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| ==Mechanical ventilation==
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| *The [[COVID-19]] respiratoty complications that may require mechanical ventilation include: [[COVID-19-associated pneumonia]], [[COVID-19-associated acute respiratory distress syndrome]] and [[COVID-19-associated respiratory failure]].
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| ==Ventilatory support==
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| ===Supplemental Oxygen===
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| *Surviving Sepsis Campaign has the following recommendations regarding the use of [[oxygen therapy|supplemental oxygen]] in [[COVID-19]] patients:<ref name="AlhazzaniMøller2020">{{cite journal|last1=Alhazzani|first1=Waleed|last2=Møller|first2=Morten Hylander|last3=Arabi|first3=Yaseen M.|last4=Loeb|first4=Mark|last5=Gong|first5=Michelle Ng|last6=Fan|first6=Eddy|last7=Oczkowski|first7=Simon|last8=Levy|first8=Mitchell M.|last9=Derde|first9=Lennie|last10=Dzierba|first10=Amy|last11=Du|first11=Bin|last12=Aboodi|first12=Michael|last13=Wunsch|first13=Hannah|last14=Cecconi|first14=Maurizio|last15=Koh|first15=Younsuck|last16=Chertow|first16=Daniel S.|last17=Maitland|first17=Kathryn|last18=Alshamsi|first18=Fayez|last19=Belley-Cote|first19=Emilie|last20=Greco|first20=Massimiliano|last21=Laundy|first21=Matthew|last22=Morgan|first22=Jill S.|last23=Kesecioglu|first23=Jozef|last24=McGeer|first24=Allison|last25=Mermel|first25=Leonard|last26=Mammen|first26=Manoj J.|last27=Alexander|first27=Paul E.|last28=Arrington|first28=Amy|last29=Centofanti|first29=John E.|last30=Citerio|first30=Giuseppe|last31=Baw|first31=Bandar|last32=Memish|first32=Ziad A.|last33=Hammond|first33=Naomi|last34=Hayden|first34=Frederick G.|last35=Evans|first35=Laura|last36=Rhodes|first36=Andrew|title=Surviving Sepsis Campaign: Guidelines on the Management of Critically Ill Adults with Coronavirus Disease 2019 (COVID-19)|journal=Critical Care Medicine|volume=48|issue=6|year=2020|pages=e440–e469|issn=0090-3493|doi=10.1097/CCM.0000000000004363}}</ref>
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| **It is strongly recommended (with moderate-quality evidence) to start the [[oxygen therapy|supplemental oxygen]] if the [[oxygen saturation|Spo2]] is < 90% in adults. A weak recommendation states starting the supplemental oxygen at < 92% saturation.
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| **In [[COVID-19]] positive adult [[patients]] with acute [[respiratory failure|hypoxemic respiratory failure]] on [[oxygen therapy|supplemental oxygen therapy]], [[oxygen saturation|Spo2]] should be maintained no higher than 96% (strong recommendation by Surviving Sepsis Campaign). This based upon the systematic review and meta-analysis of 25 [[Randomized controlled trial|RCTs]] that showed a linear association between the death risk and higher [[oxygen saturation|Spo2]] targets.
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| ===High Flow Nasal Cannula (HFNC)===
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| *Also known as high flow nasal oxygen (HFNO) or Heated humidified high-flow (HHHF) therapy is a non-invasive technique.
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| *Surviving Sepsis Campaign has the following recommendations regarding the use of HFNC in [[COVID-19]] patients:<ref name="AlhazzaniMøller2020">{{cite journal|last1=Alhazzani|first1=Waleed|last2=Møller|first2=Morten Hylander|last3=Arabi|first3=Yaseen M.|last4=Loeb|first4=Mark|last5=Gong|first5=Michelle Ng|last6=Fan|first6=Eddy|last7=Oczkowski|first7=Simon|last8=Levy|first8=Mitchell M.|last9=Derde|first9=Lennie|last10=Dzierba|first10=Amy|last11=Du|first11=Bin|last12=Aboodi|first12=Michael|last13=Wunsch|first13=Hannah|last14=Cecconi|first14=Maurizio|last15=Koh|first15=Younsuck|last16=Chertow|first16=Daniel S.|last17=Maitland|first17=Kathryn|last18=Alshamsi|first18=Fayez|last19=Belley-Cote|first19=Emilie|last20=Greco|first20=Massimiliano|last21=Laundy|first21=Matthew|last22=Morgan|first22=Jill S.|last23=Kesecioglu|first23=Jozef|last24=McGeer|first24=Allison|last25=Mermel|first25=Leonard|last26=Mammen|first26=Manoj J.|last27=Alexander|first27=Paul E.|last28=Arrington|first28=Amy|last29=Centofanti|first29=John E.|last30=Citerio|first30=Giuseppe|last31=Baw|first31=Bandar|last32=Memish|first32=Ziad A.|last33=Hammond|first33=Naomi|last34=Hayden|first34=Frederick G.|last35=Evans|first35=Laura|last36=Rhodes|first36=Andrew|title=Surviving Sepsis Campaign: Guidelines on the Management of Critically Ill Adults with Coronavirus Disease 2019 (COVID-19)|journal=Critical Care Medicine|volume=48|issue=6|year=2020|pages=e440–e469|issn=0090-3493|doi=10.1097/CCM.0000000000004363}}</ref>
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| **In [[COVID-19]] positive adult [[patients]] with acute [[respiratory failure|hypoxemic respiratory failure]] despite [[oxygen therapy|supplemental oxygen therapy]], a weak recommendation suggests using HFNC over conventional [[oxygen therapy]]. A systematic review and meta-analysis of 9 [[Randomized controlled trial|RCTs]] showed that High Flow Nasal Cannula (HFNC) reduces the need for [[intubation]].
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| **A weak recommendation (low-quality evidence) also prefers using HFNC over [[Positive airway pressure|Non-invasive positive pressure ventilation (NIPPV)]]. It is possibly due to reduced [[mortality rate|mortality]] and decreased [[intubation]] risk, as proved by a [[Randomized controlled trial|RCT]] and a meta-analysis respectively. [[Patient]] comfort better oxygenation with HFNC than NIPPV is also one of the considering factors.<ref name="FratThille2015">{{cite journal|last1=Frat|first1=Jean-Pierre|last2=Thille|first2=Arnaud W.|last3=Mercat|first3=Alain|last4=Girault|first4=Christophe|last5=Ragot|first5=Stéphanie|last6=Perbet|first6=Sébastien|last7=Prat|first7=Gwénael|last8=Boulain|first8=Thierry|last9=Morawiec|first9=Elise|last10=Cottereau|first10=Alice|last11=Devaquet|first11=Jérôme|last12=Nseir|first12=Saad|last13=Razazi|first13=Keyvan|last14=Mira|first14=Jean-Paul|last15=Argaud|first15=Laurent|last16=Chakarian|first16=Jean-Charles|last17=Ricard|first17=Jean-Damien|last18=Wittebole|first18=Xavier|last19=Chevalier|first19=Stéphanie|last20=Herbland|first20=Alexandre|last21=Fartoukh|first21=Muriel|last22=Constantin|first22=Jean-Michel|last23=Tonnelier|first23=Jean-Marie|last24=Pierrot|first24=Marc|last25=Mathonnet|first25=Armelle|last26=Béduneau|first26=Gaëtan|last27=Delétage-Métreau|first27=Céline|last28=Richard|first28=Jean-Christophe M.|last29=Brochard|first29=Laurent|last30=Robert|first30=René|title=High-Flow Oxygen through Nasal Cannula in Acute Hypoxemic Respiratory Failure|journal=New England Journal of Medicine|volume=372|issue=23|year=2015|pages=2185–2196|issn=0028-4793|doi=10.1056/NEJMoa1503326}}</ref>
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| **[[Patient]] should be monitored closely and [[intubated]] in the event of decompensation.
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| ==Mechanical Ventilation==
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| ===Non-Invasive Positive Pressure Ventilation===
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| *[[Positive airway pressure|Non-invasive positive pressure ventilation (NIPPV)]] is a technique utilized for delivering mechanical ventilation without the use of [[endotracheal intubation]] or [[tracheostomy]]. It can be administered through a [[Oxygen mask|face mask]], nasal mask, or a helmet (not recommended in [[COVID-19]] care due to potential aerosol transmission of the [[SARS-CoV-2|severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2)]].
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| *Many patients who develop [[ARDS]] receive a trial of [[Positive airway pressure|non-invasive positive pressure ventilation (NIPPV)]] before [[intubation]] for [[mechanical ventilation]] before they clinically deteriorate or become unable to maintain adequate [[oxygenation]].
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| *Studies from China reported (4% to 13%) of [[COVID-19]] patients to have received [[Positive airway pressure|non-invasive positive pressure ventilation (NIPPV)]].<ref name="AlhazzaniMøller2020">{{cite journal|last1=Alhazzani|first1=Waleed|last2=Møller|first2=Morten Hylander|last3=Arabi|first3=Yaseen M.|last4=Loeb|first4=Mark|last5=Gong|first5=Michelle Ng|last6=Fan|first6=Eddy|last7=Oczkowski|first7=Simon|last8=Levy|first8=Mitchell M.|last9=Derde|first9=Lennie|last10=Dzierba|first10=Amy|last11=Du|first11=Bin|last12=Aboodi|first12=Michael|last13=Wunsch|first13=Hannah|last14=Cecconi|first14=Maurizio|last15=Koh|first15=Younsuck|last16=Chertow|first16=Daniel S.|last17=Maitland|first17=Kathryn|last18=Alshamsi|first18=Fayez|last19=Belley-Cote|first19=Emilie|last20=Greco|first20=Massimiliano|last21=Laundy|first21=Matthew|last22=Morgan|first22=Jill S.|last23=Kesecioglu|first23=Jozef|last24=McGeer|first24=Allison|last25=Mermel|first25=Leonard|last26=Mammen|first26=Manoj J.|last27=Alexander|first27=Paul E.|last28=Arrington|first28=Amy|last29=Centofanti|first29=John E.|last30=Citerio|first30=Giuseppe|last31=Baw|first31=Bandar|last32=Memish|first32=Ziad A.|last33=Hammond|first33=Naomi|last34=Hayden|first34=Frederick G.|last35=Evans|first35=Laura|last36=Rhodes|first36=Andrew|title=Surviving Sepsis Campaign: Guidelines on the Management of Critically Ill Adults with Coronavirus Disease 2019 (COVID-19)|journal=Critical Care Medicine|volume=48|issue=6|year=2020|pages=e440–e469|issn=0090-3493|doi=10.1097/CCM.0000000000004363}}</ref>
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| ===Invasive mechanical ventilation===
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| *The vascular [[endothelium|endothelial]] injury in [[COVID-19-associated acute respiratory distress syndrome]] (CARDS) and diverse [[mortality rate]]s across the world in CARDS patients arbitrates the importance of different mechanical ventilation strategies.
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| *The Chinese [[CDC]] reports the case-fatality rate to be higher than 50% in [[patients]] who received invasive mechanical ventilation.<ref name="WuMcGoogan2020">{{cite journal|last1=Wu|first1=Zunyou|last2=McGoogan|first2=Jennifer M.|title=Characteristics of and Important Lessons From the Coronavirus Disease 2019 (COVID-19) Outbreak in China|journal=JAMA|volume=323|issue=13|year=2020|pages=1239|issn=0098-7484|doi=10.1001/jama.2020.2648}}</ref>
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| *According to the American Society of Anesthesiology based upon the experience of Chinese anesthesiologists, timely (neither premature nor late) [[intubation]] and ventilation most effectual breathing assistance.<ref name="urlStrategies for health care response to COVID-19 shared by Chinese anesthesiologists">{{cite web |url=https://www.asahq.org/about-asa/newsroom/news-releases/2020/03/strategies-for-health-care-response-to-covid-19-shared-by-chinese-anesthesiologists |title=Strategies for health care response to COVID-19 shared by Chinese anesthesiologists |format= |work= |accessdate=}}</ref>
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| Marini et al. suggest
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| **Lower PEEP: “type L,” characterized by low lung elastance (high compliance), lower lung weight as estimated by CT scan, and a low response to PEEP
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| **Higher PEEP: Initially it was recommended that the guidelines for [[ARDS]] must be followed for respiratory support in [[COVID-19|SARS Cov2]] patients. But the data from China helped inform and reform regarding the strategies. '''In Wuhan, patients with acute hypoxemic respiratory failure due to COVID-19 have a poor tolerance to high PEEP, likely as the result of the direct and severe lung damage by the virus and inflammatory reactions.'''<ref name="MengQiu2020">{{cite journal|last1=Meng|first1=Lingzhong|last2=Qiu|first2=Haibo|last3=Wan|first3=Li|last4=Ai|first4=Yuhang|last5=Xue|first5=Zhanggang|last6=Guo|first6=Qulian|last7=Deshpande|first7=Ranjit|last8=Zhang|first8=Lina|last9=Meng|first9=Jie|last10=Tong|first10=Chuanyao|last11=Liu|first11=Hong|last12=Xiong|first12=Lize|title=Intubation and Ventilation amid the COVID-19 Outbreak|journal=Anesthesiology|volume=132|issue=6|year=2020|pages=1317–1332|issn=0003-3022|doi=10.1097/ALN.0000000000003296}}</ref>
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| *it may be best to avoid high-frequency oscillatory ventilation in patients with COVID-19 due to concerns of aerosol generation.19,37,38
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| *'''Lower [[Lung volume|tidal volume]] [[Mechanical ventilation|ventilation]]''' (6 mL/kg predicted body weight) is associated with reduced mortality and a greater number of ventilator-free days<ref name="pmid10793162">{{cite journal| author=| title=Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome. The Acute Respiratory Distress Syndrome Network. | journal=N Engl J Med | year= 2000 | volume= 342 | issue= 18 | pages= 1301-8 | pmid=10793162 | doi=10.1056/NEJM200005043421801 | pmc= | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=10793162 }} </ref>
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| :*Lower tidal volume ventilation should be continued even if the [[PaCO2|arterial partial pressure of carbon dioxide (PaCO<sub>2</sub>)]] rises (this is called ''permissive [[hypercapnia]]'')
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| :*Permissive hypercapnia usually results in a drop in blood [[pH]], however, treatment of [[acidemia]] (e.g., intravenous administration of [[sodium bicarbonate]] or [[tromethamine]]) is not indicated if the pH remains at or above 7.15 to 7.20
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| :*Predicted body weight (PBW) in kilograms (kg) may be calculated from height in inches (in) as follows:
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| ::*PBW (men) = '''50 + 2.3 (height in inches – 60)'''
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| ::*PBW (women) = '''45.5 + 2.3 (height in inches – 60)'''
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| *'''Higher [[positive end-expiratory pressure|positive end-expiratory pressure (PEEP)]]''' combined with lower tidal volume ventilation is associated with decreased mortality in patients with '''moderate or severe ARDS (PaO<sub>2</sub>/FIO<sub>2</sub> ≤ 200)'''<ref name="pmid20197533">{{cite journal| author=Briel M, Meade M, Mercat A, Brower RG, Talmor D, Walter SD et al.| title=Higher vs lower positive end-expiratory pressure in patients with acute lung injury and acute respiratory distress syndrome: systematic review and meta-analysis. | journal=JAMA | year= 2010 | volume= 303 | issue= 9 | pages= 865-73 | pmid=20197533 | doi=10.1001/jama.2010.218 | pmc= | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=20197533 }} </ref>
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| *'''[[Cisatracurium]]''', when started within the first 48 hours of ARDS diagnosis and continued for 48 hours, has been associated with improved 90-day survival, a greater number of ventilator-free days, and a decreased incidence of [[barotrauma|volutrauma]]<ref name="pmid20843245">{{cite journal| author=Papazian L, Forel JM, Gacouin A, Penot-Ragon C, Perrin G, Loundou A et al.| title=Neuromuscular blockers in early acute respiratory distress syndrome. | journal=N Engl J Med | year= 2010 | volume= 363 | issue= 12 | pages= 1107-16 | pmid=20843245 | doi=10.1056/NEJMoa1005372 | pmc= | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=20843245 }} [http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=21242357 Review in: Ann Intern Med. 2011 Jan 18;154(2):JC1-3] </ref>
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| === ARDS Network Mechanical Ventilation Protocol ===
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| ==Intubation==
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| <ref name="MengQiu2020">{{cite journal|last1=Meng|first1=Lingzhong|last2=Qiu|first2=Haibo|last3=Wan|first3=Li|last4=Ai|first4=Yuhang|last5=Xue|first5=Zhanggang|last6=Guo|first6=Qulian|last7=Deshpande|first7=Ranjit|last8=Zhang|first8=Lina|last9=Meng|first9=Jie|last10=Tong|first10=Chuanyao|last11=Liu|first11=Hong|last12=Xiong|first12=Lize|title=Intubation and Ventilation amid the COVID-19 Outbreak|journal=Anesthesiology|volume=132|issue=6|year=2020|pages=1317–1332|issn=0003-3022|doi=10.1097/ALN.0000000000003296}}</ref>
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| _The widely used practice in Wuhan, after lung recruitment maneuvers, is to set PEEP at 20 cm H2O and titrate down in a decrement of 2 to 3 cm H2O each time until the goals of oxygenation, plateau pressure, and compliance are all achieved. The commonly used PEEP in this patient population is less than 10 cm H2O.
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| -No mode of ventilation has been suggested to be superior to others.
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| ===Stratagies to improve oxygenation===
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| ====[[Mechanical ventilation initial ventilator settings#Proning|Prone position ventilation]]====
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| *[[Mechanical ventilation initial ventilator settings#Proning|Prone positioning]] is thought to improve oxygenation by improving [[Ventilation-perfusion mismatch|ventilation/perfusion (V/Q) mismatching]] via reduced shunting of blood through under-ventilated lung tissue.
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| *Research has shown that [[prone position]] ventilation in [[ARDS]] patients with acute hypoxemic [[respiratory failure]] and spontaneous or assisted breathing reduces the mortality by 28 and 90-days.<ref name="pmid29576824">{{cite journal |vauthors=Xie H, Zhou ZG, Jin W, Yuan CB, Du J, Lu J, Wang RL |title=Ventilator management for acute respiratory distress syndrome associated with avian influenza A (H7N9) virus infection: A case series |journal=World J Emerg Med |volume=9 |issue=2 |pages=118–124 |date=2018 |pmid=29576824 |pmc=5847497 |doi=10.5847/wjem.j.1920-8642.2018.02.006 |url=}}</ref>
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| *The strategy was widely used in [[COVID-19]] patients in Wuhan, China.<ref name="MengQiu2020">{{cite journal|last1=Meng|first1=Lingzhong|last2=Qiu|first2=Haibo|last3=Wan|first3=Li|last4=Ai|first4=Yuhang|last5=Xue|first5=Zhanggang|last6=Guo|first6=Qulian|last7=Deshpande|first7=Ranjit|last8=Zhang|first8=Lina|last9=Meng|first9=Jie|last10=Tong|first10=Chuanyao|last11=Liu|first11=Hong|last12=Xiong|first12=Lize|title=Intubation and Ventilation amid the COVID-19 Outbreak|journal=Anesthesiology|volume=132|issue=6|year=2020|pages=1317–1332|issn=0003-3022|doi=10.1097/ALN.0000000000003296}}</ref>
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| *[[Mechanical ventilation initial ventilator settings#Proning|Prone position]] is an early strategy rather than a desperate rescue therapy.<ref name="TeliasKatira2020">{{cite journal|last1=Telias|first1=Irene|last2=Katira|first2=Bhushan H.|last3=Brochard|first3=Laurent|title=Is the Prone Position Helpful During Spontaneous Breathing in Patients With COVID-19?|journal=JAMA|volume=323|issue=22|year=2020|pages=2265|issn=0098-7484|doi=10.1001/jama.2020.8539}}</ref> A study by Lin Ding et al. suggests that the early application of prone ventilation with HFNC and NIV, especially in [[COVID-19]] patients with moderate [[ARDS]], can help avoid intubation.<ref name="pmid32000806">{{cite journal |vauthors=Ding L, Wang L, Ma W, He H |title=Efficacy and safety of early prone positioning combined with HFNC or NIV in moderate to severe ARDS: a multi-center prospective cohort study |journal=Crit Care |volume=24 |issue=1 |pages=28 |date=January 2020 |pmid=32000806 |pmc=6993481 |doi=10.1186/s13054-020-2738-5 |url=}}</ref>
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| * [[Mechanical ventilation initial ventilator settings#Proning|Prone position]] for awake patients during spontaneous or assisted breathing during NIV or HFNC with mild-moderate [[ARDS]] was associated with an improved oxygenation.<ref name="SartiniTresoldi2020">{{cite journal|last1=Sartini|first1=Chiara|last2=Tresoldi|first2=Moreno|last3=Scarpellini|first3=Paolo|last4=Tettamanti|first4=Andrea|last5=Carcò|first5=Francesco|last6=Landoni|first6=Giovanni|last7=Zangrillo|first7=Alberto|title=Respiratory Parameters in Patients With COVID-19 After Using Noninvasive Ventilation in the Prone Position Outside the Intensive Care Unit|journal=JAMA|volume=323|issue=22|year=2020|pages=2338|issn=0098-7484|doi=10.1001/jama.2020.7861}}</ref> To answer the question about the effectiveness, two [[Randomized controlled trial|RCTs]] are in progress {{NCT04347941}} and {{NCT04350723}}.<ref name="TeliasKatira2020">{{cite journal|last1=Telias|first1=Irene|last2=Katira|first2=Bhushan H.|last3=Brochard|first3=Laurent|title=Is the Prone Position Helpful During Spontaneous Breathing in Patients With COVID-19?|journal=JAMA|volume=323|issue=22|year=2020|pages=2265|issn=0098-7484|doi=10.1001/jama.2020.8539}}</ref> In addition, patients with an Spo2 of 95% or greater after an hour of the [[Mechanical ventilation initial ventilator settings#Proning|Prone position]] was associated with a lower rate of intubation. <ref name="ThompsonRanard2020">{{cite journal|last1=Thompson|first1=Alison E.|last2=Ranard|first2=Benjamin L.|last3=Wei|first3=Ying|last4=Jelic|first4=Sanja|title=Prone Positioning in Awake, Nonintubated Patients With COVID-19 Hypoxemic Respiratory Failure|journal=JAMA Internal Medicine|year=2020|issn=2168-6106|doi=10.1001/jamainternmed.2020.3030}}</ref>
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| *The American Thoracic Society/European Society of Intensive Care Medicine/Society of Critical Care Medicine Clinical Practice and Surviving Sepsis Campaign guidelines strongly recommend (moderate evidence) [[Mechanical ventilation initial ventilator settings#Proning|Prone positioning]] for more than 12 hours/day in patients with severe [[ARDS]].<ref name="FanDel Sorbo2017">{{cite journal|last1=Fan|first1=Eddy|last2=Del Sorbo|first2=Lorenzo|last3=Goligher|first3=Ewan C.|last4=Hodgson|first4=Carol L.|last5=Munshi|first5=Laveena|last6=Walkey|first6=Allan J.|last7=Adhikari|first7=Neill K. J.|last8=Amato|first8=Marcelo B. P.|last9=Branson|first9=Richard|last10=Brower|first10=Roy G.|last11=Ferguson|first11=Niall D.|last12=Gajic|first12=Ognjen|last13=Gattinoni|first13=Luciano|last14=Hess|first14=Dean|last15=Mancebo|first15=Jordi|last16=Meade|first16=Maureen O.|last17=McAuley|first17=Daniel F.|last18=Pesenti|first18=Antonio|last19=Ranieri|first19=V. Marco|last20=Rubenfeld|first20=Gordon D.|last21=Rubin|first21=Eileen|last22=Seckel|first22=Maureen|last23=Slutsky|first23=Arthur S.|last24=Talmor|first24=Daniel|last25=Thompson|first25=B. Taylor|last26=Wunsch|first26=Hannah|last27=Uleryk|first27=Elizabeth|last28=Brozek|first28=Jan|last29=Brochard|first29=Laurent J.|title=An Official American Thoracic Society/European Society of Intensive Care Medicine/Society of Critical Care Medicine Clinical Practice Guideline: Mechanical Ventilation in Adult Patients with Acute Respiratory Distress Syndrome|journal=American Journal of Respiratory and Critical Care Medicine|volume=195|issue=9|year=2017|pages=1253–1263|issn=1073-449X|doi=10.1164/rccm.201703-0548ST}}</ref><ref name="RhodesEvans2017">{{cite journal|last1=Rhodes|first1=Andrew|last2=Evans|first2=Laura E.|last3=Alhazzani|first3=Waleed|last4=Levy|first4=Mitchell M.|last5=Antonelli|first5=Massimo|last6=Ferrer|first6=Ricard|last7=Kumar|first7=Anand|last8=Sevransky|first8=Jonathan E.|last9=Sprung|first9=Charles L.|last10=Nunnally|first10=Mark E.|last11=Rochwerg|first11=Bram|last12=Rubenfeld|first12=Gordon D.|last13=Angus|first13=Derek C.|last14=Annane|first14=Djillali|last15=Beale|first15=Richard J.|last16=Bellinghan|first16=Geoffrey J.|last17=Bernard|first17=Gordon R.|last18=Chiche|first18=Jean-Daniel|last19=Coopersmith|first19=Craig|last20=De Backer|first20=Daniel P.|last21=French|first21=Craig J.|last22=Fujishima|first22=Seitaro|last23=Gerlach|first23=Herwig|last24=Hidalgo|first24=Jorge Luis|last25=Hollenberg|first25=Steven M.|last26=Jones|first26=Alan E.|last27=Karnad|first27=Dilip R.|last28=Kleinpell|first28=Ruth M.|last29=Koh|first29=Younsuk|last30=Lisboa|first30=Thiago Costa|last31=Machado|first31=Flavia R.|last32=Marini|first32=John J.|last33=Marshall|first33=John C.|last34=Mazuski|first34=John E.|last35=McIntyre|first35=Lauralyn A.|last36=McLean|first36=Anthony S.|last37=Mehta|first37=Sangeeta|last38=Moreno|first38=Rui P.|last39=Myburgh|first39=John|last40=Navalesi|first40=Paolo|last41=Nishida|first41=Osamu|last42=Osborn|first42=Tiffany M.|last43=Perner|first43=Anders|last44=Plunkett|first44=Colleen M.|last45=Ranieri|first45=Marco|last46=Schorr|first46=Christa A.|last47=Seckel|first47=Maureen A.|last48=Seymour|first48=Christopher W.|last49=Shieh|first49=Lisa|last50=Shukri|first50=Khalid A.|last51=Simpson|first51=Steven Q.|last52=Singer|first52=Mervyn|last53=Thompson|first53=B. Taylor|last54=Townsend|first54=Sean R.|last55=Van der Poll|first55=Thomas|last56=Vincent|first56=Jean-Louis|last57=Wiersinga|first57=W. Joost|last58=Zimmerman|first58=Janice L.|last59=Dellinger|first59=R. Phillip|title=Surviving Sepsis Campaign: International Guidelines for Management of Sepsis and Septic Shock: 2016|journal=Intensive Care Medicine|volume=43|issue=3|year=2017|pages=304–377|issn=0342-4642|doi=10.1007/s00134-017-4683-6}}</ref>
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| {{#ev:youtube|https://www.youtube.com/watch?v=lcBPaHQUvXY}}
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| ====Lung recruitment maneauvers====
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| ==References==
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| {{Reflist|2}}
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| [[Category:Pick One of 28 Approved]]
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| {{WS}}
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| {{WH}}
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