L’observance est un enjeu clé dans les maladies chroniques. Par nos solutions nous souhaitons améliorer la qualité de vie des patients et nourrir la relation thérapeutique continue qui se crée avec le médecin.
Afin de permettre une prise en charge qualitative et efficiente, nous vous proposons des solutions de traitement validées cliniquement.
Zhu K, Roisman G, Aouf S, Escourrou P. All APAPs are not equivalent for the treatment of sleep disordered breathing: a bench evaluation of eleven commercially available devices. J Clin Sleep Med. 2015 Jul 15;11(7):725-34 Equivalence entre une PPC autopilotée et une PPC constante dans le traitement à domicile du SAS Nussbaumer Y, Bloch KE, Genser T, Thurnheer R. Equivalence of autoadjusted and constant continuous positive airway pressure in home treatment of sleep apnea. Chest. 2006 Mar;129(3):638-43 Adhésion thérapeutique et bénéfices d’un traitement par PPC avec Flex vs sans Aloia MS, Stanchina M, Arnedt JT, Malhotra A, Millman RP. Treatment Adherence and Outcomes in Flexible vs Standard Continuous Positive Airway Pressure Therapy. Chest. 2005;127(6):2085-2093 Krawietz M, Garcia C, Pilz C, Glos M, Dieckeer B, Fietze I, Penzel T. CPAP with Pressure Relief during Exhalation (C-Flex+) is as Effective as CPAP in the Treatment of Obstructive Sleep Apnea. J Sleep Disord Ther. 2017;6:268 Étude de validation d’une PPC auto avec le mode de confort P-Flex Gentina T, Codron F, Jounieaux F, Lamblin C, Dernis JM, Bure M, Fortin F. Étude de validation d’une PPC auto avec le mode de confort P-Flex. Médecine du Sommeil 2015 Jan-Mar;12(1):37 Étude de perception d’un appareil de PPC auto de nouvelle génération, PR1 P-Flex d'Ortho MP, Philippe C, Recart D, Prigent A, Bout JC, Lacassagne L, Checroun V, Escourrou P, Pinet C, Martin F, Makhlouf L. Étude de perception d’un appareil de PPC auto de nouvelle génération, PR1 P-Flex. Médecine du Sommeil. 2016 Jan-Mar;13(1):31-32 Li QY, Berry RB, Goetting MG, Staley B, Soto-Calderon H, Tsai SC, Jasko JG, Pack AI, Kuna ST. Detection of upper airway status and respiratory events by a current generation positive airway pressure device. Sleep. 2015 Apr 1;38(4):597-605 Interventions pour améliorer l’observance chez des patients SAS non observants sous PPC standard Ballard RD, Gay PC, Strollo PJ. Interventions to improve compliance in sleep apnea patients previously non-compliant with continuous positive airway pressure. J Clin Sleep Med. 2007 Dec 15;3(7):706-12 Gentina T, Fortin F, Douay B, Dernis JM, Herengt F, Bout JC, Lamblin C. Auto bi-level with pressure relief during exhalation as a rescue therapy for optimally treated obstructive sleep apnea patients with poor compliance to continuous positive airways pressure therapy: a pilot study. Sleep Breath. 2011 Jan;15(1):21-7 Carlucci A, Ceriana P, Mancini M, Cirio S, Pierucci P, D'Artavilla Lupo N, Gadaleta F, Morrone E, Fanfulla F. Efficacy of Bilevel-auto Treatment in Patients with Obstructive Sleep Apnea Not Responsive to or Intolerant of Continuous Positive Airway Pressure Ventilation. J Clin Sleep Med. 2015 Sep 15;11(9):981-5 Cahiers cliniques Philips : Cahier clinique 10 — La bonne pression pour un bon traitement par PPC
Ventilation auto-asservie : comment s’inscrit-elle dans le traitement du syndrome d’apnées centrales du sommeil ? Avis d’experts La performance de 2 dispositifs de ventilation auto-asservie dans le traitement du SACS
Priou P, d'Ortho MP, Damy T, Davy JM, Gagnadoux F, Gentina T, Meurice JC, Pepin JL, Tamisier R, Philippe C. Adaptive servo-ventilation: How does it fit into the treatment of central sleep apnea syndrome? Expert opinions. Rev Mal Respir. 2015 Dec;32(10):1072-81
Javaheri S, Goetting MG, Khayat R, Wylie PE, Goodwin JL, Parthasarathy S. The performance of two automatic servo-ventilation devices in the treatment of central sleep apnea. Sleep. 2011 Dec 1;34(12):1693-8
Murphy PB, Davidson C, Hind MD, et al. Volume targeted versus pressure support non-invasive ventilation in patients with super obesity and chronic respiratory failure: a randomised controlled trial. Thorax. 2012 Aug;67(8):727-34 AVAPS dans le syndrome d'obésité hypoventilation : un essai croisé randomisé Storre JH, Seuthe B, Fiechter R, Milioglou S, Dreher M, Sorichter S, Windisch W. Average volume-assured pressure support in obesity hypoventilation: A randomized crossover trial. Chest. 2006 Sep;130(3):815-21 Janssens JP, Metzger M, Sforza E. Impact of volume targeting on efficacy of bi-level non-invasive ventilation and sleep in obesity-hypoventilation. Respir Med. 2009 Feb;103(2):165-72 Coughlin S, White D. Reply to: Janssens J-P et al. Impact of volume targeting on efficacy of bi-level non-invasive ventilation and sleep in obesity-hypoventilation. Respir Med. 2009 Jun;103(6):943 Banc d’essai Monitorage de la VNI par les logiciels intégrés de VNI de domicile : un étude sur banc test Contal O, Vignaux L, Combescure C, Pepin JL, Jolliet P, Janssens JP. Monitoring of non-invasive ventilation by built-in software on home bilevel ventilator : a bench test study. Chest 2012 Feb;141(2):469-76 Caractéristiques de performance de 10 VNI de domicile Battisti A, Tassaux D, Janssens JP, Michotte JB, Jaber S, Jolliet P. Performance Characteristics of 10 Home Mechanical Ventilators in Pressure-Support Mode. Chest 2005 May;127(5):1784-9 Capnographie Validité de la capnographie transcutanée PCO2 dans le monitorage de l'hypoventilation chronique traitée par VNI Aarrestad S, Tollefsen E, Kleiven AL, Qvarfort M, Janssens JP, Skjønsberg OH. Validity of transcutaneous PCO2 in monitoring chronic hypoventilation treated with non-invasive ventilation. Respir Med. 2016 Mar;112:112-8 Janssens JP, Borel JC, Pépin JL, SomnoNIV Group. Nocturnal monitoring of home non-invasive ventilation: the contribution of simple tools such as pulse oximetry, capnography, built-in ventilator software and autonomic markers of sleep fragmentation. Thorax. 2011 May;66(5):438-45 Cahiers cliniques Philips
Köhnlein T, et al. Non‐invasive positive pressure ventilation for the treatment of severe, stable chronic obstructive pulmonary disease: a prospective, multicentre, randomised, controlled clinical trial. Lancet Respir Med. 2014 Sep;2(9):698-705 Banc d’essai Monitorage de la VNI par les logiciels intégrés de VNI de domicile : un étude sur banc test Contal O, Vignaux L, Combescure C, Pepin JL, Jolliet P, Janssens JP. Monitoring of non-invasive ventilation by built-in software on home bilevel ventilator : a bench test study. Chest 2012 Feb;141(2):469-76 Caractéristiques de performance de 10 VNI de domicile Battisti A, Tassaux D, Janssens JP, Michotte JB, Jaber S, Jolliet P. Performance Characteristics of 10 Home Mechanical Ventilators in Pressure-Support Mode. Chest 2005 May;127(5):1784-9 Capnographie Validité de la capnographie transcutanée PCO2 dans le monitorage de l'hypoventilation chronique traitée par VNI Aarrestad S, Tollefsen E, Kleiven AL, Qvarfort M, Janssens JP, Skjønsberg OH. Validity of transcutaneous PCO2 in monitoring chronic hypoventilation treated with non-invasive ventilation. Respir Med. 2016 Mar;112:112-8 Janssens JP, Borel JC, Pépin JL, SomnoNIV Group. Nocturnal monitoring of home non-invasive ventilation: the contribution of simple tools such as pulse oximetry, capnography, built-in ventilator software and autonomic markers of sleep fragmentation. Thorax. 2011 May;66(5):438-45 Cahiers cliniques Philips
Chatwin M, Ross E, Hart N, Nickol AH, Polkey MI, Simonds AK. Cough augmentation with mechanical insufflation/exsufflation in patients with neuromuscular weakness. Eur Respir J. 2003 Mar;21(3):502-8 Chatwin M, Toussaint M, Gonçalves MR, Sheers N, Mellies U, Gonzales-Bermejo J, Sancho J, Fauroux B, Andersen T, Hov B, Nygren-Bonnier M, Lacombe M, Pernet K, Kampelmacher M, Devaux C, Kinnett K, Sheehan D, Rao F, Villanova M, Berlowitz D, Morrow BM. Airway clearance techniques in neuromuscular disorders: A state of the art review. Respir Med. 2018 Mar;136:98-110 Miura T, Takami A, Makino M, Ishikawa A, Ishikawa Y. Rate of oral intake and effects of mechanical insufflation-exsufflation on pulmonary complications in patients with duchenne muscular dystrophy. J Phys Ther Sci. 2017 Mar;29(3):487-490 Vitacca M, Paneroni M, Trainini D, Bianchi L, Assoni G, Saleri M, Gilè S, Winck JC, Gonçalves MR. At home and on demand mechanical cough assistance program for patients with amyotrophic lateral sclerosis. Am J Phys Med Rehabil. 2010 May;89(5):401-6 Siriwat R, Deerojanawong J, Sritippayawan S, Hantragool S, Cheanprapai P. Mechanical Insufflation-Exsufflation Versus Conventional Chest Physiotherapy in Children With Cerebral Palsy. Respir Care. 2018 Feb;63(2):187-193 Réponses laryngées lors de l'aide mécanique à la toux dans la progression de la SLA Andersen TM, Sandnes A, Fondenes O, Nilsen RM, Tysnes OB, Heimdal JH, Clemm HH, Halvorsen T, Vollsæter M, Røksund OD. Laryngeal Responses to Mechanically Assisted Cough in Progressing Amyotrophic Lateral Sclerosis. Respir Care. 2018 May;63(5):538-549 Modifications de la pression et du volume gastriques lors de l'in-exsufflation mécanique Miske LJ, McDonough JM, Weiner DJ, Panitch HB. Changes in gastric pressure and volume during mechanical in-exsufflation. Pediatr Pulmonol. 2013 Aug;48(8):824-9 Winck JC, Gonçalves MR, Lourenço C, Viana P, Almeida J, Bach JR. Effects of mechanical insufflation-exsufflation on respiratory parameters for patients with chronic airway secretion encumbrance. Chest. 2004 Sep;126(3):774-80 Bach JR, Sinquee DM, Saporito LR, Botticello AL. Efficacy of mechanical insufflation-exsufflation in extubating unweanable subjects with restrictive pulmonary disorders. Respir Care. 2015 Apr;60(4):477-83 Sancho J, Servera E, Vergara P, Marín J. Mechanical insufflation-exsufflation vs. tracheal suctioning via tracheostomy tubes for patients with amyotrophic lateral sclerosis: a pilot study. Am J Phys Med Rehabil. 2003 Oct;82(10):750-3 Gonçalves MR, Honrado T, Winck JC, Paiva JA. Effects of mechanical insufflation-exsufflation in preventing respiratory failure after extubation: a randomized controlled trial. Crit Care. 2012 Dec 12;16(2):R48 De Camillis MLF, Savi A, Rosa RG, Figueiredo M, Wickert R, Borges LGA, Galant L, Teixeira C. Effects of Mechanical Insufflation-Exsufflation on Airway Mucus Clearance Among Mechanically Ventilated ICU Subjects. Respir Care. 2018 Jul 17. pii: respcare.06253 Sánchez-García M, Santos P, Rodríguez-Trigo G, Martínez-Sagasti F, Fariña-González T, Del Pino-Ramírez Á, Cardenal-Sánchez C, Busto-González B, Requesens-Solera M, Nieto-Cabrera M, Romero-Romero F, Núñez-Reiz A. Preliminary experience on the safety and tolerability of mechanical "insufflation-exsufflation" in subjects with artificial airway. Intensive Care Med Exp. 2018 Apr 3;6(1):8 Meric H, Falaize L, Pradon D, Lacombe M, Petitjean M, Orlikowski D, Prigent H, Lofaso F. Short-term effect of volume recruitment-derecruitment manoeuvre on chest-wall motion in Duchenne muscular dystrophy. Chron Respir Dis. 2017 May;14(2):110-116 Désencombrement des voies aériennes avec une manœuvre d’in-exsufflation mécanique optimisée Volpe MS, Naves JM, Ribeiro GG, Ruas G, Amato MBP. Airway Clearance With an Optimized Mechanical Insufflation-Exsufflation Maneuver. Respir Care. 2018 Jul 17. pii: respcare.05965
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