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Persistent homology analysis distinguishes pathological bone microstructure in non-linear microscopy images

Ysanne Pritchard, Aikta Sharma, Claire Clarkin, Helen Ogden, Sumeet Mahajan, Rubén J. Sánchez-García

2023Scientific Reports12 citationsDOIOpen Access PDF

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.

Topics & Concepts

Persistent homologyMicroscopyOsteocalcinPathologyBiologyMaterials scienceBiomedical engineeringChemistryPattern recognition (psychology)MathematicsArtificial intelligenceMedicineComputer scienceAlkaline phosphataseAlgorithmBiochemistryEnzymeTopological and Geometric Data AnalysisCell Image Analysis TechniquesLeprosy Research and Treatment
Persistent homology analysis distinguishes pathological bone microstructure in non-linear microscopy images | Litcius