Cardiac Phase-Resolved T₂^* Magnetic Resonance Imaging Reveals Differences Between Normal Hearts and a Humanized Mouse Model of Hypertrophic Cardiomyopathy.

IF 3.9 3区工程技术 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biomedicines Pub Date : 2025-05-14 DOI:10.3390/biomedicines13051193

Oumaima Laghzali, Shahriar Shalikar, Siqin Liu, Sandra Lehmann, Joao Dos Santos Periquito, Andreas Pohlmann, Sonia Waiczies, Lucie Carrier, Hsin-Jung Yang, Thoralf Niendorf, Min-Chi Ku

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Abstract

Background/Objectives: While T₂^* mapping effectively assesses cerebral blood oxygenation, its utility for capturing cardiac phase-dependent myocardial changes in hypertrophic cardiomyopathy (HCM) is underexplored. This study investigates T₂^* dynamics in an HCM mouse model, to validate T₂^* as a clinically relevant biomarker for improved HCM diagnosis and treatment monitoring. Methods: A cardiac-specific Mybpc3 genetic mouse model, closely mirroring human HCM, was used with 12 young mice (6-11 weeks old), including both male and female wild-type (WT) and Mybpc3-KI (HCM) groups. The cardiac function was assessed using self-gated multi-slice 2D CINE imaging. To investigate myocardial T₂^* variations across the cardiac cycle, multi-gradient echo (MGE) imaging was employed. This approach used retrospective gating and continuous acquisition synchronization with pulse oximetry at 9.4 T small animal MRI. Results: Mybpc3-KI mice demonstrated left-ventricular (LV) hypertrophy compared to WT (HCM = 50.08 ± 4.68 µm/g vs. WT = 45.80 ± 20.07 µm/g, p < 0.01) and reduced ejection fraction (HCM = 38.55 ± 5.39% vs. WT= 72.53 ± 3.95%, p < 0.01). Myocardial T₂^* was significantly elevated in HCM across all cardiac phases (HCM = 12.14 ± 1.54 ms vs. WT = 7.93 ± 1.57 ms, p = 0.002). Strong correlations were observed between myocardial T₂^* and LV mass (rho = 0.88, p = 0.03). Conclusions: T₂^* was elevated in HCM with increased LV mass, highlighting the potential of T₂^* MRI as a sensitive biomarker for distinguishing healthy mice from those with HCM and revealing possible myocardial abnormalities.

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心脏相位分辨T2*磁共振成像揭示正常心脏和肥厚性心肌病人源化小鼠模型的差异。

背景/目的：虽然T2*作图能有效评估脑血氧合，但其在肥厚性心肌病（HCM）中捕获心肌相依赖性心肌变化的应用尚不清楚。本研究研究了HCM小鼠模型中的T2*动力学，以验证T2*作为改善HCM诊断和治疗监测的临床相关生物标志物。方法：采用与人类HCM密切相关的心脏特异性Mybpc3遗传小鼠模型，12只幼鼠（6-11周龄），包括雄性和雌性野生型（WT）和Mybpc3- ki （HCM）组。心功能评估采用自门控多层二维影像。为了研究心肌T2*在整个心动周期内的变化，采用多梯度回声（MGE）成像。该方法采用回顾性门控和连续采集同步9.4 T小动物MRI脉搏血氧测定。结果：与WT相比，Mybpc3-KI小鼠左室（LV）肥厚（HCM = 50.08±4.68µm/g比WT= 45.80±20.07µm/g, p < 0.01），射血分数降低（HCM = 38.55±5.39%比WT= 72.53±3.95%,p < 0.01）。心肌T2*在HCM各期均显著升高（HCM = 12.14±1.54 ms vs. WT = 7.93±1.57 ms, p = 0.002）。心肌T2*与左室质量呈正相关（rho = 0.88, p = 0.03）。结论：在HCM中，T2*随着左室质量的增加而升高，这表明T2* MRI作为一种敏感的生物标志物，可以区分健康小鼠和HCM小鼠，并揭示可能的心肌异常。

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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来源期刊

Biomedicines Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology

CiteScore

5.20

自引率

8.50%

发文量

2823

审稿时长

8 weeks

期刊介绍： Biomedicines (ISSN 2227-9059; CODEN: BIOMID) is an international, scientific, open access journal on biomedicines published quarterly online by MDPI.