磁共振指纹识别衍生的T1和T2值在成人大脑中的应用：一项系统综述。

Applications of MR Finger printing derived T1 and T2 values in Adult brain: A Systematic review.

作者信息

Mohamed Sajer Riyan, Pendem Saikiran, Kadavigere Rajagopal, - Priyanka, Nayak S Shailesh, Nayak Kaushik, Pires Tancia, Chandran M Obhuli, S Abhijith, Raghu Varsha

机构信息

Department of Medical Imaging Technology, Manipal College of Health Professions, Manipal Academy of Higher Education, Manipal, Karnataka, 576104, India.

Department of Radio Diagnosis and Imaging, Kasturba Medical College, Manipal Academy of Higher Education, Manipal, Karnataka, 576104, India.

出版信息

F1000Res. 2025 Jan 9;14:54. doi: 10.12688/f1000research.160088.1. eCollection 2025.

DOI:10.12688/f1000research.160088.1

PMID:39839989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11747303/

Abstract

INTRODUCTION

Magnetic resonance imaging (MRI) is essential for brain imaging, but conventional methods rely on qualitative contrast, are time-intensive, and prone to variability. Magnetic resonance finger printing (MRF) addresses these limitations by enabling fast, simultaneous mapping of multiple tissue properties like T1, T2. Using dynamic acquisition parameters and a precomputed signal dictionary, MRF provides robust, qualitative maps, improving diagnostic precision and expanding clinical and research applications in brain imaging.

METHODS

Database searches were performed through PubMed, Embase, Scopus, Web of science to identify relevant articles focusing on the application of MR finger printing in the adult brain. We utilized the preferred reporting items for systematic reviews and meta-analysis guidelines to extract data from the selected studies.

RESULTS

Nine articles were included in the final review, with a total sample size of 332 participants. In healthy brains, notable regional, sex, age, and hemispheric variations were identified, particularly in the corpus callosum and thalamus. MRF effectively differentiated meningioma subtypes, glioma grades, and IDH mutation status, with T2 values providing particularly predictive for glioma classification. In brain metastases, significant relaxometry differences were noted between normal and lesional tissues. For multiple sclerosis, MRF values correlated with clinical and disability measures, distinguishing relapsing-remitting secondary progressive forms. In traumatic brain injury, longitudinal T1 changes strongly correlated with clinical recovery, surpassing T2 values.

CONCLUSIONS

The systematic review highlighted MRD as a groundbreaking technique that enhances neurological diagnosis by simultaneously quantifying T1 and T2 relaxation times. With reduced acquisition times, MRF outperforms conventional MRI in detecting subtle pathologies, distinguishing properties, and providing reliable biomarkers.

摘要

引言

磁共振成像（MRI）对脑部成像至关重要，但传统方法依赖定性对比，耗时且容易出现变异性。磁共振指纹成像（MRF）通过能够快速、同时绘制多种组织特性（如T1、T2）来解决这些局限性。利用动态采集参数和预先计算的信号字典，MRF提供了可靠的定性图谱，提高了诊断精度，并扩展了脑成像在临床和研究中的应用。

方法

通过PubMed、Embase、Scopus、Web of science进行数据库检索，以识别关注磁共振指纹成像在成人大脑中应用的相关文章。我们利用系统评价和荟萃分析指南的首选报告项目从选定的研究中提取数据。

结果

最终综述纳入了9篇文章，总样本量为332名参与者。在健康大脑中，发现了显著的区域、性别、年龄和半球差异，特别是在胼胝体和丘脑中。MRF有效地区分了脑膜瘤亚型、胶质瘤分级和异柠檬酸脱氢酶（IDH）突变状态，T2值对胶质瘤分类具有特别的预测性。在脑转移瘤中，正常组织和病变组织之间存在显著的弛豫测量差异。对于多发性硬化症，MRF值与临床和残疾指标相关，可区分复发缓解型和继发进展型。在创伤性脑损伤中，纵向T1变化与临床恢复密切相关，优于T2值。