Persistent homology analysis distinguishes pathological bone microstructure in non-linear microscopy images
Persistent homology analysis distinguishes pathological bone microstructure in non-linear microscopy images
We present a topological method for the detection and quantification of bone microstructure from non-linear microscopy images. Specifically, we analyse second harmonic generation (SHG) and two photon excited autofluorescence (TPaF) images of bone tissue which capture the distribution of matrix (fibrillar collagen) structure and autofluorescent molecules, respectively. Using persistent homology statistics with a signed Euclidean distance transform filtration on binary patches of images, we are able to quantify the number, size, distribution, and crowding of holes within and across samples imaged at the microscale. We apply our methodology to a previously characterized murine model of skeletal pathology whereby vascular endothelial growth factor expression was deleted in osteocalcin-expressing cells (OcnVEGFKO) presenting increased cortical porosity, compared to wild type (WT) littermate controls. We show significant differences in topological statistics between the OcnVEGFKO and WT groups and, when classifying the males, or females respectively, into OcnVEGFKO or WT groups, we obtain high prediction accuracies of 98.7% (74.2%) and 77.8% (65.8%) respectively for SHG (TPaF) images. The persistence statistics that we use are fully interpretable, can highlight regions of abnormality within an image and identify features at different spatial scales.
Pritchard, Ysanne
fd65ab30-e292-43f4-b027-1cadd94002d1
Sharma, Aikta
aebd33fc-d168-4bd6-b861-93384a64e072
Clarkin, Claire
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Ogden, Helen
78b03322-3836-4d3b-8b84-faf12895854e
Mahajan, Sumeet
b131f40a-479e-4432-b662-19d60d4069e9
Sanchez-Garcia, Ruben J
8246cea2-ae1c-44f2-94e9-bacc9371c3ed
20 July 2022
Pritchard, Ysanne
fd65ab30-e292-43f4-b027-1cadd94002d1
Sharma, Aikta
aebd33fc-d168-4bd6-b861-93384a64e072
Clarkin, Claire
05cd2a88-1127-41aa-a29b-7ac323b4f3c9
Ogden, Helen
78b03322-3836-4d3b-8b84-faf12895854e
Mahajan, Sumeet
b131f40a-479e-4432-b662-19d60d4069e9
Sanchez-Garcia, Ruben J
8246cea2-ae1c-44f2-94e9-bacc9371c3ed
Pritchard, Ysanne, Sharma, Aikta, Clarkin, Claire, Ogden, Helen, Mahajan, Sumeet and Sanchez-Garcia, Ruben J
(2022)
Persistent homology analysis distinguishes pathological bone microstructure in non-linear microscopy images.
Scientific Reports.
(doi:10.1101/2022.07.19.500658).
Abstract
We present a topological method for the detection and quantification of bone microstructure from non-linear microscopy images. Specifically, we analyse second harmonic generation (SHG) and two photon excited autofluorescence (TPaF) images of bone tissue which capture the distribution of matrix (fibrillar collagen) structure and autofluorescent molecules, respectively. Using persistent homology statistics with a signed Euclidean distance transform filtration on binary patches of images, we are able to quantify the number, size, distribution, and crowding of holes within and across samples imaged at the microscale. We apply our methodology to a previously characterized murine model of skeletal pathology whereby vascular endothelial growth factor expression was deleted in osteocalcin-expressing cells (OcnVEGFKO) presenting increased cortical porosity, compared to wild type (WT) littermate controls. We show significant differences in topological statistics between the OcnVEGFKO and WT groups and, when classifying the males, or females respectively, into OcnVEGFKO or WT groups, we obtain high prediction accuracies of 98.7% (74.2%) and 77.8% (65.8%) respectively for SHG (TPaF) images. The persistence statistics that we use are fully interpretable, can highlight regions of abnormality within an image and identify features at different spatial scales.
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Bone_analysis_paper_2022_07_19
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2022.07.19.500658v1.full
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Persistent_homology_bone_microstructure_revised
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Persistent_homology_bone_microstructure_supplementary_revised_2023_01_18
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e-pub ahead of print date: 20 July 2022
Published date: 20 July 2022
Identifiers
Local EPrints ID: 469777
URI: http://eprints.soton.ac.uk/id/eprint/469777
ISSN: 2045-2322
PURE UUID: 4154a366-c11e-46c4-b8fa-a9f025e5a49b
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Date deposited: 26 Sep 2022 16:35
Last modified: 17 Mar 2024 03:33
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Author:
Ysanne Pritchard
Author:
Aikta Sharma
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