exercise stress echocardiography
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2021 ◽  
Vol 23 (Supplement_G) ◽  
Author(s):  
Martina Avesani ◽  
Giacomo Calvo ◽  
Jolanda Sabatino ◽  
Domenico Sirico ◽  
Biagio Castaldi ◽  
...  

Abstract Aims To describe the current application of exercise stress echocardiography (ESE) in our Paediatric Cardiology Departments. Methods and results Baseline and under stress symptoms, vital parameters, ECG, and echocardiograms from patients who underwent ESE in our centres, were retrospectively analysed and compared, as well as clinical management plans formulated based on ESEs results. Forty-five patients from Centre 1 (median age 16 years), including 87% of patients with congenital heart diseases (CHDs), and 20 patients from Centre 2 (median age 11 years), mainly tested to rule out myocardial ischemia, were included. Among patients from Centre 1, 28 had previously been treated surgically, 6 percutaneously, and 11 were under follow-up. Indications for ESE/patients’ native diagnosis are illustrated in the picture. Centre 1: Exercise was maximal in 17 patients, with 2 of them having symptoms at the peak of exercise. It was stopped beforehand in 28 patients because of dyspnoea (3) and muscle fatigue (25). No arrhythmia was detected. ESE was considered as positive in 14 patients; after that, 3 patients underwent percutaneous interventions, 2 underwent cardiac surgery, 3 received indication for cardiac catheterization, 4 for advanced cardiac imaging, and 2 for exercise restriction and medical therapy. Centre 2: 15 patients (75%) completed the exercise, and none of them developed symptoms. In the remaining 25%, exercise was stopped because of muscle exhaustion. No arrhythmia was detected, and all the ESEs were negative. Comparing the cohorts, no differences in terms of ejection fraction were noticed at rest and under stress. Patients in cohort 1 were older (P = 0.002), they achieved lower average maximal heart rate (P = 0.0001), performed less lasting exercise (P = 0.05), and ESE was maximal less frequently (P = 0.005). Lastly, they had significant changes in clinical decisions (P = 0.004). Conclusions In paediatric cardiology, particularly in children with CHDs, ESE is a promising technique and could influence significantly clinical management plans.


2021 ◽  
Vol 42 (Supplement_1) ◽  
Author(s):  
C Cotrim ◽  
H Cafe ◽  
I Goncalves ◽  
J Guardado ◽  
N Cotrim ◽  
...  

Abstract Background Dynamic left ventricular outflow obstruction (LVOTO) during exercise stress echocardiography (ESE) is recommended in hypertrophic cardiomyopathy (HCM) to identify the obstructive phenotype. Aim To assess left ventricular outflow gradient (LVOTG) during ESE in different conditions. Methods In a single-group, prospective, observational study, we performed peak and/or post-treadmill ESE with systematic assessment of LVOTG in the orthostatic position by continuous-wave Doppler in 1333 subjects (837 males, mean age 38,2±20 ranging from 6 to 87 years) recruited over a period of twenty years, from 2001 to 2021. Peak LVOTG ≥30 mm Hg was considered abnormal for LVOTO during ESE. We enrolled 7 different populations: asymptomatic healthy controls (n=35); HCM (n=81); genotype-positive, phenotype negative asymptomatic HCM (n=6); patients with chest pain symptoms, suspected myocardial ischemia and either normal coronary arteries (INOCA, n=131,or with very low pre-test probability of coronary artery disease (probable INOCA, n=416) and; fatigue and suspected heart failure with preserved ejection fraction (HFpEF, n=206); amateur athletes with ischemia-like ECG changes during exercise-test or symptoms such as near syncope or chest pain or dizziness (n=457); aborted sudden death and with negative screening (n=1). Results Technical success rate of LVOTG assessment was 1333/1333 at rest and at peak stress (feasibility 100%). Imaging and analysis time were <1 minute. LVOTG at rest was present in 25 pts (2.8%) of the overall population: 23 HCM, 1 INOCA, and 1 HFpEF. Overall prevalence during ESE was 432/1333 (32%). During ESE, LVOTO (see Figure 1 and 2) was 0% (0/35) in normals, 58% (47/81) in HCM (23 with obstruction at rest), 33% (2/6) in genotype-positive, phenotype negative HCM, 37% (33/131) in INOCA, 40% (135/416) in athletes and 1/1 in the patient with aborted sudden death on strenuous exercise. Conclusion LVOTO in orthostatic position is detectable during treadmill ESE in several cardiovascular conditions associated with symptoms such as dyspnea, chest pain or near syncope, and even in asymptomatic patients with genotype-positive, phenotype-negative HCM. The identification of the obstructive phenotype is easy to capture during ESE without any significant additional imaging and analysis burden and can be important also outside HCM. FUNDunding Acknowledgement Type of funding sources: None. Figure 1 Figure 2


2021 ◽  
Vol 42 (Supplement_1) ◽  
Author(s):  
E Merli ◽  
A Zagatina ◽  
P.M Merlo ◽  
R Arbucci ◽  
C Borguezan Daros ◽  
...  

Abstract Background Lung ultrasound (LUS) detects pulmonary congestion as B-lines at rest and exercise stress echocardiography (ESE). Aim To assess the prevalence of B-lines during ESE in different cardiovascular diseases. Methods We performed ESE plus LUS (4-site simplified scan) in 4419 subjects referred for semi-supine bike ESE in 28 certified centers. B-lines score ranged from 0 (normal) to 40 (severely abnormal). Stress B-lines abnormal result was ≥2 units. Six different populations were evaluated: healthy controls (n=103); chronic coronary syndromes (CCS, n=3701); heart failure with reduced ejection fraction (HFrEF, n=395); heart failure with preserved ejection fraction (HFpEF, n=70); valvular heart disease (VHD) for ischemic mitral regurgitation ≥moderate at rest (n=123); repaired tetralogy of Fallot (ToF, n=27). Results Feasibility of B-lines was 100% at rest and peak ESE in all subjects. Imaging and analysis time were <1 minute. B-lines (median) were not detectable in healthy subjects (rest=0.1 [0–1] vs 0.1 [0–1], p=ns) and TOF (rest=0.2 [0–2] vs 0.3 [0–4], p=ns), but were present in all other groups: see figure. During ESE, B-lines increased in CCS (rest=0.5 [0–24] vs ESE=1.3 [0–28], p<0.001); HFrEF (rest=1.4 [0–35] vs ESE=2.9 [0–40], p<0.001); HFpEF (rest=0.3 [0–2] vs ESE=3.4 [0–12], p<0.001), VHD (rest=1.7 [0–12] vs ESE=4.3 [0–23], p<0.001). Stress B-lines were correlated with stress-rest change in wall motion score index in CCS (r=0.325, p<0.001), contractile reserve in HFrEF (r=−0.266, p<0.001) and in VHD (r=−.0300, p=0.001), left atrial volume stress-rest change in HFpEF (r=0.287, p=0.043). Conclusion B-lines identify the pulmonary congestion phenotype at rest and more frequently during ESE in patients with different coronary, myocardial or valvular heart disease, all sharing the final common pathway of acute backward left heart failure through different disease-specific mechanisms. B-lines are absent in healthy subjects and in conditions inducing a mostly right-sided overload such as repaired ToF. FUNDunding Acknowledgement Type of funding sources: None. Figure 1. B-lines at rest and during stress. Percentage (%) of rest (empty bar) and stress (full bar) B-lines abnormality (≥2 units) in six different study groups.


Author(s):  
Srdjan B. Aleksandric ◽  
Ana D. Djordjevic‐Dikic ◽  
Milan R. Dobric ◽  
Vojislav L. Giga ◽  
Ivan A. Soldatovic ◽  
...  

Background Functional assessment of myocardial bridging (MB) remains clinically challenging because of the dynamic nature of the extravascular coronary compression with a certain degree of intraluminal coronary reduction. The aim of our study was to assess performance and diagnostic value of diastolic‐fractional flow reserve (d‐FFR) during dobutamine provocation versus conventional‐FFR during adenosine provocation with exercise‐induced myocardial ischemia as reference. Methods and Results This prospective study includes 60 symptomatic patients (45 men, mean age 57±9 years) with MB on the left anterior descending artery and systolic compression ≥50% diameter stenosis. Patients were evaluated by exercise stress‐echocardiography test, and both conventional‐FFR and d‐FFR in the distal segment of left anterior descending artery during intravenous infusion of adenosine (140 μg/kg per minute) and dobutamine (10–50 μg/kg per minute), separately. Exercise–stress‐echocardiography test was positive for myocardial ischemia in 19/60 patients (32%). Conventional‐FFR during adenosine and peak dobutamine had similar values (0.84±0.04 versus 0.84±0.06, P =0.852), but d‐FFR during peak dobutamine was significantly lower than d‐FFR during adenosine (0.76±0.08 versus 0.79±0.08, P =0.018). Diastolic‐FFR during peak dobutamine was significantly lower in the exercise‐stress‐echocardiography test –positive group compared with the exercise‐ stress‐echocardiography test –negative group (0.70±0.07 versus 0.79±0.06, P <0.001), but not during adenosine (0.79±0.07 versus 0.78±0.09, P =0.613). Among physiological indices, d‐FFR during peak dobutamine was the only independent predictor of functionally significant MB (odds ratio, 0.870; 95% CI, 0.767–0.986, P =0.03). Receiver‐operating characteristics curve analysis identifies the optimal d‐FFR during peak dobutamine cut‐off ≤0.76 (area under curve, 0.927; 95% CI, 0.833–1.000; P <0.001) with a sensitivity, specificity, and positive and negative predictive value of 95%, 95%, 90%, and 98%, respectively, for identifying MB associated with stress‐induced ischemia. Conclusions Diastolic‐FFR, but not conventional‐FFR, during inotropic stimulation with high‐dose dobutamine, in comparison to vasodilatation with adenosine, provides more reliable functional significance of MB in relation to stress‐induced myocardial ischemia.


2021 ◽  
Author(s):  
Marina Leitman ◽  
Yoni Balboul ◽  
Oleg Burgsdorf ◽  
Shmuel Fuchs

Abstract PurposeDobutamine stress echocardiography is an alternative method to exercise stress echocardiography for the evaluation of ischemia. Recently, the novel speckle tracking imaging derived parameter, myocardial work index, was suggested for the evaluation of cardiac performance and was evaluated during exercise stress echocardiography. In this study we analyzed the effect of dobutamine on myocardial work index variables during normal dobutamine stress echocardiography.MethodsEchocardiography examinations of patients with normal dobutamine stress echocardiography were collected and underwent off-line speckle tracking imaging analysis. Myocardial work index parameters were calculated at each dose of dobutamine and compared.Results286 patients underwent dobutamine stress echocardiography during the study period. 102 patients were excluded due to pre-existed coronary artery disease or ischemia at dobutamine stress echocardiography. 65 patients were excluded due to suboptimal image quality unsuitable for speckle tracking imaging analysis. The remaining 119 patients with normal results were included. The global work index decreased from 2393.3 to 1864.7 mmHg', p < 0.0004. Global constructive work decreased from 2681.7 to 2152.6 mmHg', p = 0.001. Global wasted work increased from 78.8 to 128.3%, p < 0.003. Global work efficacy decreased from 96.1 to 91.9%, p < 0.00001. Global strain increased from – 19.6 to -23.7%, P < 0.00001. Conclusion. Dobutamine stress echocardiography results in a decrease of all specific myocardial work index parameters even in normal subjects. Only global myocardial strain improved.


2021 ◽  
pp. 18-24
Author(s):  
S. Yu. Bartosh-Zelenaya ◽  
T. V. Naiden ◽  
A. E. Andreeva ◽  
V. V. Stepanova

In order to determine the clinical significance of exercise stress echocardiography in patients with severe to moderate aortic stenosis, a stress-induced increase in the mean pressure gradient across the aortic valve was recorded and myocardial contractile reserve was assessed using a number of parameters (ejection fraction, global longitudinal strain, elasticity index). It was found that, with normal values of EF at rest in patients with severe and moderate aortic stenosis, the deficit in contractile function was revealed using the GLS index, which demonstrated a decrease in both groups at the peak of exercise. A decrease in contractile reserve by both parameters (EF and GLS) was found in the group of patients with severe AS, which, combined with a significant stress-induced increase in the gradient on the aortic valve (≥18–20 mm Hg), an increase in pulmonary artery pressure (>  60 mm Hg) and decrease in systemic systolic blood pressure (>20 mm Hg) should be considered as a predictors of a poor prognosis of the natural course of aortic valve disease, and patients with similar stress test results should be possible candidates for surgical aortic valve replacement. A decrease in the in the LV elasticity index augmentation at the peak of exercise, strongly correlated with changes in other considered parameters of contractility and the metabolic power of exercise (MET), significantly complements the functional characteristics of the lesion for choosing the optimal management strategy. Consequently, exercise stress echocardiography is an indispensable diagnostic tool for determining the prognosis and timing of surgery in patients with aortic stenosis.


Open Heart ◽  
2021 ◽  
Vol 8 (1) ◽  
pp. e001583
Author(s):  
Nobuyuki Kagiyama ◽  
Misako Toki ◽  
Takuya Yuri ◽  
Shingo Aritaka ◽  
Akihiro Hayashida ◽  
...  

ObjectiveSecondary mitral regurgitation (MR) demonstrates dynamic change during exercise. This prospective observational study aimed to compare exercise stress echocardiography (ESE) where handgrip exercise (handgrip-ESE) or semisupine ergometer exercise was performed (ergometer-ESE) for patients with secondary MR.MethodsHandgrip-ESE and symptom-limited ergometer-ESE were performed for 53 patients (median age (IQR): 68 (58–78) years; 70% male) on the same day. Baseline global longitudinal strain (GLS) was 9.2% (6.0%–14.0%) and MR volume was 20 (14–26) mL. All-cause death and cardiac hospitalisation were tracked for median 439 (101–507) days.ResultsHandgrip-ESE induced slightly but significantly greater degrees of MR increase (median one grade increase; p<0.001) than ergometer-ESE, although the changes in other parameters, including GLS (+1.1% vs −0.6%, p<0.001), were significantly smaller. Correlations between the two examinations with respect to the changes in the echocardiographic parameters were weak. Kaplan-Meier analyses revealed poor improvement in GLS during ergometer-ESE, but not the change in MR, was associated with adverse events (p=0.0065). No echocardiographic change observed during handgrip-ESE was prognostic. After adjusting for a clinical risk score, GLS changes during ergometer-ESE remained significant in predicting the adverse events (HR 0.39, p=0.03) A subgroup analysis in patients with moderate or greater MR at baseline (n=27) showed the same results as in the entire cohort.ConclusionsThe physiological and prognostic implications of handgrip-ESE and ergometer-ESE findings significantly differ in patients with left ventricular dysfunction and secondary MR. The type of exercise to be performed in ESE should be carefully selected.


Author(s):  
Natalie F. A. Edwards ◽  
Gregory M. Scalia ◽  
Surendran Sabapathy ◽  
Bonita Anderson ◽  
Robert Chamberlain ◽  
...  

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