T. D. Bradley, SERVE-HF on-treatment analysis: does the on-treatment analysis SERVE its purpose?, Eur Respir J, vol.50, p.1701516, 2017.

K. Zhu, H. Kharboutly, J. Ma, M. Bouzit, and P. Escourrou, Bench test evaluation of adaptive servoventilation devices for sleep apnea treatment, J Clin Sleep Med, vol.9, pp.861-71, 2013.

S. Javaheri, L. K. Brown, and W. J. Randerath, Positive airway pressure therapy with adaptive servoventilation: part 1: operational algorithms, Chest, vol.146, pp.514-537, 2014.

J. Knitter, O. F. Bailey, C. Poongkunran, A. F. Martinez, L. Martinez et al., Comparison of physiological performance of four adaptive servo ventilation devices in patients with complex sleep apnea, Am J Respir Crit Care Med, vol.199, pp.925-933, 2019.

H. Teschler, J. Döhring, Y. M. Wang, and M. Berthon-jones, Adaptive pressure support servo-ventilation: a novel treatment for Cheyne-stokes respiration in heart failure, Am J Respir Crit Care Med, vol.164, pp.614-623, 2001.

O. Oldenburg, Cheyne-stokes respiration in chronic heart failure. Treatment with adaptive servoventilation therapy, Circ J, vol.76, pp.2305-2322, 2012.

M. R. Cowie, H. Woehrle, K. Wegscheider, C. Angermann, M. Ortho et al., Adaptive servo-ventilation for central sleep apnea in systolic heart failure, N Engl J Med, vol.373, pp.1095-105, 2015.

T. D. Bradley and J. S. Floras, Adaptive servo-ventilation and the treatment of central sleep apnea in heart failure. Let's not throw the baby out with the bathwater, Am J Respir Crit Care Med, vol.193, pp.357-366, 2016.

S. Javaheri, L. K. Brown, W. Randerath, and R. Khayat, SERVE-HF: more questions than answers, Chest, vol.149, pp.900-904, 2016.

M. Yamauchi, D. Combs, and S. Parthasarathy, Adaptive servo-ventilation for central sleep apnea in heart failure, N Engl J Med, vol.374, p.689, 2016.

M. T. Naughton, PRO: persistent central sleep apnea/hunter-Cheyne-stokes breathing, despite best guideline-based therapy of heart failure with reduced ejection fraction, is a compensatory mechanism and should not be suppressed, J Clin Sleep Med, vol.14, pp.909-923, 2018.

S. Javaheri, L. K. Brown, and R. Khayat, CON: persistent central sleep apnea/hunter-Cheyne-stokes breathing, despite best guideline-based therapy of heart failure with reduced ejection fraction, is not a compensatory mechanism and should be suppressed, J Clin Sleep Med, vol.14, pp.915-936, 2018.

S. Javaheri, R. Shukla, and L. Wexler, Association of smoking, sleep apnea, and plasma alkalosis with nocturnal ventricular arrhythmias in men with systolic heart failure, Chest, vol.141, pp.1449-56, 2012.

S. Javaheri and W. S. Corbett, Association of low PaCO2 with central sleep apnea and ventricular arrhythmias in ambulatory patients with stable heart failure, Ann Intern Med, vol.128, pp.204-211, 1998.

T. D. Bradley, R. M. Holloway, P. R. Mclaughlin, B. L. Ross, J. Walters et al., Cardiac output response to continuous positive airway pressure in congestive heart failure, Am Rev Respir Dis, vol.145, pp.377-82, 1992.

O. Oldenburg, S. Bartsch, T. Bitter, H. Schmalgemeier, T. Fischbach et al., Hypotensive effects of positive airway pressure ventilation in heart failure patients with sleep-disordered breathing, Sleep Breath, vol.16, pp.753-760, 2012.

N. Combes, D. Jaffuel, C. G. Granier, M. Borel, J. C. Corne et al., Pressuredependent hemodynamic effect of continuous positive airway pressure in severe chronic heart failure: a case series, Int J Cardiol, vol.171, pp.104-109, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01954116

N. Asakawa, M. Sakakibara, K. Noguchi, K. Kamiya, S. Yamada et al., Adaptive servo-ventilation has more favorable acute effects on hemodynamics than continuous positive airway pressure in patients with heart failure, Int Heart J, vol.56, pp.527-559, 2015.

J. Spießhöfer, H. Fox, R. Lehmann, C. Efken, J. Heinrich et al., Heterogenous haemodynamic effects of adaptive servoventilation therapy in sleeping patients with heart failure and Cheyne-stokes respiration compared to healthy volunteers, Heart Vessel, vol.31, pp.1117-1147, 2016.

T. Imamura, D. Nitta, and K. Kinugawa, Optimization of pressure settings during adaptive servo-ventilation support using real-time heart rate variability assessment: initial case report, BMC Cardiovasc Disord, vol.17, p.11, 2017.

O. Oldenburg, J. Spießhöfer, H. Fox, N. Prib, and D. Horstkotte, Performance of conventional and enhanced adaptive servoventilation (ASV) in heart failure patients with central sleep apnea who have adapted to conventional ASV, Sleep Breath, vol.19, pp.795-800, 2015.

M. Gorbachevski, J. Spiesshoefer, M. Arzt, O. Oldenburg, S. Becker et al., Adaptive servo-ventilation therapy does not favourably alter sympatho-vagal balance in sleeping patients with systolic heart failure and central apnoeas: preliminary data, Int J Cardiol, vol.315, pp.59-66, 2020.

A. Brill, P. Hefti, J. Geiser, T. Ott, and S. R. , The SERVE-HF safety notice in clinical practice -experiences of a tertiary sleep center, Sleep Med, vol.37, pp.201-208, 2017.

D. Jaffuel, C. Philippe, C. Rabec, J. Mallet, M. Georges et al., What is the remaining status of adaptive servo-ventilation? The results of a real-life multicenter study (OTRLASV-study): adaptive servo-ventilation in real-life conditions, Respir Res, vol.20, p.235, 2019.

M. V. Malfertheiner, C. Lerzer, L. Kolb, K. Heider, F. Zeman et al., Whom are we treating with adaptive servo-ventilation? A clinical post hoc analysis, Clin Res Cardiol, vol.106, pp.702-712, 2017.

W. Randerath, K. Schumann, M. Treml, S. Herkenrath, A. Castrogiovanni et al., Adaptive servoventilation in clinical practice: beyond SERVE-HF?, ERJ Open Res, vol.3, p.78, 2017.

C. Cantero, D. Adler, P. Pasquina, C. Uldry, B. Egger et al., Adaptive servo-ventilation: a comprehensive descriptive study in the Geneva Lake area, Front Med, vol.7, p.105, 2020.

M. Westhoff and P. Litterst, Ventilation parameters under adaptive servo ventilation: a comparison on behalf of CSA-pattern, BNP/NT-pro-BNP, and ejection fraction, Respir Int Rev Thorac Dis, vol.96, pp.240-248, 2018.

R. N. Aurora, S. Chowdhuri, K. Ramar, S. R. Bista, K. R. Casey et al., The treatment of central sleep apnea syndromes in adults: practice parameters with an evidence-based literature review and meta-analyses, Sleep, vol.35, pp.17-40, 2012.

W. Randerath, J. Verbraecken, A. S. Arzt, M. Bloch, K. E. Brack et al., Definition, discrimination, diagnosis and treatment of central breathing disturbances during sleep, Eur Respir J, vol.49, p.1, 2017.

S. Bénézet, R. Guimbaud, E. Chatelut, C. Chevreau, R. Bugat et al., How to predict carboplatin clearance from standard morphological and biological characteristics in obese patients, Ann Oncol, vol.8, pp.607-616, 1997.

T. J. Kuzniar, J. M. Golbin, and T. I. Morgenthaler, Moving beyond empiric continuous positive airway pressure (CPAP) trials for central sleep apnea: a multimodality titration study, Sleep Breath, vol.11, pp.259-66, 2007.

C. Carnevale, M. Georges, C. Rabec, R. Tamisier, P. Levy et al., Effectiveness of adaptive servo ventilation in the treatment of hypocapnic central sleep apnea of various etiologies, Sleep Med, vol.12, pp.952-960, 2011.

C. Philippe, M. Stoïca-herman, X. Drouot, B. Raffestin, P. Escourrou et al., Compliance with and effectiveness of adaptive servoventilation versus continuous positive airway pressure in the treatment of Cheyne-stokes respiration in heart failure over a six month period, Heart, vol.92, pp.337-379, 2006.

S. Javaheri, L. K. Brown, and W. J. Randerath, Clinical applications of adaptive servoventilation devices: part 2, Chest, vol.146, pp.858-68, 2014.

J. Pépin, H. Woehrle, D. Liu, S. Shao, J. P. Armitstead et al., Adherence to positive airway therapy after switching from CPAP to ASV: a big data analysis, J Clin Sleep Med, vol.14, pp.57-63, 2018.

S. Javaheri, M. G. Goetting, R. Khayat, P. E. Wylie, J. L. Goodwin et al., The performance of two automatic servo-ventilation devices in the treatment of central sleep apnea, Sleep, vol.34, pp.1693-1701, 2011.

C. A. Kushida, A. Chediak, R. B. Berry, L. K. Brown, D. Gozal et al., Clinical guidelines for the manual titration of positive airway pressure in patients with obstructive sleep apnea, J Clin Sleep Med, vol.4, pp.157-71, 2008.

T. I. Morgenthaler, R. N. Aurora, T. Brown, R. Zak, C. Alessi et al., Practice parameters for the use of autotitrating continuous positive airway pressure devices for titrating pressures and treating adult patients with obstructive sleep apnea syndrome: an update for, An American Academy of sleep medicine report. Sleep, vol.31, pp.141-148, 2007.

, Société Française d'Anesthésie Réanimation, Société Française de Cardiologie, Société Française de Médecine du Travail, Société Française d'ORL, Société de Physiologie, et al. Recommendations for clinical practice. Obstructive sleep apnea hypopnea syndrome in adults, Rev Mal Respir, vol.27, pp.806-839, 2010.

O. D. Lyons, J. S. Floras, A. G. Logan, R. Beanlands, J. D. Cantolla et al., Design of the effect of adaptive servo-ventilation on survival and cardiovascular hospital admissions in patients with heart failure and sleep apnoea: the ADVENT-HF trial, Eur J Heart Fail, vol.19, pp.579-87, 2017.

D. Yumino, T. Kasai, D. Kimmerly, V. Amirthalingam, J. S. Floras et al., Differing effects of obstructive and central sleep apneas on stroke volume in patients with heart failure, Am J Respir Crit Care Med, vol.187, pp.433-441, 2013.

J. Borel, J. Pelletier, N. Taleux, A. Briault, N. Arnol et al., Parameters recorded by software of non-invasive ventilators predict COPD exacerbation: a proof-of-concept study, Thorax, vol.70, pp.284-289, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01969365

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