A workflow integrating organ-on-chip culture and correlative 3D light and electron microscopy for microtissue analysis

Judith M. Schaart; Dorothee Wasserberg; Marcos A. Eufrásio Cruz; Mariska Kea-te Lindert; Robin H.M. van der Meijden; Rona Roverts; Nataliya Debera; Minh Phu Lu; Jeroen Rouwkema; Wouter H. Nijhuis; Andries D. van der Meer; Pascal Jonkheijm; Nico Sommerdijk; Anat Akiva

doi:10.1038/s41598-025-27587-5

A workflow integrating organ-on-chip culture and correlative 3D light and electron microscopy for microtissue analysis

Judith M. Schaart
, Dorothee Wasserberg
, Marcos A. Eufrásio Cruz
, Mariska Kea-te Lindert
, Robin H.M. van der Meijden
, Rona Roverts
, Nataliya Debera
, Minh Phu Lu
, Jeroen Rouwkema
, Wouter H. Nijhuis
, Andries D. van der Meer
, Pascal Jonkheijm^*
, Nico Sommerdijk^*
, Anat Akiva^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Correlative microscopy approaches offer powerful means to study tissue development across spatial scales, but combining 3D light and electron imaging remains technically challenging. Here, we present a practical workflow that integrates organ-on-a-chip culture with longitudinal fluorescence imaging and volume electron microscopy. By modifying an existing chip platform designed for aligned tissue growth, we demonstrate the feasibility of extended 3D live imaging and subsequent high-pressure freezing of intact microtissues. Fluorescence-guided targeting enables focused ion beam/scanning electron microscopy (FIB/SEM) of selected regions, revealing ultrastructural features such as cellular organization, collagen alignment, and matrix mineralization. While not aimed at new biological discoveries, this study highlights the compatibility and potential of this pipeline for future high-resolution, multiscale studies of tissue morphogenesis and pathology in controlled microenvironments.

Original language	English
Article number	43666
Number of pages	16
Journal	Scientific reports
Volume	15
Issue number	1
Early online date	11 Dec 2025
DOIs	https://doi.org/10.1038/s41598-025-27587-5
Publication status	Published - Dec 2025

Keywords

Bone-on-a-chip
Correlative light and electron microscopy
Live fluorescence microscopy
Organ-on-a-chip
Volume electron microscopy

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ArticleFinal published version, 2.52 MBLicence: CC BY

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Schaart, J. M., Wasserberg, D., Cruz, M. A. E., Kea-te Lindert, M., van der Meijden, R. H. M., Roverts, R., Debera, N., Lu, M. P., Rouwkema, J., Nijhuis, W. H., van der Meer, A. D., Jonkheijm, P., Sommerdijk, N., & Akiva, A. (2025). A workflow integrating organ-on-chip culture and correlative 3D light and electron microscopy for microtissue analysis. Scientific reports, 15(1), Article 43666. https://doi.org/10.1038/s41598-025-27587-5

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title = "A workflow integrating organ-on-chip culture and correlative 3D light and electron microscopy for microtissue analysis",

abstract = "Correlative microscopy approaches offer powerful means to study tissue development across spatial scales, but combining 3D light and electron imaging remains technically challenging. Here, we present a practical workflow that integrates organ-on-a-chip culture with longitudinal fluorescence imaging and volume electron microscopy. By modifying an existing chip platform designed for aligned tissue growth, we demonstrate the feasibility of extended 3D live imaging and subsequent high-pressure freezing of intact microtissues. Fluorescence-guided targeting enables focused ion beam/scanning electron microscopy (FIB/SEM) of selected regions, revealing ultrastructural features such as cellular organization, collagen alignment, and matrix mineralization. While not aimed at new biological discoveries, this study highlights the compatibility and potential of this pipeline for future high-resolution, multiscale studies of tissue morphogenesis and pathology in controlled microenvironments.",

keywords = "Bone-on-a-chip, Correlative light and electron microscopy, Live fluorescence microscopy, Organ-on-a-chip, Volume electron microscopy",

author = "Schaart, \{Judith M.\} and Dorothee Wasserberg and Cruz, \{Marcos A. Eufr{\'a}sio\} and \{Kea-te Lindert\}, Mariska and \{van der Meijden\}, \{Robin H.M.\} and Rona Roverts and Nataliya Debera and Lu, \{Minh Phu\} and Jeroen Rouwkema and Nijhuis, \{Wouter H.\} and \{van der Meer\}, \{Andries D.\} and Pascal Jonkheijm and Nico Sommerdijk and Anat Akiva",

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year = "2025",

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doi = "10.1038/s41598-025-27587-5",

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Schaart, JM, Wasserberg, D, Cruz, MAE, Kea-te Lindert, M, van der Meijden, RHM, Roverts, R, Debera, N, Lu, MP, Rouwkema, J, Nijhuis, WH, van der Meer, AD , Jonkheijm, P, Sommerdijk, N & Akiva, A 2025, 'A workflow integrating organ-on-chip culture and correlative 3D light and electron microscopy for microtissue analysis', Scientific reports, vol. 15, no. 1, 43666. https://doi.org/10.1038/s41598-025-27587-5

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T1 - A workflow integrating organ-on-chip culture and correlative 3D light and electron microscopy for microtissue analysis

AU - Schaart, Judith M.

AU - Wasserberg, Dorothee

AU - Cruz, Marcos A. Eufrásio

AU - Kea-te Lindert, Mariska

AU - van der Meijden, Robin H.M.

AU - Roverts, Rona

AU - Debera, Nataliya

AU - Lu, Minh Phu

AU - Rouwkema, Jeroen

AU - Nijhuis, Wouter H.

AU - van der Meer, Andries D.

AU - Jonkheijm, Pascal

AU - Sommerdijk, Nico

AU - Akiva, Anat

PY - 2025/12

Y1 - 2025/12

N2 - Correlative microscopy approaches offer powerful means to study tissue development across spatial scales, but combining 3D light and electron imaging remains technically challenging. Here, we present a practical workflow that integrates organ-on-a-chip culture with longitudinal fluorescence imaging and volume electron microscopy. By modifying an existing chip platform designed for aligned tissue growth, we demonstrate the feasibility of extended 3D live imaging and subsequent high-pressure freezing of intact microtissues. Fluorescence-guided targeting enables focused ion beam/scanning electron microscopy (FIB/SEM) of selected regions, revealing ultrastructural features such as cellular organization, collagen alignment, and matrix mineralization. While not aimed at new biological discoveries, this study highlights the compatibility and potential of this pipeline for future high-resolution, multiscale studies of tissue morphogenesis and pathology in controlled microenvironments.

AB - Correlative microscopy approaches offer powerful means to study tissue development across spatial scales, but combining 3D light and electron imaging remains technically challenging. Here, we present a practical workflow that integrates organ-on-a-chip culture with longitudinal fluorescence imaging and volume electron microscopy. By modifying an existing chip platform designed for aligned tissue growth, we demonstrate the feasibility of extended 3D live imaging and subsequent high-pressure freezing of intact microtissues. Fluorescence-guided targeting enables focused ion beam/scanning electron microscopy (FIB/SEM) of selected regions, revealing ultrastructural features such as cellular organization, collagen alignment, and matrix mineralization. While not aimed at new biological discoveries, this study highlights the compatibility and potential of this pipeline for future high-resolution, multiscale studies of tissue morphogenesis and pathology in controlled microenvironments.

KW - Bone-on-a-chip

KW - Correlative light and electron microscopy

KW - Live fluorescence microscopy

KW - Organ-on-a-chip

KW - Volume electron microscopy

UR - https://www.scopus.com/pages/publications/105024715444

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DO - 10.1038/s41598-025-27587-5

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AN - SCOPUS:105024715444

SN - 2045-2322

VL - 15

JO - Scientific reports

JF - Scientific reports

IS - 1

M1 - 43666

ER -

A workflow integrating organ-on-chip culture and correlative 3D light and electron microscopy for microtissue analysis

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