人类组织工程心肌移植后心脏应变模式的磁共振成像
Magnetic Resonance Imaging of Cardiac Strain Pattern Following Transplantation of Human Tissue Engineered Heart Muscles.
作者信息
Qin Xulei, Riegler Johannes, Tiburcy Malte, Zhao Xin, Chour Tony, Ndoye Babacar, Nguyen Michael, Adams Jackson, Ameen Mohamed, Denney Thomas S, Yang Phillip C, Nguyen Patricia, Zimmermann Wolfram H, Wu Joseph C
机构信息
From the Stanford Cardiovascular Institute and Department of Medicine, Division of Cardiology, CA (X.Q., J.R., X.Z., T.C., B.N., M.N., J.A., M.A., P.C.Y., P.N., J.C.W.); Auburn University MRI Research Center, Department of Electrical and Computer Engineering, AL (T.S.D.); Institute of Pharmacology, Heart Research Center, University Medical Center, Georg-August-University and German Center for Cardiovascular Research, Göttingen, Germany (M.T., W.H.Z.).
出版信息
Circ Cardiovasc Imaging. 2016 Nov;9(11). doi: 10.1161/CIRCIMAGING.116.004731.
BACKGROUND
The use of tissue engineering approaches in combination with exogenously produced cardiomyocytes offers the potential to restore contractile function after myocardial injury. However, current techniques assessing changes in global cardiac performance after such treatments are plagued by relatively low detection ability. Since the treatment is locally performed, this detection could be improved by myocardial strain imaging that measures regional contractility.
METHODS AND RESULTS
Tissue engineered heart muscles (EHMs) were generated by casting human embryonic stem cell-derived cardiomyocytes with collagen in preformed molds. EHMs were transplanted (n=12) to cover infarct and border zones of recipient rat hearts 1 month after ischemia reperfusion injury. A control group (n=10) received only sham placement of sutures without EHMs. To assess the efficacy of EHMs, magnetic resonance imaging and ultrasound-based strain imaging were performed before and 4 weeks after transplantation. In addition to strain imaging, global cardiac performance was estimated from cardiac magnetic resonance imaging. Although no significant differences were found for global changes in left ventricular ejection fraction (control -9.6±1.3% versus EHM -6.2±1.9%; P=0.17), regional myocardial strain from tagged magnetic resonance imaging was able to detect preserved systolic function in EHM-treated animals compared with control (control 4.4±1.0% versus EHM 1.0±0.6%; P=0.04). However, ultrasound-based strain failed to detect any significant change (control 2.1±3.0% versus EHM 6.3±2.9%; P=0.46).
CONCLUSIONS
This study highlights the feasibility of using cardiac strain from tagged magnetic resonance imaging to assess functional changes in rat models following localized regenerative therapies, which may not be detected by conventional measures of global systolic performance.
背景
将组织工程方法与外源性产生的心肌细胞相结合,为心肌损伤后恢复收缩功能提供了可能。然而,目前评估此类治疗后整体心脏功能变化的技术存在检测能力相对较低的问题。由于治疗是局部进行的,通过测量局部收缩性的心肌应变成像可以改善这种检测。
方法与结果
通过在预制模具中用胶原蛋白浇铸人胚胎干细胞衍生的心肌细胞来生成组织工程心肌(EHM)。在缺血再灌注损伤1个月后,将EHM移植(n = 12)到受体大鼠心脏的梗死区和边缘区。对照组(n = 10)仅进行假手术缝合,不植入EHM。为了评估EHM的疗效,在移植前和移植后4周进行磁共振成像和基于超声的应变成像。除了应变成像外,还通过心脏磁共振成像评估整体心脏功能。虽然左心室射血分数的整体变化没有显著差异(对照组-9.6±1.3% 与EHM组-6.2±1.9%;P = 0.17),但与对照组相比,标记磁共振成像的局部心肌应变能够检测到EHM治疗动物保留的收缩功能(对照组4.4±1.0% 与EHM组1.0±0.6%;P = 0.04)。然而,基于超声的应变未能检测到任何显著变化(对照组2.1±3.0% 与EHM组6.3±2.9%;P = 0.46)。
结论
本研究强调了使用标记磁共振成像的心脏应变来评估局部再生治疗后大鼠模型功能变化的可行性,这些变化可能无法通过传统的整体收缩功能测量方法检测到。
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