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Abstract
High incidence of morbidity and mortality is associated with systemic hypertension because to its negative effects on a variety of systems, particularly the cardiovascular system. Diastolic dysfunction is a prominent component of this illness, and despite growing recognition of its importance, it is still underappreciated due to its challenging identification and lack of effective treatments. Despite the presence of normal left ventricular (LV) systolic indices, estimate of LV systolic function using strain concepts has recently been shown to be able to differentiate patients with systolic dysfunction. There is little evidence linking hidden myocardial alterations to diastolic dysfunction. The goal of this study is to determine occult left ventricle systolic dysfunction and its relationship to diastolic dysfunction in non-complicated hypertensive patients under the age of 40. Methods: This study included a total of 100 young male volunteers. The research will run from January until April 2020. A sample was taken from the Al-Furat teaching hospital's consulting room.. Hypertensive patients are grouped as group A (E/e,
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References
- Mills K., Bundy J., Kelly T., et al (2016). Global disparities of hypertension prevalence and control: a systematic analysis of population-based studies from 90 countries. Circulation, 134(6):441–50.
- Nazario R. & Marques P. (2017). Diastolic dysfunction in hypertension. Hipertens Riesgo Vasc, 34(3):128–39.
- Messerli F., Rimoldi S., Bangalore S., et al (2017). The transition from hypertension to heart failure: contemporary update. JACC Heart Fail, 5:543
- Mancia G., Fagard R., Narkiewicz K.., et al. (2013). ESH/ESC guidelines for the management of arterial hypertension: the task force for the management of arterial hypertension of the European Society of Hypertension (ESH) and of the European Society of Cardiology (ESC). Eur Heart J, 34(28):2159–219.
- Nazario R., & Marques P. (2017). Diastolic dysfunction in hypertension. Hipertens Riesgo Vasc, 34(3):128–39.
- Weber T., Auer J., O'Rourke M., et al (2009). Prolonged mechanical systole and increased arterial wave reflections in diastolic dysfunction. Heart, 92(11):1616–22.
- Zabalgoitia M., Rahman S., Haley W., et al (1998). Comparison in systemic hypertension of left ventricular mass and geometry with systolic and diastolic function in patients ,65 to . or 565 years of age. Am J Cardiol, 82:604–608.
- Geyer H., Caracciolo G. & Abe H. (2010). Assessment of myocardial mechanics using speckle tracking echocardiography: fundamentals and clinical applications. J Am Soc Echocardiogr, 23:351–369).
- Functional echocardiography. ECAVI hand book. Second edition, 2016. Chapter three, Page 62.
- Chen J, Cao T, Duan Y, Yuan L and Wang Z. (2007). Velocity vector imaging in assessing myocardial systolic function of hypertensive patients with left ventricular hypertrophy. Can J Cardiol, 23:957-961.
- Jain M., Nkonde C., Lin B., et al. (2011). 85% of maximal age predicted heart rate is not valid endpoint for exercise. J Nucl Cardiol, 18(6): 1026-35.
- Giovanni de Simone, MD; Rosanna Greco, MD; GianFrancesco Mureddu, MD; Carmela Romano, MD; Raffaele Guida, MD; Aldo Celentano, MD and Franco Contaldo, MD. (2000). Relation of Left Ventricular Diastolic Properties to Systolic Function in Arterial Hypertension. Circulation,101:152-157.
- Jasmine G., Robert B., Garvan C., et al. (2009). Left Ventricular Function and Exercise Capacity. JAMA, 301(3):286-294.
- Burgess MI, Jenkins C, Sharman JE and Marwick TH. (2006). Diastolic stress echocardiography: hemodynamic validation and clinical significance of estimation of ventricular filling pressure with exercise. J Am Coll Cardiol, 47(9):1891-1900