国际光学工程学会
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作者:Raksha Raghunathan , Manmohan Singh ...
来源:[J].Journal of Biomedical Optics(IF 2.881), 2016, Vol.21 (5), pp.050902-050902SPIE
摘要:Embryogenesis is a highly complex and dynamic process, and its visualization is crucial for understanding basic physiological processes during development and for identifying and assessing possible defects, malformations, and diseases. While traditional imaging modalities, such a...
作者:Raksha Raghunathan , Jitao Zhang ...
来源:[J].Journal of Biomedical Optics(IF 2.881), 2017, Vol.22 (8), pp.086013-086013SPIE
摘要:Embryogenesis is regulated by numerous changes in mechanical properties of the cellular microenvironment. Thus, studying embryonic mechanophysiology can provide a more thorough perspective of embryonic development, potentially improving early detection of congenital abnormalities...
作者:Raksha Raghunathan , Chen Wu ...
来源:[J].Journal of Biomedical Optics(IF 2.881), 2016, Vol.21 (9), pp.090504-090504SPIE
摘要:This study demonstrates the feasibility of using the Rayleigh wave model (RWM) in combination with optical coherence elastography (OCE) technique to assess the viscoelasticity of soft tissues. Dispersion curves calculated from the spectral decomposition of OCE-measured air-p...
作者:Raksha Raghunathan , Chih-Hao Liu ...
来源:[J].Journal of Biomedical Optics(IF 2.881), 2016, Vol.21 (9), pp.090502-090502SPIE
摘要:Quantifying tissue biomechanical properties can assist in detection of abnormalities and monitoring disease progression and/or response to a therapy. Optical coherence elastography (OCE) has emerged as a promising technique for noninvasively characterizing tissue biomechanic...

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