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Intensive Care Medicine

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01.10.2007 | Pediatric Original

The safety and efficacy of sustained inflations as a lung recruitment maneuver in pediatric intensive care unit patients

verfasst von: Jonathan P. Duff, Rhonda J. Rosychuk, Ari R. Joffe

Erschienen in: Intensive Care Medicine | Ausgabe 10/2007

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Abstract

Objective

To assess the safety and efficacy of sustained inflations (SI) as lung recruitment maneuvers (RMs) in ventilated pediatric intensive care unit (PICU) patients.

Design

Observational, prospective data collection.

Setting

Tertiary-care PICU.

Patients and participants

Thirty-two consecutive ventilated pediatric patients.

Interventions

An SI (30–40 cmH₂O for 15–20 s) was performed following a ventilator disconnection, suctioning, hypoxemia, or routinely every 12 h. Physiologic variables were recorded for 6 h after each SI. All other management was at the attending physician's discretion. The change in variables from pre-SI to post-SI (at 2, 10, and 15 min, 1, 2, 3, 4, 5, and 6 h) was compared using mixed models to account for repeated measures in the same patient.

Measurements and results

93 RMs were performed on 32 patients (ages 11 days to 14 years). RMs were done after suctioning (58/93, 62%), ventilator disconnect (5/93, 5%), desaturation (8/93, 9%), or routinely (22/93, 24%). Seven of 93 RMs (7.5%) were interrupted for patient agitation, and 2/93 (2.2%) for transient bradycardia. There was no evidence of statistically significant changes in systolic blood pressure, heart rate, or oxygen saturation as measured by pulse oximetry from pre-RM to post-RM, and there were no air leaks. In three patients with altered intracranial compliance, three of eight RM were associated with a spike of intracranial pressure. There was a sustained significant decrease in FiO₂ by 6.1% lasting up to 6 h post-RM.

Conclusions

RMs (as SI) are safe in ventilated PICU patients and are associated with a significant reduction in oxygen requirements for the 6 h after the RM.

Nur mit Berechtigung zugänglich

ARDSNet (2000) Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome. N Engl J Med 342:1301–1308CrossRef

Cereda M, Foti G, Musch G, Sparacino ME, Pesenti A (1996) Positive end-expiratory pressure prevents the loss of respiratory compliance during low tidal volume ventilation in acute lung injury patients. Chest 109:480–485PubMed

Brower RG, Morris A, MacIntyre N, Matthay MA, Hayden D, Thompson T, Clemmer T, Lanken PN, Schoenfeld D (2003) Effects of recruitment maneuvers in patients with acute lung injury and acute respiratory distress syndrome ventilated with high positive end-expiratory pressure. Crit Care Med 31:2592–2597PubMedCrossRef

Amato MBP, Barbas CSV, Medeiros DM, Magaldi RB, Schettino GP, Lorenzi-Filho G, Kairalla RA, Deheinzelin D, Munoz C, Oliveira R, Takagaki TY, Carvalho CRR (1998) Effect of a protective-ventilation strategy on mortality in the acute respiratory distress syndrome. N Engl J Med 338:347–354PubMedCrossRef

Lapinsky SE, Aubin M, Mehta S, Boiteau P, Slutsky AS (1999) Safety and efficacy of a sustained inflation for alveolar recruitment in adults with respiratory failure. Intensive Care Med 25:1297–1301PubMed

Lim CM, Jung H, Koh Y, Lee JS, Shim TS, Lee SD, Kim WS, Kim DS, Kim WD (2003) Effect of alveolar recruitment maneuver in early acute respiratory distress syndrome according to antiderecruitment strategy, etiological category of diffuse lung injury, and body position of the patient. Crit Care Med 31:411–418PubMedCrossRef

Sargent MA, Jamieson DH, McEachern AM, Blackstock D (2002) Increased inspiratory pressure for reduction of atelectasis in children anesthetized for CT scan. Pediatr Radiol 32:344–347PubMedCrossRef

Tusman G, Bohm SH, Tempra A, Melkun F, Garcia E, Turchetto E, Mulder PG, Lachmann B (2003) Effects of recruitment maneuver on atelectasis in anesthetized children. Anesthesiology 98:14–22PubMedCrossRef

Marcus RJ, Van Der Walt JH, Pettifer RJA (2002) Pulmonary volume recruitment restores pulmonary compliance and resistance in anaesthetized young children. Pediatr Anesth 12:579–584CrossRef

10.

Duff JP, Rosychuk RJ, Joffe AR (2006) The safety and efficacy of sustained inflation for lung recruitment in pediatric critical care patients. Proceedings of the American Thoracic Society 3:A753

11.

Rice TW, Wheeler AP, Bernard GR, Ware LB (2006) Comparison of SpO₂ / FiO₂ to PaO₂ / FiO₂ ratio in the diagnosis of ALI and ARDS. Proceedings of the American Thoracic Society 3:A570

12.

Pandharipande PP, Sanders N, St Jacqaues P, Ely EW, Shintani A (2007) Calculating SOFA scores when arterial blood gasses are not available: validating SpO₂ / FiO₂ratios for imputing PaO₂ / FiO₂ ratios in the SOFA score. Crit Care Med 34:A1CrossRef

13.

Brown H, Prescott R (1999) Applied mixed models in medicine. Wiley, Chichester

14.

Akaike H (1973) Information theory and an extension of the maximum likelihood principle. In: Petrov BN, Csaki F (eds) Proceedings of the Second International Symposium on Information Theory, Budapest, Hungary, pp 267–281

15.

Gattinoni L, Pelosi P, Suter PM, Pedoto A, Vercesi P, Lissoni A (1998) Acute respiratory distress syndrome caused by pulmonary and extrapulmonary disease. Different syndromes? Am J Respir Crit Care Med 158:3–11PubMed

16.

Rimensberger PC, Pristine G, Mullen BM, Cox PN, Slutsky AS (1999) Lung recruitment during small tidal volume ventilation allows minimal positive end-expiratory pressure without augmenting lung injury. Crit Care Med 27:1940–1945PubMedCrossRef

17.

Van der Kloot TE, Blanch L, Melynne Youngblood A, Weinert C, Adams AB, Marini JJ, Shapiro RS, Nahum A (2000) Recruitment maneuvers in three experimental models of acute lung injury. Effect on lung volume and gas exchange. Am J Respir Crit Care Med 161:1485–1494PubMed

18.

Grasso S, Mascia L, Del Turco M, Malacarne P, Giunta F, Brochard L, Slutsky AS, Ranieri VM (2002) Effects of recruiting maneuvers in patients with acute respiratory distress syndrome ventilated with protective ventilatory strategy. Anesthesiology 96:795–802PubMedCrossRef

19.

Lim SC, Adams AB, Simonson DA, Dries DJ, Broccard AF, Hotchkiss JR, Marini JJ (2004) Intercomparison of recruitment maneuver efficacy in three models of acute lung injury. Crit Care Med 32:2371–2377PubMedCrossRef

20.

Lim CM, Adams A, Simonson DA, Dries DJ, Broccard AF, Hotchkiss JR, Marini JJ (2004) Transient hemodynamic effects of recruitment maneuvers in three experimental models of acute lung injury. Crit Care Med 32:2378–2384PubMedCrossRef

21.

Villagra ANA, Ochagavia ANA, Vatua S, Murias G, Del Mar Fernandez M, Aguilar JL, Fernandez R, Blanch L (2002) Recruitment maneuvers during lung protective ventilation in acute respiratory distress syndrome. Am J Respir Crit Care Med 165:165–170PubMed

22.

Bein T, Kuhr LP, Bele S, Ploner F, Keyl C, Taeger K (2002) Lung recruitment maneuver in patients with cerebral injury: effects on intracranial pressure and cerebral metabolism. Intensive Care Med 28:554–558PubMedCrossRef

23.

Rimensberger PC, Cox PN, Frndova H, Bryan AC (1999) The open lung during small tidal volume ventilation: concepts of recruitment and “optimal” positive end-expiratory pressure. Crit Care Med 27:1946–1952PubMedCrossRef

24.

Bond DM, McAloon J, Froese AB (1994) Sustained inflations improve respiratory compliance during high-frequency oscillatory ventilation but not during large tidal volume positive-pressure ventilation in rabbits. Crit Care Med 22:1269–1277PubMedCrossRef

25.

Koh WJ, Suh GY, Han J, Lee SH, Kang EH, Chung MP, Kim H, Kwon OJ (2005) Recruitment maneuvers attenuate repeated derecruitment-associated lung injury. Crit Care Med 33:1070–1076PubMedCrossRef

26.

Pelosi P, Cadringher P, Bottino N, Panigada M, Carrieri F, Riva E, Lissoni A, Gattinoni L (1999) Sigh in acute respiratory distress syndrome. Am J Respir Crit Care Med 159:872–880PubMed

27.

Lim CM, Koh Y, Park W, Chin JY, Shim TS, Lee SD, Kim WS, Kim DS, Kim WD (2001) Mechanistic scheme and effect of “extended sigh” as a recruitment maneuver in patients with acute respiratory distress syndrome: a preliminary study. Crit Care Med 29:1255–1260PubMedCrossRef

28.

Povoa P, Almeida E, Fernandes A, Mealha R, Moreira P, Sabino H (2004) Evaluation of a recruitment maneuver with positive inspiratory pressure and high PEEP in patients with severe ARDS. Acta Anaesthesiol Scand 48:287–293PubMedCrossRef

29.

Gattinoni L, Vagginelli F, Chiumello D, Taccone P, Carlesso E (2003) Physiologic rationale for ventilator setting in acute lung injury/acute respiratory distress syndrome patients. Crit Care Med 31:S300–304PubMedCrossRef

30.

Musch G, Harris RS, Vidal Melo MF, O'Neill KR, Layfield JD, Winkler T, Venegas JG (2004) Mechanism by which a sustained inflation can worsen oxygenation in acute lung injury. Anesthesiology 100:323–330PubMedCrossRef

31.

Oczenski W, Hormann C, Keller C, Lorenzl N, Kepka A, Schwarz S, Fitzgerald RD (2004) Recruitment maneuvers after a positive end-expiratory pressure trial do not induce sustained effects in early adult respiratory distress syndrome. Anesthesiology 101:620–625PubMedCrossRef

32.

Neumann P, Berglund JE, Fernandez Mondejar E, Magnusson A, Hedenstierna G (1998) Dynamics of lung collapse and recruitment during prolonged breathing in porcine lung injury. J Appl Physiol 85:1533–1543PubMed

33.

Maggiore SM, Lellouche F, Pigeot J, Taille S, Deye N, Durrmeyer X, Richard JC, Mancebo J, Lemaire F, Brochard L (2003) Prevention of endotracheal suctioning-induced alveolar derecruitment in acute lung injury. Am J Respir Crit Care Med 167:1215–1224PubMedCrossRef

34.

Lu Q, Capderou A, Cluzel P, Mourgeon E, Abdennour L, Law-Koune JD, Straus C, Grenier P, Zelter M, Rouby JJ (2000) A computed tomographic scan assessment of endotracheal suctioning-induced bronchoconstriction in ventilated sheep. Am J Respir Crit Care Med 162:1898–1904PubMed

35.

Dyhr T, Bonde J, Larsson A (2003) Lung recruitment manoeuvres are effective in regaining lung volume and oxygenation after open endotracheal suctioning in acute respiratory distress syndrome. Crit Care 7:55–62PubMedCrossRef

36.

Morris K, Rimensberger P, Frndova H, Cox P, Barker G (1996) A recruitment maneuver improves lung mechanics in children following cardiopulmonary bypass. Am J Respir Crit Care Med 153:A376

37.

Kornecki A, Tsuchida S, Ondiveeran HK, Engelberts D, Frndova H, Tanswell AK, Post M, McKerlie C, Belik J, Fox-Robichaud A, Kavanagh BP (2005) Lung development and susceptibility to ventilator-induced lung injury. Am J Respir Crit Care Med 171:743–752PubMedCrossRef

38.

Naureckas ET, Dawson CA, Gerber BS, Gaver DP 3rd, Gerber HL, Linehan JH, Solway J, Samsel RW (1994) Airway reopening pressure in isolated rat lungs. J Appl Physiol 76:1372–1377 PubMed

Titel: The safety and efficacy of sustained inflations as a lung recruitment maneuver in pediatric intensive care unit patients
verfasst von: Jonathan P. Duff
Rhonda J. Rosychuk
Ari R. Joffe
Publikationsdatum: 01.10.2007
Verlag: Springer-Verlag
Erschienen in: Intensive Care Medicine / Ausgabe 10/2007
Print ISSN: 0342-4642
Elektronische ISSN: 1432-1238
DOI: https://doi.org/10.1007/s00134-007-0764-2

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The safety and efficacy of sustained inflations as a lung recruitment maneuver in pediatric intensive care unit patients

Abstract

Objective

Design

Setting

Patients and participants

Interventions

Measurements and results

Conclusions

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Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Springer Medizin

Abstract

Objective

Design

Setting

Patients and participants

Interventions

Measurements and results

Conclusions

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