Anisotropy visualisation from X-ray diffraction of biological apatite in mixed phase calcified tissue samples

Scott, Robert; Lyburn, Iain D.; Cornford, Eleanor; Bouzy, Pascaline; Stone, Nicholas; Greenwood, Charlene; Gosling, Sarah; Arnold, Emily L.; Bouybayoune, Ihsanne; Pinder, Sarah E.; Rogers, Keith

doi:10.1038/s41598-025-88940-2

All Outputs (4)

Benign/Cancer Diagnostics Based on X-Ray Diffraction: Comparison of Data Analytics Approaches (2025)
Journal Article
Alekseev, A., Shcherbakov, V., Avdieiev, O., Denisov, S. A., Kubytskyi, V., Blinchevsky, B., Murokh, S., Ajeer, A., Adams, L., Greenwood, C., Rogers, K., Jones, L. J., Mourokh, L., & Lazarev, P. (2025). Benign/Cancer Diagnostics Based on X-Ray Diffraction: Comparison of Data Analytics Approaches. Cancers, 17(10), Article 1662. https://doi.org/10.3390/cancers17101662

Background/Objectives: With the number of detected breast cancer cases growing every year, there is a need to augment histopathological analysis with fast preliminary screening. We examine the feasibility of using X-ray diffraction measurements for t... Read More about Benign/Cancer Diagnostics Based on X-Ray Diffraction: Comparison of Data Analytics Approaches.

Prostate microcalcification crystallography as a marker of pathology (2025)
Journal Article
Gosling, S. B., Arnold, E. L., Adams, L., Cool, P., Geraki, K., Kitchen, M. O., Lyburn, I. D., Rogers, K. D., Snow, T., Stone, N., & Greenwood, C. E. (2025). Prostate microcalcification crystallography as a marker of pathology. Scientific Reports, 15(1), Article 14979. https://doi.org/10.1038/s41598-025-98692-8

Prostate cancer remains the most common male cancer; however, treatment regimens remain unclear in some cases due to a lack of agreement in current testing methods. Therefore, there is an increasing need to identify novel biomarkers to better counsel... Read More about Prostate microcalcification crystallography as a marker of pathology.

Anisotropy visualisation from X-ray diffraction of biological apatite in mixed phase calcified tissue samples (2025)
Journal Article
Scott, R., Lyburn, I. D., Cornford, E., Bouzy, P., Stone, N., Greenwood, C., Gosling, S., Arnold, E. L., Bouybayoune, I., Pinder, S. E., & Rogers, K. (in press). Anisotropy visualisation from X-ray diffraction of biological apatite in mixed phase calcified tissue samples. Scientific reports, 15(1), Article 5478. https://doi.org/10.1038/s41598-025-88940-2

X-ray diffraction is widely used to characterise the mineral component of calcified tissue. Broadening of the diffraction peaks yields valuable information on the size of coherently diffracting domains, sometimes loosely described as crystallite size... Read More about Anisotropy visualisation from X-ray diffraction of biological apatite in mixed phase calcified tissue samples.

Anisotropy visualisation from X-ray diffraction of biological apatite in mixed phase calcified tissue samples (2025)
Journal Article
Scott, R., Lyburn, I. D., Cornford, E., Bouzy, P., Stone, N., Greenwood, C., Gosling, S., Arnold, E. L., Bouybayoune, I., Pinder, S. E., & Rogers, K. (2025). Anisotropy visualisation from X-ray diffraction of biological apatite in mixed phase calcified tissue samples. Scientific reports, 15(1), Article 5478. https://doi.org/10.1038/s41598-025-88940-2

X-ray diffraction is widely used to characterise the mineral component of calcified tissue. Broadening of the diffraction peaks yields valuable information on the size of coherently diffracting domains, sometimes loosely described as crystallite size... Read More about Anisotropy visualisation from X-ray diffraction of biological apatite in mixed phase calcified tissue samples.