A MnCl2-based phantom for IVD hydration status determination using MRI: Pre-clinical reliability analyses

European Journal of Radiography Pub Date : 2009-12-01 DOI:10.1016/j.ejradi.2010.07.002

Andrew P. Kurmis , Timothy P. Kurmis , John P. Slavotinek , Christine Barber , Nicola L. Fazzalari

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Abstract

Introduction

Non-biological, yet signal-responsive, MR phantom materials are becoming increasingly commonplace. One such novel agent, semi-solid manganese chloride (MnCl₂), has recently been described as a potential calibration standard for direct assessment of in vivo cartilage fluid content. Given the established correlation between intervertebral disc (IVD) hydration state and physiologic spinal functioning, such a tool, allowing calibration for ‘quantitative’ appraisal of disc fluid content, has many potential applications. The purpose of this study was to demonstrate MR signal-to-noise ratio (SNR) measurement reliability of a novel MnCl₂-based signal calibration phantom for in vivo disc hydration analysis, using a 10 × 10 inter- and intra-observer reliability analysis in the pre-clinical setting.

Materials and methods

A series of novel MnCl₂ calibration phantoms were imaged to assess intra-/inter-observer reliability during measurement of signal intensity. The phantoms were imaged under ten different MR sequences, generating 75 signal regions from which SNR values were measured. Inter-observer reliability was tested by inviting ten individuals to obtain signal measurements from each image, on a single occasion. To test intra-observer reliability, a single participant was asked to record measurements of the same features on ten separate occasions.

Results

1425 Discrete measurement points were available for combined reliability analyses. Single-measure intraclass correlation coefficients showed high measurement agreement, with both intra- and inter-observer values approaching 1.00.

Conclusion

This study demonstrates that signal measurements can be obtained using MnCl₂ disc phantoms, with a high degree of observer reliability, supporting their use as a signal calibration standard during orthopaedic MR-based cartilage imaging.

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用MRI测定IVD水合状态的基于mncl2的幻影:临床前可靠性分析

非生物，但信号响应，MR幻像材料正变得越来越普遍。其中一种新型试剂，半固态氯化锰(MnCl2)，最近被描述为直接评估体内软骨液体含量的潜在校准标准。鉴于椎间盘水合状态与生理脊柱功能之间已建立的相关性，这种工具可以对椎间盘液体含量进行“定量”评估，具有许多潜在的应用价值。本研究的目的是利用临床前10 × 10的观察者间和观察者内信度分析，证明一种新型的基于mncl2的信号校准模型用于体内水化分析的MR信噪比(SNR)测量的可靠性。材料和方法对一系列新型MnCl2校准图像进行成像，以评估信号强度测量过程中观察者内部/观察者之间的可靠性。在10种不同的磁共振序列下对这些幻影进行成像，产生75个信号区域，从中测量信噪比值。通过邀请10个人在单一场合从每张图像中获得信号测量值来测试观察者之间的可靠性。为了测试观察者内部的可靠性，一个参与者被要求在10个不同的场合记录相同特征的测量结果。结果1425个离散测量点可用于联合信度分析。单测量类内相关系数显示出高度的测量一致性，观察者内部和观察者之间的值都接近1.00。结论本研究表明，利用MnCl2椎间盘显像可以获得信号测量，具有高度的观察者可靠性，支持其作为骨科磁共振软骨成像的信号校准标准。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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European Journal of Radiography

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