Clinical usefulness of the second peak of radial systolic blood pressure for estimation of aortic systolic blood pressure

Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further inv...

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Published inJournal of human hypertension Vol. 23; no. 8; pp. 538 - 545
Main Authors Kohara, K, Tabara, Y, Tomita, H, Nagai, T, Igase, M, Miki, T
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.08.2009
Nature Publishing Group
Subjects
Adult
Aged
Aorta
Aorta - physiology
Arterial hypertension. Arterial hypotension
Biological and medical sciences
Blood and lymphatic vessels
Blood Pressure
Blood Pressure Determination - methods
Brachial Artery - physiology
Cardiology. Vascular system
Care and treatment
Clinical manifestations. Epidemiology. Investigative techniques. Etiology
Diagnosis
Epidemiology
Female
Health Administration
Humans
Hypertension
Male
Measurement
Medical sciences
Medicine
Medicine & Public Health
Middle Aged
original-article
Patient outcomes
Prone Position - physiology
Public Health
Radial Artery - physiology
Reproducibility of Results
Supine Position - physiology
Systole - physiology
Japan
waveform analysis
central blood pressure
transfer function method
augmentation index
radial artery
Waveform
Hypertension
Systolic pressure
Estimation
Cardiovascular disease
Aorta
Arterial pressure
Blood pressure
Radial artery
Online AccessGet full text
ISSN0950-9240
1476-5527
1476-5527
DOI10.1038/jhh.2008.154

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Abstract Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further investigated whether TFM-derived aortic SBP can be estimated by information obtained from the radial waveform. The radial waveform was analysed to obtain the first peak of radial SBP (SBP1), second peak of radial SBP (SBP2), radial augmentation index (AI) (radial (SBP2−DBP)/(SBP1−DBP) × 100 and aortic SBP and AI using TFM in 233 subjects in the supine position. Measurements were repeated after changing position to the prone position. The constructed equation was validated in 149 community residents with different backgrounds. Radial SBP2 was closer to TFM-derived aortic SBP compared with brachial SBP. TFM-derived aortic SBP was approximated by the equation: aortic SBP=18.9—radial SBP2−0.03 × HR—0.214 × radial AI ( r 2 =0.992). The equation was also applicable to predicting aortic SBP in the prone position as well as in different populations (mean difference between predicted aortic SBP and TFM-derived aortic SBP: −0.01±1.34 and 1.05±1.47 mm Hg, respectively). Radial arterial waveform analysis can be used for estimation of TFM-derived aortic SBP.
AbstractList Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further investigated whether TFM-derived aortic SBP can be estimated by information obtained from the radial waveform. The radial waveform was analysed to obtain the first peak of radial SBP (SBP1), second peak of radial SBP (SBP2), radial augmentation index (AI) (radial (SBP2-DBP)/(SBP1-DBP) x 100 and aortic SBP and AI using TFM in 233 subjects in the supine position. Measurements were repeated after changing position to the prone position. The constructed equation was validated in 149 community residents with different backgrounds. Radial SBP2 was closer to TFM-derived aortic SBP compared with brachial SBP. TFM-derived aortic SBP was approximated by the equation: aortic SBP=18.9-radial SBP2-0.03 x HR-0.214 x radial AI (r2=0.992). The equation was also applicable to predicting aortic SBP in the prone position as well as in different populations (mean difference between predicted aortic SBP and TFM-derived aortic SBP: -0.01+/-1.34 and 1.05+/-1.47 mm Hg, respectively). Radial arterial waveform analysis can be used for estimation of TFM-derived aortic SBP.Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further investigated whether TFM-derived aortic SBP can be estimated by information obtained from the radial waveform. The radial waveform was analysed to obtain the first peak of radial SBP (SBP1), second peak of radial SBP (SBP2), radial augmentation index (AI) (radial (SBP2-DBP)/(SBP1-DBP) x 100 and aortic SBP and AI using TFM in 233 subjects in the supine position. Measurements were repeated after changing position to the prone position. The constructed equation was validated in 149 community residents with different backgrounds. Radial SBP2 was closer to TFM-derived aortic SBP compared with brachial SBP. TFM-derived aortic SBP was approximated by the equation: aortic SBP=18.9-radial SBP2-0.03 x HR-0.214 x radial AI (r2=0.992). The equation was also applicable to predicting aortic SBP in the prone position as well as in different populations (mean difference between predicted aortic SBP and TFM-derived aortic SBP: -0.01+/-1.34 and 1.05+/-1.47 mm Hg, respectively). Radial arterial waveform analysis can be used for estimation of TFM-derived aortic SBP.
Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further investigated whether TFM-derived aortic SBP can be estimated by information obtained from the radial waveform. The radial waveform was analysed to obtain the first peak of radial SBP (SBP1), second peak of radial SBP (SBP2), radial augmentation index (AI) (radial (SBP2-DBP)/(SBP1-DBP) x 100 and aortic SBP and AI using TFM in 233 subjects in the supine position. Measurements were repeated after changing position to the prone position. The constructed equation was validated in 149 community residents with different backgrounds. Radial SBP2 was closer to TFM-derived aortic SBP compared with brachial SBP. TFM-derived aortic SBP was approximated by the equation: aortic SBP = 18.9--radial SBP2-0.03 x HR-0.214 x radial AI ([r.sup.2] = 0.992). The equation was also applicable to predicting aortic SBP in the prone position as well as in different populations (mean difference between predicted aortic SBP and TFM-derived aortic SBP: -0.01 ± 1.34 and 1.05 ± 1.47 mm Hg, respectively). Radial arterial waveform analysis can be used for estimation of TFM-derived aortic SBP.
Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further investigated whether TFM-derived aortic SBP can be estimated by information obtained from the radial waveform. The radial waveform was analysed to obtain the first peak of radial SBP (SBP1), second peak of radial SBP (SBP2), radial augmentation index (AI) (radial (SBP2-DBP)/(SBP1-DBP) x 100 and aortic SBP and AI using TFM in 233 subjects in the supine position. Measurements were repeated after changing position to the prone position. The constructed equation was validated in 149 community residents with different backgrounds. Radial SBP2 was closer to TFM-derived aortic SBP compared with brachial SBP. TFM-derived aortic SBP was approximated by the equation: aortic SBP=18.9-radial SBP2-0.03 x HR-0.214 x radial AI (r2=0.992). The equation was also applicable to predicting aortic SBP in the prone position as well as in different populations (mean difference between predicted aortic SBP and TFM-derived aortic SBP: -0.01+/-1.34 and 1.05+/-1.47 mm Hg, respectively). Radial arterial waveform analysis can be used for estimation of TFM-derived aortic SBP.
Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further investigated whether TFM-derived aortic SBP can be estimated by information obtained from the radial waveform. The radial waveform was analysed to obtain the first peak of radial SBP (SBP1), second peak of radial SBP (SBP2), radial augmentation index (AI) (radial (SBP2-DBP)/(SBP1-DBP) x 100 and aortic SBP and AI using TFM in 233 subjects in the supine position. Measurements were repeated after changing position to the prone position. The constructed equation was validated in 149 community residents with different backgrounds. Radial SBP2 was closer to TFM-derived aortic SBP compared with brachial SBP. TFM-derived aortic SBP was approximated by the equation: aortic SBP = 18.9--radial SBP2-0.03 x HR-0.214 x radial AI ([r.sup.2] = 0.992). The equation was also applicable to predicting aortic SBP in the prone position as well as in different populations (mean difference between predicted aortic SBP and TFM-derived aortic SBP: -0.01 ± 1.34 and 1.05 ± 1.47 mm Hg, respectively). Radial arterial waveform analysis can be used for estimation of TFM-derived aortic SBP. doi:10.1038/jhh.2008.154; published online 8 January 2009 Keywords: augmentation index; transfer function method; radial artery; central blood pressure; waveform analysis
Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further investigated whether TFM-derived aortic SBP can be estimated by information obtained from the radial waveform. The radial waveform was analysed to obtain the first peak of radial SBP (SBP1), second peak of radial SBP (SBP2), radial augmentation index (AI) (radial (SBP2−DBP)/(SBP1−DBP) × 100 and aortic SBP and AI using TFM in 233 subjects in the supine position. Measurements were repeated after changing position to the prone position. The constructed equation was validated in 149 community residents with different backgrounds. Radial SBP2 was closer to TFM-derived aortic SBP compared with brachial SBP. TFM-derived aortic SBP was approximated by the equation: aortic SBP=18.9—radial SBP2−0.03 × HR—0.214 × radial AI (r2=0.992). The equation was also applicable to predicting aortic SBP in the prone position as well as in different populations (mean difference between predicted aortic SBP and TFM-derived aortic SBP: −0.01±1.34 and 1.05±1.47 mm Hg, respectively). Radial arterial waveform analysis can be used for estimation of TFM-derived aortic SBP.
Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value independently of brachial BP. In this study, the relationship between peripheral systolic BP (SBP) and aortic SBP was evaluated. We further investigated whether TFM-derived aortic SBP can be estimated by information obtained from the radial waveform. The radial waveform was analysed to obtain the first peak of radial SBP (SBP1), second peak of radial SBP (SBP2), radial augmentation index (AI) (radial (SBP2−DBP)/(SBP1−DBP) × 100 and aortic SBP and AI using TFM in 233 subjects in the supine position. Measurements were repeated after changing position to the prone position. The constructed equation was validated in 149 community residents with different backgrounds. Radial SBP2 was closer to TFM-derived aortic SBP compared with brachial SBP. TFM-derived aortic SBP was approximated by the equation: aortic SBP=18.9—radial SBP2−0.03 × HR—0.214 × radial AI ( r 2 =0.992). The equation was also applicable to predicting aortic SBP in the prone position as well as in different populations (mean difference between predicted aortic SBP and TFM-derived aortic SBP: −0.01±1.34 and 1.05±1.47 mm Hg, respectively). Radial arterial waveform analysis can be used for estimation of TFM-derived aortic SBP.
Audience Academic
Author Tabara, Y
Tomita, H
Kohara, K
Igase, M
Nagai, T
Miki, T
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  organization: Department of Geriatric Medicine, Ehime University Graduate School of Medicine
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  surname: Tabara
  fullname: Tabara, Y
  organization: Department of Basic Medical Research and Education, Ehime University Graduate School of Medicine
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  fullname: Tomita, H
  organization: Department of Geriatric Medicine, Ehime University Graduate School of Medicine
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  organization: Department of Geriatric Medicine, Ehime University Graduate School of Medicine
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Issue 8
Keywords waveform analysis
central blood pressure
transfer function method
augmentation index
radial artery
Waveform
Hypertension
Systolic pressure
Estimation
Cardiovascular disease
Aorta
Arterial pressure
Blood pressure
Radial artery
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References WilliamsBLacyPSThomSMCruickshankKStantonACollierDCAFE Investigators; Anglo-Scandinavian Cardiac Outcomes Trial Investigators; CAFE Steering Committee and Writing Committee. Differential impact of blood pressure-lowering drugs on central aortic pressure and clinical outcomes: principal results of the conduit artery function evaluation (CAFE) studyCirculation2006113121312251:CAS:528:DC%2BD28XhvVektrg%3D10.1161/CIRCULATIONAHA.105.606962
KoharaKTabaraYYamamotoYIgaseMMikiTChlamydia pneumoniae seropositivity is associated with increased plasma levels of soluble cellular adhesion molecules in community-dwelling subjects: J-SHIPP studyStroke200233147414791:CAS:528:DC%2BD38Xltlakt7g%3D10.1161/01.STR.0000018974.05768.FB
CameronJDMcGrathBPDartAMUse of radial artery applanation tonometry and a generalized transfer function to determine aortic pressure augmentation in subjects with treated hypertensionJ Am Coll Cardiol199832121412201:STN:280:DyaK1M%2FisFyjsg%3D%3D10.1016/S0735-1097(98)00411-2
KaramanogluMO'RourkeMKAvolioAPKellyRPAn analysis of the relationship between central aortic and peripheral upper limb pressure waves in manEur Heart J1993141601671:STN:280:DyaK3s7ptlKrtw%3D%3D10.1093/eurheartj/14.2.160
ProtogerouADBlacherJMavrikakisMLekakisJSafarMEIncreased pulse pressure amplification in treated hypertensive patients with metabolic syndromeAm J Hypertens20072012713310.1016/j.amjhyper.2006.06.014
TabaraYNakuraJKondoIMikiTKoharaKOrthostatic systolic hypotension and the reflection pressure waveHypertens Res20052853754310.1291/hypres.28.537
TakazawaKKobayashiHShindoNTanakaNYamashinaARelationship between radial and central arterial pulse wave and evaluation of central aortic pressure using the radial arterial pulse waveHypertens Res20073021922810.1291/hypres.30.219
MunirSGuilcherAKamaleshTClappBRedwoodSMarberMPeripheral augmentation index defines the relationship between central and peripheral pulse pressureHypertension2008511121181:CAS:528:DC%2BD2sXhsVagurbF10.1161/HYPERTENSIONAHA.107.096016
SugawaraJKomineHHayashiKMaedaSMatsudaMRelationship between augmentation index obtained from carotid and radial artery pressure waveformsJ Hypertens2007253753811:CAS:528:DC%2BD2sXisV2lsQ%3D%3D10.1097/HJH.0b013e32801092ae
WilkinsonIBFranklinSSHallIRTyrrellSCockroftJRPressure amplification explains why pulse pressure is unrelated to risk in young subjectsHypertension200138146114661:CAS:528:DC%2BD38XisVWntw%3D%3D10.1161/hy1201.097723
SharmanJEStowasserMFassettRGMarwickTHFranklinSSCentral blood pressure measurement may improve risk stratificationJ Hum Hypertens2008221283884410.1038/jhh.2008.71
ChenC-HNevoEFeticsBPakPYinFMaughanWLEstimation of central aortic pressure waveform by mathematical transformation of radial tonometry pressure: validation of generalized transfer functionCirculation199795182718361:STN:280:DyaK2s3mtFaitA%3D%3D10.1161/01.CIR.95.7.1827
ChenCHNevoEFeticsBPakPHYinFCMaughanWLEstimation of central aortic pressure waveform by mathematical transformation of radial tonometry pressure. Validation of generalized transfer functionCirculation199795182718361:STN:280:DyaK2s3mtFaitA%3D%3D10.1161/01.CIR.95.7.1827
NicholsWWClinical measurement of arterial stiffness obtained from noninvasive pressure waveformsAm J Hypertens2005181 Part 23S10S10.1016/j.amjhyper.2004.10.009
WhiteWBAnwarYAEvaluation of the overall efficacy of the Omron office digital blood pressure HEM-907 monitor in adultsBlood Press Monit200161071101:STN:280:DC%2BD38%2FhvF2qsg%3D%3D10.1097/00126097-200104000-00007
MillasseauSCPatelSJRedwoodSRRitterJMChowienczykPJPressure wave reflection assessed from the peripheral pulse: is a transfer function necessary?Hypertension200341101610201:CAS:528:DC%2BD3sXjtFWqtrc%3D10.1161/01.HYP.0000057574.64076.A5
MurakamiTSquatting: the hemodynamic change is induced by enhanced aortic wave reflectionAm J Hypertens20021598698810.1016/S0895-7061(02)03085-6
NicholsWWO'RourkeMFMcDonald's Blood Flow in Arteries: Theoretical, Experimental and Clinical Principles1998Edward Arnold: London, UK
TabaraYTachibana-IimoriRYamamotoMAbeMKondoIMikiTHypotension associated with prone body position: a possible overlooked postural hypotensionHypertens Res20052874174610.1291/hypres.28.741
KoharaKTabaraYOshiumiAMiyawakiYKobayashiTMikiTRadial augmentation index: a useful and easily obtainable parameter for vascular agingAm J Hypertens2005181 Part 211S14S10.1016/j.amjhyper.2004.10.010
PaucaALKonNDO'RourkeMFThe second peak of the radial artery pressure wave represents aortic systolic pressure in hypertensive and elderly patientsBr J Anaesth2004926516571:STN:280:DC%2BD2c3hsFOjsQ%3D%3D10.1093/bja/aeh121
PaucaAO'RourkeMKonNDProspective evaluation of a method for estimating ascending aortic pressure from the radial artery pressure waveformHypertension2001389329371:CAS:528:DC%2BD3MXotVGmu78%3D10.1161/hy1001.096106
KoharaKTabaraYTachibanaRNakuraJMikiTMicroalbuminuria and arterial stiffness in a general population: J-SHIPP studyHypertens Res20042747147710.1291/hypres.27.471
J Sugawara (BFjhh2008154_CR8) 2007; 25
C-H Chen (BFjhh2008154_CR5) 1997; 95
CH Chen (BFjhh2008154_CR17) 1997; 95
K Kohara (BFjhh2008154_CR7) 2005; 18
K Kohara (BFjhh2008154_CR13) 2002; 33
A Pauca (BFjhh2008154_CR6) 2001; 38
WW Nichols (BFjhh2008154_CR1) 1998
M Karamanoglu (BFjhh2008154_CR16) 1993; 14
JD Cameron (BFjhh2008154_CR18) 1998; 32
JE Sharman (BFjhh2008154_CR2) 2008; 22
AD Protogerou (BFjhh2008154_CR20) 2007; 20
K Takazawa (BFjhh2008154_CR11) 2007; 30
IB Wilkinson (BFjhh2008154_CR19) 2001; 38
B Williams (BFjhh2008154_CR4) 2006; 113
T Murakami (BFjhh2008154_CR21) 2002; 15
Y Tabara (BFjhh2008154_CR23) 2005; 28
WW Nichols (BFjhh2008154_CR3) 2005; 18
Y Tabara (BFjhh2008154_CR22) 2005; 28
SC Millasseau (BFjhh2008154_CR9) 2003; 41
S Munir (BFjhh2008154_CR12) 2008; 51
AL Pauca (BFjhh2008154_CR10) 2004; 92
WB White (BFjhh2008154_CR15) 2001; 6
K Kohara (BFjhh2008154_CR14) 2004; 27
References_xml – reference: MunirSGuilcherAKamaleshTClappBRedwoodSMarberMPeripheral augmentation index defines the relationship between central and peripheral pulse pressureHypertension2008511121181:CAS:528:DC%2BD2sXhsVagurbF10.1161/HYPERTENSIONAHA.107.096016
– reference: WilliamsBLacyPSThomSMCruickshankKStantonACollierDCAFE Investigators; Anglo-Scandinavian Cardiac Outcomes Trial Investigators; CAFE Steering Committee and Writing Committee. Differential impact of blood pressure-lowering drugs on central aortic pressure and clinical outcomes: principal results of the conduit artery function evaluation (CAFE) studyCirculation2006113121312251:CAS:528:DC%2BD28XhvVektrg%3D10.1161/CIRCULATIONAHA.105.606962
– reference: MillasseauSCPatelSJRedwoodSRRitterJMChowienczykPJPressure wave reflection assessed from the peripheral pulse: is a transfer function necessary?Hypertension200341101610201:CAS:528:DC%2BD3sXjtFWqtrc%3D10.1161/01.HYP.0000057574.64076.A5
– reference: SharmanJEStowasserMFassettRGMarwickTHFranklinSSCentral blood pressure measurement may improve risk stratificationJ Hum Hypertens2008221283884410.1038/jhh.2008.71
– reference: SugawaraJKomineHHayashiKMaedaSMatsudaMRelationship between augmentation index obtained from carotid and radial artery pressure waveformsJ Hypertens2007253753811:CAS:528:DC%2BD2sXisV2lsQ%3D%3D10.1097/HJH.0b013e32801092ae
– reference: PaucaALKonNDO'RourkeMFThe second peak of the radial artery pressure wave represents aortic systolic pressure in hypertensive and elderly patientsBr J Anaesth2004926516571:STN:280:DC%2BD2c3hsFOjsQ%3D%3D10.1093/bja/aeh121
– reference: ChenCHNevoEFeticsBPakPHYinFCMaughanWLEstimation of central aortic pressure waveform by mathematical transformation of radial tonometry pressure. Validation of generalized transfer functionCirculation199795182718361:STN:280:DyaK2s3mtFaitA%3D%3D10.1161/01.CIR.95.7.1827
– reference: PaucaAO'RourkeMKonNDProspective evaluation of a method for estimating ascending aortic pressure from the radial artery pressure waveformHypertension2001389329371:CAS:528:DC%2BD3MXotVGmu78%3D10.1161/hy1001.096106
– reference: KaramanogluMO'RourkeMKAvolioAPKellyRPAn analysis of the relationship between central aortic and peripheral upper limb pressure waves in manEur Heart J1993141601671:STN:280:DyaK3s7ptlKrtw%3D%3D10.1093/eurheartj/14.2.160
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– reference: CameronJDMcGrathBPDartAMUse of radial artery applanation tonometry and a generalized transfer function to determine aortic pressure augmentation in subjects with treated hypertensionJ Am Coll Cardiol199832121412201:STN:280:DyaK1M%2FisFyjsg%3D%3D10.1016/S0735-1097(98)00411-2
– reference: TabaraYNakuraJKondoIMikiTKoharaKOrthostatic systolic hypotension and the reflection pressure waveHypertens Res20052853754310.1291/hypres.28.537
– reference: ProtogerouADBlacherJMavrikakisMLekakisJSafarMEIncreased pulse pressure amplification in treated hypertensive patients with metabolic syndromeAm J Hypertens20072012713310.1016/j.amjhyper.2006.06.014
– reference: NicholsWWO'RourkeMFMcDonald's Blood Flow in Arteries: Theoretical, Experimental and Clinical Principles1998Edward Arnold: London, UK
– reference: KoharaKTabaraYOshiumiAMiyawakiYKobayashiTMikiTRadial augmentation index: a useful and easily obtainable parameter for vascular agingAm J Hypertens2005181 Part 211S14S10.1016/j.amjhyper.2004.10.010
– reference: ChenC-HNevoEFeticsBPakPYinFMaughanWLEstimation of central aortic pressure waveform by mathematical transformation of radial tonometry pressure: validation of generalized transfer functionCirculation199795182718361:STN:280:DyaK2s3mtFaitA%3D%3D10.1161/01.CIR.95.7.1827
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– reference: MurakamiTSquatting: the hemodynamic change is induced by enhanced aortic wave reflectionAm J Hypertens20021598698810.1016/S0895-7061(02)03085-6
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– reference: TakazawaKKobayashiHShindoNTanakaNYamashinaARelationship between radial and central arterial pulse wave and evaluation of central aortic pressure using the radial arterial pulse waveHypertens Res20073021922810.1291/hypres.30.219
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Snippet Central aortic blood pressure (BP), obtained from radial arterial waveform using the transfer function method (TFM), has been shown to have prognostic value...
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StartPage 538
SubjectTerms Adult
Aged
Aorta
Aorta - physiology
Arterial hypertension. Arterial hypotension
Biological and medical sciences
Blood and lymphatic vessels
Blood Pressure
Blood Pressure Determination - methods
Brachial Artery - physiology
Cardiology. Vascular system
Care and treatment
Clinical manifestations. Epidemiology. Investigative techniques. Etiology
Diagnosis
Epidemiology
Female
Health Administration
Humans
Hypertension
Male
Measurement
Medical sciences
Medicine
Medicine & Public Health
Middle Aged
original-article
Patient outcomes
Prone Position - physiology
Public Health
Radial Artery - physiology
Reproducibility of Results
Supine Position - physiology
Systole - physiology
Title Clinical usefulness of the second peak of radial systolic blood pressure for estimation of aortic systolic blood pressure
URI https://link.springer.com/article/10.1038/jhh.2008.154
https://www.ncbi.nlm.nih.gov/pubmed/19129857
https://www.proquest.com/docview/219969072
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https://www.proquest.com/docview/67493985
Volume 23
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