Sandbox:Javaria: Difference between revisions

Jump to navigation Jump to search
VisualWikitext
No edit summary
No edit summary
Line 1: Line 1:
==Mechanical ventilation==
==Respiratory management interventions in COVID-19==
*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]].  
*The [[COVID-19]] respiratory complications that may require mechanical ventilation include: [[COVID-19-associated pneumonia]], [[COVID-19-associated acute respiratory distress syndrome]] (CARDS) and [[COVID-19-associated respiratory failure]]. At the start, the recommendation to treat [[COVID-19-associated acute respiratory distress syndrome|CARDS]] was similar to the ones used to treat [[ARDS]] due to other causes. Improved knowledge and experience of the disease led the guidelines to be modified.
* Acute hypoxemic [[respiratory failure]] and [[ARDS]] are more common respiratory complications 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>


 
==Supplemental Oxygen==
 
 
 
==Ventilatory support==
===Supplemental Oxygen===
*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>
*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>
**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.
**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.
**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.
**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.


===High Flow Nasal Cannula (HFNC)===
==Ventilatory support==
*Also known as high flow nasal oxygen (HFNO) or Heated humidified high-flow (HHHF) therapy is a non-invasive technique.
===Non-Invasive ventilation (NIV)===
*Both HFNC and NIPPV methods used in [[COVID-19]] patients generate [[aerosols]]. So, in addition to regular precautions such as the use of [[PPE]] followed during [[COVID-19]] pandemic following precautions as advised by [[CDC]] to prevent [[Airborne transmission|airborne]] transmission should be taken:<ref name="urlTransmission-Based Precautions | Basics | Infection Control | CDC”">{{cite web |url=https://www.cdc.gov/infectioncontrol/basics/transmission-based-precautions.html |title=Transmission-Based Precautions &#124; Basics &#124; Infection Control &#124; CDC” |format= |work= |accessdate=}}</ref>
**[[Airborne transmission|Airborne infection]] isolation room (AIIR)
**Restricting susceptible healthcare personnel
**Limiting transport and movement of the [[patient]]
**Use of fit-tested [[Occupational safety and health|NIOSH]]-approved  N95 or higher level respirator for healthcare personnel.
*Close monitoring for a deteriorating respiratory status and early [[intubation]] when indicated, in a controlled setting can help minimize the [[infection]] of health personnel and promise better [[patient]] health outcomes.<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>
 
====High Flow Nasal Cannula (HFNC)====
*Also known as high flow nasal oxygen (HFNO) or Heated humidified high-flow (HHHF) therapy is a non-invasive technique. It is a technique of delivering heated and humidified high-flow oxygen via soft and flexible nasal prongs. Humidification prevents the drying of [[epithelium]] and facilitates the removal of [[mucosa]]l secretions. Other advantages include pharyngeal [[dead space]] washout and [[PEEP]] effect.<ref name="pmid27698207">{{cite journal |vauthors=Zhang J, Lin L, Pan K, Zhou J, Huang X |title=High-flow nasal cannula therapy for adult patients |journal=J. Int. Med. Res. |volume=44 |issue=6 |pages=1200–1211 |date=December 2016 |pmid=27698207 |pmc=5536739 |doi=10.1177/0300060516664621 |url=}}</ref>
*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>
*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>
**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]].
**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]].
**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>
**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>
**[[Patient]] should be monitored closely and [[intubated]] in the event of decompensation.  
**[[Patient]] should be monitored closely and [[intubation|intubated]] in the event of decompensation.  


==Mechanical Ventilation==
====Non-Invasive Positive Pressure Ventilation (NIPPV)====
===Non-Invasive Positive Pressure Ventilation===
*[[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.
*[[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)]].
*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]].
*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]].
*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>
*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>
* Surviving Sepsis Campaign (SSC) has the following recommendations regarding the use of [[Positive airway pressure|Non-invasive positive pressure ventilation (NIPPV)]] in adult [[COVID-19]] patient with [[respiratory failure|hypoxemic respiratory failure]]:<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>
**A weak recommendation (very low-quality evidence) suggests a trial of [[Positive airway pressure|NIPPV]], if HFNC is not available and [[endotracheal intubation]] not urgently indicated. with close monitoring and short-interval assessment for worsening of respiratory failure.
**The SSC demonstrated its uncertainty regarding the safety and efficacy of helmet NIPPV in [[COVID-19|SARS Cov2]] patients. Another study advocates and recommends the use of helmet NIPPV in [[COVID-19]] care due to potential avoidance of air dispersion through the spring-valve.<ref name="pmid32059800">{{cite journal |vauthors=Cabrini L, Landoni G, Zangrillo A |title=Minimise nosocomial spread of 2019-nCoV when treating acute respiratory failure |journal=Lancet |volume=395 |issue=10225 |pages=685 |date=February 2020 |pmid=32059800 |pmc=7137083 |doi=10.1016/S0140-6736(20)30359-7 |url=}}</ref> Having said that, the cost of a helmet may be an essential consideration for healthcare systems struggling financially.


===Invasive mechanical ventilation===
===Invasive Mechanical Ventilation (IMV)===
*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.
*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.
*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>
*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>
*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>
*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>
 
====Ventilator settings====
 
*'''Mode''': No mode of ventilation has been suggested to be superior to others.<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>
 
*'''[[Positive end-expiratory pressure|positive end-expiratory pressure (PEEP)]]''': The commonly used [[PEEP]] in the [[COVID-19]] patients in Wuhan, China was less than 10 cm H2O. It is advised that 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. <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>
*


*
*
Line 39: Line 47:
**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>
**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>
*it may be best to avoid high-frequency oscillatory ventilation in patients with COVID-19 due to concerns of aerosol generation.19,37,38   
*it may be best to avoid high-frequency oscillatory ventilation in patients with COVID-19 due to concerns of aerosol generation.19,37,38   
*'''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>
:*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]]'')
:*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
:*Predicted body weight (PBW) in kilograms (kg) may be calculated from height in inches (in) as follows:
::*PBW (men) = '''50 + 2.3 (height in inches – 60)'''
::*PBW (women) = '''45.5 + 2.3 (height in inches – 60)'''
*'''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>
*'''[[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>


=== ARDS Network Mechanical Ventilation Protocol ===


==Intubation==
==Stratagies to improve oxygenation==
 
<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>
_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.
-No mode of ventilation has been suggested to be superior to others.
 
===Stratagies to improve oxygenation===


====[[Mechanical ventilation initial ventilator settings#Proning|Prone position ventilation]]====
====[[Mechanical ventilation initial ventilator settings#Proning|Prone position ventilation]]====
Line 63: Line 56:
*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>
*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>
*[[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>
*[[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>
* [[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>
* [[Mechanical ventilation initial ventilator settings#Proning|Prone position]] for awake patients during spontaneous or assisted breathing during NIPPV 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> In addition, patients with an Spo2 of 95% or greater after an hour of the [[Mechanical ventilation initial ventilator settings#Proning|prone position]] had 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> To answer the question about the effectiveness, two [[Randomized controlled trial|RCTs]] are in progress [https://clinicaltrials.gov/ct2/show/NCT04347941 NCT04347941] and [https://clinicaltrials.gov/ct2/show/NCT04350723 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>
*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>
*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>
{{#ev:youtube|https://www.youtube.com/watch?v=lcBPaHQUvXY}}
{{#ev:youtube|https://www.youtube.com/watch?v=lcBPaHQUvXY}}
 
===Special considerationss===
*'''Intubation''':Capnography, fogging inside of the endotracheal tube, chest movement, Spo2, the color of the patient’s skin and mucous membrane, and vigilance are used to differentiate between a failed and successful intubation.  chest auscultation after intubation is not recommended.<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>


====Lung recruitment maneauvers====
====Lung recruitment maneauvers====

Revision as of 10:45, 19 July 2020

Respiratory management interventions in COVID-19

Supplemental Oxygen

  • Surviving Sepsis Campaign has the following recommendations regarding the use of supplemental oxygen in COVID-19 patients:[1]
    • It is strongly recommended (with moderate-quality evidence) to start the supplemental oxygen if the Spo2 is < 90% in adults. A weak recommendation states starting the supplemental oxygen at < 92% saturation.
    • In COVID-19 positive adult patients with acute hypoxemic respiratory failure on supplemental oxygen therapy, 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 RCTs that showed a linear association between the death risk and higher Spo2 targets.

Ventilatory support

Non-Invasive ventilation (NIV)

  • Both HFNC and NIPPV methods used in COVID-19 patients generate aerosols. So, in addition to regular precautions such as the use of PPE followed during COVID-19 pandemic following precautions as advised by CDC to prevent airborne transmission should be taken:[2]
    • Airborne infection isolation room (AIIR)
    • Restricting susceptible healthcare personnel
    • Limiting transport and movement of the patient
    • Use of fit-tested NIOSH-approved N95 or higher level respirator for healthcare personnel.
  • Close monitoring for a deteriorating respiratory status and early intubation when indicated, in a controlled setting can help minimize the infection of health personnel and promise better patient health outcomes.[1]

High Flow Nasal Cannula (HFNC)

  • Also known as high flow nasal oxygen (HFNO) or Heated humidified high-flow (HHHF) therapy is a non-invasive technique. It is a technique of delivering heated and humidified high-flow oxygen via soft and flexible nasal prongs. Humidification prevents the drying of epithelium and facilitates the removal of mucosal secretions. Other advantages include pharyngeal dead space washout and PEEP effect.[3]
  • Surviving Sepsis Campaign has the following recommendations regarding the use of HFNC in COVID-19 patients:[1]

Non-Invasive Positive Pressure Ventilation (NIPPV)

Invasive Mechanical Ventilation (IMV)

  • The vascular endothelial injury in COVID-19-associated acute respiratory distress syndrome (CARDS) and diverse mortality rates across the world in CARDS patients arbitrates the importance of different mechanical ventilation strategies.
  • The Chinese CDC reports the case-fatality rate to be higher than 50% in patients who received invasive mechanical ventilation.[6]
  • 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.[7]

Ventilator settings

  • Mode: No mode of ventilation has been suggested to be superior to others.[8]
  • positive end-expiratory pressure (PEEP): The commonly used PEEP in the COVID-19 patients in Wuhan, China was less than 10 cm H2O. It is advised that 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. [8]

Marini et al. suggest

    • 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
    • Higher PEEP: Initially it was recommended that the guidelines for ARDS must be followed for respiratory support in 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.[8]
  • it may be best to avoid high-frequency oscillatory ventilation in patients with COVID-19 due to concerns of aerosol generation.19,37,38


Stratagies to improve oxygenation

Prone position ventilation

  • Prone positioning is thought to improve oxygenation by improving ventilation/perfusion (V/Q) mismatching via reduced shunting of blood through under-ventilated lung tissue.
  • 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.[9]
  • The strategy was widely used in COVID-19 patients in Wuhan, China.[8]
  • Prone position is an early strategy rather than a desperate rescue therapy.[10] 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.[11]
  • Prone position for awake patients during spontaneous or assisted breathing during NIPPV or HFNC with mild-moderate ARDS was associated with an improved oxygenation.[12] In addition, patients with an Spo2 of 95% or greater after an hour of the prone position had a lower rate of intubation.[13] To answer the question about the effectiveness, two RCTs are in progress NCT04347941 and NCT04350723.[10]
  • 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) Prone positioning for more than 12 hours/day in patients with severe ARDS.[14][15]

{{#ev:youtube|https://www.youtube.com/watch?v=lcBPaHQUvXY}}

Special considerationss

  • Intubation:Capnography, fogging inside of the endotracheal tube, chest movement, Spo2, the color of the patient’s skin and mucous membrane, and vigilance are used to differentiate between a failed and successful intubation. chest auscultation after intubation is not recommended.[8]

Lung recruitment maneauvers

References

  1. 1.0 1.1 1.2 1.3 1.4 1.5 Alhazzani, Waleed; Møller, Morten Hylander; Arabi, Yaseen M.; Loeb, Mark; Gong, Michelle Ng; Fan, Eddy; Oczkowski, Simon; Levy, Mitchell M.; Derde, Lennie; Dzierba, Amy; Du, Bin; Aboodi, Michael; Wunsch, Hannah; Cecconi, Maurizio; Koh, Younsuck; Chertow, Daniel S.; Maitland, Kathryn; Alshamsi, Fayez; Belley-Cote, Emilie; Greco, Massimiliano; Laundy, Matthew; Morgan, Jill S.; Kesecioglu, Jozef; McGeer, Allison; Mermel, Leonard; Mammen, Manoj J.; Alexander, Paul E.; Arrington, Amy; Centofanti, John E.; Citerio, Giuseppe; Baw, Bandar; Memish, Ziad A.; Hammond, Naomi; Hayden, Frederick G.; Evans, Laura; Rhodes, Andrew (2020). "Surviving Sepsis Campaign: Guidelines on the Management of Critically Ill Adults with Coronavirus Disease 2019 (COVID-19)". Critical Care Medicine. 48 (6): e440–e469. doi:10.1097/CCM.0000000000004363. ISSN 0090-3493.
  2. "Transmission-Based Precautions | Basics | Infection Control | CDC"".
  3. Zhang J, Lin L, Pan K, Zhou J, Huang X (December 2016). "High-flow nasal cannula therapy for adult patients". J. Int. Med. Res. 44 (6): 1200–1211. doi:10.1177/0300060516664621. PMC 5536739. PMID 27698207.
  4. Frat, Jean-Pierre; Thille, Arnaud W.; Mercat, Alain; Girault, Christophe; Ragot, Stéphanie; Perbet, Sébastien; Prat, Gwénael; Boulain, Thierry; Morawiec, Elise; Cottereau, Alice; Devaquet, Jérôme; Nseir, Saad; Razazi, Keyvan; Mira, Jean-Paul; Argaud, Laurent; Chakarian, Jean-Charles; Ricard, Jean-Damien; Wittebole, Xavier; Chevalier, Stéphanie; Herbland, Alexandre; Fartoukh, Muriel; Constantin, Jean-Michel; Tonnelier, Jean-Marie; Pierrot, Marc; Mathonnet, Armelle; Béduneau, Gaëtan; Delétage-Métreau, Céline; Richard, Jean-Christophe M.; Brochard, Laurent; Robert, René (2015). "High-Flow Oxygen through Nasal Cannula in Acute Hypoxemic Respiratory Failure". New England Journal of Medicine. 372 (23): 2185–2196. doi:10.1056/NEJMoa1503326. ISSN 0028-4793.
  5. Cabrini L, Landoni G, Zangrillo A (February 2020). "Minimise nosocomial spread of 2019-nCoV when treating acute respiratory failure". Lancet. 395 (10225): 685. doi:10.1016/S0140-6736(20)30359-7. PMC 7137083 Check |pmc= value (help). PMID 32059800 Check |pmid= value (help).
  6. Wu, Zunyou; McGoogan, Jennifer M. (2020). "Characteristics of and Important Lessons From the Coronavirus Disease 2019 (COVID-19) Outbreak in China". JAMA. 323 (13): 1239. doi:10.1001/jama.2020.2648. ISSN 0098-7484.
  7. "Strategies for health care response to COVID-19 shared by Chinese anesthesiologists".
  8. 8.0 8.1 8.2 8.3 8.4 Meng, Lingzhong; Qiu, Haibo; Wan, Li; Ai, Yuhang; Xue, Zhanggang; Guo, Qulian; Deshpande, Ranjit; Zhang, Lina; Meng, Jie; Tong, Chuanyao; Liu, Hong; Xiong, Lize (2020). "Intubation and Ventilation amid the COVID-19 Outbreak". Anesthesiology. 132 (6): 1317–1332. doi:10.1097/ALN.0000000000003296. ISSN 0003-3022.
  9. Xie H, Zhou ZG, Jin W, Yuan CB, Du J, Lu J, Wang RL (2018). "Ventilator management for acute respiratory distress syndrome associated with avian influenza A (H7N9) virus infection: A case series". World J Emerg Med. 9 (2): 118–124. doi:10.5847/wjem.j.1920-8642.2018.02.006. PMC 5847497. PMID 29576824.
  10. 10.0 10.1 Telias, Irene; Katira, Bhushan H.; Brochard, Laurent (2020). "Is the Prone Position Helpful During Spontaneous Breathing in Patients With COVID-19?". JAMA. 323 (22): 2265. doi:10.1001/jama.2020.8539. ISSN 0098-7484.
  11. Ding L, Wang L, Ma W, He H (January 2020). "Efficacy and safety of early prone positioning combined with HFNC or NIV in moderate to severe ARDS: a multi-center prospective cohort study". Crit Care. 24 (1): 28. doi:10.1186/s13054-020-2738-5. PMC 6993481 Check |pmc= value (help). PMID 32000806 Check |pmid= value (help).
  12. Sartini, Chiara; Tresoldi, Moreno; Scarpellini, Paolo; Tettamanti, Andrea; Carcò, Francesco; Landoni, Giovanni; Zangrillo, Alberto (2020). "Respiratory Parameters in Patients With COVID-19 After Using Noninvasive Ventilation in the Prone Position Outside the Intensive Care Unit". JAMA. 323 (22): 2338. doi:10.1001/jama.2020.7861. ISSN 0098-7484.
  13. Thompson, Alison E.; Ranard, Benjamin L.; Wei, Ying; Jelic, Sanja (2020). "Prone Positioning in Awake, Nonintubated Patients With COVID-19 Hypoxemic Respiratory Failure". JAMA Internal Medicine. doi:10.1001/jamainternmed.2020.3030. ISSN 2168-6106.
  14. Fan, Eddy; Del Sorbo, Lorenzo; Goligher, Ewan C.; Hodgson, Carol L.; Munshi, Laveena; Walkey, Allan J.; Adhikari, Neill K. J.; Amato, Marcelo B. P.; Branson, Richard; Brower, Roy G.; Ferguson, Niall D.; Gajic, Ognjen; Gattinoni, Luciano; Hess, Dean; Mancebo, Jordi; Meade, Maureen O.; McAuley, Daniel F.; Pesenti, Antonio; Ranieri, V. Marco; Rubenfeld, Gordon D.; Rubin, Eileen; Seckel, Maureen; Slutsky, Arthur S.; Talmor, Daniel; Thompson, B. Taylor; Wunsch, Hannah; Uleryk, Elizabeth; Brozek, Jan; Brochard, Laurent J. (2017). "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". American Journal of Respiratory and Critical Care Medicine. 195 (9): 1253–1263. doi:10.1164/rccm.201703-0548ST. ISSN 1073-449X.
  15. Rhodes, Andrew; Evans, Laura E.; Alhazzani, Waleed; Levy, Mitchell M.; Antonelli, Massimo; Ferrer, Ricard; Kumar, Anand; Sevransky, Jonathan E.; Sprung, Charles L.; Nunnally, Mark E.; Rochwerg, Bram; Rubenfeld, Gordon D.; Angus, Derek C.; Annane, Djillali; Beale, Richard J.; Bellinghan, Geoffrey J.; Bernard, Gordon R.; Chiche, Jean-Daniel; Coopersmith, Craig; De Backer, Daniel P.; French, Craig J.; Fujishima, Seitaro; Gerlach, Herwig; Hidalgo, Jorge Luis; Hollenberg, Steven M.; Jones, Alan E.; Karnad, Dilip R.; Kleinpell, Ruth M.; Koh, Younsuk; Lisboa, Thiago Costa; Machado, Flavia R.; Marini, John J.; Marshall, John C.; Mazuski, John E.; McIntyre, Lauralyn A.; McLean, Anthony S.; Mehta, Sangeeta; Moreno, Rui P.; Myburgh, John; Navalesi, Paolo; Nishida, Osamu; Osborn, Tiffany M.; Perner, Anders; Plunkett, Colleen M.; Ranieri, Marco; Schorr, Christa A.; Seckel, Maureen A.; Seymour, Christopher W.; Shieh, Lisa; Shukri, Khalid A.; Simpson, Steven Q.; Singer, Mervyn; Thompson, B. Taylor; Townsend, Sean R.; Van der Poll, Thomas; Vincent, Jean-Louis; Wiersinga, W. Joost; Zimmerman, Janice L.; Dellinger, R. Phillip (2017). "Surviving Sepsis Campaign: International Guidelines for Management of Sepsis and Septic Shock: 2016". Intensive Care Medicine. 43 (3): 304–377. doi:10.1007/s00134-017-4683-6. ISSN 0342-4642.

Template:WS Template:WH

Retrieved from "https://www.wikidoc.org/index.php?title=Sandbox:Javaria&oldid=1629004"