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Main Authors: Ziemczonok, Michal, Desissaire, Sylvia, Neri, Jeremy, Kus, Arkadiusz, Herve, Lionel, Fiche, Cecile, Godefroy, Guillaume, Fackeure, Marie, Damien, Sery, Krauze, Wojciech, Padmanabhan, Kiran, Paviolo, Chiara, Kujawinska, Malgorzata
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.16888
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author Ziemczonok, Michal
Desissaire, Sylvia
Neri, Jeremy
Kus, Arkadiusz
Herve, Lionel
Fiche, Cecile
Godefroy, Guillaume
Fackeure, Marie
Damien, Sery
Krauze, Wojciech
Padmanabhan, Kiran
Paviolo, Chiara
Kujawinska, Malgorzata
author_facet Ziemczonok, Michal
Desissaire, Sylvia
Neri, Jeremy
Kus, Arkadiusz
Herve, Lionel
Fiche, Cecile
Godefroy, Guillaume
Fackeure, Marie
Damien, Sery
Krauze, Wojciech
Padmanabhan, Kiran
Paviolo, Chiara
Kujawinska, Malgorzata
contents We present a novel approach for benchmarking and validating quantitative phase tomography (QPT) systems using three-dimensional microphantoms. These microphantoms, crafted from biological and imaging data, replicate the optical and structural properties of multicellular biological samples. Their fabrication featuring refractive index modulation at sub-micrometer details is enabled by two-photon polymerization. We showcase the effectiveness of our technique via a round-robin test of healthy and tumoral liver organoid phantoms across three different QPT systems. This test reveals sample- and system-dependent errors in measuring dry mass and morphology. Tailored microphantoms establish the gold standard for the optimization of hardware setups, reconstruction strategies and error assessment, paving the way for novel non-invasive, label-free measurements of 3D biological samples.
format Preprint
id arxiv_https___arxiv_org_abs_2409_16888
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Tailored 3D microphantoms: an essential tool for quantitative phase tomography analysis of organoids
Ziemczonok, Michal
Desissaire, Sylvia
Neri, Jeremy
Kus, Arkadiusz
Herve, Lionel
Fiche, Cecile
Godefroy, Guillaume
Fackeure, Marie
Damien, Sery
Krauze, Wojciech
Padmanabhan, Kiran
Paviolo, Chiara
Kujawinska, Malgorzata
Optics
Medical Physics
We present a novel approach for benchmarking and validating quantitative phase tomography (QPT) systems using three-dimensional microphantoms. These microphantoms, crafted from biological and imaging data, replicate the optical and structural properties of multicellular biological samples. Their fabrication featuring refractive index modulation at sub-micrometer details is enabled by two-photon polymerization. We showcase the effectiveness of our technique via a round-robin test of healthy and tumoral liver organoid phantoms across three different QPT systems. This test reveals sample- and system-dependent errors in measuring dry mass and morphology. Tailored microphantoms establish the gold standard for the optimization of hardware setups, reconstruction strategies and error assessment, paving the way for novel non-invasive, label-free measurements of 3D biological samples.
title Tailored 3D microphantoms: an essential tool for quantitative phase tomography analysis of organoids
topic Optics
Medical Physics
url https://arxiv.org/abs/2409.16888