Pericardial fat and its influence on cardiac diastolic function

Wit‐Verheggen, Vera H. W. de; Altintas, Sibel; Spee, Romy; Mihl, Casper; Kuijk, Sander M. J. van; Wildberger, Joachim E.; Schrauwen‐Hinderling, Vera B.; Kietselaer, Bas; Weijer, Tineke van de

doi:10.1186/s12933-020-01097-2

Cited by 21 publications

(22 citation statements)

References 38 publications

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“…Considering these previous studies, 12 weeks might have been insufficient to improve cardiac function and structure; furthermore, since cardiac function and structure were well-preserved at baseline in this study, no further improvement may have been detectable following empagliflozin treatment. In addition, a recent study reported that pericardial fat volume was associated with diastolic function even in healthy subjects with normal cardiac function [16], which supports our results showing that no reduction in pericardial fat volume or improvement in diastolic function was observed in parallel. Interestingly, although there was no difference in cardiac function between the groups, sitagliptin significantly decreased LVEF and %FS from baseline to 12 weeks.…”

Section: Discussionsupporting

confidence: 92%

“…It has been suggested that cardiac fat accumulation causes excessive release of proinflammatory cytokines and free fatty acids, resulting in myocardial intracellular lipotoxicity, myocardial fibrosis, and cardiac dysfunction [11][12][13][14][15][16][17]. Although both SGLT2 inhibitors and DPP-4 inhibitors reduce epicardial fat [18][19][20][21][22], no clinical studies have been performed to compare the effectiveness of these inhibitors on pericardial and epicardial fat, as well as myocardial triglyceride content.…”

Section: Introductionmentioning

confidence: 99%

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A prospective randomized study comparing effects of empagliflozin to sitagliptin on cardiac fat accumulation, cardiac function, and cardiac metabolism in patients with early-stage type 2 diabetes: the ASSET study

Hiruma

Shigiyama

Hisatake

et al. 2021

Cardiovasc Diabetol

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Background While the cardioprotective benefits of sodium-glucose cotransporter-2 (SGLT2) inhibitors have been established in patients with cardiovascular disease (CVD), their advantages over other anti-diabetic drugs at earlier stages remain unclear. We compared the cardioprotective effects of empagliflozin, an SGLT2 inhibitor, with those of sitagliptin, a dipeptidyl peptidase-4 (DPP-4) inhibitor, focusing on cardiac fat accumulation, cardiac function, and cardiac metabolism in patients with early-stage type 2 diabetes mellitus (T2DM) without CVD complications. Methods This was a prospective, randomized, open-label, blinded-endpoint, parallel-group trial that enrolled 44 Japanese patients with T2DM. The patients were randomized for 12-week administration of empagliflozin or sitagliptin. Pericardial fat accumulation and myocardial triglyceride content were evaluated by magnetic resonance imaging and proton magnetic resonance spectroscopy, respectively. Echocardiography, 123I-β-methyl-iodophenyl pentadecanoic acid myocardial scintigraphy, and laboratory tests were performed at baseline and after the 12-week treatment period. Results The patients were middle-aged (50.3 ± 10.7 years, mean ± standard deviation) and overweight (body mass index 29.3 ± 4.9 kg/m2). They had a short diabetes duration (3.5 ± 3.2 years), HbA1c levels of 7.1 ± 0.8%, and preserved cardiac function (ejection fraction 73.8 ± 5.0%) with no vascular complications, except for one baseline case each of diabetic nephropathy and peripheral arterial disease. After the 12-week treatment, no differences from baseline were observed between the two groups regarding changes in pericardial, epicardial, and paracardial fat content; myocardial triglyceride content; cardiac function and mass; and cardiac fatty acid metabolism. However, considering cardiometabolic biomarkers, high-density lipoprotein cholesterol and ketone bodies, including β-hydroxybutyric acid, were significantly increased, whereas uric acid, plasma glucose, plasma insulin, and homeostasis model assessment of insulin resistance were significantly lower in the empagliflozin group than in the sitagliptin group (p < 0.05). Conclusions Although the effects on cardiac fat and function were not statistically different between the two groups, empagliflozin exhibited superior effects on cardiometabolic biomarkers, such as uric acid, high-density lipoprotein cholesterol, ketone bodies, and insulin sensitivity. Therefore, when considering the primary preventive strategies for CVD, early supplementation with SGLT2 inhibitors may be more beneficial than DPP-4 inhibitors, even in patients with early-stage T2DM without current CVD complications. Clinical Trial Registration: UMIN000026340; registered on February 28, 2017. https://upload.umin.ac.jp/cgi-open-bin/icdr_e/ctr_view.cgi?recptno=R000030257

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

A prospective randomized study comparing effects of empagliflozin to sitagliptin on cardiac fat accumulation, cardiac function, and cardiac metabolism in patients with early-stage type 2 diabetes: the ASSET study

Hiruma

Shigiyama

Hisatake

et al. 2021

Cardiovasc Diabetol

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“…When using the same threshold of (-190HU, -30HU), both EFV and EFA measurement correlated well with each other (r2= 0.974, 0.516) (Figure 2a, 3a). Bland-Altman analysis showed the mean difference (95% LoA) of EFV and EFV N30 was -15.2 (-29.7 to -0.6) cm 3 , which suggesting an overestimate about 15.2% in RCCT compared with CCTA using the same threshold (Figure 2c). While the agreement of EFA between CCTA and RCCT was good, the mean difference (95% LoA) of EFA and EFA N30 was 0 (-6.1 to 6.2)HU (Figure 3c) .…”

Section: Comparison Of Ef Measurements Between Ccta and Rcctmentioning

confidence: 98%

“…The visceral fat located between the myocardial surface and the visceral layer of pericardium known as epicardial fat (EF) is well known as an important imaging indicator for cardiovascular risk strati cation [1]. Evidence during the last two decades show that EF play various regulating roles relating to cardiac biology including atherosclerosis progression, atrial brillation and heart failure [2][3][4][5]. EF also acts as a paracrine or vasocrine organ by locally releasing bioactive cytokines into the adjacent interstitium of the myocardium and coronary arteries [6].…”

Section: Introductionmentioning

confidence: 99%

Measurement of Epicardial Fat Using Non-contrast Routine Chest-CT: A Consideration of Threshold Adjusting for Fatty Attenuation

Yin

Cheng

Yang

et al. 2021

Preprint

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Background：Role of epicardial fat (EF) had expended from a marker of cardiovascular risk to indicators of several systemic physiological effects and needed to be measured in more scenarios. The present study aimed to determine whether the EF volume (EFV) and mean attenuation (EFA) measured on non-contrast routine chest-CT (RCCT) could be more consistent with that on coronary CT angiography (CCTA) by adjusting the threshold of fatty attenuation. Methods: Totally 83 subjects simultaneously underwent CCTA and RCCT were enrolled. EFV and EFA were quantified on CCTA using threshold of (N30) (-190HU, -30HU) as reference, and also measured on RCCT using threshold of N30, N40 (-190HU, -40HU), N45 (-190HU, -45HU) respectively. Correlation and agreement of EF metrics between two models and differences between groups with coronary plaque (Plaque (+)) and without plaque (Plaque (-)) were analyzed. Results: EFV and EFA from RCCT using N30, N40 and N45 correlated well with reference (EFV: r2=0.974, 0.976, 0.972, P<0.001; EFA: r2=0.516, 0.500, 0.477, P<0.001). Threshold adjusting was able to reduce the mean difference, while increase the difference of EFA. Data measured on CCTA and RCCT both demonstrated the significantly larger EFV of Plaque (+) group than Plaque (-) group (P<0.05). The significantly difference of EFA was only shown on RCCT using N30 (Plaque (+) vs (-): -80±4.4HU vs-78±4HU, P=0.030). Conclusion: The consistency of EFV measured on RCCT could be improved through adjustment of attenuation threshold. The EFA assessment may have additional information relating to underlying pathophysiological status.

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“…Cardiac CT has been increasingly used for assessment of EAT/PAT ( Figure 2 ) [ 15 ]. A radiodensity threshold, of −190 to −30 Hounsfield (HU) units on non-contrast scans and −190 to −3 HU on contrast enhanced CT scans is accurate and reproducible for diagnosis and quantification of EAT volume [ 16 ].…”

Section: Non-invasive Imaging Assessment Of Cardiac Fatmentioning

confidence: 99%

Cardiac Adiposity and Arrhythmias: The Role of Imaging

et al. 2021

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Increased cardiac fat depots are metabolically active tissues that have a pronounced pro-inflammatory nature. Increasing evidence supports a potential role of cardiac adiposity as a determinant of the substrate of atrial fibrillation and ventricular arrhythmias. The underlying mechanism appears to be multifactorial with local inflammation, fibrosis, adipocyte infiltration, electrical remodeling, autonomic nervous system modulation, oxidative stress and gene expression playing interrelating roles. Current imaging modalities, such as echocardiography, computed tomography and cardiac magnetic resonance, have provided valuable insight into the relationship between cardiac adiposity and arrhythmogenesis, in order to better understand the pathophysiology and improve risk prediction of the patients, over the presence of obesity and traditional risk factors. However, at present, given the insufficient data for the additive value of imaging biomarkers on commonly used risk algorithms, the use of different screening modalities currently is indicated for personalized risk stratification and prognostication in this setting.

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Pericardial fat and its influence on cardiac diastolic function

Cited by 21 publications

References 38 publications

A prospective randomized study comparing effects of empagliflozin to sitagliptin on cardiac fat accumulation, cardiac function, and cardiac metabolism in patients with early-stage type 2 diabetes: the ASSET study

A prospective randomized study comparing effects of empagliflozin to sitagliptin on cardiac fat accumulation, cardiac function, and cardiac metabolism in patients with early-stage type 2 diabetes: the ASSET study

Measurement of Epicardial Fat Using Non-contrast Routine Chest-CT: A Consideration of Threshold Adjusting for Fatty Attenuation

Cardiac Adiposity and Arrhythmias: The Role of Imaging

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