Correlative Imaging of Motoneuronal Cell Elasticity by Pump and Probe Spectroscopy

Ahmed Hamraoui; Océane Sénépart; Maxime Schneider; Sophie Malaquin; Emmanuel Péronne; Loïc Becerra; Fannie Semprez; Claire Legay; Laurent Belliard

doi:10.1016/j.bpj.2020.12.021

Correlative Imaging of Motoneuronal Cell Elasticity by Pump and Probe Spectroscopy

Ahmed Hamraoui
, Océane Sénépart
, Maxime Schneider
, Sophie Malaquin
, Emmanuel Péronne
, Loïc Becerra
, Fannie Semprez
, Claire Legay
, Laurent Belliard

Sorbonne Université
Laboratoire de Probabilités et Modèles Aléatoires
Laboratoire Licorne

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Because of their role of information transmitter between the spinal cord and the muscle fibers, motor neurons are subject to physical stimulation and mechanical property modifications. We report on motoneuron elasticity investigated by time-resolved pump and probe spectroscopy. A dual picosecond geometry simultaneously probing the acoustic impedance mismatch at the cell-titanium transducer interface and acoustic wave propagation inside the motoneuron is presented. Such noncontact and nondestructive microscopy, correlated to standard atomic force microscopy or a fluorescent labels approach, has been carried out on a single cell to address some physical properties such as bulk modulus of elasticity, dynamical longitudinal viscosity, and adhesion.

langue originale	Anglais
Pages (de - à)	402-408
Nombre de pages	7
journal	Biophysical Journal
Volume	120
Numéro de publication	3
Les DOIs	https://doi.org/10.1016/j.bpj.2020.12.021
état	Publié - 2 févr. 2021

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10.1016/j.bpj.2020.12.021

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abstract = "Because of their role of information transmitter between the spinal cord and the muscle fibers, motor neurons are subject to physical stimulation and mechanical property modifications. We report on motoneuron elasticity investigated by time-resolved pump and probe spectroscopy. A dual picosecond geometry simultaneously probing the acoustic impedance mismatch at the cell-titanium transducer interface and acoustic wave propagation inside the motoneuron is presented. Such noncontact and nondestructive microscopy, correlated to standard atomic force microscopy or a fluorescent labels approach, has been carried out on a single cell to address some physical properties such as bulk modulus of elasticity, dynamical longitudinal viscosity, and adhesion.",

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AU - Hamraoui, Ahmed

AU - Sénépart, Océane

AU - Schneider, Maxime

AU - Malaquin, Sophie

AU - Péronne, Emmanuel

AU - Becerra, Loïc

AU - Semprez, Fannie

AU - Legay, Claire

AU - Belliard, Laurent

PY - 2021/2/2

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N2 - Because of their role of information transmitter between the spinal cord and the muscle fibers, motor neurons are subject to physical stimulation and mechanical property modifications. We report on motoneuron elasticity investigated by time-resolved pump and probe spectroscopy. A dual picosecond geometry simultaneously probing the acoustic impedance mismatch at the cell-titanium transducer interface and acoustic wave propagation inside the motoneuron is presented. Such noncontact and nondestructive microscopy, correlated to standard atomic force microscopy or a fluorescent labels approach, has been carried out on a single cell to address some physical properties such as bulk modulus of elasticity, dynamical longitudinal viscosity, and adhesion.

AB - Because of their role of information transmitter between the spinal cord and the muscle fibers, motor neurons are subject to physical stimulation and mechanical property modifications. We report on motoneuron elasticity investigated by time-resolved pump and probe spectroscopy. A dual picosecond geometry simultaneously probing the acoustic impedance mismatch at the cell-titanium transducer interface and acoustic wave propagation inside the motoneuron is presented. Such noncontact and nondestructive microscopy, correlated to standard atomic force microscopy or a fluorescent labels approach, has been carried out on a single cell to address some physical properties such as bulk modulus of elasticity, dynamical longitudinal viscosity, and adhesion.

UR - https://www.scopus.com/pages/publications/85099620259

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AN - SCOPUS:85099620259

SN - 0006-3495

VL - 120

SP - 402

EP - 408

JO - Biophysical Journal

JF - Biophysical Journal

IS - 3

ER -

Correlative Imaging of Motoneuronal Cell Elasticity by Pump and Probe Spectroscopy

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