HCM and DCM are characterized by complex pathophysiological processes including impaired myocardial energetics, Background-Noncontrast magnetic resonance T1 mapping reflects a composite of both intra-and extracellular signal. We hypothesized that noncontrast T1 mapping can characterize the myocardium beyond that achieved by the well-established late gadolinium enhancement (LGE) technique (which detects focal fibrosis) in both hypertrophic (HCM) and dilated (DCM) cardiomyopathy, by detecting both diffuse and focal fibrosis. Methods and Results-Subjects underwent Cardiovascular Magnetic Resonance imaging at 3T (28 HCM, 18 DCM, and 12 normals). Matching short-axis slices were acquired for cine, T1 mapping, and LGE imaging (0.1 mmol/kg). Circumferential strain was measured in the midventricular slice, and 31 P magnetic resonance spectroscopy was acquired for the septum of the midventricular slice. Mean T1 relaxation time was increased in HCM and DCM (HCM 1209±28 ms, DCM 1225±42 ms, normal 1178±13 ms, P<0.05). There was a weak correlation between mean T1 and LGE (r=0.32, P<0.001). T1 values were higher in segments with LGE than in those without (HCM with LGE 1228±41 ms versus no LGE 1192±79 ms, P<0.01; DCM with LGE 1254±73 ms versus no LGE 1217±52 ms, P<0.01). However, in both HCM and DCM, even in segments unaffected by LGE, T1 values were significantly higher than normal (P<0.01). T1 values correlated with disease severity, being increased as wall thickness increased in HCM; conversely, in DCM, T1 values were highest in the thinnest myocardial segments. T1 values also correlated significantly with circumferential strain (r=0.42, P<0.01). Interestingly, this correlation remained statistically significant even for the slices without LGE (r=0.56, P=0.04). Finally, there was also a statistically significant negative correlation between T1 values and phosphocreatine/ adenosine triphosphate ratios (r=−0.59, P<0.0001). Conclusions-In HCM and DCM, noncontrast T1 mapping detects underlying disease processes beyond those assessed byLGE Myocardial energetics, as assessed by the phosphocreatine/ adenosine triphosphate (PCr/ATP) ratio, using 31 P magnetic resonance spectroscopy, have been shown to be a more powerful independent predictor of mortality in DCM than New York Heart Association class or left ventricular ejection fraction (LVEF). 11,12 In HCM, PCr/ATP is reduced irrespective of the degree of hypertrophy or symptomatology.
12Focal myocardial fibrosis, as assessed by CMR late gadolinium enhancement (LGE) imaging, has recently been identified as a predictor of cardiac death in HCM and DCM and may be an important biomarker for risk stratification and therapeutic monitoring. 7,[13][14][15][16][17] However, the quantification of fibrosis achieved by LGE has several limitations. 18,19 LGE is unable to detect diffuse fibrosis, and it relies on a comparison between unaffected normal myocardium and regions of focal myocardial damage. Furthermore, qualitative assessment of LGE is operator-dependent and can be difficult to compare...
