Jules Scholler scite author profile

Optical coherence tomography offers astounding opportunities to image the complex structure of living tissue but lacks functional information. We present dynamic full-field optical coherence tomography as a technique to noninvasively image living human induced pluripotent stem cell-derived retinal organoids. Coloured images with an endogenous contrast linked to organelle motility are generated, with submicrometre spatial resolution and millisecond temporal resolution, creating a way to identify specific cell types in living tissue via their function.

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Probing dynamic processes in the eye at multiple spatial and temporal scales with multimodal full field OCT

Scholler¹,

Mazlin²,

Thouvenin³

et al. 2019

Biomed. Opt. Express

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et al.. Probing dynamic processes in the eye at multiple spatial and temporal scales with multimodal full field OCT. Abstract:We describe recent technological progress in multimodal en face full-field optical coherence tomography that has allowed detection of slow and fast dynamic processes in the eye. We show that by combining static, dynamic and fluorescence contrasts we can achieve label-free high-resolution imaging of the retina and anterior eye with temporal resolution from milliseconds to several hours, allowing us to probe biological activity at subcellular scales inside 3D bulk tissue. Our setups combine high lateral resolution over a large field of view with acquisition at several hundreds of frames per second which make it a promising tool for clinical applications and biomedical studies. Its contactless and non-destructive nature is shown to be effective for both following in vitro sample evolution over long periods of time and for imaging of the human eye in vivo.

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Jules Scholler

Dynamic full-field optical coherence tomography: 3D live-imaging of retinal organoids

Probing dynamic processes in the eye at multiple spatial and temporal scales with multimodal full field OCT

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