Traditional multiwell plates and petri dishes limit the evaluation of the effects of ultrasound on cells in vitro
Traditional multiwell plates and petri dishes limit the evaluation of the effects of ultrasound on cells in vitro
Ultrasound accelerates healing in fractured bone; however, the mechanisms responsible are poorly understood. Experimental setups and ultrasound exposures vary or are not adequately characterized across studies, resulting in inter-study variation and difficulty in concluding biological effects. This study investigated experimental variability introduced through the cell culture platform used. Continuous wave ultrasound (45 kHz; 10, 25 or 75 mW/cm2, 5 min/d) was applied, using a Duoson device, to Saos-2 cells seeded in multiwell plates or Petri dishes. Pressure field and vibration quantification and finite-element modelling suggested formation of complex interference patterns, resulting in localized displacement and velocity gradients, more pronounced in multiwell plates. Cell experiments revealed lower metabolic activities in both culture platforms at higher ultrasound intensities and absence of mineralization in certain regions of multiwell plates but not in Petri dishes. Thus, the same transducer produced variable results in different cell culture platforms. Analysis on Petri dishes further revealed that higher intensities reduced vinculin expression and distorted cell morphology, while causing mitochondrial and endoplasmic reticulum damage and accumulation of cells in sub-G1 phase, leading to cell death. More defined experimental setups and reproducible ultrasound exposure systems are required to study the real effect of ultrasound on cells for development of effective ultrasound-based therapies not just limited to bone repair and regeneration.
1745-1761
Gupta, Dhanak
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Savva, Jill
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Li, Xuan
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Chandler, James H.
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Shelton, Richard M.
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Scheven, Ben A.
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Mulvana, Helen
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Valdastri, Pietro
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Lucas, Margaret
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Walmsley, A. Damien
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1 August 2022
Gupta, Dhanak
769941bb-8fa2-4ae2-8c07-67a62544c560
Savva, Jill
216f3afa-a908-466b-b3bb-eb2d83d3fc43
Li, Xuan
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Chandler, James H.
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Shelton, Richard M.
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Scheven, Ben A.
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Mulvana, Helen
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Valdastri, Pietro
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Lucas, Margaret
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Walmsley, A. Damien
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Gupta, Dhanak, Savva, Jill, Li, Xuan, Chandler, James H., Shelton, Richard M., Scheven, Ben A., Mulvana, Helen, Valdastri, Pietro, Lucas, Margaret and Walmsley, A. Damien
(2022)
Traditional multiwell plates and petri dishes limit the evaluation of the effects of ultrasound on cells in vitro.
Ultrasound in Medicine & Biology, 48 (9), .
(doi:10.1016/j.ultrasmedbio.2022.05.001).
Abstract
Ultrasound accelerates healing in fractured bone; however, the mechanisms responsible are poorly understood. Experimental setups and ultrasound exposures vary or are not adequately characterized across studies, resulting in inter-study variation and difficulty in concluding biological effects. This study investigated experimental variability introduced through the cell culture platform used. Continuous wave ultrasound (45 kHz; 10, 25 or 75 mW/cm2, 5 min/d) was applied, using a Duoson device, to Saos-2 cells seeded in multiwell plates or Petri dishes. Pressure field and vibration quantification and finite-element modelling suggested formation of complex interference patterns, resulting in localized displacement and velocity gradients, more pronounced in multiwell plates. Cell experiments revealed lower metabolic activities in both culture platforms at higher ultrasound intensities and absence of mineralization in certain regions of multiwell plates but not in Petri dishes. Thus, the same transducer produced variable results in different cell culture platforms. Analysis on Petri dishes further revealed that higher intensities reduced vinculin expression and distorted cell morphology, while causing mitochondrial and endoplasmic reticulum damage and accumulation of cells in sub-G1 phase, leading to cell death. More defined experimental setups and reproducible ultrasound exposure systems are required to study the real effect of ultrasound on cells for development of effective ultrasound-based therapies not just limited to bone repair and regeneration.
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Accepted/In Press date: 2 May 2022
e-pub ahead of print date: 24 June 2022
Published date: 1 August 2022
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Local EPrints ID: 498854
URI: http://eprints.soton.ac.uk/id/eprint/498854
ISSN: 0301-5629
PURE UUID: 07802eec-4101-418d-b7d5-3c2d716f83dc
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Date deposited: 04 Mar 2025 17:45
Last modified: 05 Mar 2025 03:18
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Contributors
Author:
Dhanak Gupta
Author:
Jill Savva
Author:
Xuan Li
Author:
James H. Chandler
Author:
Richard M. Shelton
Author:
Ben A. Scheven
Author:
Helen Mulvana
Author:
Pietro Valdastri
Author:
Margaret Lucas
Author:
A. Damien Walmsley
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