The arterial reservoir pressure increases with aging and is the major determinant of the aortic augmentation index.
about
Meta-analysis of the comparative effects of different classes of antihypertensive agents on brachial and central systolic blood pressure, and augmentation indexExcess pressure integral predicts cardiovascular events independent of other risk factors in the conduit artery functional evaluation substudy of Anglo-Scandinavian Cardiac Outcomes TrialCentral blood pressure: current evidence and clinical importance.Forward and backward wave morphology and central pressure augmentation in men and women in the Framingham Heart StudyAortic reservoir characteristics and brain structure in people with type 2 diabetes mellitus; a cross sectional study.Effect of endurance exercise training and curcumin intake on central arterial hemodynamics in postmenopausal women: pilot study.Effects of enhanced external counterpulsation on arterial stiffness and myocardial oxygen demand in patients with chronic angina pectorisCross-sectional and longitudinal assessment of arterial stiffening with age in European and chinese populations.Pulse pressure amplification in relation to body fatness.Influence of aerobic exercise training on post-exercise responses of aortic pulse pressure and augmentation pressure in postmenopausal womenAssociations and clinical relevance of aortic-brachial artery stiffness mismatch, aortic reservoir function, and central pressure augmentationBrachial-ankle pulse wave velocity is the only index of arterial stiffness that correlates with a mitral valve indices of diastolic dysfunction, but no index correlates with left atrial size.Limitations of augmentation index in the assessment of wave reflection in normotensive healthy individualsThe importance of wave reflection: A comparison of wave intensity analysis and separation of pressure into forward and backward components.Different associations between beta-blockers and other antihypertensive medication combinations with brachial blood pressure and aortic waveform parameters.Central aortic reservoir-wave analysis improves prediction of cardiovascular events in elderly hypertensives.Statin utilisation in a real-world setting: a retrospective analysis in relation to arterial and cardiovascular autonomic functionArterial waveform parameters in a large, population-based sample of adults: relationships with ethnicity and lifestyle factorsAortic Waveform Analysis to Individualize Treatment in Heart Failure.Future Treatment of Hypertension: Shifting the Focus from Blood Pressure Lowering to Arterial Stiffness Modulation?Free-weight resistance exercise on pulse wave reflection and arterial stiffness between sexes in young, resistance-trained adults.A method to implement the reservoir-wave hypothesis using phase-contrast magnetic resonance imaging.Acute resistance exercise using free weights on aortic wave reflection characteristics.Evaluation of a model-based hemodynamic monitoring method in a porcine study of septic shock.On the mechanics underlying the reservoir-excess separation in systemic arteries and their implications for pulse wave analysis.CrossTalk opposing view: Forward and backward pressure waves in the arterial system do not represent reality.Gender-specific contribution of aortic augmentation index to variations in left ventricular mass index in a community sample of African ancestry.Resistance exercise training reduces arterial reservoir pressure in older adults with prehypertension and hypertension.Effect of whole-body mild-cold exposure on arterial stiffness and central haemodynamics: a randomised, cross-over trial in healthy men and women.Enhanced Aortic Reflected Wave Magnitude Accounts for the Impact of Female Gender on Aortic Pressure Augmentation in a Group of African Ancestry.Computational assessment of hemodynamics-based diagnostic tools using a database of virtual subjects: Application to three case studies.Effect of Monthly, High-Dose, Long-Term Vitamin D Supplementation on Central Blood Pressure Parameters: A Randomized Controlled Trial Substudy.Pulse wave travel distance as a novel marker of ventricular-arterial coupling.Classical electrical and hydraulic Windkessel models validate physiological calculations of Windkessel (reservoir) pressure.Fast spin echo imaging of carotid artery dynamics.Evaluating the Hemodynamic Basis of Age-Related Central Blood Pressure Change Using Aortic Flow Triangulation.Determinants of pressure wave reflection: characterization by the transit time-independent reflected wave amplitude.The usefulness of a single arm cuff oscillometric method (Arteriograph) to assess changes in central aortic blood pressure and arterial stiffness by antihypertensive treatment: results from the Doxazosin-Ramipril Study.Effects of acute cold exposure on carotid and femoral wave intensity indexes: evidence for reflection coefficient as a measure of distal vascular resistance.Genesis of the characteristic pulmonary venous pressure waveform as described by the reservoir-wave model.
P2860
Q26861653-B171B469-D9F7-41EC-A063-CE96634135E0Q30581310-F704EBD8-B89B-4161-862B-3B65EDF8077DQ34137689-9E7270C2-102A-4532-B1B2-9E4667CD3BC0Q34287880-61F1F1AA-A60F-4368-B5DD-E520CA34D20AQ34460030-D095785D-1F71-42B2-B931-77354532A3E7Q34636667-6F9CABA2-AFDF-4BBF-A5EE-C831579C7B59Q34928262-8C8771BB-0DFA-49C4-AEAC-D68028F9182BQ36033518-1EC63D26-C60A-4544-A45F-D0A8A3ED53A6Q36036361-AE0BC4BC-7219-4771-99A2-5101E8EADAB1Q36128934-D2DF2842-7A0B-4568-A788-0E1A15DB1EDFQ36246155-9A77824D-94C8-4E1C-A2D6-7A8B5A525963Q36711621-2865A88A-A307-433B-B46D-94DC37A1701AQ36721486-70F744B2-005C-48CF-80C9-A7C16CEE4DD8Q37059697-DDE9E731-0A05-4E98-AB94-D0A0E0D70362Q37135698-1B3F3D74-F771-4033-9848-F31921512D2BQ37309106-56775392-DF5A-425D-A7E4-AF26A70A1DD2Q37579955-63789814-0867-4086-B2FA-159F3920605EQ37740684-90575D94-FF1A-4518-95E4-2095048A2F12Q38381276-91FE4F37-9E8D-4575-8762-AA544746A761Q38544207-0B932CB6-1405-44D0-A5D6-3EF0C3CF4D00Q38696745-596DDA48-1A64-4296-9D55-1D2319CC058DQ39076358-B87B934C-1B06-4A43-8D1D-64E6FD1E581CQ39268282-89B582F2-F0EF-42C3-92E4-86B207C2D6E8Q39711034-82C1F8AD-C3D0-459C-8F29-732B740F8499Q41618366-0D34C59D-A309-41B8-A094-764990F90F77Q43705232-BA61BF3B-45D2-4F7B-900D-644ACE4D4C26Q45821504-BB0501C5-4F0D-4657-9D39-7DC06B8058B2Q46031823-6C03BD97-422A-47F5-AD30-6A5204D14ABFQ46125419-9B9F423D-A218-4D5F-87A2-EE8C12865395Q46418481-162D07F7-36F8-4379-9560-BC639F9640DEQ47129702-CE66D462-7412-4A88-A422-549D93F51CACQ47142536-78F658D7-2330-4569-97C4-41C0F553037CQ47245460-6FD78E6A-2626-47B1-98D2-9A4A09029D1FQ47948705-EF6AAD80-C2FB-4104-BEE5-8CF8B7144610Q48486834-9D5C0250-FA13-4664-B414-4436D0C5407DQ48793891-AF47F375-279D-480B-B614-6339BE42C96CQ48948126-58D64241-05A9-4A77-BA53-E2C052667B3BQ50090736-C596A0F5-2659-4FB9-8D4A-7813491004B9Q51635803-18F64ADB-B444-454E-B4F0-DA8EBDB9E127Q53504022-D48B9BD2-EEF0-401B-BD19-8DF154D113A1
P2860
The arterial reservoir pressure increases with aging and is the major determinant of the aortic augmentation index.
description
2009 nî lūn-bûn
@nan
2009 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
The arterial reservoir pressur ...... the aortic augmentation index.
@ast
The arterial reservoir pressur ...... the aortic augmentation index.
@en
type
label
The arterial reservoir pressur ...... the aortic augmentation index.
@ast
The arterial reservoir pressur ...... the aortic augmentation index.
@en
prefLabel
The arterial reservoir pressur ...... the aortic augmentation index.
@ast
The arterial reservoir pressur ...... the aortic augmentation index.
@en
P2093
P2860
P50
P1476
The arterial reservoir pressur ...... the aortic augmentation index.
@en
P2093
Darrel P Francis
Iqbal S Malik
Jamil Mayet
John Baksi
John V Tyberg
Justin E Davies
Kim H Parker
Nearchos Hadjiloizou
Rodney A Foale
Zachary I Whinnett
P2860
P304
P356
10.1152/AJPHEART.00875.2009
P577
2009-12-11T00:00:00Z