Microrheology of the cumulus-oocyte matrix using optical tweezers

C. A. Campugan; C. Perrella; M. Lim; T. C. Y. Tan; E. P. Schartner; Y. Arita; G. D. Bruce; T. Mendonca; A. J. Wright; K. Dholakia; K. R. Dunning

doi:10.1088/2515-7647/adb360

Microrheology of the cumulus-oocyte matrix using optical tweezers

C. A. Campugan, C. Perrella, M. Lim, T. C. Y. Tan, E. P. Schartner, Y. Arita, G. D. Bruce, T. Mendonca, A. J. Wright, K. Dholakia^*, K. R. Dunning^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Optical tweezers have emerged as a powerful, versatile approach for a range of studies in cellular and molecular biology. A particular highlight has been its use for microrheology measurements in miniscule sample volumes. In this study, we demonstrate the application of optical tweezers to investigate the viscosity of the extracellular matrix surrounding mammalian oocytes and determine whether this is associated with oocyte developmental potential. By analysing the motion of a trapped particle, we can quantify the mechanical properties of this matrix, thus overcoming limitations of traditional passive microrheology techniques that rely on free diffusion. We utilise two maturation methods—in vivo and in vitro—to generate oocytes with differing developmental potential. Our findings indicate that oocytes matured in vivo exhibit higher viability post-fertilisation compared to their in vitro counterparts and we establish a positive correlation between extracellular matrix viscosity and oocyte developmental potential. This work demonstrates that optical tweezers are a novel, non-invasive tool for assessing oocyte quality, contributing to valuable insights to the field of reproductive biology.

Original language	English
Article number	025008
Number of pages	10
Journal	JPhys Photonics
Volume	7
Issue number	2
DOIs	https://doi.org/10.1088/2515-7647/adb360
Publication status	Published - 20 Feb 2025

Keywords

Microrheology
Optical tweezers
Viscosity
Extracellular matrix
Cumulus oocyte complex
Ooxyte quality

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© 2025 The Author(s). Original content from this work may be used under the terms of the Creative Commons Attribution 4.0 license (https://creativecommons.org/licenses/by/4.0/). Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.
Final published version, 1.05 MBLicence: CC BY

Resonant and shaped photonics for under: Resonant and shaped photonics for understanding the physical and biomedical world
Dholakia, K. (PI) & Gather, M. C. (CoI)
1/08/17 → 31/07/22
Project: Standard

Raw Data associated with Microrheology of the Cumulus-Oocyte Matrix using Optical Tweezer
Campugan, C. A. (Creator), Perrella, C. (Creator) & Dholakia, K. (Creator), The University of Adelaide, 2024
DOI: 10.25909/27276171.v4
Dataset

Cite this

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title = "Microrheology of the cumulus-oocyte matrix using optical tweezers",

abstract = "Optical tweezers have emerged as a powerful, versatile approach for a range of studies in cellular and molecular biology. A particular highlight has been its use for microrheology measurements in miniscule sample volumes. In this study, we demonstrate the application of optical tweezers to investigate the viscosity of the extracellular matrix surrounding mammalian oocytes and determine whether this is associated with oocyte developmental potential. By analysing the motion of a trapped particle, we can quantify the mechanical properties of this matrix, thus overcoming limitations of traditional passive microrheology techniques that rely on free diffusion. We utilise two maturation methods—in vivo and in vitro—to generate oocytes with differing developmental potential. Our findings indicate that oocytes matured in vivo exhibit higher viability post-fertilisation compared to their in vitro counterparts and we establish a positive correlation between extracellular matrix viscosity and oocyte developmental potential. This work demonstrates that optical tweezers are a novel, non-invasive tool for assessing oocyte quality, contributing to valuable insights to the field of reproductive biology.",

keywords = "Microrheology, Optical tweezers, Viscosity, Extracellular matrix, Cumulus oocyte complex, Ooxyte quality",

author = "Campugan, {C. A.} and C. Perrella and M. Lim and Tan, {T. C. Y.} and Schartner, {E. P.} and Y. Arita and Bruce, {G. D.} and T. Mendonca and Wright, {A. J.} and K. Dholakia and Dunning, {K. R.}",

note = "Funding: K R D is supported by a Future Making Fellowship from the University of Adelaide. K D is supported by funding from the UK Engineering and Physical Sciences Research Council (EP/P030017/1) and the Australian Research Council (FL210100099 and DP220102303). The authors thank the Optofab node of the Australian National Fabrication Facility (ANFF) which is funded by both the Commonwealth and the South Australian State Government. ",

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AU - Campugan, C. A.

AU - Perrella, C.

AU - Lim, M.

AU - Tan, T. C. Y.

AU - Schartner, E. P.

AU - Arita, Y.

AU - Bruce, G. D.

AU - Mendonca, T.

AU - Wright, A. J.

AU - Dholakia, K.

AU - Dunning, K. R.

N1 - Funding: K R D is supported by a Future Making Fellowship from the University of Adelaide. K D is supported by funding from the UK Engineering and Physical Sciences Research Council (EP/P030017/1) and the Australian Research Council (FL210100099 and DP220102303). The authors thank the Optofab node of the Australian National Fabrication Facility (ANFF) which is funded by both the Commonwealth and the South Australian State Government.

PY - 2025/2/20

Y1 - 2025/2/20

N2 - Optical tweezers have emerged as a powerful, versatile approach for a range of studies in cellular and molecular biology. A particular highlight has been its use for microrheology measurements in miniscule sample volumes. In this study, we demonstrate the application of optical tweezers to investigate the viscosity of the extracellular matrix surrounding mammalian oocytes and determine whether this is associated with oocyte developmental potential. By analysing the motion of a trapped particle, we can quantify the mechanical properties of this matrix, thus overcoming limitations of traditional passive microrheology techniques that rely on free diffusion. We utilise two maturation methods—in vivo and in vitro—to generate oocytes with differing developmental potential. Our findings indicate that oocytes matured in vivo exhibit higher viability post-fertilisation compared to their in vitro counterparts and we establish a positive correlation between extracellular matrix viscosity and oocyte developmental potential. This work demonstrates that optical tweezers are a novel, non-invasive tool for assessing oocyte quality, contributing to valuable insights to the field of reproductive biology.

AB - Optical tweezers have emerged as a powerful, versatile approach for a range of studies in cellular and molecular biology. A particular highlight has been its use for microrheology measurements in miniscule sample volumes. In this study, we demonstrate the application of optical tweezers to investigate the viscosity of the extracellular matrix surrounding mammalian oocytes and determine whether this is associated with oocyte developmental potential. By analysing the motion of a trapped particle, we can quantify the mechanical properties of this matrix, thus overcoming limitations of traditional passive microrheology techniques that rely on free diffusion. We utilise two maturation methods—in vivo and in vitro—to generate oocytes with differing developmental potential. Our findings indicate that oocytes matured in vivo exhibit higher viability post-fertilisation compared to their in vitro counterparts and we establish a positive correlation between extracellular matrix viscosity and oocyte developmental potential. This work demonstrates that optical tweezers are a novel, non-invasive tool for assessing oocyte quality, contributing to valuable insights to the field of reproductive biology.

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KW - Optical tweezers

KW - Viscosity

KW - Extracellular matrix

KW - Cumulus oocyte complex

KW - Ooxyte quality

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ER -

Microrheology of the cumulus-oocyte matrix using optical tweezers

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Keywords

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Resonant and shaped photonics for under: Resonant and shaped photonics for understanding the physical and biomedical world

Datasets

Raw Data associated with Microrheology of the Cumulus-Oocyte Matrix using Optical Tweezer

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