This article introduces a method of practical noninvasive blood pressure measurement techniques and its key technical points from the view of products , and it gives detailed requirements for us to evaluate the efficiency of these techniques, The evaluation results are presented here by the testing examples guiding us to a correct evaluation of noninvasive blood pressure measurement techniques.
Blood Pressure Determination ; instrumentation ; methods

Background: Cuffless devices have been studied and developed in the past and in recent years products that employ photoplethysmography became available in the market. However, the vast majority of available product’s accuracy have not yet been studied. Objective: The main objective of this study was to compare a wristwatch device GT 103 to an oscillometric blood pressure device Omron HEM 7120 using the standards set by Association for the Advancement of Medical Instrumentation (AAMI) / The European Society of Hypertension (ESH) Working Group on Blood Pressure / International Organization for Standardization (ISO). Methods: This is a cross sectional study involving blood pressure measurements of 85 individuals using the test device (GT 103) and the reference device (Omron HEM 7120). Demographic characteristics such as age, arm circumference, diagnosis of hypertension, and treatment status were also reported. Sequential blood pressure measurements followed the prescribed steps of AAMI/ESH/ ISO. Paired measurements were statistically treated using the Paired T test. Mean differences of the paired measurements are reported in mean±SD, and proportions of blood pressure differences at ±5mmHg, ±10mmHg, and ±15mmHg are also reported. Results: The mean SBP difference of GT 103 and Omron 7120 was 1.5±20.5mmHg which is not significant (p=0.25) and mean DBP difference of 3±12.6 which is significant (p=0.00017). The result is in accordance with the criterion 1 of ANSI/AAMI/ISO 81060–2:2013 standard requirements (≤5±8 mmHg), but did not fulfil the criterion 2 which requires an SD of less than or equal to 6.47 for SBP and less than or equal to 6.90 mmHg for DBP. The proportion of paired blood pressure readings within ±5mmHg, ±10mmHg, and ±15mmHg were 19.61%, 36.08%, 45.1% for SBP and 30.98%, 56.07%, 69.8% for DBP. This shows that SBP and DBP measurements did not meet the requirement of AAMI/ESH/ISO. Conclusions and Recommendations This study showed that GT 103 did not fulfill the requirements for acceptable device accuracy. The use of the device for blood pressure measurement is still not recommended by the researcher. Future studies of other similar devices can be done to ensure accuracy of blood pressure measurement.
Hypertension ; Blood Pressure Determination ; Oscillometry

Mercurial sphygmomanometer is widely applied to NIBP as the basic medical equipment in hospitals, but it is dangerous. With the world-wide limit of mercurial sphygmomanometers, it is inevitable that the mercurial sphygmomanometers would be eliminated. At the same time, according to the requirement of the medical staff and for the technical side of medical engineering, we should set up a claim for the mercurial sphygmomanometers' substitute products.
Blood Pressure Determination ; instrumentation ; Mercury ; Sphygmomanometers

Blood Pressure Determination ; Humans ; Hypertension ; classification

A novel blood pressure measurement system was designed which based on auscultatory method. And the electret sensor that embedded into the internal instrument can detect the Korotkoff-sound signal directly which is coupled by the cuff and transmitted in the cross connection. The BP values identification algorithm is based on combined detection of Korotkoff-sound and pulse signal, and the products of amplitudes and energies are calculated as the characteristic values of Korotkoff-sound, and the Korotkoff-sound phases are classified and detected by means of clustering of characteristic values, and then BP parameters are determined. The contrast test and statistical analysis showed good consistency and accuracy between the new BP detection method and conventional mercury sphygmomanometer.
Blood Pressure ; Blood Pressure Determination ; instrumentation ; methods ; Equipment Design

In this study, a platform for long-term and non-invasive blood pressure monitoring is proposed, Its software system and the functions of different program modules in the software system are introduced together with the development methods of the main modules.
Blood Pressure Determination ; instrumentation ; methods ; Blood Pressure Monitors ; Software Design

Mercury sphygmomanometer based on traditional auscultation method is widely used in primary medical institutions in China, but a large amount of blood pressure data can not be directly recorded and applied in scientific research analysis, meanwhile auscultation data is the clinical standard to verify the accuracy of non-invasive electronic sphygmomanometer. Focusing on this, we designed a miniature non-invasive blood pressure measurement and verification system, which can assist doctors to record blood pressure data automatically during the process of auscultation. Through the data playback function,the software of this system can evaluate and verify the blood pressure algorithm of oscillographic method, and then continuously modify the algorithm to improve the measurement accuracy. This study introduces the hardware selection and software design process in detail. The test results show that the system meets the requirements of relevant standards and has a good application prospect.
Auscultation ; Blood Pressure/physiology* ; Blood Pressure Determination ; Oscillometry ; Sphygmomanometers

Blood pressure is an important physiological index that can reflect the function of the heart and blood vessels. Compared with other methods, oscillometric measurement has the advantages of strong noise immunity, simple operation and low cost, which is the most widely used technology for blood pressure measurement. In this paper, we reviewed and discussed the key technologies of measuring blood pressure, such as pre-processing method of oscillation envelope and blood pressure estimation technique. The latter include traditional wave method, waveform morphology method, the methods based on the model and machine learning. At last, we have a look forward to its future development direction.
Blood Pressure ; Blood Pressure Determination ; instrumentation ; Heart ; Oscillometry ; Technology

Several shorter-term alternatives for whole-day ambulatory monitoring of blood pressure using Pressurometer III or conventional sphygmomanometer were evaluated in 12 male patients with mild hypertension. Averages of BP reading at 8 AM once, 3 consecutive-readings either with Pressurometer or manually, serial readings for 2-hour intervals from 8-10 AM and 2-4 PM were compared with that of 24-hour ambulatory, non-invasive BP readings by Pressurometer. Both systolic and diastolic 2-hour BP averages in the morning (8 to 10 o'clock) correlated more strongly with 24-hour averages (r = 0.91 and 0.91) than the 3 consecutive (r = 0.88 and 0.66) or single (r = 0.49 and -0.35) reading alternatives did. In conclusion, the average of serial readings obtained during 2-hour monitoring period from 8 to 10 AM is a reliable predictor of 24-hour ambulatory BP and represents it more closely than the conventional single or multiple BP readings.
*Blood Pressure ; Blood Pressure Determination ; Blood Pressure Monitors ; Humans ; Male ; Time Factors

Automated blood pressure monitors have gained acceptance in many clinical settings with the increasing demand, the accurate BP measuring devices require the need for validation. We have evaluated the Dinamap 8100, an oscillometric automated blood pressure monitor, using the Mercury sphygmomanometer as a reference. Comparison of sphygmomanometers was conducted 60 patients(30-Normotensive group, 30-Hypertensive group at Seoul National University Hospital. Two trained observers took measure blood pressure(systolic/diastolic) at the same time using the Dinamap 8100 on one arm and the Mercury on the other. For each measurement, the device was randomly selected from a group of devices repletively used for the experiment. Mean readings for systolic pressure with the Dinamap 8100 in normotensive group were lower(mean difference ; 4.26mmHg) than the Mercury type. Mean readings for systolic pressure with the Dinamap 8100 in hypertensive group were lower(mean difference ; 9.05mmHg) than the Mercury type. Mean readings for diastolic pressure with the Dinamap 8100 in normotensive group were lower(mean difference ; 7.46mmHg) than the Mercury type. Mean readings for diastolic pressure with the Dinamap 8100 in hypertensive group were lower(mean difference ; 9.03mmHg) than the Mercury type. We have found that blood pressure readings with the Dinamap 8100 were lower than those with the Mercury type. we are using the Mercury type in clinics, although it has observer bias and terminal digit preference. But the Dinamap 8100 is readily portable, simple to use, and capable of preventing observer bias and terminal digit preference. The Dinamap 8100 is acceptable for blood pressure determination in subjects who are normotensive or hypertensive ones.
Arm ; Blood Pressure Determination ; Blood Pressure Monitors* ; Blood Pressure* ; Observer Variation ; Reading ; Seoul ; Sphygmomanometers*