Optical coherence elastography – OCT at work in tissue biomechanics [Invited]
Kirill V. Larin,David D. Sampson +1 more
TLDR
The early developments in OCE, and the factors that led to the current acceleration, are described, with a strong emphasis on future prospects, which are exceptionally bright.Abstract:
Optical coherence elastography (OCE), as the use of OCT to perform elastography has come to be known, began in 1998, around ten years after the rest of the field of elastography – the use of imaging to deduce mechanical properties of tissues. After a slow start, the maturation of OCT technology in the early to mid 2000s has underpinned a recent acceleration in the field. With more than 20 papers published in 2015, and more than 25 in 2016, OCE is growing fast, but still small compared to the companion fields of cell mechanics research methods, and medical elastography. In this review, we describe the early developments in OCE, and the factors that led to the current acceleration. Much of our attention is on the key recent advances, with a strong emphasis on future prospects, which are exceptionally bright.read more
Citations
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Journal Article
In vivo bidirectional color Doppler flow imaging of picoliter blood volumes using optical coherence tomography
TL;DR: A novel optical system for bidirectional color Doppler imaging of flow in biological tissues with micrometer-scale resolution is described and its use for in vivo imaging of blood flow in an animal model is demonstrated.
Journal ArticleDOI
The emergence of optical elastography in biomedicine
TL;DR: Optical elastography, the use of optics to characterize and map the mechanical properties of biological tissue, involves measuring the deformation of tissue in response to a load.
Journal ArticleDOI
Optical coherence elastography in ophthalmology.
Mitchell A. Kirby,Ivan Pelivanov,Shaozhen Song,Łukasz Ambroziński,Soon Joon Yoon,Liang Gao,David S. Li,Tueng T. Shen,Ruikang K. Wang,Matthew O'Donnell +9 more
TL;DR: The physical processes underlying tissue mechanical response based on static and dynamic displacement methods and the assumptions commonly used to interpret displacement and strain measurements in terms of tissue elasticity for static OCE and propagating wave modes in dynamic OCE are described.
Integrated Optical Coherence Tomography and Microscopy for Ex Vivo Multiscale Evaluation of Human Breast Tissues
Chao Zhou,David W. Cohen,Yihong Wang,Hsiang-Chieh Lee,Amy E. Mondelblatt,Tsung-Han Tsai,Aaron D. Aguirre,James G. Fujimoto,James L. Connolly +8 more
TL;DR: In this article, the authors examined the feasibility of two 3D imaging technologies, OCT and OCM, to view human breast specimens based on intrinsic optical contrast, which has the potential to guide coreneedle biopsies, assess surgical margins, and evaluate tumor involvement in breast cancer.
Journal ArticleDOI
Vector method for strain estimation in phase-sensitive optical coherence elastography
Alexander L. Matveyev,Lev A. Matveev,A. A. Sovetsky,Grigory V. Gelikonov,A. A. Moiseev,Vladimir Y. Zaitsev +5 more
TL;DR: Modifications of the vector method are paid to make it especially suitable for processing deformations with significant lateral inhomogeneity, which often occur in real situations.
References
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