Background Left atrial (LA) strain measurements by speckle tracking echocardiography (STE) are predictive markers of cardiovascular morbidity, including atrial fibrillation (AF). LA mechanical dispersion (LA MD) is a new parameter derived from STE. A reduction of LA strain is considered to reflect LA dysfunction, while increased LA MD may reflect LA dyssynchrony. Purpose To assess LA dysfunction and dyssynchrony, as measured by STE, in patients with paroxysmal AF (pAF). Methods A subset of 616 participants in the Akershus Cardiac Examination 1950 Study were divided into three groups: (1) A healthy group (n=179) defined by excluding AF, coronary artery disease, stroke, hypertension, chronic obstructive pulmonary disease, body mass index >30, left ventricular ejection fraction <50%, transmitral E/e' >14 or E/A >2.0, (2) A non-healthy group (n=350) of participants without pAF, but with any of the above conditions, (3) A group with pAF, but in sinus rhythm at examination (n=87). LA reservoir strain (LASr), conduit strain (LAScd) and contractile strain (LASct), as well as LA MD were assessed by STE. MD was defined as the standard deviation (SD) of time from ECG R to peak atrial longitudinal strain (SD-TPS), and corrected by RR-interval (SD-TPS/RR), expressing LA MD as a percentage of the cardiac cycle. Comparisons were made by Mann-Whitney U-test due to non-normal distributions. Results Mean age was 63.5±0.5 years and 46.6% were women. LASr, LAScd and LASct were significantly lower, and LA MD significantly higher in the pAF group compared to the healthy and non-healthy groups (Table; Figure). Conclusion The present study has demonstrated LA dysfunction and dyssynchrony in patients with pAF, which may reflect LA remodeling and increased fibrosis. Figure 1 Funding Acknowledgement Type of funding source: Public Institution(s). Main funding source(s): South-Eastern Norway Regional Health Authority
Funding Acknowledgements Type of funding sources: Public hospital(s). Main funding source(s): Akerhus University Hospital Dept. of Cardiology Background Cryptogenic stroke/TIA (CS) is supposed to be associated with intracardiac thrombus formation and left atrial (LA) structure, in particular thrombus formation in left atrial appendage (LAA). However, there is little evidence if thromboembolic risk is associated with LAA morphology in patients with CS. Purpose We aimed to investigate, if different LAA morphology types may predict thromboembolic risk in patients with CS. Methods In this prospective study (mean follow-up 859 ± 226 days), 185 patients with CS (mean age 68 ±13 years, 33% female) without history of AF were included. All patients underwent complete transesophageal echocardiography in sinus rhythm after index CS (mean 5 ± 3days). Occurrence of LAA thrombus, sludge or spontaneous echo contrast (SEC) were defined as thromboembolic risk and LAA structure was evaluated by 2D and 3D transesophageal echocardiography. Multilobate LAA was defined as LAA with > 1 lobes. Results Of the 185 included patients, LAA type chicken wing was found in 79 (43%), type windsock in 64 (35%), type cactus in 35 (19%) and type cauliflower in 7 (4%). Thrombus formation occurred in 29/185 (16%), LAA sludge in 112/185 (61%), and LAA SEC in 74/185 (40%), which is increased compared to data in the general population. We found SEC in sludge in 65/112 (58%), SEC in thrombus in 18/29 (62%) and sludge in thrombus in 27/29 (93%). SEC and sludge were significantly associated with thrombus formation, (p < 0.001 and p < 0.01, respectively). Finally, thromboembolic risk occurred in 123 (67%) of all patients with CS. Moreover, LAA type chicken wing was significantly associated with thromboembolic risk (p < 0.01), while all other LAA types were not. Multilobate LAA occurred in 115 (62%) of all patients and predicted thromboembolic risk vs. non-lobated LAA (p= 0.04). In a multivariate analysis LAA type chicken wing and multilobate LAA were independently predictors of thromboembolic risk, figure 1. Conclusions Patients with cryptogenic stroke/TIA without history of AF showed increased thromboembolic risk, and SEC and sludge were significantly associated with LAA thrombus formation. Only LAA type chicken wing and multilobate LAA predicted independently thromboembolic risk in this study. Abstract Figure.
Background Left atrial (LA) function by strain has shown to be promising to predict clinical atrial fibrillation (AF) in patients with cryptogenic stroke/TIA. However, there is little knowledge, if this novel method may prospectively predict subclinical AF (SCAF) and moreover, if left atrial appendage (LAA) function by strain and mechanical dispersion may be more sensitive to improve prediction of SCAF. Purpose The aim of the present study was to investigate if LA and LAA function by strain could improve the prediction of SCAF in patients at risk. Methods In this prospective study (mean follow-up 859±226 days), 185 patients with cryptogenic stroke/TIA, mean age 68±13 years, 33% female and no history of clinical AF or SCAF, were included. All participants underwent 2D and 3D transesophageal and transthoracic echocardiography in sinus rhythm after index cryptogenic stroke/TIA (mean 5±3days). LAA and LA functions by phasic strain, including reservoir strain (Sr), conduit strain (Scd) and contraction strain (Sct) and mechanical dispersion of Sr were assessed. SCAF episodes were detected by cardiac monitoring during follow up (mean 257±273 days). Results LAA function by strain was decreased in those with SCAF (60/32% of all patients) compared to those without: Sr: 19.2±4.5% vs. 25.6±6.5% (p<0.001), Scd: −11.0±3.1% vs. −14.4±4.5% (p<0.001), Sct: −7.9±4.0% vs. −11.2±4% (p<0.001), respectively, while mechanical dispersion by Sr strain was increased, 34±24ms vs. 26±20ms (p=0.02). However, LA function by strain and mechanical dispersion did not differ in patients with SCAF compared to patients without. By ROC analyses, LAA strain and mechanical dispersion were highly significant in prediction of SCAF. LAA reservoir strain showed the best AUC of 0.80 (95% CI 0.73–0.87) with a cut-off value of 22.2%, sensitivity of 80%, and specificity of 73%, p<0.001. (Figure) Conclusions For the first time, we showed, that left atrial appendage function by strain and mechanical dispersion predicts SCAF, as opposed to left atrial function. Left atrial appendage function by strain may be useful in risk prediction in patients at considerable AF risk. FUNDunding Acknowledgement Type of funding sources: Public hospital(s). Main funding source(s): Department of Cardiology, Akershus University Hospital, Oslo/Lørenskog, Norway
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