Relations of Central Hemodynamics and Aortic Stiffness with Left Ventricular Structure and Function: The Framingham Heart Study

Background The differing relations of steady and pulsatile components of central hemodynamics and aortic stiffness with cardiac dimensions and function have not been fully elucidated. Methods and Results Central hemodynamics and carotid‐femoral pulse wave velocity (CFPWV, a measure of aortic stiffness) were measured by arterial tonometry in 5799 participants of the Framingham Heart Study (mean age 51 years, 54% women) and related to echocardiographic left ventricular (LV) dimensions and systolic and diastolic function using multivariable‐adjusted partial Pearson correlations. Mean arterial pressure (MAP, steady component of central blood pressure) was associated positively with LV wall thickness (r=0.168; P<0.0001) but showed only a weak direct association with LV diastolic dimension (r=0.035, P=0.006). Central pulse pressure (pulsatile component of central blood pressure) showed a direct correlation with both LV diastolic dimension and LV wall thickness (r=0.08 and 0.044, both P<0.0001 in multivariable models that included MAP). CFPWV was not associated with LV structure (all P≥0.27) in MAP‐adjusted models). Both MAP and CFPWV were associated inversely with LV diastolic function (E′; r=−0.140 and −0.153, respectively; both P<0.0001), and these associations persisted after additional adjustment for LV mass and central pulse pressure (r=−0.142 and −0.108, both P<0.0001). MAP and CFPWV were not associated with LV fractional shortening (P≥0.10), whereas central pulse pressure was positively related (r=0.064, P<0.0001). Conclusions Pulsatile and steady components of central pressure are conjointly yet variably related to LV structure. CFPWV is related to LV diastolic function but not to systolic function. Additional studies are warranted to confirm these observations.

[1]  V. Gudnason,et al.  Relations Between Aortic Stiffness and Left Ventricular Structure and Function in Older Participants in the Age, Gene/Environment Susceptibility-Reykjavik Study , 2015, Circulation. Cardiovascular imaging.

[2]  V. Gudnason,et al.  Pulse Pressure Relation to Aortic and Left Ventricular Structure in the Age, Gene/Environment Susceptibility (AGES)-Reykjavik Study , 2014, Hypertension.

[3]  Martin Szarski,et al.  Estimation of central aortic blood pressure: a systematic meta-analysis of available techniques , 2014, Journal of hypertension.

[4]  A. Hughes,et al.  Aortic Reservoir Pressure Corresponds to Cyclic Changes in Aortic Volume: Physiological Validation in Humans , 2014, Arteriosclerosis, thrombosis, and vascular biology.

[5]  G. Dwivedi,et al.  Heart failure with preserved ejection fraction: current understanding and emerging concepts , 2013, Current opinion in cardiology.

[6]  P. Segers,et al.  Early and Late Systolic Wall Stress Differentially Relate to Myocardial Contraction and Relaxation in Middle-Aged Adults: The Asklepios Study , 2013, Hypertension.

[7]  Daniel Levy,et al.  Aortic stiffness, blood pressure progression, and incident hypertension. , 2012, JAMA.

[8]  R. Sacco,et al.  Arterial Stiffness and Wave Reflection: Sex Differences and Relationship With Left Ventricular Diastolic Function , 2012, Hypertension.

[9]  D Wichterle,et al.  Relation of central and brachial blood pressure to left ventricular hypertrophy. The Czech Post-MONICA Study , 2012, Journal of Human Hypertension.

[10]  Yan Li,et al.  Cardiac structure and function in relation to central blood pressure components in Chinese , 2011, Journal of hypertension.

[11]  W. Paulus,et al.  Heart failure with preserved ejection fraction: pathophysiology, diagnosis, and treatment. , 2011, European heart journal.

[12]  Lei Wu,et al.  Relationship of arterial stiffness and early mild diastolic heart failure in general middle and aged population. , 2010, European heart journal.

[13]  Na Wang,et al.  Hemodynamic Correlates of Blood Pressure Across the Adult Age Spectrum: Noninvasive Evaluation in the Framingham Heart Study , 2010, Circulation.

[14]  E. Benjamin,et al.  Correlates of Echocardiographic Indices of Cardiac Remodeling Over the Adult Life Course: Longitudinal Observations From the Framingham Heart Study , 2010, Circulation.

[15]  L. de las Fuentes,et al.  Central aortic pressure is independently associated with diastolic function. , 2010, American heart journal.

[16]  Richard B Devereux,et al.  Relations of central and brachial blood pressure to left ventricular hypertrophy and geometry: the Strong Heart Study , 2010, Journal of hypertension.

[17]  Hao-Min Cheng,et al.  Central or peripheral systolic or pulse pressure: which best relates to target organs and future mortality? , 2009, Journal of hypertension.

[18]  J. Lekakis,et al.  Incremental value of arterial wave reflections in the determination of left ventricular diastolic dysfunction in untreated patients with essential hypertension , 2008, Journal of Human Hypertension.

[19]  D. Kass,et al.  Impact of arterial load and loading sequence on left ventricular tissue velocities in humans. , 2007, Journal of the American College of Cardiology.

[20]  A. Hoes,et al.  Clinical epidemiology of heart failure , 2007, Heart.

[21]  Richard B. Devereux,et al.  Central Pressure More Strongly Relates to Vascular Disease and Outcome Than Does Brachial Pressure: The Strong Heart Study , 2007, Hypertension.

[22]  Qiong Yang,et al.  The Third Generation Cohort of the National Heart, Lung, and Blood Institute's Framingham Heart Study: design, recruitment, and initial examination. , 2007, American journal of epidemiology.

[23]  J. Sharman,et al.  Association of arterial wave properties and diastolic dysfunction in patients with type 2 diabetes mellitus. , 2007, The American journal of cardiology.

[24]  J. Seward,et al.  Relation of arterial stiffness to left ventricular diastolic function and cardiovascular risk prediction in patients > or =65 years of age. , 2006, The American journal of cardiology.

[25]  T. Marwick,et al.  Relation of arterial stiffness to diastolic dysfunction in hypertensive heart disease , 2005, Heart.

[26]  G. Mitchell,et al.  Arterial stiffness and wave reflection in hypertension: Pathophysiologic and therapeutic implications , 2004, Current hypertension reports.

[27]  D. Levy,et al.  Changes in Arterial Stiffness and Wave Reflection With Advancing Age in Healthy Men and Women: The Framingham Heart Study , 2004, Hypertension.

[28]  R. Vasan,et al.  The role of hypertension in the pathogenesis of heart failure. A clinical mechanistic overview. , 1996, Archives of internal medicine.

[29]  R. Pini,et al.  Relation of arterial pressure waveform to left ventricular and carotid anatomy in normotensive subjects. , 1993, Journal of the American College of Cardiology.

[30]  N. Reichek,et al.  Echocardiographic assessment of left ventricular hypertrophy: comparison to necropsy findings. , 1986, The American journal of cardiology.

[31]  W. Kannel,et al.  An investigation of coronary heart disease in families. The Framingham offspring study. , 1979, American journal of epidemiology.

[32]  W. Hamilton,et al.  AN EXPERIMENTAL STUDY OF THE STANDING WAVES IN THE PULSE PROPAGATED THROUGH THE AORTA , 1938 .