Journal Papers

#Co-first Author. §Corresponding Author.

2024

  1. T. Fang, H. Han, J. Sun, A. Mukhamedjanova, and S. Wang§, “Three-dimensional particle streak velocimetry based on optical coherence tomography for assessing preimplantation embryo movement in mouse oviduct in vivo”, Biomedical Optics Express, 15: 2466-2480, 2024.

2023

  1. J. Sun, T. Fang, H. Wang, and S. Wang§ , “Photothermal optical coherence tomography for 3D live cell detection and mapping”, Optics Continuum, 2: 2468-2483, 2023. (Highlight of the Issue)
  1. T. Xia, K. Umezu, D. M. Scully, S. Wang§, and I. V. Larina§, “In vivo volumetric depth-resolved imaging of cilia metachronal waves using dynamic optical coherence tomography”, Optica, 10: 1439-1451, 2023.
    • News release: "Imaging advance poised to provide new insights into reproduction and infertility", Optica, November 2, 2023.
    • News article: Hannah Lanford, "OCT for in vivo imaging of cilia dynamics", Optics & Photonics News, November 9, 2023.
  1. A. C. Faubert, I. V. Larina, and S. Wang § , “Open-source, highly efficient, post-acquisition synchronization for 4D dual-contrast imaging of the mouse embryonic heart over development with optical coherence tomography”, Biomedical Optics Express, 14: 163-181, 2023. (Editor's Pick)
  1. S. Wang § and I. V. Larina, “Dynamics of gametes and embryos in the oviduct: what can in vivo imaging reveal?”, Reproduction, 165: R25–R37, 2023.

2022

  1. S. Wang§ and I. V. Larina, “Following the Beat: Imaging the Valveless Pumping Function in the Early Embryonic Heart”, Journal of Cardiovascular Development and Disease, 9: 267, 2022.


2021

  1. S. Wang§ and I. V. Larina§, “In vivo dynamic 3D imaging of oocytes and embryos in the mouse oviduct”, Cell Reports, 36: 109382, 2021.
    • News release: "The unexpected journey of the egg and the embryo through the fallopian tube", BCM, July 13, 2021.
    • Research highlight: Ellen P. Neff, "A window into the dynamic world of mouse reproduction", Lab Animal, 50: 240, 2021.

2020

  1. A. L. Lopez III, S. Wang, and I. V. Larina§, “Cardiodynamic imaging in mouse embryos with optical coherence tomography”, Journal of Cardiovascular Development and Disease, 7: 42, 2020.
  1. A. L. Lopez III, S. Wang, and I. V. Larina§, “Optogenetic cardiac pacing in cultured mouse embryos under imaging guidance”, Journal of Biophotonics, 13: e202000223, 2020.
  1. S. Wang§ and I. V. Larina, “Live mechanistic assessment of localized cardiac pumping in mammalian tubular embryonic heart”, Journal of Biomedical Optics, 25: 086001, 2020. (Cover)
    • News release: "Embryonic heart development: unprecedented insight from 4D OCT", SPIE, August 5, 2020.
    • Research highlight: Douglas Farmer, "4D OCT helps to solve mystery of early embryonic heartbeat", Biophotonics Magzine, November/December 2020.
  1. S. Wang, I. V. Larina, and K. V. Larin§, “Label-free optical imaging in developmental biology”, Biomedical Optics Express, 11: 2017-2040, 2020.

Before Stevens Institute of Technology

  1. E. L. Moore, S. Wang, and I. V. Larina§, “Staging mouse preimplantation development in vivo using optical coherence microscopy”, Journal of Biophotonics, 12: e201800364, 2019.
    • Advanced Science News: “Optical coherence microscopy provides new insight into infertility”, May 9, 2019.
  1. A. P. Barrasso, S. Wang, X. Tong, A. E. Christiansen, I. V. Larina, and R. A. Poché§, “Live imaging of developing mouse retinal slices”, Neural Development, 13: 23, 2018.
  1. S. Wang, R. Syed, O. A. Grishina, and I. V. Larina§, “Prolonged in vivo functional assessment of the mouse oviduct using optical coherence tomography through a dorsal imaging window”, Journal of Biophotonics, 11: e201700316, 2018. (Back Cover and Editor's Choice)
    • Advanced Science News: “New 3D in vivo imaging approach for functional assessment of oviduct”, May 24, 2018.
  1. S. Wang and I. V. Larina§, “In vivo three-dimensional tracking of sperm behaviors in the mouse oviduct”, Development, 145: dev157685, 2018.
  1. J. A. Loehr, S. Wang, T. R. Cully, R. Pal, I. V. Larina, K. V. Larin, and G. G. Rodney§, “NADPH oxidase mediates microtubule alterations and diaphragm dysfunction in dystrophic mice”, eLife, 7: e31732, 2018.
  1. S. Wang#, M. Singh#, T. T. Tran, J. Leach, S. R. Aglyamov, I. V. Larina, J. F. Martin, and K. V. Larin§, “Biomechanical assessment of myocardial infarction using optical coherence elastography”, Biomedical Optics Express, 9: 728-742, 2018.
    • News release: “Biomechanical mapping method aids development of therapies for damaged heart tissue”, OSA, January 23, 2018.
  1. O. A. Grishina#, S. Wang#, and I. V. Larina§, “Speckle variance optical coherence tomography of blood flow in the beating mouse embryonic heart”, Journal of Biophotonics, 10: 735-743, 2017. (Cover)
  1. S. Wang#, M. D. Garcia#, A. L. Lopez III, P. A. Overbeek, K. V. Larin, and I. V. Larina§, “Dynamic imaging and quantitative analysis of cranial neural tube closure in the mouse embryo using optical coherence tomography”, Biomedical Optics Express, 8: 407-419, 2017. (Cover)
    • Spotlight on Optics: Spotlight Summary by Robert Zawadzki, OSA, March 2017.
  1. S. Wang, D. S. Lakomy, M. D. Garcia, A. L. Lopez III, K. V. Larin, and I. V. Larina§, “Four-dimensional live imaging of hemodynamics in mammalian embryonic heart with Doppler optical coherence tomography”, Journal of Biophotonics, 9: 837-847, 2016. (Back Cover)
  1. M. Singh, S. Wang, R. W. Yee, and K. V. Larin§, “Optical coherence tomography as a tool for real-time visual feedback and biomechanical assessment of dermal filler injections: preliminary results in a pig skin model”, Experimental Dermatology, 25: 475-476, 2016.
  1. M. Singh#, J. Li#, S. Vantipalli, S. Wang, Z. Han, A. Nair, S. R. Aglyamov, M. D. Twa, and K. V. Larin§, “Noncontact elastic wave imaging optical coherence elastography for evaluating changes in corneal elasticity due to crosslinking”, IEEE Journal of Selected Topics in Quantum Electronics, 22: 6801911, 2016.
  1. S. Wang#, M. Singh#, A. L. Lopez III, C. Wu, R. Raghunathan, A. Schill, J. Li, K. V. Larin, and I. V. Larina§, “Direct 4D structural and functional imaging of cardiovascular dynamics in mouse embryos with 1.5 MHz optical coherence tomography”, Optics Letters, 40: 4791-4794, 2015.
  1. A. L. Lopez III, S. Wang, K. V. Larin, P. A. Overbeek, I. V. Larina§, “Live 4D optical coherence tomography reveals embryonic cardiac phenotype in novel mouse mutant”, Journal of Biomedical Optics, 20: 090501,2015. (Cover)
  1. S. Wang#, J. C. Burton#, R. R. Behringer, and I. V. Larina§, “In vivo micro-scale tomography of ciliary behavior in the mammalian oviduct”, Scientific Reports, 5: 13216, 2015.
  1. J. C. Burton#, S. Wang#, C. A. Stewart, R. R. Behringer, and I. V. Larina§, “High-resolution three-dimensional in vivo imaging of mouse oviduct using optical coherence tomography”, Biomedical Optics Express, 6: 2713-2723, 2015.
  1. S. Aglyamov, S. Wang, A. Karpiouk, J. Li, M. Twa, S. Emelianov, and K. V. Larin§, “The dynamic deformation of a layered viscoelastic medium under surface excitation”, Physics in Medicine and Biology, 60: 4295, 2015.
  1. S. H. Syed, A. J. Coughlin, M. D. Garcia, S. Wang, J. West, K. V. Larin, and I. V. Larina§, “Optical coherence tomography guided microinjections in live mouse embryos: high-resolution targeted manipulation for mouse embryonic research”, Journal of Biomedical Optics, 20: 051020, 2015.
  1. C.-W. Hsu#, R. A. Poché#, J. E. Saik, S. Ali, S. Wang, N. Yosef, G. A. Calderon, L. Scott Jr., T. J. Vadakkan, I. V. Larina, J. L. West, and M. E. Dickinson§, “Improved angiogenesis in response to localized delivery of macrophage-recruiting molecules”, PLoS ONE, 10: e0131643, 2015.
  1. Z. Han#, J. Li#, M. Singh#, C. Wu, C.-H. Liu, S. Wang, R. Idugboe, R. Raghunathan, N. Sudheendran, S. Aglyamov, M. Twa, and K. V. Larin§, “Quantitative methods for reconstructing tissue biomechanical properties in optical coherence elastography: a comparison study”, Physics in Medicine and Biology, 60: 3531, 2015.
  1. S. Wang and K. V. Larin§, “Optical coherence elastography for tissue characterization: a review”, Journal of Biophotonics, 8: 279-302, 2015. (Cover)
    • Top 5 most cited ariticles over 2016-2017 in Journal of Biophotonics.
  1. C. Wu#, Z. Han#, S. Wang#, J. Li, M. Singh, C.-H. Liu, S. Aglyamov, S. Emelianov, F. Manns, and K. V. Larin§, “Assessing age-related changes in the biomechanical properties of rabbit lens using a co-aligned ultrasound and optical coherence elastography system”, Investigative Ophthalmology & Visual Science, 56: 1292-1300, 2015.
  1. Z. Han, S. R. Aglyamov, J. Li, M. Singh, S. Wang, S. Vantipalli, C. Wu, C.-H. Liu, M. Twa, and K. V. Larin§, “Quantitative assessment of corneal viscoelasticity using optical coherence elastography and a modified Rayleigh-Lamb wave mode”, Journal of Biomedical Optics, 20: 020501, 2015.
  1. C.-H. Liu, J. Qi, J. Lu, S. Wang, C. Wu, W.-C. Shih, and K. V. Larin§, “Improvement of tissue analysis and classification using optical coherence tomography combined with Raman spectroscopy”, Journal of Innovative Optical Health Sciences, 8: 1550006, 2015.
  1. C.-H. Liu, M. Singh, J. Li, Z. Han, C. Wu, S. Wang, R. Idugboe, R. Raghunathan, E. N. Sobol, V. V. Tuchin, M. Twa, and K. V. Larin§, “Quantitative assessment of hyaline cartilage elasticity during optical clearing using optical coherence elastography”, Modern Technologies in Medicine, 7: 44-51, 2015.
  1. P. M. Kulkarni, N. Rey-Villamizar, A. Merouane, N. Sudheendran, S. Wang, M. Garcia, I. V. Larina, B. Roysam, and K. V. Larin§, “Algorithms for improved 3-D reconstruction of live mammalian embryo vasculature from optical coherence tomography data”, Quantitative Imaging in Medicine and Surgery, 5: 125-135, 2015.
  1. S. Wang and K. V. Larin§, “Noncontact depth-resolved micro-scale optical coherence elastography of the cornea”, Biomedical Optics Express, 5: 3807-3821, 2014.
    • Top 15 most cited ariticles over 2014-2016 in Biomedical Optics Express.
  1. S. Wang, A. L. Lopez III, Y. Morikawa, G. Tao, J. Li, I. V. Larina, J. F. Martin, and K. V. Larin§, “Noncontact quantitative biomechanical characterization of cardiac muscle using shear wave imaging optical coherence tomography”, Biomedical Optics Express, 5: 1980-1992, 2014.
    • Top 15 most cited articles over 2014-2016 in Biomedical Optics Express.
  1. J. Li, S. Wang, M. Singh, S. Aglyamov, S. Emelianov, M. D. Twa, and K. V. Larin§, “Air-pulse OCE for assessment of age-related changes in mouse cornea in vivo”, Laser Physics Letters, 11: 065601, 2014.
  1. S. Wang, C.-H. Liu, V. P. Zakharov, A. J. Lazar, R. E. Pollock, and K. V. Larin§, “Three-dimensional computational analysis of optical coherence tomography images for the detection of soft tissue sarcomas”, Journal of Biomedical Optics, 19: 021102, 2014.
  1. S. Wang and K. V. Larin§, “Shear wave imaging optical coherence tomography (SWI-OCT) for ocular tissue biomechanics”, Optics Letters, 39: 41-44, 2014.
    • Top 15 most cited articles over 2014-2016 in Optics Letters.
  1. J. Li, S. Wang, R. K. Manapuram, M. Singh, F. M. Menodiado, S. Aglyamov, S. Emelianov, M. D. Twa, and K. V. Larin§, "Dynamic optical coherence tomography measurements of elastic wave propagation in tissue-mimicking phantoms and mouse cornea in vivo", Journal of Biomedical Optics, 18: 121503, 2013.
  1. S. Wang, S. Aglyamov, A. Karpiouk, J. Li, S. Emelianov, F. Manns, and K. V. Larin§, “Assessing the mechanical properties of tissue-mimicking phantoms at different depths as an approach to measure biomechanical gradient of crystalline lens”, Biomedical Optics Express, 4: 2769-2780, 2013.
  1. S. Wang, T. Sherlock, B. Salazar, N. Sudheendran, R. K. Manapuram, K. Kourentzi, P. Ruchhoeft, R. C. Wilson, and K. V. Larin§, “Detection and monitoring of microparticles under skin by optical coherence tomography as an approach to continuous glucose sensing using implanted retroreflectors”, IEEE Sensors Journal, 13: 4534-4541, 2013.
  1. S. Wang, K. V. Larin§, J. Li, S. Vantipalli, R. K. Manapuram, S. Aglyamov, S. Emelianov, and M. D. Twa, “A focused air-pulse system for optical-coherence-tomography-based measurements of tissue elasticity”, Laser Physics Letters, 10: 075605, 2013.
    • Highlights of 2013 in Laser Physics Letters.
  1. S. Wang, J. Li, R. K. Manapuram, F. M. Menodiado, D. R. Ingram, M. D. Twa, A. J. Lazar, D. C. Lev, R. E. Pollock, and K. V. Larin§, “Noncontact measurement of elasticity for the detection of soft-tissue tumors using phase-sensitive optical coherence tomography combined with a focused air-puff system”, Optics Letters, 37: 5184-5186, 2012.
  1. R. K. Manapuram, S. Aglyamov, F. M. Menodiado, M. Mashiatulla, S. Wang, S. A. Baranov, J. Li, S. Emelianov, K. V. Larin§, “Estimation of shear wave velocity in gelatin phantoms utilizing PhS-SSOCT”, Laser Physics, 22: 1439-1444, 2012.