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Meta-Analysis
. 2016 May 12;2016(5):CD007205.
doi: 10.1002/14651858.CD007205.pub2.

Lateral positioning for critically ill adult patients

Nicky Hewitt  1 Tracey BucknallNardene M Faraone
Affiliations
Meta-Analysis

Lateral positioning for critically ill adult patients

Nicky Hewitt et al. Cochrane Database Syst Rev. .

Abstract

Background: Critically ill patients require regular body position changes to minimize the adverse effects of bed rest, inactivity and immobilization. However, uncertainty surrounds the effectiveness of lateral positioning for improving pulmonary gas exchange, aiding drainage of tracheobronchial secretions and preventing morbidity. In addition, it is unclear whether the perceived risk levied by respiratory and haemodynamic instability upon turning critically ill patients outweighs the respiratory benefits of side-to-side rotation. Thus, lack of certainty may contribute to variation in positioning practice and equivocal patient outcomes.

Objectives: To evaluate effects of the lateral position compared with other body positions on patient outcomes (mortality, morbidity and clinical adverse events) in critically ill adult patients. (Clinical adverse events include hypoxaemia, hypotension, low oxygen delivery and global indicators of impaired tissue oxygenation.) We examined single use of the lateral position (i.e. on the right or left side) and repeat use of the lateral position (i.e. lateral positioning) within a positioning schedule.

Search methods: We searched the Cochrane Central Register of Controlled Trials (CENTRAL; 2015, Issue 5), MEDLINE (1950 to 23 May 2015), the Cumulative Index to Nursing and Allied Health Literature (CINAHL) (1937 to 23 May 2015), the Allied and Complementary Medicine Database (AMED) (1984 to 23 May 2015), Latin American Caribbean Health Sciences Literature (LILACS) (1901 to 23 May 2015), Web of Science (1945 to 23 May 2015), Index to Theses in Great Britain and Ireland (1950 to 23 May 2015), Trove (2009 to 23 May 2015; previously Australasian Digital Theses Program (1997 to December 2008)) and Proquest Dissertations and Theses (2009 to 23 May 2015; previously Proquest Digital Dissertations (1980 to 23 May 2015)). We handsearched the reference lists of potentially relevant reports and two nursing journals.

Selection criteria: We included randomized and quasi-randomized trials examining effects of lateral positioning in critically ill adults. We included manual or automated turns but limited eligibility to studies that included duration of body position of 10 minutes or longer. We examined each lateral position versus at least one comparator (opposite lateral position and/or another body position) for single therapy effects, and the lateral positioning schedule (repeated lateral turning) versus other positioning schedules for repetitive therapy effects.

Data collection and analysis: We pre-specified methods to be used for data collection, risk of bias assessment and analysis. Two independent review authors carried out each stage of selection and data extraction and settled differences in opinion by consensus, or by third party adjudication when disagreements remained unresolved. We planned analysis of pair-wise comparisons under composite time intervals with the aim of considering recommendations based on meta-analyses of studies with low risk of bias.

Main results: We included 24 studies of critically ill adults. No study reported mortality as an outcome of interest. Two randomized controlled trials (RCTs) examined lateral positioning for pulmonary morbidity outcomes but provided insufficient information for meta-analysis. A total of 22 randomized trials examined effects of lateral positioning (four parallel-group and 18 cross-over designs) by measuring various continuous data outcomes commonly used to detect adverse cardiopulmonary events within critical care areas. However, parallel-group studies were not comparable, and cross-over studies provided limited data as the result of unit of analysis errors. Eight studies provided some data; most of these were single studies with small effects that were imprecise. We pooled partial pressure of arterial oxygen (PaO2) as a measure to detect hypoxaemia from two small studies of participants with unilateral lung disease (n = 19). The mean difference (MD) between lateral positions (bad lung down versus good lung down) was approximately 50 mmHg (MD -49.26 mmHg, 95% confidence interval (CI) -67.33 to -31.18; P value < 0.00001). Despite a lower mean PaO2 for bad lung down, hypoxaemia (mean PaO2 < 60 mmHg) was not consistently reported. Furthermore, pooled data had methodological shortcomings with unclear risk of bias. We had similar doubts regarding internal validity for other studies included in the review.

Authors' conclusions: Review authors could provide no clinical practice recommendations based on the findings of included studies. Available research could not eliminate the uncertainty surrounding benefits and/or risks associated with lateral positioning of critically ill adult patients. Research gaps include the effectiveness of lateral positioning compared with semi recumbent positioning for mechanically ventilated patients, lateral positioning compared with prone positioning for acute respiratory distress syndrome (ARDS) and less frequent changes in body position. We recommend that future research be undertaken to address whether the routine practice of repositioning patients on their side benefits all, some or few critically ill patients.

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Conflict of interest statement

Nicky Hewitt: none known.

Tracey Bucknall: none known.

Nardene Faraone: none known.

Figures

1
1
Study flow diagram of records searched, screened and selected.
2
2
Risk of bias summary: review authors' judgements about each risk of bias item for each included study.
3
3
Risk of bias graph: review authors' judgements about each risk of bias item presented as percentages across all included studies.
1.1
1.1. Analysis
Comparison 1 Bad lung down vs good lung down in unilateral lung disease, Outcome 1 PaO2 (mmHg) across composite time intervals (early and short turning responses).
1.2
1.2. Analysis
Comparison 1 Bad lung down vs good lung down in unilateral lung disease, Outcome 2 P/F ratio across composite time intervals (early and short turning responses).
See this image and copyright information in PMC

Comment in

References

References to studies included in this review

Banasik 1987 {published data only}
    1. Banasik JL, Bruya MA, Steadman RE, Demand JK. Effect of position on arterial oxygenation in postoperative coronary revascularization patients. Heart & Lung 1987;16(6 Pt 1):652‐7. [PUBMED: 3500152] - PubMed
Banasik 1996 {published data only}
    1. Banasik J. The effect of position on peripheral oxygenation in postoperative CABG patients. Heart & Lung 1990;19(3):302.
    1. Banasik JL, Emerson RJ. Effect of lateral position on arterial and venous blood gases in postoperative cardiac surgery patients. American Journal of Critical Care 1996;5(2):121‐6. [PUBMED: 8653163] - PubMed
    1. Emerson RJ, Banasik JL. Effect of position on selected hemodynamic parameters in postoperative cardiac surgery patients. American Journal of Critical Care 1994;3(4):289‐99. [PUBMED: 7920958] - PubMed
Banasik 2001 {published data only}
    1. Banasik JL, Emerson RJ. Effect of lateral positions on tissue oxygenation in the critically ill. Heart & Lung 2001;30(4):269‐76. [MEDLINE: ] - PubMed
    1. Emerson R, Banasik J. Effect of position on oxygen delivery in the critically ill. American Journal of Critical Care 1999;8(4):273.
Bein 1996 {published data only}
    1. Bein T, Metz C, Keyl C, Pfeifer M, Taeger K. Effects of extreme lateral posture on hemodynamics and plasma atrial natriuretic peptide levels in critically ill patients. Intensive Care Medicine 1996;22(7):651‐5. [MEDLINE: ] - PubMed
Carroll 1992 {published data only (unpublished sought but not used)}
    1. Carroll K. The effects of early position changes on cardiac output and SvO2 in the coronary artery bypass graft surgery patient. Heart & Lung 1992;21(3):286. [ ISSN 0147‐9563]
    1. Carroll, KC. The effects of early position changes on cardiac output and venous oxygen saturation in the coronary artery bypass graft surgery patient. Unpublished M.S. thesis, San Diego State University, San Diego, United States of America, 1991.
Chan 1992 {published and unpublished data}
    1. Chan M. The effects of three different positions on arterial oxygen and relative pulmonary shunt in post‐operative coronary arterial bypass graft patients. Unpublished master's thesis, University of Alberta, Alberta, Canada,. Canada: University of Alberta, 1991.
    1. Chan M, Jensen L. Positioning effects on arterial oxygen and relative pulmonary shunt in patients receiving mechanical ventilation after CABG. Heart & Lung 1992;21(5):448‐56. [PUBMED: 1399664] - PubMed
Chulay 1982 {published data only}
    1. Chulay M, Brown J, Summer W. Effect of postoperative immobilization after coronary artery bypass surgery. Critical Care Medicine 1982;10(3):176‐9. [PUBMED: 7037302] - PubMed
de Laat 2007 {published data only}
    1. Laat E, Schoonhoven L, Grypdonck M, Verbeek A, Graaf R, Pickkers P, Achterberg T. Early postoperative 30° lateral positioning after coronary artery surgery: influence on cardiac output. Journal of Clinical Nursing 2007;16(4):654‐61. [PUBMED: 17402946] - PubMed
Doering 1988 {published data only}
    1. Doering L, Dracup K. Comparisons of cardiac output in supine and lateral positions. Nursing Research 1988;37(2):114‐8. [PUBMED: 3347519] - PubMed
Gavigan 1990 {published data only}
    1. Gavigan M, Kline‐O'Sullivan C, Klumpp‐Lybrand B. The effect of regular turning on CABG patients. Critical Care Nursing Quarterly 1990;12(4):69‐76. [MEDLINE: ] - PubMed
Gawlinski 1998 {published and unpublished data}
    1. Gawlinski A, Dracup K. Effect of positioning on SvO2 in the critically ill patient with a low ejection fraction. Nursing Research 1998;47(5):293‐9. [MEDLINE: ] - PubMed
    1. Gawlinski AF. Effect of positioning on venous oxygen saturation in the critically ill patient with a low ejection fraction. Unpublished doctoral dissertation, University of California, Los Angeles, United States,. California, United States: University of California, Los Angeles, 1993.
George 2002 {published and unpublished data}
    1. George E, Hoffman L, Boujoukos A, Zullo T. The effect of position on oxygenation in single lung transplants. American Journal of Critical Care 2000;9(3):211. [ISSN 1062‐3264] - PubMed
    1. George EL. The effect of positioning on oxygenation in single lung transplant recipients. Unpublished PhD thesis, University of Pittsburgh, Pennsylvania, United States,. Pennsylvania, United States: University of Pittsburgh, 1999. [ISBN 978‐0‐599‐61071‐2]
    1. George EL, Hoffman LA, Boujoukos A, Zullo TG. Effect of positioning on oxygenation in single‐lung transplant recipients. American Journal of Critical Care 2002;11(1):66‐75. [PUBMED: 11785558] - PubMed
Ibanez 1981 {published data only}
    1. Ibañez J, Raurich JM, Abizanda R, Claramonte R, Ibañez P, Bergada J. The effect of lateral positions on gas exchange in patients with unilateral lung disease during mechanical ventilation. Intensive Care Medicine 1981;7(5):231‐4. [MEDLINE: ] - PubMed
Kim 2002 {published data only}
    1. Kim MJ, Hwang HJ, Song HH. A randomized trial on the effects of body positions on lung function with acute respiratory failure patients. International Journal of Nursing Studies 2002;39(5):549‐55. [MEDLINE: ] - PubMed
Lewis 1997 {published data only}
    1. Lewis P, Nicols E, Mackey G, Fadol A, Sloane L, Villagomez E, et al. The effect of turning and backrub on mixed venous oxygen saturation in critically ill patients. American Journal of Critical Care 1997;6(2):132‐40. [PUBMED: 9172850] - PubMed
Pena 1989 {published data only (unpublished sought but not used)}
    1. Pena M. The effect of position change on mixed venous oxygen saturation measurements in open heart surgery patients during the immediate postoperative period. Heart & Lung 1989;18(3):305.
Reed 2002 {published data only}
    1. Jesurum‐Urbaitis JT. Oxygen consumption modulation: effects of an opioid agonist on tissue oxygenation following lateral positioning in cardiovascular surgical patients with low oxygen delivery. Unpublished PhD thesis, Texas Woman's University, Texas, United States of America,. Texas, United States: Texas Woman's University, 2002. [ISBN 978‐0‐493‐93047‐3]
    1. Reed S, Jesurum‐Urbaitis J, Kumpula J, Motzer S, Simpson T, Burr R, et al. The effect of lateral positioning on tissue oxygenation in cardiovascular surgical patients with anemia. American Journal of Critical Care 2003;12(3):279‐80.
    1. Reed SL. The effect of lateral positioning on tissue oxygenation in cardiovascular surgical patients with anemia. Unpublished MN thesis, University of Washington, Seattle, Washington, United States of America, 2002.
Remolina 1981 {published data only}
    1. Remolina C, Khan AU, Santiago TV, Edelman NH. Positional hypoxemia in unilateral lung disease. New England Journal of Medicine 1981;304(9):523‐5. [PUBMED: 6779161] - PubMed
Schellongowski 2007 {published data only}
    1. Schellongowski P, Losert H, Locker GJ, Laczika K, Frass M, Holzinger U, et al. Prolonged lateral steep position impairs respiratory mechanics during continuous lateral rotation therapy in respiratory failure. Intensive Care Medicine 2007;33(4):625‐31. [DOI: 10.1007/s00134-006-0513-y] - DOI - PubMed
    1. Staudinger T, Losert H, Schellongowski P, Locker GJ, Laczika K. Physiological effects of lateral steep positioning in critically ill patients suffering from acute respiratory distress syndrome (ARDS). Critical Care 2004;8(Suppl 1):P35. [DOI: 10.1186/cc2502] - DOI
Shively 1988 {published data only}
    1. Shively M. Effect of position change on mixed venous oxygen saturation in coronary artery bypass surgery patients. Heart & Lung 1988;17(1):51‐9. [MEDLINE: ] - PubMed
    1. Shively MJ. The effect of position change on oxygenation in critically ill adults. Unpublished PhD thesis, University of Texas, Austin, United States of America, 1986. [UMI Order PUZ8910655]
Thomas 2007a {published and unpublished data}
    1. Thomas PJ. Examination of the role of postural changes in ventilated intensive care patients. Current practice, investigation and guidelines. Unpublished PhD thesis, University of Queensland, Queensland, Australia,. Queensland, Australia: School of Health and Rehabilitation Sciences, University of Queensland, 2006:103‐129.
    1. Thomas PJ, Paratz JD, Lipman J, Stanton WR. Lateral positioning of ventilated intensive care patients: a study of oxygenation, respiratory mechanics, hemodynamics, and adverse events. Heart & Lung 2007;36(4):277‐86. [PUBMED: 17628197] - PubMed
Tidwell 1990 {published data only}
    1. Osguthorpe SG, Tidwell SL, Ryan WJ, Paull DL, Smith TL. Evaluation of the patient having cardiac surgery in the postoperative rewarming period. Heart & Lung 1990;19(5 Pt 2):570‐4. [PUBMED: 2211170] - PubMed
    1. Tidwell SL, Williams JR, Osguthrope SG, Paull DL, Smith TL. Effects of position changes on mixed venous oxygen saturation in patients after coronary revascularization. Heart & Lung 1990;19(5 Pt 2):574‐8. [MEDLINE: ] - PubMed
Tripathi 2009 {published data only}
    1. Tripathi M, Pandey M, Nepal B, Rai H, Bhattarai B. Evaluation of lung infiltration score to predict hypoxemia in ventilated acute respiratory distress syndrome patients and the lateralization of skin pressure sore. Indian Journal of Medical Sciences 2009;63(9):392‐401. [PUBMED: 19805918] - PubMed
Whitman 1982 {published data only (unpublished sought but not used)}
    1. Whitman GR, Howaniak DL, Verga TS. Comparison of cardiac output measurements in 20‐degree supine and 20‐degree right and left lateral recumbent positions. Heart & Lung 1982;11(3):256‐7.

References to studies excluded from this review

Ahrens 2004 {published data only}
    1. Ahrens T, Kollef M, Stewart J, Shannon W. Effect of kinetic therapy on pulmonary complications. American Journal of Critical Care 2004;13(5):376‐83. [MEDLINE: ] - PubMed
    1. Ahrens T, Sherman G, Stewart J, Kollef MH. Kinetic therapy is associated with reductions in pulmonary complications amongst patients with acute respiratory failure. American Journal of Respiratory and Critical Care Medicine 2001;163:A754.
Aitken 1995 {published data only}
    1. Aitken L. Comparison of pulmonary artery pressure measurements in the supine and 60° lateral positions. Australian Critical Care 1995;8(4):21‐9. [PUBMED: 8704390] - PubMed
Aitken 2000 {published data only}
    1. Aitken LM. Reliability of measurements of pulmonary artery pressures obtained with patients in the 60° lateral position. American Journal of Critical Care 2000;9(1):43‐51. [PUBMED: 10631390] - PubMed
Bridges 2000 {published and unpublished data}
    1. Bridges E, Woods SL, Brengelmann GL, Mitchell P, Laurent‐Bopp D. Effect of the 30° lateral recumbent position on pulmonary artery and pulmonary artery wedge pressures in critically ill adult cardiac surgery patients. American Journal of Critical Care 2000;9(4):262‐75. [PUBMED: 10888149] - PubMed
    1. Bridges EJ. Effect of the 30‐degree lateral recumbent position on pulmonary artery and pulmonary artery wedge pressures in critically ill adults. Unpublished PhD dissertation, University of Washington, United States of America, 1998. [UMI Order AAI9907881] - PubMed
Briones 1991 {published data only (unpublished sought but not used)}
    1. Briones T, Dickenson S, Bieberitz R. Effects of positioning on SvO2 and hemodynamic measurements. Heart & Lung 1991;20(3):297.
Chang 1989 {published data only}
    1. Chang S, Shiao G, Perng R. Postural effect on gas exchange in patients with unilateral pleural effusions. Chest 1989;96(1):60‐3. [MEDLINE: ] - PubMed
Chang 1993 {published data only}
    1. Chang SC, Chang HI, Shiao GM, Perng RP. Effect of body position on gas exchange in patients with unilateral central airways lesions. Down with good lung. Chest 1993;103(3):787‐91. - PubMed
Dhainaut 1980 {published data only}
    1. Dhainaut, JF, Bons J, Bricard C, Monsallier JF. Improved oxygenation in patients with extensive unilateral pneumonia using the lateral decubitus position. Thorax 1980;35(10):792‐3. [PUBMED: 7466727] - PMC - PubMed
Enright 1997 {unpublished data only}
    1. Enright S. Cardiorespiratory alterations following positional adjustment in critically ill mechanically ventilated patients with acute respiratory failure. Unpublished M.Phil. thesis, University of Manchester, Manchester, United Kingdom, 1997.
Gillespie 1987 {published data only}
    1. Gillespie DJ, Rehder K. Body position and ventilation‐perfusion relationships in unilateral pulmonary disease. Chest 1987;91(1):75‐9. [PUBMED: 3792089] - PubMed
Groom 1990 {published data only}
    1. Groom L, Frisch SR, Elliott M. Reproducibility and accuracy of pulmonary artery pressure measurements in supine and lateral positions. Heart & Lung 1990;19(2):147‐51. [PUBMED: 2318657] - PubMed
Hamlin 2008b {published data only (unpublished sought but not used)}
    1. Hamlin S. Multi‐site randomized clinical trial of horizontal positioning to prevent and treat pulmonary complications in mechanically ventilated critically ill patients: hemodynamic substudy. Southern Online Journal of Nursing Research 2008;8(2):2. [ISSN 1538‐0696]
Lange 1988 {published data only}
    1. Lange RA, Katz J, McBride W, Moore DM, Hillis LD. Effects of supine and lateral positions on cardiac output and intracardiac pressures. The American Journal of Cardiology 1988;62(4):330‐3. [PUBMED: 3400615] - PubMed
Ledwith 2010 {published data only}
    1. Ledwith M, Bloom S, Maloney‐Wilensky E, Coyle B, Polomano RC, Roux PD. Effect of body position on cerebral oxygenation and physiologic parameters in patients with acute neurological conditions. Journal of Neuroscience Nursing 2010;42(5):280‐7. [PUBMED: 20968224] - PubMed
Mauri 2010 {published data only}
    1. Mauri T, Berra L, Kumwilaisak K, Pivi S, Ufberg JW, Kueppers F, et al. Lateral‐horizontal patient position and horizontal orientation of the endotracheal tube to prevent aspiration in adult surgical intensive care unit patients: a feasibility study. Respiratory Care 2010;55(3):294‐302. [PUBMED: 20196878] - PubMed
McLean 2001 {published data only}
    1. McLean B. Rotational kinetic therapy for ventilation/perfusion mismatch. Connect:Critical Care Nursing in Europe 2001;1(4):113‐8. [ISSN 1748‐6254]
Murphy 1977 {unpublished data only}
    1. Murphy CE. The effect of lateral positioning on pulmonary artery and pulmonary capillary wedge pressures in critically ill patients. Unpublished MN thesis, The University of Oregon, Oregon, United States of America, 1977.
Neagley 1985 {published data only}
    1. Neagley SR, Zwillich CW. The effect of positional changes on oxygenation in patients with pleural effusions. Chest 1985;88(5):714‐7. [PUBMED: 3902387] - PubMed
Nelson 1989 {published data only}
    1. Nelson LD, Anderson RRT. Physiologic effects of steep positioning in the surgical intensive care unit. Archives of Surgery 1989;124(3):352‐5. [PUBMED: 2919968] - PubMed
Porto 2008 {published data only}
    1. Porto EF, Castro AAM, Leite JRO, Miranda SV, Lancauth A, Kumpel C. Comparative analysis of respiratory system compliance in three different positions (lateral, supine and sitting) of patients on long‐term invasive mechanical ventilation [Análise comparativa da complacência do sistema respiratório em três diferentes posições no leito (lateral, sentada e dorsal) em pacientes submetidos à ventilação mecânica invasiva prolongada]. Revista Brasileira de Terapia Intensiva 2008;20(3):213‐9. - PubMed
Rivara 1984 {published data only}
    1. Rivara D, Artucio H, Arcos J, Hiriart C. Positional hypoxemia during artificial ventilation. Critical Care Medicine 1984;12(5):436‐8. [PUBMED: 6370598] - PubMed
Romero 1995 {published data only}
    1. Romero S, Martin C, Hernandez L, Arriero JM, Benito N, Gil J. Effect of body position on gas exchange in patients with unilateral pleural effusion: influence of effusion volume. Respiratory Medicine 1995;89(4):297‐301. [PUBMED: 7597270] - PubMed
Ross 1995 {published data only (unpublished sought but not used)}
    1. Ross CJM. A comparison of pulmonary artery pressures in supine and lateral positions using three adjustments of the pressure transducer. Unpublished MN thesis, University of Alberta, Alberta, Canada, 1988.
    1. Ross CJM, Jones R. Comparisons of pulmonary artery pressure measurements in supine and 30 degree lateral positions. Canadian Journal of Cardiovascular Nursing 1995;6(3‐4):4‐8. [ISSN 0843‐6096 ] - PubMed
Seaton 1979 {published data only}
    1. Seaton D, Lapp NL, Morgan WK. Effect of body position on gas exchange after thoracotomy. Thorax 1979;34(4):518‐22. [MEDLINE: ] - PMC - PubMed
Shinners 1993 {published data only}
    1. Shinners PA, Pease MO. A stabilization period of 5 minutes is adequate when measuring pulmonary artery pressures after turning. American Journal of Critical Care 1993;2(6):474‐7. [PUBMED: 8275153] - PubMed
Simonis 2012 {published data only}
    1. Simonis G, Steiding K, Schaefer K, Rauwolf T, Strasser RH. A prospective, randomized trial of continuous lateral rotation ("kinetic therapy") in patients with cardiogenic shock. Clinical Research in Cardiology 2012;101(12):955‐62. [PUBMED: 22729756] - PubMed
Sonnenblick 1983 {published data only}
    1. Sonnenblick M, Melzer E, Rosin AJ. Body positional effect on gas exchange in unilateral pleural effusion. Chest 1983;83(5):784‐6. [PUBMED: 6839822] - PubMed
Staudinger 2010 {published data only}
    1. Staudinger T, Bojic A, Holzinger U, Meyer B, Rohwer M, Mallner F, et al. Continuous lateral rotation therapy to prevent ventilator‐associated pneumonia. Critical Care Medicine 2010;38(2):486‐90. [PUBMED: 19789440] - PubMed
Williams 1997 {published data only}
    1. Williams S, Williams K, Breadmore R, Vincent J. Effects of infrequent turning on chest complications in critically ill patients. Australian Critical Care 1997;10(1):29.
Wilson 1994 {published data only}
    1. Wilson J, Woods I. Changes in oxygen delivery during lateral rotational therapy. Care of the Critically Ill 1994;10(6):262‐5. [ISSN 0266‐0970]
Winslow 1990 {published data only}
    1. Winslow EH, Clark AP, White KM, Tyler DO. Effects of a lateral turn on mixed venous oxygen saturation and heart rate in critically ill adults. Heart & Lung 1990;19(5 Pt 2):557‐61. [MEDLINE: ] - PubMed
Yeaw 1996 {published data only}
    1. Yeaw EMJ. The effect of body positioning upon maximal oxygenation of patients with unilateral lung pathology. Journal of Advanced Nursing 1996;23(1):55‐61. [MEDLINE: ] - PubMed
Zack 1974 {published data only}
    1. Zack MB, Pontoppidan H, Kazemi H. The effect of lateral positions on gas exchange in pulmonary disease: a prospective evaluation. American Review of Respiratory Disease 1974;110(1):49‐55. [MEDLINE: ] - PubMed

References to studies awaiting assessment

Daihua 2012 {published data only}
    1. Daihua Y, Wei C, Xude S, Linong Y, Changjun G, Hui Z. The effect of body position changes on stroke volume variation in 66 mechanically ventilated patients with sepsis. Journal of Critical Care 2012;27(4):416.e7‐12. [PUBMED: 22459159] - PubMed
Samir 2010 {published data only}
    1. Samir EM, Hamed HMF, Elgohary MM. The effect of different positioning after lung recruitment with CPAP hold maneuver on oxygenation and lung mechanics in acute respiratory distress syndrome. Egyptian Journal of Anaesthesia 2010;26(3):249‐59.

Additional references

Bassi 2012
    1. Bassi GL, Bertral R, Martí JD, Rodriguez‐Romero D, Torres A. New insights in positioning tracheally intubated and mechanically ventilated patients. Clinical Pulmonary Medicine 2012;19(4):174‐82.
Bennett 2005
    1. Bennett JA. The consolidated standards of reporting trials (CONSORT): guidelines for reporting randomized trials. Nursing Research 2005;54(2):128‐32. - PubMed
Carroll 1991
    1. Carroll, KC. The effects of early position changes on cardiac output and venous oxygen saturation in the coronary artery bypass graft surgery patient. Unpublished M.S. thesis, San Diego State University, San Diego, United States of America, 1991.
Chan 1991
    1. Chan M. The effects of three different positions on arterial oxygen and relative pulmonary shunt in post‐operative coronary arterial bypass graft patients. Unpublished master's thesis, University of Alberta, Alberta, Canada,. Canada: University of Alberta, 1991.
Choe 2000
    1. Choe K, Kim Y, Shim T, Lim C, Lee S, Koh Y, et al. Closing volume influences the postural effect on oxygenation in unilateral lung disease. American Journal of Respiratory and Critical Care Medicine 2000;161(6):1957‐62. [MEDLINE: ] - PubMed
Choi 1992
    1. Choi S, Nelson L. Kinetic therapy in critically ill patients: combined results based on meta‐analysis. Journal of Critical Care 1992;7(1):57‐62. [ISSN: 0883‐9441]
Davis 2001
    1. Davis KJ, Johannigman JA, Campbell RS, Marraccini A, Luchette FA, Frame SB, et al. The acute effects of body position strategies and respiratory therapy in paralysed patients with acute lung injury. Critical Care 2001;5(2):81‐7. - PMC - PubMed
Dean 1992
    1. Dean E, Ross J. Oxygen transport: the basis for contemporary cardiopulmonary physical therapy and its optimization with body positioning and mobilization. Physical Therapy Practice 1992;1(4):34‐44.
Delaney 2006
    1. Delaney A, Gray H, Laupland KB, Zuege D. Kinetic bed therapy to prevent nosocomial pneumonia in mechanically ventilated patients: a systematic review and meta‐analysis. Critical Care 2006;10(3):R70. [MEDLINE: ] - PMC - PubMed
Doering 1993
    1. Doering LV. The effects of positioning on hemodynamics and gas exchange in the critically ill: a review. American Journal of Critical Care 1993;2(3):208‐16. [MEDLINE: ] - PubMed
Elbourne 2002
    1. Elbourne DR, Altman DG, Higgins JP, Curtin F, Worthington HV, Vail A. Meta‐analyses involving cross‐over trials: methodological issues. International Journal of Epidemiology 2002;31(1):140‐9. - PubMed
Evans 1994
    1. Evans D. The use of position during critical illness: current practice and review of the literature. Australian Critical Care 1994;7(3):16‐21. [MEDLINE: ] - PubMed
Fink 1990
    1. Fink MP, Helsmoortel CM, Stein KL, Lee PC, Cohn SM. The efficacy of an oscillating bed in the prevention of lower respiratory tract infection in critically ill victims of blunt trauma. A prospective study. Chest 1990;97(1):132‐37. - PubMed
Fink 2002
    1. Fink JB. Positioning versus postural drainage. Respiratory Care 2002;47(7):769‐77. - PubMed
Goldhill 2007
    1. Goldhill DR, Imhoff M, McLean B, Waldmann C. Rotational bed therapy to prevent and treat respiratory complications: a review and meta‐analysis. American Journal of Critical Care 2007;16(1):50‐61. [MEDLINE: ] - PubMed
GRADEPro [Computer program]
    1. McMaster University. GRADEPro. McMaster University, Version [30 March 2014].
Griffiths 2005
    1. Griffiths H, Gallimore D. Positioning critically ill patients in hospital. Nursing Standard 2005;19(42):56‐64. - PubMed
Guyatt 2011
    1. Guyatt G, Oxman AD, Akl EA, Kunz R, Vist G, Brozek J, et al. GRADE guidelines: 1. Introduction—GRADE evidence profiles and summary of findings tables. Journal of Clinical Epidemiology 2011;64(4):383‐94. [DOI: 10.1016/j.jclinepi.2010.04.026] - DOI - PubMed
Hamlin 2008a
    1. Hamlin SK, Hanneman SK, Wachtel S, Gusick G. Adverse hemodynamic effects of lateral rotation during mechanical ventilation. Dimensions of Critical Care Nursing 2008;27(2):54‐61. - PubMed
Hawkins 1999
    1. Hawkins S, Stone K, Plummer L. An holistic approach to turning patients. Nursing Standard 1999;14(3):51‐2, 54‐6. - PubMed
Higgins 2002
    1. Higgins JPT, Thompson SG. Quantifying heterogeneity in a meta‐analysis. Statistics in Medicine 2002;21(11):1539‐58. [MEDLINE: ] - PubMed
Higgins 2006
    1. Higgins JPT, Green S, editors. Cochrane Handbook for Systematic Reviews of Interventions 4.2.6 [updated September 2006]. http://www.cochrane.org/resources/handbook/hbook.htm (accessed 15 April 2007).
Higgins 2011
    1. Higgins JPT, Green S (editors). Cochrane Handbook for Systematic Reviews of Interventions Version 5.1.0 [updated March 2011]. The Cochrane Collaboration, 2011. www.cochrane‐handbook.org, 2011.
Jastremski 2002
    1. Jastremski CA. Back to basics: can body positioning really make a difference in the intensive care unit?. Critical Care Medicine 2002;30(11):2607‐8. - PubMed
Jesurum‐Urbaitis 2002
    1. Jesurum‐Urbaitis JT. Oxygen consumption modulation: effects of an opioid agonist on tissue oxygenation following lateral positioning in cardiovascular surgical patients with low oxygen delivery. Unpublished PhD thesis, Texas Woman's University, Denton, Texas, United States of America, 2002.
Johnson 2009
    1. Johnson KL, Meyenburg T. Physiological rationale and current evidence for therapeutic positioning in critically ill patients. AACN Advanced Critical Care 2009;20(3):228‐40. - PubMed
Jones 2003
    1. Jones B, Kenward MG. Design and Analysis of Cross‐over Trials. 2nd Edition. Boca Raton: Chapman & Hall/CRC, 2003.
Jones 2004
    1. Jones A, Dean E. Body position change and its effect on hemodynamic and metabolic status. Heart & Lung 2004;33(5):281‐90. - PubMed
Keller 2002
    1. Keller BPJA, Wille J, Ramshorst B, Werken C. Pressure ulcers in intensive care patients: a review of risks and prevention. Intensive Care Medicine 2002;28(10):1379‐88. [MEDLINE: ] - PubMed
Krishnagopalan 2002
    1. Krishnagopalan S, Johnson EW, Low LL, Kaufman L. Body positioning of intensive care patients: clinical practice versus standards. Critical Care Medicine 2002;30(11):2588‐92. [MEDLINE: ] - PubMed
Mills 2009
    1. Mills EJ, Chan A, Wu P, Vail A, Guyatt G. Design, analysis and presentation of crossover trials. Trials 2009;10(4):27‐32. - PMC - PubMed
Moher 2001
    1. Moher D, Schulz KF, Altman DG. The CONSORT statement: revised recommendations for improving the quality of reports of parallel‐group randomized trials. Annals of Internal Medicine 2001;134(8):657‐62. - PubMed
National Pressure Ulcer Advisory Panel 2009
    1. National Pressure Ulcer Advisory Panel & European Pressure Ulcer Advisory Panel. Pressure ulcer prevention recommendations. Prevention and treatment of pressure ulcers: clinical practice guideline 2009. http://www.guideline.gov (accessed 27 September 2011).
Nielsen 2003
    1. Nielsen KG, Holte K, Kehlet H. Effects of posture on postoperative pulmonary function. Acta Anaesthesiologica Scandinavica 2003;47(10):1270‐5. [MEDLINE: ] - PubMed
Osguthorpe 1990
    1. Osguthorpe SG, Tidwell SL, Ryan WJ, Paull DL, Smith TL. Evaluation of the patient having cardiac surgery in the postoperative rewarming period. Heart & Lung 1990;19(5 Pt 2):570‐4. [PUBMED: 2211170] - PubMed
RevMan 5.3 [Computer program]
    1. The Nordic Cochrane Centre, The Cochrane Collaboration. Review Manager (RevMan). Version 5.3. Copenhagen: The Nordic Cochrane Centre, The Cochrane Collaboration, 2014.
Schallom 2005
    1. Schallom L, Metheny NA, Stewart J, Schnelker R, Ludwig J, Sherman G, et al. Effect of frequency of manual turning on pneumonia. American Journal of Critical Care 2005;14(6):478‐9. - PubMed
Senn 2002
    1. Senn, SJ. Cross‐Over Trials in Clinical Research. Chichester: Wiley, 2002.
Smith 2008
    1. Smith BA, Lee H, Lee JH, Choi, M, Jones DE, Bausell RB, et al. Quality of reporting randomized controlled trials (RCTs) in the nursing literature: application of the consolidated standards of reporting trials (CONSORT). Nursing Outlook 2008;56(1):31‐7. - PubMed
Staudinger 2004
    1. Staudinger T, Losert H, Schellongowski P, Locker GJ, Laczika K. Physiological effects of lateral steep positioning in critically ill patients suffering from acute respiratory distress syndrome (ARDS). Critical Care 2004;8(Suppl 1):P35. [DOI: 10.1186/cc2502] - DOI
Sterne 2011
    1. Sterne JAC, Egger M, Moher D (editors). Chapter 10: Addressing reporting biases. In: Higgins JPT, Green S editor(s). Cochrane Handbook for Systematic Reviews of Intervention. Version 5.1.0 [updated March 2011}. www.cochrane‐handbook.org. The Cochrane Collaboration, 2011.
Summer 1989
    1. Summer WR, Curry P, Haponik EF, Nelson S, Elston R. Continuous mechanical turning of intensive care unit patients shortens length of stay in some diagnostic‐related groups. Journal of Critical Care 1989;4(1):45‐53. [ISSN: 0883‐9441]
Thomas 1998
    1. Thomas AR, Bryce TL. Ventilation in the patient with unilateral lung disease. Critical Care Clinics 1998;14(4):743‐73. - PubMed
Thomas 2007b
    1. Thomas PJ, Paratz JD. Is there evidence to support the use of lateral positioning in intensive care? A systematic review. Anaesthesia and Intensive Care 2007;35(2):239‐55. [MEDLINE: ] - PubMed
Vohra 2007
    1. Vohra S, Johnston BC, Cramer K, Humphreys K. Adverse events associated with pediatric spinal manipulation: a systematic review. Pediatrics 2007;119(1):e275‐83. - PubMed
Winklelman 2010
    1. Winkelman C, Chiang LC. Manual turns in patients receiving mechanical ventilation. Critical Care Nurse 2010;30(4):36‐44. - PubMed
Wong 1999
    1. Wong WP. Use of body positioning in the mechanically ventilated patient with acute respiratory failure: application of Sackett's rules of evidence. Physiotherapy Theory and Practice 1999;15(1):25‐41. [AMED AN: 9174060]
Wood 2008
    1. Wood L, Egger M, Gluud LL, Schulz KF, Juni P, Altman DG, et al. Empirical evidence of bias in treatment effect estimates in controlled trials with different interventions and outcomes: meta‐epidemiological study. BMJ 2008;336(7644):601‐5. - PMC - PubMed

References to other published versions of this review

Hewitt 2008
    1. Hewitt N, Bucknall T, Glanville D. Lateral positioning for critically ill adult patients. Cochrane Database of Systematic Reviews 2008, Issue 3. [DOI: 10.1002/14651858.CD007205] - DOI - PMC - PubMed

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