281. Assessment of the diurnal blood pressure profile and detection of non-dippers based on home or ambulatory monitoring.
Stergiou GS, Nasothimiou EG, Destounis A, Poulidakis E, Evagelou I, Tzamouranis D.
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282. Feasibility and reproducibility of noninvasive 24-h ambulatory aortic blood pressure monitoring with a brachial cuff-based oscillometric device.
Protogerou AD, Argyris A, Nasothimiou E, Vrachatis D, Papaioannou TG, Tzamouranis D, Blacher J, Safar ME, Sfikakis P, Stergiou GS.
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283. Ambulatory arterial stiffness index: a systematic review and meta-analysis.
Kollias A, Stergiou GS, Dolan E, O'Brien E.
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284. Home versus ambulatory and office blood pressure in predicting target organ damage in hypertension: a systematic review and meta-analysis.
Bliziotis IA, Destounis A, Stergiou GS.
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285. Automatic office blood pressure measured without doctors or nurses present.
Ishikawa J, Nasothimiou EG, Karpettas N, McDoniel S, Feltheimer SD, Stergiou GS, Pickering TG, Schwartz JE.
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286. Diagnostic accuracy of home vs. ambulatory blood pressure monitoring in untreated and treated hypertension.
Nasothimiou EG, Tzamouranis D, Rarra V, Roussias LG, Stergiou GS.
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Several studies with relatively small size and different design and end points have investigated the diagnostic ability of home blood pressure (HBP). This study investigated the usefulness of HBP compared with ambulatory monitoring (ABP) in diagnosing sustained hypertension, white coat phenomenon (WCP) and masked hypertension (MH) in a large sample of untreated and treated subjects using a blood pressure (BP) measurement protocol according to the current guidelines. A total of 613 subjects attending a hypertension clinic (mean age 53±12.4 (s.d.) years, men 57%, untreated 59%) had measurements of clinic BP (three visits, triplicate measurements per visit), HBP (6 days, duplicate morning and evening measurements) and awake ABP (20-min intervals) within 6 weeks. Sustained hypertension was diagnosed in 50% of the participants by ABP and HBP (agreement 89%, κ=0.79), WCP in 14 and 15%, respectively (agreement 89%, κ=0.56) and MH in 16% and 15% (agreement 88%, κ=0.52). Only 4% of the subjects (27/613) showed clinically significant diagnostic disagreement with BP deviation >5 mm Hg above the diagnostic threshold (for HBP or ABP). By taking ABP as reference, the sensitivity, specificity, positive and negative predictive value of HBP in detecting sustained hypertension were 90, 89, 89 and 90%, respectively, WCP 61, 94, 64 and 94% and MH 60, 93, 60 and 93%. Similar diagnostic agreement was found in untreated and treated subjects. HBP appears to be a reliable alternative to ABP in the diagnosis of hypertension and the detection of WCP and MH in both untreated and treated subjects.
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287. Home blood pressure monitoring may make office measurements obsolete.
Stergiou GS, Parati G.
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288. Obesity and associated cardiovascular risk factors among schoolchildren in Greece: a cross-sectional study and review of the literature.
Kollias A, Skliros E, Stergiou GS, Leotsakos N, Saridi M, Garifallos D.
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289. Requirements for professional office blood pressure monitors.
Stergiou GS, Parati G, Asmar R, O'Brien E.
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For more than half a century measurement of blood pressure in the doctor's office using a mercury sphygmomanometer and the auscultatory method has been the cornerstone for hypertension management. However, due to the environmental and service issues mercury devices will not be available in the near future. As the mercury sphygmomanometer is being progressively eliminated from clinical use, it is being replaced by a variety of devices, which may not have been validated. This change in the practice of measurement may have an unpredictable impact on the threshold levels used for the diagnosis of hypertension and may also influence the management of hypertension. This expert document provides (i) information on the current availability of technologies and devices with potential for professional use (oscillometric, hybrid, aneroid and mercury devices) and the advantages and limitations of each one of them, and (ii) guidance on the requirements and selection of mercury-free blood pressure monitors for professional use. With the increasing use of automated oscillometric devices it is likely that the auscultatory technique will soon become redundant. However, consideration will be given to some of the technical aspects of the oscillometric technique and to the educational aspects of auscultation that may make it premature to abandon the technique altogether.
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290. Sodium handling is associated with liver function impairment and renin-aldosterone axis activity in patients with preascitic cirrhosis without hyponatremia.
Tzamouranis D, Alexopoulou A, Dourakis SP, Stergiou GS.
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291. Home versus ambulatory blood pressure monitoring in the diagnosis of clinic resistant and true resistant hypertension.
Nasothimiou EG, Tzamouranis D, Roussias LG, Stergiou GS.
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Ambulatory blood pressure (ABP) monitoring is recommended as a standard method for the evaluation of resistant hypertension (RH). This study assessed the diagnostic value of home blood pressure (HBP) monitoring in RH. Subjects on stable treatment with ≥3 antihypertensive drugs were included. Clinic RH (CRH) was defined as elevated clinic blood pressure and true RH (TRH) as elevated ABP. The diagnosis of CRH was verified by ABP and HBP monitoring. The diagnostic value of HBP was assessed by taking ABP as reference method. Threshold for hypertension diagnosis was ≥135/85 mm Hg (systolic and/or diastolic) for HBP and awake ABP and ≥140/90 mm Hg for clinic blood pressure. Among 73 subjects on ≥3 antihypertensive drugs, 44 (60%) had CRH and 40 (55%) TRH. There was agreement between ABP and HBP in diagnosing CRH in 82% of the cases (26 subjects (59%) with CRH and 10 (23%) without CRH; kappa 0.59). Regarding the diagnosis of TRH, there was agreement between ABP and HBP in 74% of the cases (36 subjects (49%) with TRH and 18 (25%) without TRH; kappa 0.46). The sensitivity, specificity, and positive and negative predictive values of HBP in detecting CRH were 93%, 63%, and 81% and 83%, respectively, and TRH were 90%, 55%, and 71%, and 82%, respectively (ABP taken as reference method). These data suggest that HBP is a reliable alternative to ABP in the evaluation of RH. These methods are necessary in both uncontrolled and controlled subjects on triple therapy to detect the white coat phenomenon and also masked RH.
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292. A perfect replacement for the mercury sphygmomanometer: the case of the hybrid blood pressure monitor.
Stergiou GS, Karpettas N, Kollias A, Destounis A, Tzamouranis D.
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This study validated a hybrid mercury-free device as a replacement of the mercury sphygmomanometer for professional use, and also as a standard for future validations. A validation study was performed according to the European Society of Hypertension International Protocol 2010 (ESH-IP) in 33 subjects using simultaneous blood pressure (BP) measurements. A total of six BP measurements were taken per participant simultaneously by a supervisor (S; hybrid auscultatory device Nissei DM3000) and two observers (A and B; mercury sphygmomanometers). ESH-IP analysis (99 BP readings): mean device-observer systolic/diastolic BP difference 0.2±2.0/0.1±2.0 mm Hg; systolic BP differences ≤5/10/15 mm Hg in 97/99/99 readings, respectively (diastolic 98/99/99). All 33 subjects had 2 of 3 BP differences ≤5 mm Hg and none without a difference ≤5 mm Hg. Further analysis (198 BP readings): mean differences S-A 0.1±2.4/0.2±2.4 mm Hg (systolic/diastolic), S-B 0.3±2.1/0.2±2.2, A-B 0.2±2.4/0.0±2.3; differences ≤2 mm Hg S-A in 88/84% (systolic/diastolic), S-B 87/85%, A-B 87/86% and ≤4 mm Hg S-A 95/96%, S-B 95/96%, A-B 95/98%. In conclusion, a hybrid mercury-free auscultatory BP monitor comfortably passed the ESH-IP 2010 requirements and has the same level of accuracy as the mercury sphygmomanometer. This device appears to be a reliable alternative to the mercury sphygmomanometer for professional use and also as a standard for future validations.
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293. Home monitoring is the optimal method for assessing blood pressure variability.
Stergiou GS, Nasothimiou EG.
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294. Hypertension: Does home telemonitoring improve hypertension management?
Stergiou GS, Nasothimiou EG.
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295. Tracking of blood pressure from childhood to adolescence in a Greek cohort.
Kollias A, Pantsiotou K, Karpettas N, Roussias L, Stergiou GS.
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296. Automated determination of the ankle-brachial index using an oscillometric blood pressure monitor: validation vs. Doppler measurement and cardiovascular risk factor profile.
Kollias A, Xilomenos A, Protogerou A, Dimakakos E, Stergiou GS.
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The ankle-brachial index (ABI) is a method used widely for peripheral arterial disease (PAD) diagnosis and cardiovascular risk prediction. This study validated automated ABI measurements taken using an oscillometric blood pressure (BP) monitor allowing simultaneous arm-leg BP measurements. A total of 93 patients (hypertension 83%; dyslipidemia 72%; diabetes 45%; cardiovascular disease 23%; smoking 15%) were submitted to Doppler and automated ABI measurements, performed using a professional oscillometric BP monitor (Microlife WatchBP Office; triplicate simultaneous arm-leg BP measurements), in a randomized order. The mean difference between the Doppler reading (1.08 ± 0.17) and (1) the first oscillometric ABI reading was 0.03 ± 0.11, (2) the average of two oscillometric readings was 0.02 ± 0.10 and (3) the average of three oscillometric readings was 0.02 ± 0.09 (P < 0.01 for all). Strong correlations were found between oscillometric and Doppler ABI (r 0.80, 0.85 and 0.86 for single and average of two and three oscillometric readings, respectively; P < 0.001 for all). Agreement between oscillometric and Doppler ABI in diagnosing PAD (Doppler ABI < 0.9) was found in 95% of cases (κ 0.79; agreement in diabetics: 94%, κ 0.79). A receiver operating characteristic (ROC) curve revealed area under the curve at 0.98, with a 0.97 oscillometric ABI cutoff for optimal sensitivity (92%) and specificity (92%) in diagnosing PAD. Average time for automated ABI measurement was 5.8 vs. 9.3 min for Doppler (P < 0.001). Doppler and oscillometric ABI were associated and predicted (multivariate regression analysis) by the same cardiovascular risk factors (pulse pressure, smoking and cardiovascular disease history). Automated ABI measurement using a professional BP monitor allowing simultaneous arm-leg BP measurements appears to be a reliable and faster alternative to Doppler measurement.
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297. How to best assess blood pressure? The ongoing debate on the clinical value of blood pressure average and variability.
Stergiou GS, Parati G.
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298. Valuable prognostic information provided by 24-h ambulatory blood pressure monitoring beyond the blood pressure level.
Stergiou GS, Nasothimiou EG.
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299. Relationship of home blood pressure with target-organ damage in children and adolescents.
Stergiou GS, Giovas PP, Kollias A, Rarra VC, Papagiannis J, Georgakopoulos D, Vazeou A.
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The objective of this study was to compare home blood pressure (HBP) vs. ambulatory (ABP) and clinic (CBP) measurements in terms of their association with target-organ damage in children and adolescents. A total of 81 children and adolescents (mean age 13 ± 3 years, 53 boys) referred for elevated CBP had measurements of CBP (1 visit), HBP (6 days) and ABP (24-h). Seventy-six participants were also assessed with carotid-femoral pulse wave velocity (PWV) and 54 with echocardiography. Average CBP was 122.1 ± 15.1/71 ± 12.9 mm Hg (systolic/diastolic), HBP 121.3 ± 11.5/69.4 ± 6.6 mm Hg and 24-h ABP 118.9 ± 12/66.6 ± 6.1 mm Hg. Left ventricular mass (LVM) was correlated with systolic blood pressure (BP) (coefficient r = 0.55/0.54/0.45 for 24-h/daytime/nighttime ABP, 0.53 for HBP and 0.41 for CBP; all P< 0.01). No significant correlations were found for diastolic BP. PWV was also significantly correlated with systolic BP (r = 0.52/0.50/0.48 for 24-h/daytime/nighttime ABP, 0.50 for HBP and 0.47 for CBP; all P < 0.01). Only diastolic ABP and HBP were significantly correlated with PWV (r = 0.30 and 0.28, respectively, P<0.05). In multivariate stepwise regression analysis (with age, gender, body mass index [BMI], clinic, home and 24-h ambulatory systolic/diastolic BP and pulse pressure, clinic, home and 24-h heart rate as independent variables), PWV was best predicted by systolic HBP (R(2) = 0.22, beta ± s.e. = 0.06 ± 0.01), whereas LVM was determined (R(2) = 0.67) by 24-h pulse pressure (beta = 1.21 ± 0.41), age (beta = 2.93 ± 1.32), 24-h heart rate (beta = -1.27 ± 0.41) and BMI (beta = 1.78 ± 0.70). These data suggest that, in children and adolescents, ABP as well as HBP measurements appear to be superior to the conventional CBP measurements in predicting the presence of subclinical end-organ damage.
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300. National, regional, and global trends in body-mass index since 1980: systematic analysis of health examination surveys and epidemiological studies with 960 country-years and 9·1 million participants.
Finucane MM, Stevens GA, Cowan MJ, Danaei G, Lin JK, Paciorek CJ, Singh GM, Gutierrez HR, Lu Y, Bahalim AN, Farzadfar F, Riley LM, Ezzati M.
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