Data of low-dose phase-based X-ray imaging for in situ soft tissue engineering assessments | Zendy

Zohreh Izadifar | Zendy; Ali Honaramooz | Zendy; Sheldon Wiebe | Zendy; George Belev | Zendy; Daniel Chen | Zendy; Dean Chapman | Zendy

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Data of low-dose phase-based X-ray imaging for in situ soft tissue engineering assessments

Author(s) -

Zohreh Izadifar,

Ali Honaramooz,

Sheldon Wiebe,

George Belev,

Daniel Chen,

Dean Chapman

Publication year - 2016

Publication title -

data in brief

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.122

H-Index - 30

ISSN - 2352-3409

DOI - 10.1016/j.dib.2015.12.054

Subject(s) - in situ , biomedical engineering , phase contrast imaging , materials science , soft tissue , synchrotron radiation , tomography , nuclear medicine , medicine , radiology , optics , phase contrast microscopy , chemistry , physics , organic chemistry

This article presents the data of using three phase-based X-ray imaging techniques to characterize biomaterial scaffold and soft tissues in situ, as reported in our study "Low-dose phase-based X-ray imaging techniques for in situ soft tissue engineering assessments" [1]. The examined parameters include the radiation dose, scan time, and image quality, which are all critical to longitudinal in situ live animal assessments. The data presented were obtained from three dimensional imaging of scaffolds in situ cartilage by means of synchrotron-based computed tomography-diffraction enhanced imaging (CT-DEI), analyzer based imaging (CT-ABI), and in-line phase contrast imaging (CT-PCI) at standard and low dose imaging modalities.

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