A massively multi-scale approach to characterising tissue architecture by synchrotron micro-CT applied to the human placenta

William M Tun; G Poologasundarampillai; Helen Bischof; G Nye; O N F  King; M  Basham; Y  Tokudome; R M  Lewis; Edward Johnstone; Paul Brownbill; M  Darrow; Igor Chernyavsky

A massively multi-scale approach to characterising tissue architecture by synchrotron micro-CT applied to the human placenta

William M Tun, G Poologasundarampillai, Helen Bischof, G Nye, O N F King, M Basham , Y Tokudome, R M Lewis, Edward Johnstone, Paul Brownbill, M Darrow, Igor Chernyavsky

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

Abstract

Multi-scale structural assessment of biological soft tissue is challenging but essential to gain insight into structure-function relationships of tissue/organ. Using the human placenta as an example, this study brings together sophisticated sample preparation protocols, advanced imaging, and robust, validated machine-learning segmentation techniques to provide the first massively multi-scale and multi-domain information that
enables detailed morphological and functional analyses of both maternal and fetal placental domains. Finally, we quantify the scale-dependent error in morphological metrics of heterogeneous placental tissue, estimating the minimal tissue scale needed in extracting meaningful biological data. The developed protocol is beneficial for high-throughput investigation of structure-function relationships in both normal and diseased placentas,
allowing us to optimise therapeutic approaches for pathological pregnancies. In addition, the methodology presented is applicable in characterisation of tissue architecture and physiological behaviours of other complex organs with similarity to the placenta, where an exchange barrier possesses circulating vascular and avascular fluid spaces.

Original language	English
Journal	Journal of the Royal Society. Interface
Publication status	Accepted/In press - 6 May 2021

Embargoed Document

RSocInterface21-accepted-manuscript
Accepted author manuscript, 2.73 MB
Embargo ends: 1/01/31

Novel models for haemodynamics and transport in complex media: towards precision healthcare for placental disorders
Chernyavsky, I. (PI), Jensen, O. (CoI) & Juel, A. (CoI)
1/01/20 → 30/11/23
Project: Research
Blood flow (dys)regulation and transfer function in the human placenta
Chernyavsky, I. (PI), Brownbill, P. (CoI) & Johnstone, E. (CoI)
1/05/16 → 31/12/19
Project: Research

Cite this

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title = "A massively multi-scale approach to characterising tissue architecture by synchrotron micro-CT applied to the human placenta",

abstract = "Multi-scale structural assessment of biological soft tissue is challenging but essential to gain insight into structure-function relationships of tissue/organ. Using the human placenta as an example, this study brings together sophisticated sample preparation protocols, advanced imaging, and robust, validated machine-learning segmentation techniques to provide the first massively multi-scale and multi-domain information thatenables detailed morphological and functional analyses of both maternal and fetal placental domains. Finally, we quantify the scale-dependent error in morphological metrics of heterogeneous placental tissue, estimating the minimal tissue scale needed in extracting meaningful biological data. The developed protocol is beneficial for high-throughput investigation of structure-function relationships in both normal and diseased placentas,allowing us to optimise therapeutic approaches for pathological pregnancies. In addition, the methodology presented is applicable in characterisation of tissue architecture and physiological behaviours of other complex organs with similarity to the placenta, where an exchange barrier possesses circulating vascular and avascular fluid spaces.",

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year = "2021",

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language = "English",

journal = "Journal of the Royal Society. Interface",

issn = "1742-5689",

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T1 - A massively multi-scale approach to characterising tissue architecture by synchrotron micro-CT applied to the human placenta

AU - Tun, William M

AU - Poologasundarampillai, G

AU - Bischof, Helen

AU - Nye, G

AU - King, O N F

AU - Basham , M

AU - Tokudome, Y

AU - Lewis, R M

AU - Johnstone, Edward

AU - Brownbill, Paul

AU - Darrow, M

AU - Chernyavsky, Igor

PY - 2021/5/6

Y1 - 2021/5/6

N2 - Multi-scale structural assessment of biological soft tissue is challenging but essential to gain insight into structure-function relationships of tissue/organ. Using the human placenta as an example, this study brings together sophisticated sample preparation protocols, advanced imaging, and robust, validated machine-learning segmentation techniques to provide the first massively multi-scale and multi-domain information thatenables detailed morphological and functional analyses of both maternal and fetal placental domains. Finally, we quantify the scale-dependent error in morphological metrics of heterogeneous placental tissue, estimating the minimal tissue scale needed in extracting meaningful biological data. The developed protocol is beneficial for high-throughput investigation of structure-function relationships in both normal and diseased placentas,allowing us to optimise therapeutic approaches for pathological pregnancies. In addition, the methodology presented is applicable in characterisation of tissue architecture and physiological behaviours of other complex organs with similarity to the placenta, where an exchange barrier possesses circulating vascular and avascular fluid spaces.

AB - Multi-scale structural assessment of biological soft tissue is challenging but essential to gain insight into structure-function relationships of tissue/organ. Using the human placenta as an example, this study brings together sophisticated sample preparation protocols, advanced imaging, and robust, validated machine-learning segmentation techniques to provide the first massively multi-scale and multi-domain information thatenables detailed morphological and functional analyses of both maternal and fetal placental domains. Finally, we quantify the scale-dependent error in morphological metrics of heterogeneous placental tissue, estimating the minimal tissue scale needed in extracting meaningful biological data. The developed protocol is beneficial for high-throughput investigation of structure-function relationships in both normal and diseased placentas,allowing us to optimise therapeutic approaches for pathological pregnancies. In addition, the methodology presented is applicable in characterisation of tissue architecture and physiological behaviours of other complex organs with similarity to the placenta, where an exchange barrier possesses circulating vascular and avascular fluid spaces.

M3 - Article

SN - 1742-5689

JO - Journal of the Royal Society. Interface

JF - Journal of the Royal Society. Interface

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A massively multi-scale approach to characterising tissue architecture by synchrotron micro-CT applied to the human placenta

Abstract

Embargoed Document

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Projects

Novel models for haemodynamics and transport in complex media: towards precision healthcare for placental disorders

Blood flow (dys)regulation and transfer function in the human placenta

Cite this