Magnetic bead actuation of saccular hair cells

David Rowland; Damien Ramunno-Johnson; Jae Hyun Lee; Jinwoo Cheon; Dolores Bozovic

doi:10.1063/1.3658072

Magnetic bead actuation of saccular hair cells

David Rowland, Damien Ramunno-Johnson, Jae Hyun Lee, Jinwoo Cheon, Dolores Bozovic

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

When decoupled from the overlying membrane, hair bundles of the amphibian sacculus exhibit spontaneous oscillation. To explore the dynamics of this innate motility without an imposed external load, we recorded their oscillations with a high-speed CMOS camera, and applied mechanical manipulation that minimally alters the geometry of an individual hair bundle. We present a technique that utilizes micron-sized magnetic particles to actuate the stereociliary bundle with a magnetized probe. Quasi-steady-state displacements were imposed on freely oscillating bundles. Our data indicate that deflection of the bundle affects both the frequency and the amplitude of the oscillations, with a crossing of the bifurcation that is dependent on the direction and speed of the applied offset.

Original language	English
Title of host publication	What Fire is in Mine Ears
Subtitle of host publication	Progress in Auditory Biomechanics - Proceedings of the 11th International Mechanics of Hearing Workshop
Pages	128-132
Number of pages	5
DOIs	https://doi.org/10.1063/1.3658072
Publication status	Published - 2011
Event	11th International Mechanics of Hearing Workshop - What Fire is in Mine Ears: Progress in Auditory Biomechanics - Williamstown, MA, United States Duration: 2011 Jul 16 → 2011 Jul 22

Publication series

Name	AIP Conference Proceedings
Volume	1403
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Other

Other	11th International Mechanics of Hearing Workshop - What Fire is in Mine Ears: Progress in Auditory Biomechanics
Country/Territory	United States
City	Williamstown, MA
Period	11/7/16 → 11/7/22

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

Access to Document

10.1063/1.3658072

Cite this

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title = "Magnetic bead actuation of saccular hair cells",

abstract = "When decoupled from the overlying membrane, hair bundles of the amphibian sacculus exhibit spontaneous oscillation. To explore the dynamics of this innate motility without an imposed external load, we recorded their oscillations with a high-speed CMOS camera, and applied mechanical manipulation that minimally alters the geometry of an individual hair bundle. We present a technique that utilizes micron-sized magnetic particles to actuate the stereociliary bundle with a magnetized probe. Quasi-steady-state displacements were imposed on freely oscillating bundles. Our data indicate that deflection of the bundle affects both the frequency and the amplitude of the oscillations, with a crossing of the bifurcation that is dependent on the direction and speed of the applied offset.",

author = "David Rowland and Damien Ramunno-Johnson and Lee, {Jae Hyun} and Jinwoo Cheon and Dolores Bozovic",

year = "2011",

doi = "10.1063/1.3658072",

language = "English",

isbn = "9780735409750",

series = "AIP Conference Proceedings",

pages = "128--132",

booktitle = "What Fire is in Mine Ears",

note = "11th International Mechanics of Hearing Workshop - What Fire is in Mine Ears: Progress in Auditory Biomechanics ; Conference date: 16-07-2011 Through 22-07-2011",

}

Rowland, D, Ramunno-Johnson, D, Lee, JH , Cheon, J & Bozovic, D 2011, Magnetic bead actuation of saccular hair cells. in What Fire is in Mine Ears: Progress in Auditory Biomechanics - Proceedings of the 11th International Mechanics of Hearing Workshop. AIP Conference Proceedings, vol. 1403, pp. 128-132, 11th International Mechanics of Hearing Workshop - What Fire is in Mine Ears: Progress in Auditory Biomechanics, Williamstown, MA, United States, 11/7/16. https://doi.org/10.1063/1.3658072

Magnetic bead actuation of saccular hair cells. / Rowland, David; Ramunno-Johnson, Damien; Lee, Jae Hyun et al.
What Fire is in Mine Ears: Progress in Auditory Biomechanics - Proceedings of the 11th International Mechanics of Hearing Workshop. 2011. p. 128-132 (AIP Conference Proceedings; Vol. 1403).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Magnetic bead actuation of saccular hair cells

AU - Rowland, David

AU - Ramunno-Johnson, Damien

AU - Lee, Jae Hyun

AU - Cheon, Jinwoo

AU - Bozovic, Dolores

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Y1 - 2011

N2 - When decoupled from the overlying membrane, hair bundles of the amphibian sacculus exhibit spontaneous oscillation. To explore the dynamics of this innate motility without an imposed external load, we recorded their oscillations with a high-speed CMOS camera, and applied mechanical manipulation that minimally alters the geometry of an individual hair bundle. We present a technique that utilizes micron-sized magnetic particles to actuate the stereociliary bundle with a magnetized probe. Quasi-steady-state displacements were imposed on freely oscillating bundles. Our data indicate that deflection of the bundle affects both the frequency and the amplitude of the oscillations, with a crossing of the bifurcation that is dependent on the direction and speed of the applied offset.

AB - When decoupled from the overlying membrane, hair bundles of the amphibian sacculus exhibit spontaneous oscillation. To explore the dynamics of this innate motility without an imposed external load, we recorded their oscillations with a high-speed CMOS camera, and applied mechanical manipulation that minimally alters the geometry of an individual hair bundle. We present a technique that utilizes micron-sized magnetic particles to actuate the stereociliary bundle with a magnetized probe. Quasi-steady-state displacements were imposed on freely oscillating bundles. Our data indicate that deflection of the bundle affects both the frequency and the amplitude of the oscillations, with a crossing of the bifurcation that is dependent on the direction and speed of the applied offset.

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BT - What Fire is in Mine Ears

T2 - 11th International Mechanics of Hearing Workshop - What Fire is in Mine Ears: Progress in Auditory Biomechanics

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ER -

Magnetic bead actuation of saccular hair cells

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