7 research outputs found
Echocardiographic phenomenon “RAC-sign” in the anomalous course of circumflex artery: a case report
Coronary artery (CA) anomalies are a group of congenital heart defects with a diverse clinical performance, from lifelong asymptomatic to severe consequences such as sudden cardiac death. In some cases, CA anomalies become an incidental finding during echocardiography. If there is a suspicion of CA anomaly, a radiographic investigation (computed tomography (CT) angiography or magnetic resonance imaging) should be performed to clarify the anatomy and indications for surgical correction.A case of diagnosing a tubular structure with hyperechoic walls in mitral valve projection during echocardiography is presented. The performed CT angiography confirmed the abnormal origin of circumflex artery from the right sinus of Valsalva with its retroaortic course. This echocardiographic sign is described in the English-language literature as Retroaortic Anomalous Coronary sign (RAC-sign)
MEASURING ARTERIAL PRESSURE WITH VOICE SUPPORT
The project is devoted to the development of a blood pressure monitor with a voice guidance that would help visually impaired or blind people to take blood pressure measurements
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Anthropogenic intensification of short-duration rainfall extremes
Short- duration (1-3 h) rainfall extremes can cause serious damage to societies through rapidly developing (flash) flooding and are determined by complex, multifaceted processes that are altering as Earth's climate warms. In this Review, we examine evidence from observational, theoretical and modelling studies for the intensification of these rainfall extremes, the drivers and the impact on flash flooding. Both short- duration and long- duration (\textgreater1 day) rainfall extremes are intensifying with warming at a rate consistent with the increase in atmospheric moisture (~7% K-1), while in some regions, increases in short- duration extreme rainfall intensities are stronger than expected from moisture increases alone. These stronger local increases are related to feedbacks in convective clouds, but their exact role is uncertain because of the very small scales involved. Future extreme rainfall intensification is also modulated by changes to temperature stratification and large- scale atmospheric circulation. The latter remains a major source of uncertainty. Intensification of short- duration extremes has likely increased the incidence of flash flooding at local scales and this can further compound with an increase in storm spatial footprint to considerably increase total event rainfall. These findings call for urgent climate change adaptation measures to manage increasing flood risks