Publikation: Advancing next-generation brain organoid platforms for investigating traumatic brain injury from repeated blast exposures
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2025
Autor:innen
Bar-Kochba, Eyal
Carneal, Catherine M.
Alphonse, Vanessa D.
Timm, Andrea C.
Ernlund, Amanda W.
Rodriguez, Carissa L.
Morales Pantoja, Itzy E.
Smirnova, Lena
Merkle, Andrew C.
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Open Access Gold
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Frontiers in Bioengineering and Biotechnology. Frontiers. 2025, 13, 1553609. eISSN 2296-4185. Verfügbar unter: doi: 10.3389/fbioe.2025.1553609
Zusammenfassung
Service members and law enforcement personnel are frequently exposed to blast overpressure during training and combat due to the use of heavy weaponry such as large-caliber rifles, explosives, and ordnance. The cumulative effects of these repeated low-level (<4 psi) blast exposures can lead to physical and cognitive deficits that are poorly understood. Brain organoids—human stem cell-derived three-dimensional in vitro culture systems that self-organize to recapitulate the in vivo environment of the human brain—are a promising alternative biological model to traditional cellular cultures and animal models, offering a unique opportunity for studying the mechanisms of mild blast-induced traumatic brain injury (mbTBI) resulting from repeated exposure. In this article, we review the current state of brain organoid models and discuss future directions for advancing their physiological relevance for studying mbTBI. These will be presented within a framework for developing next-generation platforms that integrate relevant loading devices, as well as non-invasive technologies for assessing the brain organoid’s response while increasing throughput. These next-generation platforms aim to accelerate the development of new interventions for mbTBI.
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Fachgebiet (DDC)
570 Biowissenschaften, Biologie
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traumatic brain injury, brain organoids, repeated blast, low-level blast, primary blast, in vitro model
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BAR-KOCHBA, Eyal, Catherine M. CARNEAL, Vanessa D. ALPHONSE, Andrea C. TIMM, Amanda W. ERNLUND, Carissa L. RODRIGUEZ, Itzy E. MORALES PANTOJA, Lena SMIRNOVA, Thomas HARTUNG, Andrew C. MERKLE, 2025. Advancing next-generation brain organoid platforms for investigating traumatic brain injury from repeated blast exposures. In: Frontiers in Bioengineering and Biotechnology. Frontiers. 2025, 13, 1553609. eISSN 2296-4185. Verfügbar unter: doi: 10.3389/fbioe.2025.1553609BibTex
@article{BarKochba2025-06-18Advan-74514,
title={Advancing next-generation brain organoid platforms for investigating traumatic brain injury from repeated blast exposures},
year={2025},
doi={10.3389/fbioe.2025.1553609},
volume={13},
journal={Frontiers in Bioengineering and Biotechnology},
author={Bar-Kochba, Eyal and Carneal, Catherine M. and Alphonse, Vanessa D. and Timm, Andrea C. and Ernlund, Amanda W. and Rodriguez, Carissa L. and Morales Pantoja, Itzy E. and Smirnova, Lena and Hartung, Thomas and Merkle, Andrew C.},
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<dcterms:abstract>Service members and law enforcement personnel are frequently exposed to blast overpressure during training and combat due to the use of heavy weaponry such as large-caliber rifles, explosives, and ordnance. The cumulative effects of these repeated low-level (<4 psi) blast exposures can lead to physical and cognitive deficits that are poorly understood. Brain organoids—human stem cell-derived three-dimensional in vitro culture systems that self-organize to recapitulate the in vivo environment of the human brain—are a promising alternative biological model to traditional cellular cultures and animal models, offering a unique opportunity for studying the mechanisms of mild blast-induced traumatic brain injury (mbTBI) resulting from repeated exposure. In this article, we review the current state of brain organoid models and discuss future directions for advancing their physiological relevance for studying mbTBI. These will be presented within a framework for developing next-generation platforms that integrate relevant loading devices, as well as non-invasive technologies for assessing the brain organoid’s response while increasing throughput. These next-generation platforms aim to accelerate the development of new interventions for mbTBI.</dcterms:abstract>
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