Background
The immune system orchestrates the repair of infarcted myocardium. Imaging of the cellular inflammatory response by 18F-FDG PET/MRI in the heart has been demonstrated in preclinical and clinical studies. However, the clinical relevance of post-MI 18F-FDG uptake in the heart has not been elucidated. The objective of this study was to explore the value of 18F-FDG-PET/MRI in patients after AMI as a biosignal for left ventricular functional outcome.
Methods and Results
We prospectively enrolled 49 patients with STEMI and performed 18F-FDG-PET/MRI 5 days after PCI and follow-up cardiac MRI after 6–9 months. In a subset of patients, 99mTc-sestamibi-SPECT was performed with tracer injection prior to revascularization. Cellular innate immune response was analyzed at multiple time points. Segmental comparison of 18F-FDG-uptake and LGE showed substantial overlap (κ=0.66), while quantitative analysis demonstrated that 18F-FDG extent exceeded LGE extent (33.2±16.2 %LV vs. 20.4±10.6 %LV, p<0.0001) and corresponded to the area-at-risk (r=0.87, p<0.0001). The peripheral blood count of CD14high/CD16+ monocytes correlated with the infarction size and 18F-FDG signal extent (r=0.53, p<0.002 and r=0.42, p<0.02, respectively). 18F-FDG uptake in the infarcted myocardium was highest in areas with transmural scar and the SUVmean was associated with left ventricular functional outcome independent of infarct size (ΔEF: p<0.04, ΔEDV: p<0.02, ΔESV: p<0.005).
Conclusions
In the current study, the intensity of 18F-FDG uptake in the myocardium after AMI correlated inversely with functional outcome at 6 months. Thus, 18F-FDG uptake in infarcted myocardium may represent a novel biosignal of myocardial injury.
The saccular membranes of trout (Oncorhynchus mykiss) and turbot (Scophthalmus maximus) were examined to characterize specialized epithelial cells that might be responsible for ion exchange. The approach for localizing cell types was new for this tissue, as observations were made with a stereomicroscope and a light microscope in order to have a general view of the epithelium. No important differences between the two species were seen. The saccular tissue is a monolayer epithelium (except for the macula neural zone) surrounded by a layer of connective tissue invaded by many blood vessels. The use of the fluorescent probe DAPSMI and zinc iodide/osmium fixation-coloration defined two areas in which ionocytes were present. In the first, large ionocytes were grouped into a nearly complete, crowned meshwork around, but separated from, the macula. In the second area, opposite the macula, the ionocytes were smaller, cubical, and grouped in patches. Cells rich in Na+, K+-ATPase and carbonic anhydrase II were present in both areas. Contrary to previous studies in mammals and fish, ionocytes were also found in the epithelium of the saccule.
BackgroundCharacterization of tissue integrity and inflammatory processes after acute myocardial infarction (AMI) using non-invasive imaging is predictive of patient outcome. Quantitative cardiovascular magnetic resonance (CMR) techniques such as native T1 and extracellular volume (ECV) mapping as well as 18F-FDG positron emission tomography (PET) imaging targeting inflammatory cell populations are gaining acceptance, but are often applied without assessing their quantitative potential. Using simultaneously acquired PET/CMR data from patients early after AMI, this study quantitatively compares these three imaging markers and investigates links to blood markers of myocardial injury and systemic inflammatory activity.MethodsA total of 25 patients without microvascular obstruction were retrospectively recruited. All imaging was simultaneously performed 5 ± 1 days after revascularization following AMI on an integrated 3T PET/MRI scanner. Native and post-contrast T1 data were acquired using a modified Look-Locker inversion recovery (MOLLI) sequence, ECV maps were calculated using individually sampled hematocrit. 18F-FDG PET was executed after 1 day of dietary preparation, 12 h of fasting, and administration of heparin. ECV, 18F-FDG and native T1 data were compared mutually as well as to peak counts of peripheral blood markers (creatine kinase, creatine kinase-MB, troponin, leukocytes, monocytes) and infarct size.ResultsHigh intra-patient correlations of relative ECV, 18F-FDG PET and native T1 signal increases were observed in combination with no inter-patient correlation of maximum absolute values at the infarct center, suggesting well-colocalized but physiologically diverse processes begetting the respective image signals. Comparison of maximum image signals to markers of myocardial damage and systemic inflammation yielded highly significant correlations of ECV to peak creatine kinase-MB and overall infarct size as well as between native T1 and peak monocyte counts.ConclusionsAbsolute native T1 values at the infarct core early after AMI can be linked to the systemic inflammatory response independent of infarct size. Absolute ECV at the infarct core is related to both infarct size and blood markers of myocardial damage.Electronic supplementary materialThe online version of this article (10.1186/s12968-018-0454-y) contains supplementary material, which is available to authorized users.
Background
Left atrial (
LA
) function predicts clinical outcome in a variety of cardiovascular diseases. However, limited data are available in the setting of mitral regurgitation. The aim of the present study was to assess potential changes in
LA
ejection fraction (LAEF) and its prognostic value in patients following transcatheter mitral valve repair using the MitraClip.
Methods and Results
A total of 88 consecutive patients undergoing MitraClip implantation with complete echocardiography at baseline and follow‐up between 3 and 6 months postprocedure were enrolled.
LAEF
improved in 58% of the population. Change in
LAEF
was associated with residual mitral regurgitation, residual transmitral gradient and left ventricular ejection fraction changes. Compared with their counterparts, patients with residual mitral regurgitation ≥grade 2 (change in LAEF, −6% [Interquartile [IQR], −9–1%] versus 4% [IQR, −5–15%];
P
=0.05) and with residual transmitral gradient ≥5 mm Hg (change in LAEF, −2% [IQR, −9–9%] versus 5% [IQR, −4–16%];
P
=0.03) showed a decline in
LAEF
, respectively. Furthermore,
LAEF
significantly correlated with changes in left ventricular ejection fraction (
r
=0.40;
P
=0.001). With regards to clinical outcome, heart failure symptoms as assessed by New York Heart Association class were more severe in patients with worsened
LAEF
at follow‐up. Finally,
LAEF
change was identified as an independent predictor of all‐cause mortality (hazard ratio, 0.94; 95% CI, 0.90–0.98 [
P
=0.008]).
Conclusions
The present analysis showed that changes in
LA
function in patients undergoing MitraClip implantation are associated with important measures including residual mitral regurgitation, elevated transmitral gradient, and left ventricular function. Importantly,
LA
function alterations represent a strong predictor for all‐cause mortality.
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