Evaluating prostate cancer bone metastasis using accelerated whole-body isotropic 3D T1-weighted Dixon MRI with compressed SENSE: a feasibility study

Zhenhong Liao; Gaoyuan Liu; Bing Ming; Chun Ma; Xigang Fan; Xiaoyong Zhang; Wei Peng; Chen Liu

doi:10.1007/s00330-022-09181-9

Evaluating prostate cancer bone metastasis using accelerated whole-body isotropic 3D T1-weighted Dixon MRI with compressed SENSE: a feasibility study

Eur Radiol. 2023 Mar;33(3):1719-1728. doi: 10.1007/s00330-022-09181-9. Epub 2022 Oct 21.

Authors

Zhenhong Liao¹, Gaoyuan Liu¹, Bing Ming², Chun Ma¹, Xigang Fan¹, Xiaoyong Zhang³, Wei Peng¹, Chen Liu¹

Affiliations

¹ Department of Radiology, Deyang People's Hospital, 173 Taishan North Road, Jingyang District, Deyang City, Sichuan Province, China.
² Department of Radiology, Deyang People's Hospital, 173 Taishan North Road, Jingyang District, Deyang City, Sichuan Province, China. deyanghospital120@163.com.
³ Clinical Science, Philips Healthcare, Chengdu, China.

PMID: 36269371
DOI: 10.1007/s00330-022-09181-9

Abstract

Objectives: The study aimed to assess the efficiency of whole-body high-resolution compressed sensing-sensitivity encoding isotropic T1-Weighted Dixon (CSI-T1W-Dixon) scans in evaluating bone metastasis.

Methods: Forty-five high-risk prostate cancer patients with bone metastases were enrolled prospectively and underwent whole-body MRI sequences, which included the following: pre- and post-contrast CSI-T1W-Dixon and conventional multi-planar T1-Weighted Dixon (CMP-T1W-Dixon) (coronal, sagittal, and axial scans), short tau inversion recovery (STIR), and DWI. Comparison between the CMP-T1W-Dixon and CSI-T1W-Dixon images was done for the subjective image quality, the quantitative contrast-to-noise ratio (CNR), and signal-to-noise ratio (SNR). Furthermore, the diagnostic performance based on per-lesion and per-patient basis utilizing non-contrast T1-weighted (T1)/T1+ contrasted T1-weighted (T1C)/T1 + T1C + STIR + DWI sequences was compared between the CSI-T1W-Dixon and CMP-T1W-Dixon methods using reference standards (combining biopsy data and 6-month imaging follow-up).

Result: The CSI-T1W-Dixon images produced fewer image artifacts in the axial and coronal planes compared to the CMP-T1W-Dixon images. Also, the CSI-T1W-Dixon images provided better a CNR in fat-only images of all three planes and water-only images of the axial plane (p < 0.05). The CSI-T1W-Dixon showed a higher sensitivity than the CMP-T1W-Dixon techniques in analyzing T1-only images on a per-lesion basis (82.7% vs. 53.8% for sensitivity, p = 0.03). On a per-patient basis, no difference was found in the diagnostic capacity between the CSI-T1W-Dixon and CMP-T1W-Dixon sequences either alone or in combinations (p = 0.57-1).

Conclusion: High-resolution CSI-T1W-Dixon with higher image quality and diagnostic capacity can replace the CMP-T1W-Dixon method in evaluating bone metastasis in clinical practice.

Key points: • Compressed sensing isotropic acquisition for 3D T1-weighted Dixon images can improve the image quality with fewer artifacts compared to the anisotropic multiplanar acquisition. • Compressed sensing isotropic acquisition can save 67% of scanning time compared to anisotropic multiplanar acquisition. • Compressed sensing isotropic 3D T1-weighted Dixon images can offer better diagnostic performance with higher sensitivity compared to anisotropic multiplanar images.

Keywords: Bone metastasis; Compressed sensing; Prostate cancer; Whole-body imaging.

MeSH terms

Feasibility Studies
Humans
Imaging, Three-Dimensional / methods
Magnetic Resonance Imaging* / methods
Male
Prostatic Neoplasms* / diagnostic imaging
Prostatic Neoplasms* / pathology
Signal-To-Noise Ratio