dao, M., 2023. Microfluidic study of retention and elimination of abnormal red blood cells by human spleen with implications for sickle cell disease. Proceedings of the National Academy of Sciences, 120(6), e2217607120.[ScienceDaily] [MITnews] [NTUnews] [Softbites] [TechnologyNetworks] [PrecisionMedicine] [CEP]

Qiang, Y., Dieujuste, D., Liu, J., Alvarez, O., & Du, E. 2023. Rapid electrical impedance detection of sickle cell vaso-occlusion in microfluidic device. Biomedical Microdevices, 25(3), 23.

Qiang, Y. and Dao, M., 2023. 5610417 IN-VITRO REAL-TIME OBSERVATION OF MODERATE SICKLING KINETICS IN SICKLE ERYTHROCYTES TREATED BY VOXELOTOR UNDER MONOTONIC AND CYCLIC HYPOXIA. HemaSphere, 7(S1), pp.13-14.

Qiang, Y., Liu, J., Dao, M. and Du, E., 2021. In vitro assay for single-cell characterization of impaired deformability in red blood cells under recurrent episodes of hypoxia. Lab on a Chip, 21(18), pp.3458-3470.[NSF feature] [Journal Cover] [FAU news] [eurekalert] [Technologynetworks] 

Li, G.+, Qiang, Y.+, Li, H., Li, X., Dao, M., & Karniadakis, G. E. 2023. In silico and in vitro study of the adhesion dynamics of erythrophagocytosis in sickle cell disease. Biophysical Journal, 122(12), 2590-2604.

Huang, J., Wu, J., Wang, J., Xu, M., Jiao, J., Qiang, Y.*, Zhang, F.* and Li, Z.*, 2023. Rock Climbing-Inspired Electrohydrodynamic Cryoprinting of Micropatterned Porous Fiber Scaffolds with Improved MSC Therapy for Wound Healing. Advanced Fiber Materials, 5(1), pp.312-326.

Liu, Z.L., Li, H., Qiang, Y., Buffet, P., Dao, M. and Karniadakis, G.E., 2021. Computational modeling of biomechanics and biorheology of heated red blood cells. Biophysical Journal, 120(21), pp.4663-4671.

Dieujuste, D., Qiang, Y. and Du, E., 2021. A portable impedance microflow cytometer for measuring cellular response to hypoxia. Biotechnology and bioengineering, 118(10), pp.4041-4051.

Liu, J., Qiang, Y. and Du, E., 2021. Dielectric spectroscopy of red blood cells in sickle cell disease. Electrophoresis, 42(5), pp.667-675.

Tian, Y., Du, E., Abdelmola, F., Qiang, Y. and Carlsson, L.A., 2020. Rapid Characterization of water diffusion in polymer specimens using a droplet-based method. Langmuir, 36(26), pp.7309-7314.

Liu, J., Chesnokova, O., Oleinikov, I., Qiang, Y., Oleinikov, A.V. and Du, E., 2020. Optimization of in vitro trophoblast assay for real-time impedimetric sensing of trophoblast-erythrocyte interactions in Plasmodium falciparum malaria. Analytical and bioanalytical chemistry, 412, pp.3915-3923.

Du, E., Dieujuste, D., Liu, J. and Qiang, Y., Florida Atlantic University Board Of Trustees, 2023. Portable electrical impedance-based blood testing device for diagnosis and monitoring sickle cell disease. U.S. Patent Application 18/118,277.Du, E., Qiang, Y., Dieujuste, D. and Liu, J., Florida Atlantic University, 2022. Vascular occlusion testing device. U.S. Patent Application 17/313,235.

2017~2019

Qiang, Y., Liu, J., Dao, M., Suresh, S. and Du, E., 2019. Mechanical fatigue of human red blood cells. Proceedings of the National Academy of Sciences, 116(40), pp.19828-19834.[FAU news] 

Qiang, Y., Liu, J., Yang, F., Dieujuste, D. and Du, E., 2018. Modeling erythrocyte electrodeformation in response to amplitude modulated electric waveforms. Scientific reports, 8(1), p.10224.

Qiang, Y., Liu, J. and Du, E., 2017. Dynamic fatigue measurement of human erythrocytes using dielectrophoresis. Acta biomaterialia, 57, pp.352-362.

Qiang, Y., Liu, J. and Du, E., 2018. Dielectrophoresis testing of nonlinear viscoelastic behaviors of human red blood cells. Micromachines, 9(1), p.21.

Liu, J., Qiang, Y., Alvarez, O. and Du, E., 2019. Electrical impedance characterization of erythrocyte response to cyclic hypoxia in sickle cell disease. ACS sensors, 4(7), pp.1783-1790. [Newswise] [Journal Cover

Du, E., Qiang, Y. and Liu, J., 2018. Erythrocyte membrane failure by electromechanical stress. Applied Sciences, 8(2), p.174.

Liu, J., Qiang, Y., Alvarez, O. and Du, E., 2018. Electrical impedance microflow cytometry with oxygen control for detection of sickle cells. Sensors and Actuators B: Chemical, 255, pp.2392-2398.

Qiang, Y., Liu, J., Dieujuste, D., Ramsamooj, K. and Du, S.E., 2018, November. Continuous cell sorting by dielectrophoresis in a straight microfluidic channel. In ASME International Mechanical Engineering Congress and Exposition (Vol. 52026, p. V003T04A026). American Society of Mechanical Engineers.

Qiang, Y., Liu, J., Mian, M. and Du, E., 2017. Experimental electromechanics of red blood cells using dielectrophoresis-based microfluidics. In Mechanics of Biological Systems and Materials, Volume 6: Proceedings of the 2016 Annual Conference on Experimental and Applied Mechanics (pp. 129-134). Springer International Publishing.

Galpayage Dona, K.N.U., Liu, J., Qiang, Y., Du, E. and Lau, A.W.C., 2017, November. Electrical equivalent circuit model of sickle cell. In ASME International Mechanical Engineering Congress and Exposition (Vol. 58455, p. V010T13A029). American Society of Mechanical Engineers.

Liu, J., Qiang, Y., Mian, M., Xu, W. and Du, E., 2017. Rheology of soft and rigid micro particles in curved microfluidic channels. In Mechanics of Biological Systems and Materials, Volume 6: Proceedings of the 2016 Annual Conference on Experimental and Applied Mechanics (pp. 83-87). Springer International Publishing.

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