Exercise stress echocardiography with probe fixated on patient's chest

Abstract Background Stress echocardiography (SE) has been widely used in clinical practice for decades and recently has gained even more importance in diagnostic approach to ischemic heart disease. However, it still has numerous limitations. Despite advantages of physical exercise as most physiologic stressor, it is impossible to continuously monitor the cardiac function during treadmill test and difficult to maintain an optimal acoustic window during cycle ergometer exercise test. We aimed to assess the feasibility of probe fixation for the use during exercise echocardiography. Methods 48 subjects (47 men, mean age 42±17 years, 25 healthy volunteers, 23 patients with suspected coronary artery disease) were included in this study. All subjects underwent exercise stress test on treadmill (32 cases) or cycle ergometer (16 cases). Both sector and matrix probes were used (in 17 and 31 tests, respectively). We assessed semi-quantitatively the quality of acquired apical views at each stage using four-point grading system (0 = poor, 1 = suboptimal, 2 = acceptable, 3 = optimal). Results The mean time required for probe fixation was 9±2 min. At baseline, 10 patients had at least one apical window of quality precluding reliable analysis. 25 patients probe repositioning during exercise (more often on treadmill). During peak exercise quality of images in all views declined, but it remained sufficient in 29 patients for diagnostic purposes. Thus, 76% of performed tests (60% for all study population) were of sufficient image quality. Conclusion Probe fixation offers the possibility of continuous acquisition of echocardiographic images during physical exercise. However the device is suitable almost exclusively for male patients. Moreover, in some patients it requires repositioning. Funding Acknowledgement Type of funding sources: None. </jats:sec

P1398 Echocardiographic continuous monitoring of exercise stress test using probe fixation device

Abstract Background Stress echocardiography (SE) plays an important role among methods of noninvasive diagnosis of ischemic disease. Despite the advantages of physical exercise as the most physiologic stressor, it is difficult (bicycle ergometer) or impossible (treadmill) to obtain and maintain the acoustic window during the exercise. Recently, an innovative probe fixation device was introduced and a research plan was developed to assess the feasibility of external probe fixation during exercise echocardiography on a supine bicycle and upright treadmill exercise for the first time. Methods 37 subjects (36 men, mean age 39 ± 16 years, 21 healthy volunteers, 16 patients with suspected coronary artery disease) were included in this study. This preliminary testing stage included mostly men due to more problematic probe fixation in women. All subjects underwent a submaximal exercise stress test on a treadmill (17/37) or bicycle ergometer (11/37). Both sector and matrix probes were used. We assessed semi-quantitatively the quality of acquired apical views at each stage – the four-point grading system was used (0-no view, 1-suboptimal quality, 2-optimal quality, 3-very good quality), 2-3 sufficient for diagnosis. Results The mean time required for careful positioning of the probe and image optimization was 12 ± 3 min and shortened from 13,7 to 11,1 minutes (mean) in first vs second half of the cohort documenting learning curve. At baseline, 9 patients had at least one apical view of quality precluding reliable analysis. Those patients were excluded from further assessment. During stress, 17 patients maintained the optimal or very good quality of all apical views, whereas in 11 patients the quality significantly decreased during the stress test and required probe repositioning. The mean image quality score at baseline was 2,61 ± 0,48 and 2,25 ± 0,6 after exercise. Expectedly, good image quality was easier to obtain and maintain in the supine position (score 2,74 ± 0,44) points as compared with upright position (score 2,25 ± 0,57). Conclusion This preliminary, unique experience with external probe fixation device indicates that continuous acquisition and monitoring of echocardiographic images is feasible during physical exercise, and for the first time ever - also on the treadmill. This feasibility data stem from almost exclusively male patients and the estimated rate of sufficient image quality throughout the entire test is currently around 60%. We are hoping, that gaining more experience with the product could increase the success rate on exercise tests. Abstract P1398 Figure. Treadmill and ergometer stress test </jats:sec

March, September and December months with the greatest influence of atmospheric pressure on blood pressure in patients with hypertension

Abstract Objectives For a long time, science has searched for the relationship between weather and human health. Atmospheric pressure is the most objective weather factor because, regardless of whether the objects are outdoors or indoors, it affects all objects in the same way. In cardiology, we often look for factors that worsen blood pressure control. Could atmospheric pressure be one of them? The main objective of our research was to assess the relationship between atmospheric pressure and blood pressure in patients with treated hypertension in different months in the moderate climate of Central Poland. Material and methods The study group consisted of 4191 patients with arterial hypertension, divided into 2 near equal groups due to a lower or higher average value of atmospheric pressure when blood pressure was recorded. Blood pressure was monitored by a means of 24-h ABPM. Atmospheric pressure was recorded with the frequency of 1 measurement per minute using a meteorological station. The observations were conducted in the years 2009–2019. Comparisons between blood pressure values in the 2 groups were performed using the Mann-Whitney U test. Results We observed a significant difference in blood pressure recorded during the periods of lower and higher atmospheric pressure: for systolic blood pressure during the days of September (125.01±14.99 vs 120.14±12.83, p&amp;lt;0.001) and December (124.22±15.45 vs 127.50±14.35, p&amp;lt;0.05), for diastolic pressure during the days of March (72.24±10.92 vs 69.81±9.13, p&amp;lt;0.02) and for diastolic pressure during the nights of March (61.53±8.96 vs 59.58±9.17, p&amp;lt;0.04). Conclusions A significant inverse relationship between atmospheric pressure and blood pressure was observed; during March days and nights for diastolic blood pressure and during September and December days for systolic blood pressure. This finding may be important for the understanding of why during some months the pharmacological control of blood pressure is poor, and of the consequences of this fact. Funding Acknowledgement Type of funding sources: Public hospital(s). Main funding source(s): own resources </jats:sec