Early Detection of Worsening Heart Failure in Patients at Home Using a New Telemonitoring System of Respiratory Stability
Background: Early detection of worsening heart failure (HF) with a telemonitoring system crucially depends on monitoring parameters. The present study aimed to examine whether a serial follow up of all-night respiratory stability time (RST) built into a telemonitoring system could faithfully reflect...
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| Published in | Circulation Journal Vol. 86; no. 7; pp. 1081 - 1091 |
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| Main Authors | , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Japan
The Japanese Circulation Society
24.06.2022
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1346-9843 1347-4820 1347-4820 |
| DOI | 10.1253/circj.CJ-21-0590 |
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| Abstract | Background: Early detection of worsening heart failure (HF) with a telemonitoring system crucially depends on monitoring parameters. The present study aimed to examine whether a serial follow up of all-night respiratory stability time (RST) built into a telemonitoring system could faithfully reflect ongoing deterioration in HF patients at home and detect early signs of worsening HF in a multicenter, prospective study.Methods and Results: Seventeen subjects with New York Heart Association class II or III were followed up for a mean of 9 months using a newly developed telemonitoring system equipped with non-attached sensor technologies and automatic RST analysis. Signals from the home sensor were transferred to a cloud server, where all-night RSTs were calculated every morning and traced by the monitoring center. During the follow up, 9 episodes of admission due to worsening HF and 1 episode of sudden death were preceded by progressive declines of RST. The receiver operating characteristic curve demonstrated that the progressive or sustained reduction of RST below 20 s during 28 days before hospital admission achieved the highest sensitivity of 90.0% and specificity of 81.7% to subsequent hospitalization, with an area under the curve of 0.85.Conclusions: RST could serve as a sensitive and specific indicator of worsening HF and allow the detection of an early sign of clinical deterioration in the telemedical management of HF. |
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| AbstractList | Early detection of worsening heart failure (HF) with a telemonitoring system crucially depends on monitoring parameters. The present study aimed to examine whether a serial follow up of all-night respiratory stability time (RST) built into a telemonitoring system could faithfully reflect ongoing deterioration in HF patients at home and detect early signs of worsening HF in a multicenter, prospective study.BACKGROUNDEarly detection of worsening heart failure (HF) with a telemonitoring system crucially depends on monitoring parameters. The present study aimed to examine whether a serial follow up of all-night respiratory stability time (RST) built into a telemonitoring system could faithfully reflect ongoing deterioration in HF patients at home and detect early signs of worsening HF in a multicenter, prospective study.Seventeen subjects with New York Heart Association class II or III were followed up for a mean of 9 months using a newly developed telemonitoring system equipped with non-attached sensor technologies and automatic RST analysis. Signals from the home sensor were transferred to a cloud server, where all-night RSTs were calculated every morning and traced by the monitoring center. During the follow up, 9 episodes of admission due to worsening HF and 1 episode of sudden death were preceded by progressive declines of RST. The receiver operating characteristic curve demonstrated that the progressive or sustained reduction of RST below 20 s during 28 days before hospital admission achieved the highest sensitivity of 90.0% and specificity of 81.7% to subsequent hospitalization, with an area under the curve of 0.85.METHODS AND RESULTSSeventeen subjects with New York Heart Association class II or III were followed up for a mean of 9 months using a newly developed telemonitoring system equipped with non-attached sensor technologies and automatic RST analysis. Signals from the home sensor were transferred to a cloud server, where all-night RSTs were calculated every morning and traced by the monitoring center. During the follow up, 9 episodes of admission due to worsening HF and 1 episode of sudden death were preceded by progressive declines of RST. The receiver operating characteristic curve demonstrated that the progressive or sustained reduction of RST below 20 s during 28 days before hospital admission achieved the highest sensitivity of 90.0% and specificity of 81.7% to subsequent hospitalization, with an area under the curve of 0.85.RST could serve as a sensitive and specific indicator of worsening HF and allow the detection of an early sign of clinical deterioration in the telemedical management of HF.CONCLUSIONSRST could serve as a sensitive and specific indicator of worsening HF and allow the detection of an early sign of clinical deterioration in the telemedical management of HF. Early detection of worsening heart failure (HF) with a telemonitoring system crucially depends on monitoring parameters. The present study aimed to examine whether a serial follow up of all-night respiratory stability time (RST) built into a telemonitoring system could faithfully reflect ongoing deterioration in HF patients at home and detect early signs of worsening HF in a multicenter, prospective study. Seventeen subjects with New York Heart Association class II or III were followed up for a mean of 9 months using a newly developed telemonitoring system equipped with non-attached sensor technologies and automatic RST analysis. Signals from the home sensor were transferred to a cloud server, where all-night RSTs were calculated every morning and traced by the monitoring center. During the follow up, 9 episodes of admission due to worsening HF and 1 episode of sudden death were preceded by progressive declines of RST. The receiver operating characteristic curve demonstrated that the progressive or sustained reduction of RST below 20 s during 28 days before hospital admission achieved the highest sensitivity of 90.0% and specificity of 81.7% to subsequent hospitalization, with an area under the curve of 0.85. RST could serve as a sensitive and specific indicator of worsening HF and allow the detection of an early sign of clinical deterioration in the telemedical management of HF. Background: Early detection of worsening heart failure (HF) with a telemonitoring system crucially depends on monitoring parameters. The present study aimed to examine whether a serial follow up of all-night respiratory stability time (RST) built into a telemonitoring system could faithfully reflect ongoing deterioration in HF patients at home and detect early signs of worsening HF in a multicenter, prospective study.Methods and Results: Seventeen subjects with New York Heart Association class II or III were followed up for a mean of 9 months using a newly developed telemonitoring system equipped with non-attached sensor technologies and automatic RST analysis. Signals from the home sensor were transferred to a cloud server, where all-night RSTs were calculated every morning and traced by the monitoring center. During the follow up, 9 episodes of admission due to worsening HF and 1 episode of sudden death were preceded by progressive declines of RST. The receiver operating characteristic curve demonstrated that the progressive or sustained reduction of RST below 20 s during 28 days before hospital admission achieved the highest sensitivity of 90.0% and specificity of 81.7% to subsequent hospitalization, with an area under the curve of 0.85.Conclusions: RST could serve as a sensitive and specific indicator of worsening HF and allow the detection of an early sign of clinical deterioration in the telemedical management of HF. |
| ArticleNumber | CJ-21-0590 |
| Author | Sawa, Yoshiki Asanoi, Hidetsugu Harada, Daisuke Miyagawa, Shigeru Yamada, Tomomi Inoko, Moriaki Ohtani, Tomohito Nakamoto, Kei Noto, Takahisa Nakane, Eisaku Sakoda, Mika Kurakami, Hiroyuki Takagawa, Junya Wada, Osamu Sakata, Yasushi |
| Author_xml | – sequence: 1 fullname: Sakoda, Mika organization: Department of Cardiovascular Surgery, Osaka University Graduate School of Medicine – sequence: 1 fullname: Nakane, Eisaku organization: Kitano Hospital, Tazuke Kofukai Medical Research Institute – sequence: 1 fullname: Harada, Daisuke organization: Imizu Municipal Hospital – sequence: 1 fullname: Noto, Takahisa organization: Imizu Municipal Hospital – sequence: 1 fullname: Inoko, Moriaki organization: Kitano Hospital, Tazuke Kofukai Medical Research Institute – sequence: 1 fullname: Yamada, Tomomi organization: Department of Medical Innovation, Osaka University Hospital – sequence: 1 fullname: Takagawa, Junya organization: Imizu Municipal Hospital – sequence: 1 fullname: Asanoi, Hidetsugu organization: Department of Chronic Heart Failure Management Global Center for Medical Engineering and Informatics, Osaka University – sequence: 1 fullname: Wada, Osamu organization: Japan Community Health care Organization Takaoka Fushiki Hospital – sequence: 1 fullname: Sakata, Yasushi organization: Department of Cardiovascular Medicine, Osaka University Graduate School of Medicine – sequence: 1 fullname: Miyagawa, Shigeru organization: Department of Cardiovascular Surgery, Osaka University Graduate School of Medicine – sequence: 1 fullname: Kurakami, Hiroyuki organization: Department of Medical Innovation, Osaka University Hospital – sequence: 1 fullname: Ohtani, Tomohito organization: Department of Cardiovascular Medicine, Osaka University Graduate School of Medicine – sequence: 1 fullname: Nakamoto, Kei organization: Department of Cardiovascular Medicine, Osaka University Graduate School of Medicine – sequence: 1 fullname: Sawa, Yoshiki organization: Department of Cardiovascular Surgery, Osaka University Graduate School of Medicine |
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| References | 19. Maisel A, Barnard D, Jaski B, Frivold G, Marais J, Azer M, et al. Primary results of the HABIT Trial (heart failure assessment with BNP in the home). J Am Coll Cardiol 2013; 61: 1726–1735. 12. Abraham WT, Stevenson LW, Bourge RC, Lindenfeld JA, Bauman JG, Adamson PB, et al. Sustained efficacy of pulmonary artery pressure to guide adjustment of chronic heart failure therapy: Complete follow-up results from the CHAMPION randomised trial. Lancet 2016; 387: 453–461. 18. Zile MR, Bennett TD, St John Sutton M, Cho YK, Adamson PB, Aaron MF, et al. Transition from chronic compensated to acute decompensated heart failure: Pathophysiological insights obtained from continuous monitoring of intracardiac pressures. Circulation 2008; 118: 1433–1441. 10. Galinier M, Roubille F, Berdague P, Brierre G, Cantie P, Dary P, et al. Telemonitoring versus standard care in heart failure: A randomised multicentre trial. Eur J Heart Fail 2020; 22: 985–994. 3. Brahmbhatt DH, Cowie MR. Remote management of heart failure: An overview of telemonitoring technologies. Card Fail Rev 2019; 5: 86–92. 15. Tsutsui H, Isobe M, Ito H, Ito H, Okumura K, Ono M, et al. JCS 2017/JHFS 2017 guideline on diagnosis and treatment of acute and chronic heart failure: Digest version. Circ J 2019; 83: 2084–2184. 21. Cundrle I, Olson LJ, Johnson BD. Pulmonary limitations in heart failure. Clin Chest Med 2019; 40: 439–448. 11. Abraham WT, Adamson PB, Bourge RC, Aaron MF, Costanzo MR, Stevenson LW, et al. Wireless pulmonary artery haemodynamic monitoring in chronic heart failure: A randomised controlled trial. Lancet 2011; 377: 658–666. 16. Sasayama S, Asanoi H, Ishizaka S, Miyagi K. Evaluation of functional capacity of patients with congestive heart failure.In: Yasuda H, Kawaguchi H, editors. New aspects in the treatment of failing heart syndrome. Tokyo: Springer-Verlag, 1992; 113–117. 1. Roger VL. Epidemiology of heart failure. Circ Res 2013; 113: 646–659. 6. Louis AA, Turner T, Gretton M, Baksh A, Cleland JG. A systematic review of telemonitoring for the management of heart failure. Eur J Heart Fail 2003; 5: 583–590. 7. Friedman MM. Older adults’ symptoms and their duration before hospitalization for heart failure. Heart Lung 1997; 26: 169–176. 5. Anker SD, Koehler F, Abraham WT. Telemedicine and remote management of heart failure. Lancet 2011; 378: 731–739. 8. Chaudhry SI, Mattera JA, Curtis JP, Spertus JA, Herrin J, Lin ZQ, et al. Telemonitoring in patients with heart failure. N Engl J Med 2010; 363: 2301–2309. 20. Roberts AM, Bhattacharya J, Schultz HD, Coleridge HM, Coleridge JC. Stimulation of pulmonary vagal afferent C-fibers by lung edema in dogs. Circ Res 1986; 58: 512–522. 22. Yumino D, Redolfi S, Ruttanaumpawan P, Su MC, Smith S, Newton GE, et al. Nocturnal rostral fluid shift: A unifying concept for the pathogenesis of obstructive and central sleep apnea in men with heart failure. Circulation 2010; 121: 1598–1605. 2. Ambrosy AP, Fonarow GC, Butler J, Chioncel O, Greene SJ, Vaduganathan M, et al. The global health and economic burden of hospitalizations for heart failure: Lessons learned from hospitalized heart failure registries. J Am Coll Cardiol 2014; 63: 1123–1133. 4. Van Spall HGC, Rahman T, Mytton O, Ramasundarahettige C, Ibrahim Q, Kabali C, et al. Comparative effectiveness of transitional care services in patients discharged from the hospital with heart failure: A systematic review and network meta-analysis. Eur J Heart Fail 2017; 19: 1427–1443. 13. Asanoi H, Harada D, Oda Y, Ueno H, Takagawa J, Ishise H, et al. Independent prognostic importance of respiratory instability and sympathetic nerve activity in patients with chronic heart failure. J Cardiol 2017; 70: 476–483. 9. Koehler F, Winkler S, Schieber M, Sechtem U, Stangl K, Böhm M, et al. Impact of remote telemedical management on mortality and hospitalizations in ambulatory patients with chronic heart failure: The telemedical interventional monitoring in heart failure study. Circulation 2011; 123: 1873–1880. 17. Bui AL, Fonarow GC. Home monitoring for heart failure management. J Am Coll Cardiol 2012; 59: 97–104. 14. Takagawa J, Asanoi H, Tobushi T, Kumagai N, Kadokami T, Dohi K, et al. Multicenter, prospective study on respiratory stability during recovery from deterioration of chronic heart failure. Circ J 2018; 83: 164–173. 11 22 12 13 14 15 16 17 18 19 1 2 3 4 5 6 7 8 9 20 10 21 |
| References_xml | – reference: 6. Louis AA, Turner T, Gretton M, Baksh A, Cleland JG. A systematic review of telemonitoring for the management of heart failure. Eur J Heart Fail 2003; 5: 583–590. – reference: 7. Friedman MM. Older adults’ symptoms and their duration before hospitalization for heart failure. Heart Lung 1997; 26: 169–176. – reference: 10. Galinier M, Roubille F, Berdague P, Brierre G, Cantie P, Dary P, et al. Telemonitoring versus standard care in heart failure: A randomised multicentre trial. Eur J Heart Fail 2020; 22: 985–994. – reference: 4. Van Spall HGC, Rahman T, Mytton O, Ramasundarahettige C, Ibrahim Q, Kabali C, et al. Comparative effectiveness of transitional care services in patients discharged from the hospital with heart failure: A systematic review and network meta-analysis. Eur J Heart Fail 2017; 19: 1427–1443. – reference: 20. Roberts AM, Bhattacharya J, Schultz HD, Coleridge HM, Coleridge JC. Stimulation of pulmonary vagal afferent C-fibers by lung edema in dogs. Circ Res 1986; 58: 512–522. – reference: 18. Zile MR, Bennett TD, St John Sutton M, Cho YK, Adamson PB, Aaron MF, et al. Transition from chronic compensated to acute decompensated heart failure: Pathophysiological insights obtained from continuous monitoring of intracardiac pressures. Circulation 2008; 118: 1433–1441. – reference: 1. Roger VL. Epidemiology of heart failure. Circ Res 2013; 113: 646–659. – reference: 19. Maisel A, Barnard D, Jaski B, Frivold G, Marais J, Azer M, et al. Primary results of the HABIT Trial (heart failure assessment with BNP in the home). J Am Coll Cardiol 2013; 61: 1726–1735. – reference: 5. Anker SD, Koehler F, Abraham WT. Telemedicine and remote management of heart failure. Lancet 2011; 378: 731–739. – reference: 9. Koehler F, Winkler S, Schieber M, Sechtem U, Stangl K, Böhm M, et al. Impact of remote telemedical management on mortality and hospitalizations in ambulatory patients with chronic heart failure: The telemedical interventional monitoring in heart failure study. Circulation 2011; 123: 1873–1880. – reference: 16. Sasayama S, Asanoi H, Ishizaka S, Miyagi K. Evaluation of functional capacity of patients with congestive heart failure.In: Yasuda H, Kawaguchi H, editors. New aspects in the treatment of failing heart syndrome. Tokyo: Springer-Verlag, 1992; 113–117. – reference: 2. Ambrosy AP, Fonarow GC, Butler J, Chioncel O, Greene SJ, Vaduganathan M, et al. The global health and economic burden of hospitalizations for heart failure: Lessons learned from hospitalized heart failure registries. J Am Coll Cardiol 2014; 63: 1123–1133. – reference: 11. Abraham WT, Adamson PB, Bourge RC, Aaron MF, Costanzo MR, Stevenson LW, et al. Wireless pulmonary artery haemodynamic monitoring in chronic heart failure: A randomised controlled trial. Lancet 2011; 377: 658–666. – reference: 8. Chaudhry SI, Mattera JA, Curtis JP, Spertus JA, Herrin J, Lin ZQ, et al. Telemonitoring in patients with heart failure. N Engl J Med 2010; 363: 2301–2309. – reference: 17. Bui AL, Fonarow GC. Home monitoring for heart failure management. J Am Coll Cardiol 2012; 59: 97–104. – reference: 21. Cundrle I, Olson LJ, Johnson BD. Pulmonary limitations in heart failure. Clin Chest Med 2019; 40: 439–448. – reference: 22. Yumino D, Redolfi S, Ruttanaumpawan P, Su MC, Smith S, Newton GE, et al. Nocturnal rostral fluid shift: A unifying concept for the pathogenesis of obstructive and central sleep apnea in men with heart failure. Circulation 2010; 121: 1598–1605. – reference: 13. Asanoi H, Harada D, Oda Y, Ueno H, Takagawa J, Ishise H, et al. Independent prognostic importance of respiratory instability and sympathetic nerve activity in patients with chronic heart failure. J Cardiol 2017; 70: 476–483. – reference: 3. Brahmbhatt DH, Cowie MR. Remote management of heart failure: An overview of telemonitoring technologies. Card Fail Rev 2019; 5: 86–92. – reference: 12. Abraham WT, Stevenson LW, Bourge RC, Lindenfeld JA, Bauman JG, Adamson PB, et al. Sustained efficacy of pulmonary artery pressure to guide adjustment of chronic heart failure therapy: Complete follow-up results from the CHAMPION randomised trial. Lancet 2016; 387: 453–461. – reference: 14. Takagawa J, Asanoi H, Tobushi T, Kumagai N, Kadokami T, Dohi K, et al. Multicenter, prospective study on respiratory stability during recovery from deterioration of chronic heart failure. Circ J 2018; 83: 164–173. – reference: 15. Tsutsui H, Isobe M, Ito H, Ito H, Okumura K, Ono M, et al. JCS 2017/JHFS 2017 guideline on diagnosis and treatment of acute and chronic heart failure: Digest version. Circ J 2019; 83: 2084–2184. – ident: 2 doi: 10.1016/j.jacc.2013.11.053 – ident: 1 doi: 10.1161/CIRCRESAHA.113.300268 – ident: 9 doi: 10.1161/CIRCULATIONAHA.111.018473 – ident: 15 doi: 10.1253/circj.CJ-19-0342 – ident: 11 doi: 10.1016/S0140-6736(11)60101-3 – ident: 14 doi: 10.1253/circj.CJ-18-0519 – ident: 20 doi: 10.1161/01.RES.58.4.512 – ident: 12 doi: 10.1016/S0140-6736(15)00723-0 – ident: 16 doi: 10.1007/978-4-431-68219-6_19 – ident: 17 doi: 10.1016/j.jacc.2011.09.044 – ident: 8 doi: 10.1056/NEJMoa1010029 – ident: 7 doi: 10.1016/S0147-9563(97)90053-4 – ident: 4 doi: 10.1002/ejhf.765 – ident: 5 doi: 10.1016/S0140-6736(11)61229-4 – ident: 10 doi: 10.1002/ejhf.1906 – ident: 13 doi: 10.1016/j.jjcc.2017.02.011 – ident: 3 doi: 10.15420/cfr.2019.5.3 – ident: 22 doi: 10.1161/CIRCULATIONAHA.109.902452 – ident: 19 doi: 10.1016/j.jacc.2013.01.052 – ident: 6 doi: 10.1016/S1388-9842(03)00160-0 – ident: 18 doi: 10.1161/CIRCULATIONAHA.108.783910 – ident: 21 doi: 10.1016/j.ccm.2019.02.010 |
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| Snippet | Background: Early detection of worsening heart failure (HF) with a telemonitoring system crucially depends on monitoring parameters. The present study aimed to... Early detection of worsening heart failure (HF) with a telemonitoring system crucially depends on monitoring parameters. The present study aimed to examine... |
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| SubjectTerms | Heart failure Heart Failure - diagnosis Hospitalization Humans Prospective Studies Respiratory instability Respiratory stability time Telemedicine - methods Telemonitoring |
| Title | Early Detection of Worsening Heart Failure in Patients at Home Using a New Telemonitoring System of Respiratory Stability |
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| ispartofPNX | Circulation Journal, 2022/06/24, Vol.86(7), pp.1081-1091 |
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