1.Ambulatory Blood Pressure Monitoring.
Korean Circulation Journal 1991;21(5):805-808
No abstract available.
Blood Pressure Monitoring, Ambulatory*
2.Ambulatory Blood Pressure Monitoring.
Korean Circulation Journal 1991;21(5):805-808
No abstract available.
Blood Pressure Monitoring, Ambulatory*
3.A Representative Value for 24-hr Ambulatory Blood pressure Monitoring.
Won Sang YOO ; Ho Jin PARK ; Eui Yong LEE ; Suck Koo CHOI
Korean Circulation Journal 1985;15(2):209-214
Several shorter-term alternatives for whole-day ambulatory monitoring of BP using Pressureometer III or standard sphygmomanometer were evaluated in 12 male hypertensive patients. Averages of BP reading at 8 AM once, consecutive 3 readings either by Pressurometer or manual, serial readings during 2-hr intervals of 8-10 AM and 2/4 PM were compared with that of 24-hr ambulatory, non-invasive BP readings. Both systolic and diastolic 2-hr Bp averages in the morning were correlated more strongly with 24-hour averages(r=0.91 and 0.91), than were those of the 3 readings(r=0.88 and 0.66) or single reading(r=0.49 and -0.35) alternatives. In conclusion, the average of serial readings obtained during 2-hr monitoring period from 8 to 10AM is a reliable predictor of 24-hr ambulatory BP and represents it more closely than the conventional single or multiple BP readings.
Blood Pressure Monitoring, Ambulatory*
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Humans
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Male
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Monitoring, Ambulatory
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Reading
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Sphygmomanometers
4.Influences of White-Coat Hypertension and White-Coat Effect on the Left Ventricular Mass and Diastolic Function.
Hye Young KIM ; Nam Ju KWACK ; Nam Gyu PARK ; Ki Won CHOI ; Dong Woon KIM ; Myeong Chan CHO ; Kee Byung NAM
Korean Circulation Journal 1995;25(5):987-997
BACKGROUND: Overstimation of blood pressure(BP) by clinic measurements occur in about 20 to 30% of subjects(white-coat hypertension) who may, consequently, be misdiagnosed as hypertensives and received unnecessary medications. The clinical significance of white-coat hypertension and its effects on the cardiovascular wystem have not been studied systematically.This study was designed to evaluate the influences of white-coat hypertension and white-coat effect, defined as difference between clinic and ambulatory BP, on the LV mass and diastolic function. METHODS: LV mass index was calculated and LV systolic and diastolic function were assessed by the analysis of mitral and pulmonary venous flow velocity in 45 untreated essential hypertensives and 20 normotensives(NT). Ambulatory BP monitoring classified hypertensives as white-coat hypertensives(WCHT,n=20) and sustained hypertensives(SHT, n=25). RESULTS: 1) Left ventricular systolic indices were not different among the three groups. 2) Left ventricular mass inedx of WCHT(114.5+/-36.3g/m2) was similar to that of SHT(115.6+/-34.9g/m2) and was significantly greater than that of NT(86.5+/-37.7g/m2)(p<0.05). 3) Some of left ventricular diastolic parameters(isovolumic relaxation time, E/A ratio, A velocity, pulmonary systolic fraction, ratio of systolic to diastolic forward flow velocity) of WCHT and SHT were significantly different from those of NT(p<0.05), but there were no differences between two hypertensive groups. 4) Even though both systolic and diastolic white-coat effect in WCHT were significantly greater than those of SHT(o<0.05),white-coat effect did not influence on the left ventricular mass or function in both groups. CONCLUSION: An increased left ventricular mass and diastolic dysfunction in WCHT suggests that white-coat hypertension could not be considered as an entirely innocuous clinical condition.
Blood Pressure Monitoring, Ambulatory
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Hypertension*
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Relaxation
5.Diurnal Variation of Blood Pressure; the Difference between before and after Removal of Pheochromocytoma: Evaluation by Ambulatory Blood Pressure Monitoring.
Young Joo SEONG ; Sang Jun WOO ; Young Don SON ; Suck Koo CHOI ; Won Sang YOO
Korean Circulation Journal 1991;21(3):652-656
Ambulatory BP monitoring was performed in a patients with pheochromocytoma before and after removal of the tumor. Before surgery, it did not show any significant diurnal variation. But, after surgery the diurnal variation was restored.
Blood Pressure Monitoring, Ambulatory*
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Blood Pressure*
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Humans
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Pheochromocytoma*
6.Research on continuous measurement of blood pressure via characteristic parameters of pulse wave.
Journal of Biomedical Engineering 2002;19(2):217-220
A new method for continuous measurement of blood pressure (BP) via selecting characteristic parameters of pulse wave pertinent to BP is presented in this paper. In order to validate the precision of the measurement, we have developed a Tonometer. The results of the instrument based on this method are precise if the subjects are at rest. This instrument could be used for BP monitoring of critically ill patients and in common medical researches; it might be applied to BP monitoring during spaceflight and in daily life after movement artifact being restrained.
Blood Pressure
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Blood Pressure Monitoring, Ambulatory
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instrumentation
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Humans
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Manometry
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Pulse
7.Detecting masked high blood pressure in high-risk patients.
The Korean Journal of Internal Medicine 2015;30(5):590-592
No abstract available.
Blood Pressure
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*Blood Pressure Monitoring, Ambulatory
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Humans
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*Hypertension
9.Home Blood Pressure Monitoring Has Similar Effects on Office Blood Pressure and Medication Compliance as Usual Care
Juliawati MUHAMMAD ; Muazah Mat JAMIAL ; Azlina ISHAK
Korean Journal of Family Medicine 2019;40(5):335-343
BACKGROUND: Home blood pressure monitoring is recommended to achieve controlled blood pressure. This study evaluated home blood pressure monitoring-improvement of office blood pressure control and treatment compliance among hypertensive patients. METHODS: A randomized controlled trial was conducted from December 2014 to April 2015. The home blood pressure monitoring group used an automatic blood pressure device along with standard hypertension outpatient care. Patients were seen at baseline and after 2 months. Medication adherence was measured using a novel validated Medication Adherence Scale (MAS) questionnaire. Office blood pressure and MAS were recorded at both visits. The primary outcomes included evaluation of mean office blood pressure and MAS within groups and between groups at baseline and after 2 months. RESULTS: Mean changes in systolic blood pressure (SBP) and diastolic blood pressure (DBP) and MAS differed significantly within groups. The home blood pressure monitoring group showed greater mean changes (SBP 17.6 mm Hg, DBP 9.5 mm Hg, MAS 1.5 vs. SBP 14.3 mm Hg, DBP 6.4 mm Hg, MAS 1.3), while between group comparisons showed no significant differences across all variables. The adjusted mean difference for mean SBP was 4.74 (95% confidence interval [CI], −0.65 to 10.13 mm Hg; P=0.084), mean DBP was 1.41 (95% CI, −2.01 to 4.82 mm Hg; P=0.415), and mean MAS was 0.05 (95% CI, −0.29 to 0.40 mm Hg; P=0.768). CONCLUSION: Short-term home blood pressure monitoring significantly reduced office blood pressure and improved medication adherence, albeit similarly to standard care.
Ambulatory Care
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Blood Pressure Monitoring, Ambulatory
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Blood Pressure
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Compliance
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Humans
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Hypertension
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Medication Adherence
10.The development of a pocket blood pressure holter based on handhold personal computer.
Jing PENG ; Chenglin PENG ; Baoming WU
Journal of Biomedical Engineering 2003;20(1):129-131
This paper introduces a kind of pocket blood pressure holter based on handhold personal computer. The measurement of blood pressure is controlled by ultralow power consumption MCU. The system configures interface circuit with handhold personal computer. The BP data can be stored, displayed, analysed and transmitted by handhold personal computer. The measurement parameters can be modified. The hardware is made up of three units: simulation circuit unit, intelligent control unit and interface circuit unit. Every unit structure and its principle are presented. The software of obtaining the BP data and communication with handhold personal computer are also illuminated. The system possesses the characters of portability, intelligence, convenience, high precision, ultralow power consumption and stable capability. It is possible to become an ideal blood pressure monitor in family.
Blood Pressure Monitoring, Ambulatory
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instrumentation
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Equipment Design
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Microcomputers
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Software Design