作者
Brandon C Jones, Felix W Wehrli, Nada Kamona, Rajiv S Deshpande, Brian-Tinh Duc Vu, Hee Kwon Song, Hyunyeol Lee, Rasleen Kaur Grewal, Trevor Jackson Chan, Walter R Witschey, Matthew T MacLean, Nicholas J Josselyn, Srikant Kamesh Iyer, Mona Al Mukaddam, Peter J Snyder, Chamith S Rajapakse
发表日期
2023/6/1
期刊
Bone
卷号
171
页码范围
116743
出版商
Elsevier
简介
Background
Assessment of cortical bone porosity and geometry by imaging in vivo can provide useful information about bone quality that is independent of bone mineral density (BMD). Ultrashort echo time (UTE) MRI techniques of measuring cortical bone porosity and geometry have been extensively validated in preclinical studies and have recently been shown to detect impaired bone quality in vivo in patients with osteoporosis. However, these techniques rely on laborious image segmentation, which is clinically impractical. Additionally, UTE MRI porosity techniques typically require long scan times or external calibration samples and elaborate physics processing, which limit their translatability. To this end, the UTE MRI-derived Suppression Ratio has been proposed as a simple-to-calculate, reference-free biomarker of porosity which can be acquired in clinically feasible acquisition times.
Purpose
To explore …
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BC Jones, FW Wehrli, N Kamona, RS Deshpande… - Bone, 2023