Viability of plant cell suspensions exposed to homogeneous ultrasonic fields of different energy density and wave type

Exposure of Petunia hybrida cell suspensions to ultrasound at a frequency of 2.43 MHz in a standing wave field at an energy density of 70 J m −3 (pressure amplitude of 0.78 MPa) decreased their mean viability to 35% after 20 min of sonication. A comparison of propagating wave and standing wave treat...

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Published in	Ultrasonics Vol. 38; no. 1; pp. 629 - 632
Main Authors	Böhm, H., Anthony, P., Davey, M.R., Briarty, L.G., Power, J.B., Lowe, K.C., Benes, E., Gröschl, M.
Format	Journal Article Conference Proceeding
Language	English
Published	Amsterdam Elsevier B.V 01.03.2000 Elsevier Science
Subjects	Acoustic fields Acoustical measurements and instrumentation Acoustics Cell Survival Cells, Cultured Cultured plant cells Exact sciences and technology Fundamental areas of phenomenology (including applications) Petunia hybrida Physics Plant Cells Propagating waves Standing waves Suspensions Suspensions (fluids) Ultrasonic effects Ultrasonic transmission Ultrasonics Ultrasonics, quantum acoustics, and physical effects of sound Ultrasound Viability Standing waves Cultured plant cells Petunia hybrida Propagating waves Ultrasound Viability Sonication Acoustic energy Mechanical properties Energy density Acoustics Acoustic field Antiplane strain Travelling wave Plant cells Trapping Dicotyledones Angiospermae Spermatophyta Solanaceae Exposure time Standing wave
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Abstract	Exposure of Petunia hybrida cell suspensions to ultrasound at a frequency of 2.43 MHz in a standing wave field at an energy density of 70 J m −3 (pressure amplitude of 0.78 MPa) decreased their mean viability to 35% after 20 min of sonication. A comparison of propagating wave and standing wave treatments at equal frequency (2.15 MHz) and energy density (8.5 J m −3) showed, in the first case, a rapid decline in mean viability of cells (to 30% after 10 min of sonication) and, in the second case, a retaining of the initial viability (95%), respectively. Cells sonicated 4 days after subculture were more sensitive than cells sonicated 2 or 6 days after transfer to new culture medium. It was concluded that cellular viability depends primarily on the acoustic energy density, the exposure time, and the mechanical properties of the cells determined by age. As a consequence of the trapping of cells in the anti-node planes of the standing wave, propagating wave fields reduced cellular viability compared with standing wave fields at equal energy density.
AbstractList	Exposure of Petunia hybrida cell suspensions to ultrasound at a frequency of 2.43 MHz in a standing wave field at an energy density of 70 J m −3 (pressure amplitude of 0.78 MPa) decreased their mean viability to 35% after 20 min of sonication. A comparison of propagating wave and standing wave treatments at equal frequency (2.15 MHz) and energy density (8.5 J m −3) showed, in the first case, a rapid decline in mean viability of cells (to 30% after 10 min of sonication) and, in the second case, a retaining of the initial viability (95%), respectively. Cells sonicated 4 days after subculture were more sensitive than cells sonicated 2 or 6 days after transfer to new culture medium. It was concluded that cellular viability depends primarily on the acoustic energy density, the exposure time, and the mechanical properties of the cells determined by age. As a consequence of the trapping of cells in the anti-node planes of the standing wave, propagating wave fields reduced cellular viability compared with standing wave fields at equal energy density. Exposure of Petunia hybrida cell suspensions to ultrasound at a frequency of 2.43 MHz in a standing wave field at an energy density of 70 Jm-3 (pressure amplitude of 0.78 MPa) decreased their mean viability to 35% after 20 min of sonication. A comparison of propagating wave and standing wave treatments at equal frequency (2.15 MHz) and energy density (8.5 Jm-3) showed, in the first case, a rapid decline in mean viability of cells (to 30% after 10 min of sonication) and, in the second case, a retaining of the initial viability (95%), respectively. Cells sonicated 4 days after subculture were more sensitive than cells sonicated 2 or 6 days after transfer to new culture medium. It was concluded that cellular viability depends primarily on the acoustic energy density, the exposure time, and the mechanical properties of the cells determined by age. As a consequence of the trapping of cells in the anti-node planes of the standing wave, propagating wave fields reduced cellular viability compared with standing wave fields at equal energy density. Exposure of Petunia hybrida cell suspensions to ultrasound at a frequency of 2.43 MHz in a standing wave field at an energy density of 70 J m super(-3) (pressure amplitude of 0.78 MPa) decreased their mean viability to 35% after 20 min of sonication. A comparison of propagating wave and standing wave treatments at equal frequency (2.15 MHz) and energy density (8.5 J m super(-3)) showed, in the first case, a rapid decline in mean viability of cells (to 30% after 10 min of sonication) and, in the second case, a retaining of the initial viability (95%), respectively. Cells sonicated 4 days after subculture were more sensitive than cells sonicated 2 or 6 days after transfer to new culture medium. It was concluded that cellular viability depends primarily on the acoustic energy density, the exposure time, and the mechanical properties of the cells determined by age. As a consequence of the trapping of cells in the anti-node planes of the standing wave, propagating wave fields reduced cellular viability compared with standing wave fields at equal energy density.
Author	Böhm, H. Lowe, K.C. Gröschl, M. Anthony, P. Davey, M.R. Benes, E. Power, J.B. Briarty, L.G.
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Keywords	Standing waves Cultured plant cells Petunia hybrida Propagating waves Ultrasound Viability Sonication Acoustic energy Mechanical properties Energy density Acoustics Acoustic field Antiplane strain Travelling wave Plant cells Trapping Dicotyledones Angiospermae Spermatophyta Solanaceae Exposure time Standing wave
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Snippet	Exposure of Petunia hybrida cell suspensions to ultrasound at a frequency of 2.43 MHz in a standing wave field at an energy density of 70 J m −3 (pressure... Exposure of Petunia hybrida cell suspensions to ultrasound at a frequency of 2.43 MHz in a standing wave field at an energy density of 70 Jm-3 (pressure... Exposure of Petunia hybrida cell suspensions to ultrasound at a frequency of 2.43 MHz in a standing wave field at an energy density of 70 J m super(-3)...
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SubjectTerms	Acoustic fields Acoustical measurements and instrumentation Acoustics Cell Survival Cells, Cultured Cultured plant cells Exact sciences and technology Fundamental areas of phenomenology (including applications) Petunia hybrida Physics Plant Cells Propagating waves Standing waves Suspensions Suspensions (fluids) Ultrasonic effects Ultrasonic transmission Ultrasonics Ultrasonics, quantum acoustics, and physical effects of sound Ultrasound Viability
Title	Viability of plant cell suspensions exposed to homogeneous ultrasonic fields of different energy density and wave type
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