Артериальное давление (АД) – важный физиологический показатель. В обзоре описаны различные методы измерения АД, их преимущества и недостатки. Кроме того, представлена историческая справка об основных этапах становления клинической сфигмоманометрии, которая в настоящее время является актуальным методом измерения АД. Также описаны появление и развитие приборов суточного мониторинга АД и современные тенденции неинвазивного измерения.
Ключевые слова: артериальное давление, техника измерения артериального давления, сфигмоманометрия, артериальная гипертензия, манжета
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The arterial pressure is an important physiological indicator. The review describes the different techniques of measurement of arterial pressure, their advantages and limitations. Moreover, it also represents a historical reference about the main stage of the development of clinical sphygmomanometrya that nowadays is a relevant method for measuring arterial pressure. The emergence and the development of devices for daily monitoring of arterial pressure and modern techniques for non-invasive arterial pressure measurement are described too.
Keywords: arterial pressure, technique of measurement of arterial pressure, sphygmomanometry, arterial hypertension, arterial pressure cuff
Список литературы
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17. Hinman AT, Engel BT, Bickford AF. Portable blood pressure recoder: accurancy and preliminary use in evaluating intra-daily variations in pressure. Am Heart J. 1962;63:663-8. doi: 10.1016/0002-8703(62)90011-x
18. Kim-Gau NG. Survey of Automated Noninvasive Blood Pressure Monitors. J Clin Eng. 1994;19(6):452-63. doi: 10.1097/00004669-199411000-00014
19. Montfrans V. Oscillometric blood pressure measurement: progress and problems. Blood Press Monit. 2001;6:287-90. doi: 10.1097/00126097-200112000-00004
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21. Arakawa T. Recent Research and Developing Trends of Wearable Sensors for Detecting Blood Pressure. Sensors. 2018;18:2772. DOI: 10.3390/s18092772
22. Kuwabara M. Validation of a wrist-type home nocturnal blood pressure monitor in the sitting and supine position according to the ANSI/AAMI/ISO81060-2:2013 guidelines: Omron HEM-9601T. J Clin Hypertens (Greenwich). 2020;22(6):970-8. doi: 10.1111/jch.13864
23. Kario K. Management of Hypertension in the Digital Era: Small Wearable Monitoring Devices for Remote Blood Pressure Monitoring. Hypertension. 2020;76(3):640-50. doi: 10.1161/HYPERTENSIONAHA.120.14742.
24. Kawai N, Ogasawara T, Nakashima H. Development of functional textile “Hitoe”:Wearable electrodes for monitoring human vital signals. IEICE Communications Society Magazine. 2017;11:17-23. doi: 10.1587/bplus.11.17
25. Nishizawa M, Hoshide S, Okawara Y. Strict blood pressure control achieved using an ICT-based home blood pressure monitoring system in a catastrophically damaged area after a disaster. J Clin Hypertens (Greenwich). 2017;1:26-9. DOI: 10.1111/jch.12864
26. Kanegae H, Suzuki K, Ito T. Highly precise risk prediction model for new-onset hypertension using artificial intelligence techniques. The Journal of Clinical Hypertension. 2020; 22: 445-450. DOI:10.1111/jch.13759
________________________________________________
1. World Health Organization. A global brief on hypertension. Silent killer, global public health crisis. World Health Day 2013. Geneva, World Health Organization, 2013. Available at: https://www.who.int/cardiovascular_diseases/publications/global_brief_hypertension/en/
2. Lewis WH. The evolution of clinical sphygmomanometry. Bull N Y Acad Med. 1941;17(11):871-81.
3. Saklayen MG, Deshpande NV. Timeline of History of Hypertension Treatment. Front Cardiovasc Med. 2016;3(3). DOI: 10.3389/fcvm.2016.00003
4. Androutsos G, Karamanou M. William Harvey (1578–1657): discoverer of Blood Circulation. Hellenic J Cardiol. 2012; 53(1):6-9.
5. Booth J. A short history of blood pressure measurement. Proc R Soc Med. 1977;70(11):793-799.
6. Diseases of the heart and blood vessels. Ed. EI Chazov. Moscow: Meditsina, 1992 (In Russ.)
7. Ludwig C. Beiträge zur Kenntnis des Einflusses der Respirations-bewegungen auf den Blutlauf im Aortensysteme. Arch J Anat Physiol: wiss Med. 1847; p. 242-302.
8. Potain C. Du sphygmomanometre et de la mesure de la pression arterielle chez I homme. Arch. de physiol.norm et patch.1889;1:556.
9. Riva-Rocci S. Un nuovo sfigmomanometro. Gazetta Medical di Torino. 1896; 47: 1001.
10. A guide to arterial hypertension. Ed. EI Chazov, IE Chasova. Media Medika, 2005 (In Russ.)
11. Korotkov NS. K voprosu o metodakh issledovaniya krovyanogo davleniya. Izv. imperatorskoi Voenno-meditsinskoi akademii Sankt-Peterburga. 1905;4(11):365-7 (In Russ.)
12. Popov CE. Petersburg doctor N.S. Korotkov is the founder of a new era in the development of world medicine. Arterial’naya gipertenziya. 2005;2(11):71-4 (In Russ.).
13. Mancia G. Clinical use of ambulatory blood pressure. Am J Hypertens. 1989;2:505-45. doi: 10.1093/ajh/2.2.50S
14. Hill L, Barnard S. A simple and accurate form of sphygmometer or arterial pressure gauge contrived for clinical use. Br Med J. 1897;2:904. doi: 10.1136/bmj.2.1918.904
15. Kain HK, Hinman AT, Sokolow M. Arterial blood pressure messureaments with a portable recoder in hypertensive patients. Circulation. 1964;30:882-92. doi: 10.1161/01.cir.30.6.882
16. Rogoza AN, Oshchepkova EV, Tsagareishvili EV. Modern non-invasive methods of measuring blood pressure for the diagnosis of arterial hypertension and assessment of the effectiveness of treatment. Atmosfera. Novosti kardiologii. 2008;1:2-4 (In Russ.)
17. Hinman AT, Engel BT, Bickford AF. Portable blood pressure recoder: accurancy and preliminary use in evaluating intra-daily variations in pressure. Am Heart J. 1962;63:663-8. doi: 10.1016/0002-8703(62)90011-x
18. Kim-Gau NG. Survey of Automated Noninvasive Blood Pressure Monitors. J Clin Eng. 1994;19(6):452-63. doi: 10.1097/00004669-199411000-00014
19. Montfrans V. Oscillometric blood pressure measurement: progress and problems. Blood Press Monit. 2001;6:287-90. doi: 10.1097/00126097-200112000-00004
20. O’Brien E, Atkins N. State- of- the- market from the dableducational. Blood Press Monit. 2007;12:377-9. doi: 10.1097/MBP.0b013e328244de94
21. Arakawa T. Recent Research and Developing Trends of Wearable Sensors for Detecting Blood Pressure. Sensors. 2018;18:2772. DOI: 10.3390/s18092772
22. Kuwabara M. Validation of a wrist-type home nocturnal blood pressure monitor in the sitting and supine position according to the ANSI/AAMI/ISO81060-2:2013 guidelines: Omron HEM-9601T. J Clin Hypertens (Greenwich). 2020;22(6):970-8. doi: 10.1111/jch.13864
23. Kario K. Management of Hypertension in the Digital Era: Small Wearable Monitoring Devices for Remote Blood Pressure Monitoring. Hypertension. 2020;76(3):640-50. doi: 10.1161/HYPERTENSIONAHA.120.14742.
24. Kawai N, Ogasawara T, Nakashima H. Development of functional textile “Hitoe”:Wearable electrodes for monitoring human vital signals. IEICE Communications Society Magazine. 2017;11:17-23. doi: 10.1587/bplus.11.17
25. Nishizawa M, Hoshide S, Okawara Y. Strict blood pressure control achieved using an ICT-based home blood pressure monitoring system in a catastrophically damaged area after a disaster. J Clin Hypertens (Greenwich). 2017;1:26-9. DOI: 10.1111/jch.12864
26. Kanegae H, Suzuki K, Ito T. Highly precise risk prediction model for new-onset hypertension using artificial intelligence techniques. The Journal of Clinical Hypertension. 2020; 22: 445-450. DOI:10.1111/jch.13759
Авторы
Т.Д. Солнцева*, О.А. Сивакова, И.Е. Чазова
Институт клинической кардиологии им. А.Л. Мясникова ФГБУ «Национальный медицинский исследовательский центр кардиологии» Минздрава России, Москва, Россия
*tatanasolnceva372@gmail.com
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Tatiana D. Solnceva*, Olga A. Sivakova, Irina E. Chazova
Myasnikov Institute of Clinical Cardiology, National Medical Research Center for Cardiology, Moscow, Russia
*tatanasolnceva372@gmail.com