Quantitative measurement of morphometric indicators of skeletal muscle cell behaviour and quality

David Hardman; Katharina Hennig; Inês Belo Martins; William Roman; Edgar R Gomes; Miguel O. Bernabeu

doi:10.1098/rsif.2024.0634

Quantitative measurement of morphometric indicators of skeletal muscle cell behaviour and quality

David Hardman^*, Katharina Hennig, Inês Belo Martins, William Roman, Edgar R Gomes, Miguel O. Bernabeu

^*Corresponding author for this work

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

Abstract

In vitro culturing of effective human-induced pluripotent stem cell-derived skeletal muscle cells (hiPSC-SMCs) has proven to be challenging. Progress is hindered by the limited range of metrics applied to assess experimental success. We present a semi-automated workflow for segmenting, tracking and quantifying migration and fusion behaviour in live and static images of myoblast and myotube cells. Workflow outputs are validated against manually labelled images and the metrics applied to images from case studies of in vitro cultures of primary mouse muscle cells under varying culture media conditions, mouse primary cells undergoing optogenetic stimulation and hiPSC-SMC. We show culture media-dependent differences in cell fusion dynamics and increased acetylcholine receptors in myonuclei under optogenetic stimulation. We show that myoblasts have greater persistence and proliferation in primary mouse cells than hiPSC, and cell–cell fusion occurred earlier but at a steadier rate in primary mouse cells.

Original language	English
Article number	20240634
Number of pages	13
Journal	Journal of the Royal Society. Interface
Volume	22
Issue number	225
DOIs	https://doi.org/10.1098/rsif.2024.0634
Publication status	Published - 16 Apr 2025

Keywords / Materials (for Non-textual outputs)

muscle cell
quantification
acetylcholine receptor
myonuclei
myotube

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10.1098/rsif.2024.0634Licence: Creative Commons: Attribution (CC-BY)

Quantitative measurement of morphometric_HARDMAN_DOA10032025_VOR_CC-BYFinal published version, 3.23 MBLicence: Creative Commons: Attribution (CC-BY)

https://royalsocietypublishing.org/doi/10.1098/rsif.2024.0634Licence: Creative Commons: Attribution (CC-BY)

1 Active
5 Finished

Predicting oxygen and drug kinetics at the micrometre scale in glioblastoma
Bernabeu, M. O. (Principal Investigator) & Brunton, V. (Co-investigator)
UKRI (formerly RCUK)
1/04/23 → 31/03/28
Project: Research
Investigating retinal vasculopathy pre-COVID-19 as an independent risk factor predictive of sepsis in COVID-19
Bernabeu, M. O. (Principal Investigator)
UK-based charities
1/11/20 → 2/05/22
Project: Research
Novel Models for Haemodynamics and Transport in Complex Media: Towards Precision Healthcare for Placental Disorders
Krueger, T. (Principal Investigator)
Engineering and Physical Sciences Research Council
1/05/20 → 31/10/23
Project: Research

Exemplar images for Quantitative measurement of morphometric indicators of skeletal muscle cell behaviour and quality
Hardman, D. (Creator), Zenodo, 23 Jan 2025
DOI: 10.5281/zenodo.14724995
Dataset

Cite this

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abstract = "In vitro culturing of effective human-induced pluripotent stem cell-derived skeletal muscle cells (hiPSC-SMCs) has proven to be challenging. Progress is hindered by the limited range of metrics applied to assess experimental success. We present a semi-automated workflow for segmenting, tracking and quantifying migration and fusion behaviour in live and static images of myoblast and myotube cells. Workflow outputs are validated against manually labelled images and the metrics applied to images from case studies of in vitro cultures of primary mouse muscle cells under varying culture media conditions, mouse primary cells undergoing optogenetic stimulation and hiPSC-SMC. We show culture media-dependent differences in cell fusion dynamics and increased acetylcholine receptors in myonuclei under optogenetic stimulation. We show that myoblasts have greater persistence and proliferation in primary mouse cells than hiPSC, and cell–cell fusion occurred earlier but at a steadier rate in primary mouse cells.",

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AU - Hardman, David

AU - Hennig, Katharina

AU - Martins, Inês Belo

AU - Roman, William

AU - Gomes, Edgar R

AU - Bernabeu, Miguel O.

PY - 2025/4/16

Y1 - 2025/4/16

N2 - In vitro culturing of effective human-induced pluripotent stem cell-derived skeletal muscle cells (hiPSC-SMCs) has proven to be challenging. Progress is hindered by the limited range of metrics applied to assess experimental success. We present a semi-automated workflow for segmenting, tracking and quantifying migration and fusion behaviour in live and static images of myoblast and myotube cells. Workflow outputs are validated against manually labelled images and the metrics applied to images from case studies of in vitro cultures of primary mouse muscle cells under varying culture media conditions, mouse primary cells undergoing optogenetic stimulation and hiPSC-SMC. We show culture media-dependent differences in cell fusion dynamics and increased acetylcholine receptors in myonuclei under optogenetic stimulation. We show that myoblasts have greater persistence and proliferation in primary mouse cells than hiPSC, and cell–cell fusion occurred earlier but at a steadier rate in primary mouse cells.

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Quantitative measurement of morphometric indicators of skeletal muscle cell behaviour and quality

Abstract

Keywords / Materials (for Non-textual outputs)

Access to Document

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Projects

Predicting oxygen and drug kinetics at the micrometre scale in glioblastoma

Investigating retinal vasculopathy pre-COVID-19 as an independent risk factor predictive of sepsis in COVID-19

Novel Models for Haemodynamics and Transport in Complex Media: Towards Precision Healthcare for Placental Disorders

Datasets

Exemplar images for Quantitative measurement of morphometric indicators of skeletal muscle cell behaviour and quality

Cite this