Smartphone / smartwatch-based cuffless blood pressure measurement : a position paper from the Korean Society of Hypertension
Tóm tắt
Smartphone technology has spread rapidly around the globe. According to a report released by the Korea Information Society Development Institute, about 95% of Koreans aged more than 30 years old owned smartphones. Recently, blood pressure (BP) measurement using a photoplethysmography-based smartphone algorithm paired with the smartwatch is continuously evolving. In this document, the Korean Society of Hypertension intends to remark the current results of smartphone / smartwatch-based BP measurement and recommend optimal BP measurement methods using a smartphone device. We aim to increase the likelihood of success in implementing these new technologies into improved hypertension awareness, diagnosis, and control.
Tài liệu tham khảo
Kim HC, Ihm SH, Kim GH, Kim JH, Kim KI, Lee HY, et al. 2018 Korean Society of Hypertension guidelines for the management of hypertension: part I-epidemiology of hypertension. Clin Hypertens. 2019;25:16.
Kim SJ, Lee J, Nam CM, Jee SH, Park IS, Lee KJ, et al. Progression rate from new-onset pre-hypertension to hypertension in Korean adults. Circ J. 2011;75(1):135–40.
Collaboration NCDRF. Long-term and recent trends in hypertension awareness, treatment, and control in 12 high-income countries: an analysis of 123 nationally representative surveys. Lancet. 2019;394(10199):639–51.
Kim KI, Ihm SH, Kim GH, Kim HC, Kim JH, Lee HY, et al. 2018 Korean society of hypertension guidelines for the management of hypertension: part III-hypertension in special situations. Clin Hypertens. 2019;25:19.
Lee HY, Shin J, Kim GH, Park S, Ihm SH, Kim HC, et al. 2018 Korean Society of Hypertension Guidelines for the management of hypertension: part II-diagnosis and treatment of hypertension. Clin Hypertens. 2019;25:20.
Verberk WJ, Kroon AA, Lenders JW, Kessels AG, van Montfrans GA, Smit AJ, et al. Self-measurement of blood pressure at home reduces the need for antihypertensive drugs: a randomized, controlled trial. Hypertension. 2007;50(6):1019–25.
Cappuccio FP, Kerry SM, Forbes L, Donald A. Blood pressure control by home monitoring: meta-analysis of randomised trials. BMJ. 2004;329(7458):145.
Institute KISD. 2018 Korea media panel survey; 2018.
Taylor KSL. Smartphone ownership is growing rapidly around the world, but not always equally. Pew research center; 2019.
Elgendi M, Fletcher R, Liang Y, Howard N, Lovell NH, Abbott D, et al. The use of photoplethysmography for assessing hypertension. NPJ Digit Med. 2019;2:60.
Standardization IOf. ISO 81060-2:2018(en). Non-invasive sphygmomanometers — Part 2: Clinical investigation of intermittent automated measurement type. https://www.iso.org/obp/ui/#iso:std:iso:81060:-2:ed-3:v1:en.
Chandrasekaran V, Dantu R, Jonnada S, Thiyagaraja S, Subbu KP. Cuffless differential blood pressure estimation using smart phones. IEEE Trans Biomed Eng. 2013;60(4):1080–9.
Visvanathan ABR, Dutta Choudhury A, Sinha A, Kundu S. Smart phone based blood pressure indicator. In: Proceedings of the 4th ACM MobiHoc workshop on pervasive wireless healthcare; 2014. p. 19–24.
Plante TB, Urrea B, MacFarlane ZT, Blumenthal RS, Miller ER 3rd, Appel LJ, et al. Validation of the instant blood pressure smartphone app. JAMA Intern Med. 2016;176(5):700–2.
Gaurav AMM, Tiwari VN, Narayanan R. Cuff-less PPG based continuous blood pressure monitoring—a smartphone based approach. In: 2016 38th annual international conference of the IEEE engineering in medicine and biology society (EMBC); 2016. p. 607–10.
Alexander JC, Minhajuddin A, Joshi GP. Comparison of smartphone application-based vital sign monitors without external hardware versus those used in clinical practice: a prospective trial. J Clin Monit Comput. 2017;31(4):825–31.
Gao SCWP, Zhao L, Jiang WJ. Data-driven estimation of blood pressure using photoplethysmographic signals. In: 2016 38th annual international conference of the IEEE engineering in medicine and biology society (EMBC); 2016. p. 766–9.
Raichle CJ, Eckstein J, Lapaire O, Leonardi L, Brasier N, Vischer AS, et al. Performance of a blood pressure smartphone app in pregnant women: the iPARR trial (iPhone app compared with standard RR measurement). Hypertension. 2018;71(6):1164–9.
Wang EJZJ, Jain M, Lee T-J, Saba E, Nachman L, Patel SN. Seismo: blood pressure monitoring using built-in smartphone accelerometer and camera. In: Proceedings of the 2018 CHI conference on human factors in computing Systems; 2018. p. 1–9.
Chandrasekhar A, Natarajan K, Yavarimanesh M, Mukkamala R. An iPhone application for blood pressure monitoring via the Oscillometric finger pressing method. Sci Rep. 2018;8(1):13136.
Dey JGA, Tiwari VN. Instabp: cuff-less blood pressure monitoring on smartphone using single ppg sensor. In: 2018 40th annual international conference of the IEEE engineering in medicine and biology society (EMBC); 2018. p. 5002–5.
Matsumura K, Rolfe P, Toda S, Yamakoshi T. Cuffless blood pressure estimation using only a smartphone. Sci Rep. 2018;8(1):7298.
Luo H, Yang D, Barszczyk A, Vempala N, Wei J, Wu SJ, et al. Smartphone-based blood pressure measurement using transdermal optical imaging technology. Circ Cardiovasc Imaging. 2019;12(8):e008857.
Instrumentation. AftAoM. ANSI/AAMI/ISO 81060–1:2007/(R)2013.
Systems FFM. The Finapres NOVA has received 510(k) clearance from the US FDA! 2018.
Heeney ND, Habib F, Brar GK, Krahn G, Campbell DA, Sanatani S, et al. Validation of finger blood pressure monitoring in children. Blood Press Monit. 2019;24(3):137–45.
Casiglia E, Tikhonoff V, Albertini F, Palatini P. Poor reliability of wrist blood pressure self-measurement at home: a population-based study. Hypertension. 2016;68(4):896–903.
Song BM, Kim HC, Shim JS, Lee MH, Choi DP. Inter-arm difference in brachial blood pressure in the general population of Koreans. Korean Circ J. 2016;46(3):374–83.
Weinberg I, Gona P, O'Donnell CJ, Jaff MR, Murabito JM. The systolic blood pressure difference between arms and cardiovascular disease in the Framingham heart study. Am J Med. 2014;127(3):209–15.
Rabbany SY, Drzewiecki GM, Noordergraaf A. Peripheral vascular effects on auscultatory blood pressure measurement. J Clin Monit. 1993;9(1):9–17.
Muntner P, Shimbo D, Carey RM, Charleston JB, Gaillard T, Misra S, et al. Measurement of blood pressure in humans: a scientific statement from the American Heart Association. Hypertension. 2019;73(5):e35–66.
Koehler NR. Poli de Figueiredo CE, Mendes-Ribeiro AC. Time interval between pairs of arterial blood pressure measurements--does it matter? Am J Hypertens. 2004;17(2):194–6.
Kim KI, Nikzad N, Quer G, Wineinger NE, Vegreville M, Normand A, et al. Real world home blood pressure variability in over 56,000 individuals with nearly 17 million measurements. Am J Hypertens. 2018;31(5):566–73.
de Tuero GC, Boreu QF, Rodriguez-Poncelas A, Creus R, Sanmartin M, Salleras N, et al. Assessment of self-monitoring of blood pressure in the diagnosis of isolated clinic hypertension. Blood Press. 2006;15(4):227–36.
Diaz KM, Tanner RM, Falzon L, Levitan EB, Reynolds K, Shimbo D, et al. Visit-to-visit variability of blood pressure and cardiovascular disease and all-cause mortality: a systematic review and meta-analysis. Hypertension. 2014;64(5):965–82.