Mini-bones: miniaturized bone in vitro models

Maria Gabriella Fois; Martijn van Griensven; Stefan Giselbrecht; Pamela Habibović; Roman K Truckenmüller; Zeinab Niloofar Tahmasebi Birgani

doi:10.1016/j.tibtech.2024.01.004

Mini-bones: miniaturized bone in vitro models

Maria Gabriella Fois, Martijn van Griensven, Stefan Giselbrecht, Pamela Habibović, Roman K Truckenmüller^*, Zeinab Niloofar Tahmasebi Birgani^*

^*Corresponding author for this work

Research output: Contribution to journal › (Systematic) Review article › peer-review

Abstract

In bone tissue engineering (TE) and regeneration, miniaturized, (sub)millimeter-sized bone models have become a popular trend since they bring about physiological biomimicry, precise orchestration of concurrent stimuli, and compatibility with high-throughput setups and high-content imaging. They also allow efficient use of cells, reagents, materials, and energy. In this review, we describe the state of the art of miniaturized in vitro bone models, or 'mini-bones', describing these models based on their characteristics of (multi)cellularity and engineered extracellular matrix (ECM), and elaborating on miniaturization approaches and fabrication techniques. We analyze the performance of 'mini-bone' models according to their applications for studying basic bone biology or as regeneration models, disease models, and screening platforms, and provide an outlook on future trends, challenges, and opportunities.

Original language	English
Number of pages	19
Journal	Trends in Biotechnology
DOIs	https://doi.org/10.1016/j.tibtech.2024.01.004
Publication status	E-pub ahead of print - 15 Mar 2024

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10.1016/j.tibtech.2024.01.004Licence: CC BY

Cite this

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title = "Mini-bones: miniaturized bone in vitro models",

abstract = "In bone tissue engineering (TE) and regeneration, miniaturized, (sub)millimeter-sized bone models have become a popular trend since they bring about physiological biomimicry, precise orchestration of concurrent stimuli, and compatibility with high-throughput setups and high-content imaging. They also allow efficient use of cells, reagents, materials, and energy. In this review, we describe the state of the art of miniaturized in vitro bone models, or 'mini-bones', describing these models based on their characteristics of (multi)cellularity and engineered extracellular matrix (ECM), and elaborating on miniaturization approaches and fabrication techniques. We analyze the performance of 'mini-bone' models according to their applications for studying basic bone biology or as regeneration models, disease models, and screening platforms, and provide an outlook on future trends, challenges, and opportunities.",

author = "Fois, {Maria Gabriella} and {van Griensven}, Martijn and Stefan Giselbrecht and Pamela Habibovi{\'c} and Truckenm{\"u}ller, {Roman K} and {Tahmasebi Birgani}, {Zeinab Niloofar}",

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T2 - miniaturized bone in vitro models

AU - Fois, Maria Gabriella

AU - van Griensven, Martijn

AU - Giselbrecht, Stefan

AU - Habibović, Pamela

AU - Truckenmüller, Roman K

AU - Tahmasebi Birgani, Zeinab Niloofar

PY - 2024/3/15

Y1 - 2024/3/15

N2 - In bone tissue engineering (TE) and regeneration, miniaturized, (sub)millimeter-sized bone models have become a popular trend since they bring about physiological biomimicry, precise orchestration of concurrent stimuli, and compatibility with high-throughput setups and high-content imaging. They also allow efficient use of cells, reagents, materials, and energy. In this review, we describe the state of the art of miniaturized in vitro bone models, or 'mini-bones', describing these models based on their characteristics of (multi)cellularity and engineered extracellular matrix (ECM), and elaborating on miniaturization approaches and fabrication techniques. We analyze the performance of 'mini-bone' models according to their applications for studying basic bone biology or as regeneration models, disease models, and screening platforms, and provide an outlook on future trends, challenges, and opportunities.

AB - In bone tissue engineering (TE) and regeneration, miniaturized, (sub)millimeter-sized bone models have become a popular trend since they bring about physiological biomimicry, precise orchestration of concurrent stimuli, and compatibility with high-throughput setups and high-content imaging. They also allow efficient use of cells, reagents, materials, and energy. In this review, we describe the state of the art of miniaturized in vitro bone models, or 'mini-bones', describing these models based on their characteristics of (multi)cellularity and engineered extracellular matrix (ECM), and elaborating on miniaturization approaches and fabrication techniques. We analyze the performance of 'mini-bone' models according to their applications for studying basic bone biology or as regeneration models, disease models, and screening platforms, and provide an outlook on future trends, challenges, and opportunities.

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DO - 10.1016/j.tibtech.2024.01.004

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