Influence of observer experience on cardiac magnetic resonance strain measurements using feature tracking and conventional tagging

Aim: CMR quantitative myocardial strain analysis is increasingly being utilized in clinical routine. CMR feature tracking (FT) is now considered an alternative to the reference standard for strain assessment -CMR tagging. The impact of observer experience on the validity of FT results has not yet been investigated. The aim of this study was therefore to evaluate the observer experience-dependency of CMR FT and to compare results with the reference standard. Methods: CSPAMM and SSFP-Cine sequences were acquired in 38 individuals (19 patients with HFpEF,19 controls) in identical midventricular short-axis locations. Global peak systolic circumferential strain (PSCS) together with LV ejection fraction (EF) and volumes were assessed by three observers (5,3 and 0 years of CMR-strain experience). Intermodality, intra- as well inter-observer variability were assessed. Results: Correlation between tagging and FT derived PSCS depended on observer experience (r = 0.69, r = 0.58 and r = 0.53). For the inexperienced observer tagging and FT derived PSCS differed significantly (p = 0.0061). Intra-observer reproducibility of tagging derived PSCS were similar for all observers (coefficient of variation (CV): 6%, 6.8% and 4.9%) while reproducibility of FT derived PSCS (CV: 7.4%, 9.4% and 15.8%) varied depending on observer experience. Inter-observer reproducibility of tagging derived PSCS for observer 1 and 2 as well as 1 and 3 for tagging (CV: 6.17%, 9.18%) was superior in comparison to FT (CV: 11.8%, 16.4%). Conclusions: Reliability and accuracy of FT based strain analysis, more than tagging based strain analysis, is dependent on reader experience. CMR strain experience or dedicated training in strain evaluation is necessary for FT to deliver accurate strain data, comparable to that of CMR tagging

Safety and Feasibility of Magnetic Resonance Imaging of the Brain at 1.5 Tesla in Patients with Temporary Transmyocardial Pacing Leads

Background Temporary transmyocardial pacing leads (TTPLs) represent an absolute contraindication to magnetic resonance imaging (MRI). The purpose of this study was to evaluate the safety and feasibility of MRI at 1.5 Tesla (T) using a transmit/receive (T/R) head coil in patients with TTPL. Methods TTPLs (220 cm, Osypka TME, Dr. Osypka GmbH, Rheinfelden, Germany) were implanted in a phantom and exposed to conditions of a 1.5 T brain examination using a T/R head coil. Temperature changes at the lead tip were continuously recorded. A total of 28 patients with TTPL and an urgent indication for a brain MRI underwent MRI at 1.5 T with vital sign monitoring. A T/R head coil was used to minimize radiofrequency exposure of the TTPL. Before and immediately after the MRI scan, TTPL lead impedance, pacing capture threshold (PCT), signal slope, and sensing were measured. Serum troponin I was determined before and after MRI to detect thermal myocardial injury. Results In vitro, the maximum temperature increase from radiofrequency-induced heating of the TTPL tip was<1 degrees C. In vivo, no complications, such as heating sensations, dizziness, unexpected changes in heart rate or rhythm, or other unusual signs or symptoms were observed. No significant changes in the lead impedance, PCT, signal slope, or sensing were recorded. There were no increases of serum troponin I after the MRI examination. Conclusions MRI of the brain may be performed safely at 1.5 T using a T/R head coil in case of an urgent clinical need in patients with TTPL and may be considered a feasible and safe procedure when appropriate precautionary measures are taken

Feature-tracking myocardial strain analysis in acute myocarditis: diagnostic value and association with myocardial oedema

Objectives To investigate the diagnostic value of cardiac magnetic resonance (CMR) feature-tracking (FT) myocardial strain analysis in patients with suspected acute myocarditis and its association with myocardial oedema. Methods Forty-eight patients with suspected acute myocarditis and 35 control subjects underwent CMR. FT CMR analysis of systolic longitudinal (LS), circumferential (CS) and radial strain (RS) was performed. Additionally, the protocol allowed for the assessment of T1 and T2 relaxation times. Results When compared with healthy controls, myocarditis patients demonstrated reduced LS, CS and RS values (LS: -19.5 +/- 4.4% vs. -23.6 +/- 3.1%, CS: -23.0 +/- 5.8% vs. -27.4 +/- 3.4%, RS: 28.9 +/- 8.5% vs. 32.4 +/- 7.4%; P < 0.05, respectively). LS (T1: r = 0.462, P < 0.001; T2: r = 0.436, P < 0.001) and CS (T1: r = 0.429, P < 0.001; T2: r = 0.467, P < 0.001) showed the strongest correlations with T1 and T2 relaxations times. Area under the curve of LS (0.79) was higher compared with those of CS (0.75; P = 0.478) and RS (0.62; P = 0.008). Conclusions FT CMR myocardial strain analysis might serve as a new tool for assessment of myocardial dysfunction in the diagnostic work-up of patients suspected of having acute myocarditis. Especially, LS and CS show a sufficient diagnostic performance and were most closely correlated with CMR parameters of myocardial oedema

Cardiac Magnetic Resonance Reveals Signs of Subclinical Myocardial Inflammation in Asymptomatic HIV-Infected Patients

Background— People living with chronic HIV infection are at an increased risk for cardiovascular disease. With this study, we aimed to determine the extent of cardiovascular involvement in asymptomatic HIV-infected patients by a comprehensive cardiac magnetic resonance (CMR) approach. Methods and Results— Asymptomatic patients with chronic HIV infection undergoing combination antiretroviral therapy (n=28) and control subjects (n=22) underwent CMR. HIV-infected patients were successfully controlled for the disease with a consistent plasma viremia of &lt;200 copies/mL (mean CD4 + -cell count, 475.1±307.9 cells/μL). CMR protocol allowed for the determination of cardiac function, myocardial inflammation, myocardial fibrosis, aortic stiffness, and pericardial fat volume. When compared with healthy controls, HIV-infected patients showed alterations in left ventricular function as demonstrated by a lower ejection fraction (60.9±7.1% versus 65.2±5.5%; P =0.023) and lower global peak systolic longitudinal and circumferential strain values (longitudinal strain, −17.7±3.4% versus −20.2±3.2%, circumferential strain, −21.2±4.6% versus −24.7±5.1%; P &lt;0.001, respectively). CMR parameters indicating myocardial inflammation were elevated in HIV-infected patients (native T1 relaxation times, 1128.3±53.4 ms versus 1086.5±54.5 ms; P =0.009; relative T2 signal intensity ratio, 1.6±0.3 versus 1.4±0.3; P =0.046; early gadolinium enhancement ratio, 3.1±1.2 versus 2.1±0.6; P =0.003). Myocardial fibrosis, predominantly at the subepicardium of the midventricular and basal inferolateral wall, was prevalent in 82.1% of HIV-infected patients, but only in 27.3% of healthy controls ( P &lt;0.001). Conclusions— Comprehensive CMR revealed a high burden of cardiovascular disease in asymptomatic HIV-infected patients. Subclinical myocardial inflammation as detected by CMR may be a potential precursor of the increased cardiovascular morbidity and mortality observed in patients with chronic HIV infection. </jats:sec

Incremental value of quantitative CMR including parametric mapping for the diagnosis of acute myocarditis

Aim Cardiac magnetic resonance (CMR) can visualize inflammatory tissue changes in acute myocarditis. Several quantitative image-derived parameters have been described to enhance the diagnostic value of CMR, but no direct comparison of these techniques is available. Methods and results A total of 34 patients with suspected acute myocarditis and 50 control subjects underwent CMR. CMR protocol included quantitative assessment of T1 relaxation times using modified Look-Locker inversion recovery (MOLLI) and shortened MOLLI (ShMOLLI) acquisition schemes, extracellular volume fraction (ECV), T2 relaxation times, and longitudinal strain. Established Lake-Louise criteria (LLC) consisting of T2-weighted signal intensity ratio (T2-ratio), early gadolinium enhancement ratio (EGEr), and late gadolinium enhancement (LGE) were assessed. Receiver operating characteristics analysiswas performed to compare diagnostic performance. Areas under the curve of native T1 (MOLLI: 0.95; ShMOLLI: 0.92) and T2 relaxation times (0.92) were higher compared with those of the other CMR parameters (T2-ratio: 0.71, EGEr: 0.71, LGE: 0.87, LLC: 0.90, ECV MOLLI: 0.77, ECV ShMOLLI: 0.80, longitudinal strain: 0.83). Combined with LGE, each native mapping technique outperformed the diagnostic performance of LLC (P, 0.01, respectively). A combination of native parameters (T1, T2, and longitudinal strain) significantly increased the diagnostic performance of CMR compared with LLC without need of contrast media application (0.99 vs. 0.90; P = 0.008). Conclusion In patients suspected of having acute myocarditis, diagnostic performance of CMR can be improved by implementation of quantitative CMR parameters. Especially, native mapping techniques have the potential to replace current LLC