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− | '''[[Hypoxia tolerance]]''' | + | {{ft|A}} |
− | *[http://archive.is/VTqtr happy hypoxia experience]
| + | '''[[Resp Proning ]]''' |
| | | |
− | '''any other topic''' | + | '''[[Resp high-flow nasal cannula ]]''' |
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− | *[https://gab.com/TomDoniphon/posts/104162938810676022 proposal of iron lungs (kinderlähmung times)]
| + | '''[[Resp non-inv ]]''' |
− | {{tp|p=32285929|t=2020. Extracorporeal membrane oxygenation in COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32287142|t=2020. Pediatric Airway Management in Coronavirus Disease 2019 Patients: Consensus Guidelines From the Society for Pediatric Anesthesia?s Pediatric Difficult Intubation Collaborative and the Canadian Pediatric Anesthesia Society |pdf=|usr=}}
| + | |
− | {{tp|p=32360979|t=ä. Sedation for critically ill patients with COVID-19: which specificities? One size does not fit all |pdf=|usr=}}
| + | |
− | {{tp|p=32360978|t=2020. Preliminary observations of anaesthesia ventilators use for prolonged mechanical ventilation in intensive care unit patients during the COVID-19 pandemic |pdf=|usr=}}
| + | |
− | {{tp|p=32305591|t=ä. Treating hypoxemic patients with SARS-COV-2 pneumonia: Back to applied physiology |pdf=|usr=}}
| + | |
− | {{tp|p=32350543|t=ä. COVID-19-Pandemie: strukturierte Erweiterung von Beatmungskapazitäten mithilfe von Heimrespiratoren |pdf=|usr=}}
| + | |
− | {{tp|p=32333024|t=ä. Anästhesie- und Intensivbeatmungsgeräte: Unterschiede und Nutzbarkeit bei COVID-19-Patienten |pdf=|usr=}}
| + | |
− | {{tp|p=32209810|t=2020. Recommendations for Endotracheal Intubation of COVID-19 Patients |pdf=|usr=}}
| + | |
− | {{tp|p=32250977|t=2020. Your COVID-19 Intubation Kit |pdf=|usr=}}
| + | |
− | {{tp|p=32345852|t=2020. COVID-19 and One-Lung Ventilation |pdf=|usr=}}
| + | |
− | {{tp|p=32345859|t=2020. Use of a Modified System for Manual Ventilation of the Patient for In-Hospital and Extra-Hospital Transport to Avoid Aerosolizing Spread of Droplets During COVID-19 Outbreak |pdf=|usr=}}
| + | |
− | {{tp|p=32345856|t=2020. Adaptation to the Plastic Barrier Sheet to Facilitate Intubation During the COVID-19 Pandemic |pdf=|usr=}}
| + | |
− | {{tp|p=32324597|t=2020. Barrier Shields: Not Just for Intubations in Today?s COVID-19 World?|pdf=|usr=}}
| + | |
− | {{tp|p=32287141|t=2020. Role of Mask/Respirator Protection Against SARS-CoV-2 |pdf=|usr=}}
| + | |
− | {{tp|p=32282387|t=2020. A Carton-Made Protective Shield for Suspicious/Confirmed COVID-19 Intubation and Extubation During Surgery |pdf=|usr=}}
| + | |
− | {{tp|p=32304463|t=2020. COVID-19 Putting Patients at Risk of Unplanned Extubation and Airway Providers at Increased Risk of Contamination |pdf=|usr=}}
| + | |
− | {{tp|p=32195703|t=2020. Precautions for Intubating Patients with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32195705|t=2020. Intubation and Ventilation amid the COVID-19 Outbreak: Wuhan?s Experience |pdf=|usr=}}
| + | |
− | {{tp|p=32287047|t=2020. Emergency Open-source Three-dimensional Printable Ventilator Circuit Splitter and Flow Regulator during the COVID-19 Pandemic |pdf=|usr=}}
| + | |
− | {{tp|p=32334882|t=ä. A Protection Tent for Airway Management in Patients With COVID-19 Infection |pdf=|usr=}}
| + | |
− | {{tp|p=32232685|t=2020. The experience of high-flow nasal cannula in hospitalized patients with 2019 novel coronavirus-infected pneumonia in two hospitals of Chongqing, China |pdf=|usr=}}
| + | |
− | {{tp|p=32315800|t=ä. A model for a ventilator-weaning and early rehabilitation unit to deal with post-ICU impairments with severe COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32353441|t=ä. MANAGEMENT OF PERSISTENT PNEUMOTHORAX WITH THORACOSCOPY AND BLEBS RESECTION IN COVID-19 PATIENTS |pdf=|usr=}}
| + | |
− | {{tp|p=32339508|t=ä. Novel Percutaneous Tracheostomy for Critically Ill Patients with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32232219|t=2020. The COVID-19 Intubation and Ventilation Pathway (CiVP); a Commentary |pdf=|usr=}}
| + | |
− | {{tp|p=32345515|t=ä. Anesthetic and surgical management of tracheostomy in a patient with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32303376|t=ä. Extubation of patients with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32362339|t=ä. The Wuhan COVID-19 intubation experience |pdf=|usr=}}
| + | |
− | {{tp|p=32312572|t=ä. Reducing droplet spread during airway manipulation: lessons from the COVID-19 pandemic in Singapore |pdf=|usr=}}
| + | |
− | {{tp|p=32362340|t=ä. COVID-19 patients with respiratory failure: what can we learn from aviation medicine?|pdf=|usr=}}
| + | |
− | {{tp|p=32340733|t=ä. Rapid Ramp-up of Powered Air-Purifying Respirator (PAPR) Training for Infection Prevention and Control during the COVID-19 Pandemic |pdf=|usr=}}
| + | |
− | {{tp|p=32312570|t=ä. Extubation barrier drape to minimise droplet spread |pdf=|usr=}}
| + | |
− | {{tp|p=32312573|t=ä. Fibreoptic tracheal intubation in COVID-19: not so fast |pdf=|usr=}}
| + | |
− | {{tp|p=32312571|t=ä. Emergency tracheal intubation in 202 patients with COVID-19 in Wuhan, China: lessons learnt and international expert recommendations |pdf=|usr=}}
| + | |
− | {{tp|p=32321662|t=ä. Surgical tracheostomies in Covid-19 patients: Important considerations and the ?5Ts? of safety |pdf=|usr=}}
| + | |
− | {{tp|p=32322128|t=ä. Management of CO2 absorbent while using the anesthesia machine as a mechanical ventilator on patients with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32180173|t=ä. Lidocaine during intubation and extubation in patients with coronavirus disease (COVID-19) |pdf=|usr=}}
| + | |
− | {{tp|p=32323101|t=ä. Safer intubation and extubation of patients with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32319029|t=ä. Patient self-proning with high-flow nasal cannula improves oxygenation in COVID-19 pneumonia |pdf=|usr=}}
| + | |
− | {{tp|p=32291633|t=ä. Locating and repurposing anesthetic machines as intensive care unit ventilators during the COVID-19 pandemic |pdf=|usr=}}
| + | |
− | {{tp|p=32223782|t=ä. Just the Facts: Airway management during the coronavirus disease 2019 (COVID-19) pandemic |pdf=|usr=}}
| + | |
− | {{tp|p=32313662|t=2020. Veno-venous extracorporeal membrane oxygenation for severe pneumonia: COVID-19 case in Japan |pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32371555|t=2020. Utility of extracorporeal membrane oxygenation in COVID-19 |pdf=|usr=}}
| + | '''[[Resp invasive ]]''' |
− | {{tp|p=32357995|t=2020. Tracheal intubation in patients with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32326959|t=2020. High-flow nasal cannula may be no safer than non-invasive positive pressure ventilation for COVID-19 patients |pdf=|usr=}}
| + | |
− | {{tp|p=C7156900|t=2020. Prognosis when using extracorporeal membrane oxygenation (ECMO) for critically ill COVID-19 patients in China: a retrospective case series |pdf=|usr=}}
| + | |
− | {{tp|p=32322959|t=ä. Tracheostomy in the COVID-19 pandemic |pdf=|usr=}}
| + | |
− | {{tp|p=32314050|t=ä. Recommendation of a practical guideline for safe tracheostomy during the COVID-19 pandemic |pdf=|usr=}}
| + | |
− | {{tp|p=32299867|t=2020. High-flow nasal cannula for COVID-19 patients: low risk of bio-aerosol dispersion |pdf=|usr=}}
| + | |
− | {{tp|p=32271455|t=2020. Successful treatment of COVID-19 using extracorporeal membrane oxygenation, a case report |pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32301347|t=ä. Extracorporeal membrane oxygenation therapy in the COVID-19 pandemic |pdf=|usr=}}
| + | '''[[Resp Tracheotomy ]]''' |
− | {{tp|p=32223988|t=ä. ECMO for ARDS due to COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32312554|t=ä. Early pulmonary rehabilitation for SARS-CoV-2 pneumonia: Experience from an intensive care unit outside of the Hubei province in China |pdf=|usr=}}
| + | |
− | {{tp|p=32295710|t=ä. High flow nasal cannula is a good treatment option for COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32356039|t=ä. Extracorporeal membrane oxygenation in the treatment of respiratory failure during COVID?19 |pdf=|usr=}}
| + | |
− | {{tp|p=32313971|t=ä. Ventilation of COVID-19 patients in intensive care units |pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32238613|t=2020. Novel Coronavirus 2019 (2019-nCoV) Infection: Part II - Respiratory Support in the Pediatric Intensive Care Unit in Resource-limited Settings |pdf=|usr=}}
| + | '''[[Resp Intubation ]]''' |
− | {{tp|p=32238612|t=2020. Novel Coronavirus 2019 (2019-nCoV) Infection: Part I - Preparedness and Management in the Pediatric Intensive Care Unit in Resource-limited Settings |pdf=|usr=}}
| + | |
− | {{tp|p=32192550|t=ä. The role of masks and respirator protection against SARS-CoV-2 |pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32251794|t=2020. Extracorporeal membrane oxygenation (ECMO): does it have a role in the treatment of severe COVID-19?|pdf=|usr=}}
| + | '''[[Resp ECMO ]]''' |
− | {{tp|p=32303885|t=ä. Summary of 20 tracheal intubation by anesthesiologists for patients with severe COVID-19 pneumonia: retrospective case series |pdf=|usr=}}
| + | |
− | {{tp|p=32337192|t=2020. COVID-19 Tragic Pandemic: Concerns over Unintentional ?Directed Accelerated Evolution? of Novel Coronavirus (SARS-CoV-2) and Introducing a Modified Treatment Method for ARDS |pdf=|usr=}}
| + | |
− | {{tp|p=32361688|t=2020. Can glycopyrrolate come to the airway rescue in Covid-19 patients?|pdf=|usr=}} ''anti-sialogogue''
| + | |
− | {{tp|p=32331217|t=2020. Helmet CPAP to Treat Acute Hypoxemic Respiratory Failure in Patients with COVID-19: A Management Strategy Proposal |pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32339975|t=2020. Safe bronchodilator treatment in mechanically ventilated COVID-19 patients: A single center experience |pdf=|usr=}}
| + | '''[[Resp var./rev. ]]''' |
− | {{tp|p=32279018|t=ä. Poor survival with extracorporeal membrane oxygenation in acute respiratory distress syndrome (ARDS) due to coronavirus disease 2019 (COVID-19): Pooled analysis of early reports |pdf=|usr=}}
| + | |
− | {{tp|p=32317225|t=ä. A sporadic COVID-19 pneumonia treated with extracorporeal membrane oxygenation in Tokyo, Japan: A case report |pdf=|usr=}}
| + | |
− | {{tp|p=32341785|t=2020. Nationwide system to centralize decisions around ECMO use for severe COVID-19 pneumonia in Japan (Special Correspondence) |pdf=|usr=}}
| + | |
− | {{tp|p=32288941|t=2020. Japan ECMOnet for COVID-19: telephone consultations for cases with severe respiratory failure caused by COVID-19 |pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32340627|t=2020. Recommendations from the CSO-HNS taskforce on performance of tracheotomy during the COVID-19 pandemic |pdf=|usr=}}
| + | '''[[Resp adv.effects ]]''' |
− | {{tp|p=32278367|t=ä. COVID-19: Respiratory support outside the intensive care unit |pdf=|usr=}}
| + | |
− | {{tp|p=32325017|t=ä. Use of non-invasive ventilation for patients with COVID-19: a cause for concern?|pdf=|usr=}}
| + | |
− | {{tp|p=32325016|t=ä. High versus low PEEP in non-recruitable collapsed lung tissue: possible implications for patients with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32178774|t=2020. COVID-19, ECMO, and lymphopenia: a word of caution |pdf=|usr=}}
| + | |
− | {{tp|p=32145829|t=2020. Respiratory support for patients with COVID-19 infection |pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32336080|t=2020. Extracorporeal membrane oxygenation for critically ill patients with coronavirus-associated disease 2019: an updated perspective of the European experience |pdf=|usr=}}
| + | '''[[Resp other modalities ]]''' |
− | {{tp|p=32236089|t=2020. Respiratory physiotherapy in patients with COVID-19 infection in acute setting: a Position Paper of the Italian Association of Respiratory Physiotherapists (ARIR) |pdf=|usr=}}
| + | |
− | {{tp|p=32268719|t=2020. Intubation and mechanical ventilation of patients with COVID-19: what should we tell them?|pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32362507|t=ä. COVID-19 pandemic and non invasive respiratory management: every Goliath needs a David An evidence based evaluation of problems |pdf=|usr=}}
| + | '''[[Resp non-conventional machines]]''' |
− | {{tp|p=32368483|t=2020. A case of improved oxygenation in SARS-CoV-2 positive patient on nasal cannula undergoing prone positioning |pdf=|usr=}}
| + | |
− | {{tp|p=32307151|t=ä. Recomendaciones de consenso respecto al soporte respiratorio no invasivo ... |pdf=|usr=}}
| + | |
| | | |
− | {{tp|p=32204751|t=2020. Consideration of the respiratory support strategy of severe acute respiratory failure caused by SARS-CoV-2 infection in children |pdf=|usr=}}
| + | '''[[Resp Sedation]]''' |
| | | |
− | {{tp|p=32320506|t=2020. Early Self-Proning in Awake, Non-intubated Patients in the Emergency Department: A Single ED s Experience During the COVID-19 Pandemic |pdf=|usr=}}
| + | '''[[Resp NO]]''' |
− | {{tp|p=32340583|t=2020. COVID-19 pandemic: overview of protective-ventilation strategy in ARDS patients |pdf=|usr=}}
| + | |
− | {{tp|p=32203672|t=2020. Ventilatory Ratio in Hypercapnic Mechanically Ventilated Patients with COVID-19?associated Acute Respiratory Distress Syndrome |pdf=|usr=}}
| + | |
− | {{tp|p=32200645|t=2020. Lung Recruitability in COVID-19?associated Acute Respiratory Distress Syndrome: A Single-Center Observational Study |pdf=|usr=}}
| + | |
− | {{tp|p=32366770|t=2020. COVID-19: Common Critical and Practical Questions |pdf=|usr=}}
| + | |
− | {{tp|p=32369396|t=2020. Outpatient Inhaled Nitric Oxide in a Patient with Vasoreactive IPAH and COVID-19 Infection |pdf=|usr=}}
| + | |
− | {{tp|p=32311297|t=2020. COVID-19: First Do No Harm |pdf=|usr=}}
| + | |
− | {{tp|p=32281885|t=2020. Basing Respiratory Management of COVID-19 on Physiological Principles |pdf=|usr=}}
| + | |
− | {{tp|p=32348678|t=2020. Respiratory Pathophysiology of Mechanically Ventilated Patients with COVID-19: A Cohort Study |pdf=|usr=}}
| + | |
− | {{tp|p=32281886|t=2020. COVID-19 and Home Positive Airway Pressure (PAP) Therapy |pdf=|usr=}}
| + | |
− | {{tp|p=32221970|t=2020. Consensus guidelines for managing the airway in patients with COVID-19: Guidelines from the Difficult Airway Society, the Association of Anaesthetists the Intensive Care Society, the Faculty of Intensive Care Medicine and the Royal College of Anaesthetists |pdf=|usr=}}
| + | |
− | {{tp|p=32271942|t=2020. Coping with COVID-19: ventilator splitting with differential driving pressures using standard hospital equipment |pdf=|usr=}}
| + | |
− | {{tp|p=32246843|t=2020. The use of high-flow nasal oxygen in COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32348561|t=2020. Adapting re-usable elastomeric respirators to utilise anaesthesia circuit filters using a 3D-printed adaptor - a potential alternative to address N95 shortages during the COVID-19 pandemic |pdf=|usr=}}
| + | |
| | | |
− | {{ttp|p=32330073|t=2020. COVID-19 Lung Injury and High Altitude Pulmonary Edema: A False Equation with Dangerous Implications |pdf=|usr=}}
| + | '''[[Hypoxia tolerance]]''' |
− | {{tp|p=32319081|t=2020. Delivering extracorporeal membrane oxygenation for patients with COVID-19: what, who, when and how?|pdf=|usr=}}
| + | |
− | {{ttp|p=32358233|t=2020. Extracorporeal Life Support Organization Coronavirus Disease 2019 Interim Guidelines: A Consensus Document from an International Group of Interdisciplinary Extracorporeal Membrane Oxygenation Providers |pdf=|usr=}}
| + | |
− | {{tp|p=32341294|t=2020. Toward Precision Delivery of Extracorporeal Membrane Oxygenation in Coronavirus Disease 2019 Cardiorespiratory Failure |pdf=|usr=}}
| + | |
− | {{tp|p=32317557|t=2020. Extracorporeal Membrane Oxygenation in the Treatment of Severe Pulmonary and Cardiac Compromise in Coronavirus Disease 2019: Experience with 32 Patients |pdf=|usr=}}
| + | |
− | {{tp|p=32243267|t=2020. Initial ELSO Guidance Document: ECMO for COVID-19 Patients with Severe Cardiopulmonary Failure |pdf=|usr=}}
| + | |
− | {{tp|p=32243266|t=2020. Extracorporeal Membrane Oxygenation for Coronavirus Disease 2019 in Shanghai, China |pdf=|usr=}}
| + | |
− | {{tp|p=32366375|t=2020. Management of respiratory failure due to covid-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32229575|t=2020. Covid-19: Mercedes F1 to provide breathing aid as alternative to ventilator |pdf=|usr=}}
| + | |
− | {{tp|p=32377387|t=2020. High-flow Nasal Cannula Oxygenation Revisited in COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32346862|t=2020. Inhaled NO and COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32102726|t=2020. Expert Recommendations for Tracheal Intubation in Critically ill Patients with Noval Coronavirus Disease 2019 |pdf=|usr=}}
| + | |
− | {{tp|p=32097201|t=2020. Non-invasive respiratory support for patients with novel coronavirus pneumonia: clinical efficacy and reduction in risk of infection transmission |pdf=|usr=}}
| + | |
− | {{tp|p=32369390|t=2020. Differentiating COVID-19 Pneumonia from Acute Respiratory Distress Syndrome (ARDS) and High Altitude Pulmonary Edema (HAPE): Therapeutic Implications |pdf=|usr=}}
| + | |
− | | + | |
− | {{tp|p=32364404|t=2020. Establishment and Management of Mechanical Circulatory Support During the COVID-19 Pandemic |pdf=|usr=}}
| + | |
− | {{ttp|p=32366580|t=2020. Respiratory advice for the non-respiratory physician in the time of COVID-19 |pdf=|usr=}}
| + | |
− | {{ttp|p=32353223|t=2020. Characteristics, treatment, outcomes and cause of death of invasively ventilated patients with COVID-19 ARDS in Milan, Italy |pdf=|usr=}}
| + | |
− | {{tp|p=32353224|t=2020. Home ventilators for invasive ventilation of patients with COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32351196|t=2020. Initial experiences from patients with COVID-19 on ventilatory support in Denmark |pdf=|usr=}}
| + | |
− | {{ttp|p=32375488|t=ä. Respiratory management in severe acute respiratory syndrome coronavirus 2 infection |pdf=|usr=}}
| + | |
− | | + | |
− | {{tp|p=32249028|t=2020. The "helmet bundle" in COVID-19 patients undergoing non invasive ventilation |pdf=|usr=}}
| + | |
− | {{tp|p=32268933|t=2020. Home PAP devices in COVID-19 infected patients |pdf=|usr=}}
| + | |
− | {{tp|p=32074258|t=2020. Preparing for the Most Critically Ill Patients With COVID-19: The Potential Role of Extracorporeal Membrane Oxygenation |pdf=|usr=}}
| + | |
− | {{tp|p=32329799|t=2020. Management of COVID-19 Respiratory Distress |pdf=|usr=}}
| + | |
− | {{tp|p=32376612|t=2020. Shared Ventilation in the Era of COVID-19: A Theoretical Consideration of the Dangers and Potential Solutions |pdf=|usr=}}
| + | |
− | {{tp|p=32268019|t=2020. Clinical experience of high-flow nasal cannula oxygen therapy in severe corona virus disease 2019 (COVID-19) patients |pdf=|usr=}}
| + | |
− | {{tp|p=32273335|t=2020. COVID-19: community CPAP and NIV should be stopped unless medically necessary to support life |pdf=|usr=}}
| + | |
− | {{tp|p=32100976|t=2020. Airway management of COVID-19 patients with severe pneumonia |pdf=|usr=}}
| + | |
− | {{tp|p=32306624|t=2020. Airway management of COVID-19 patients with severe pneumonia |pdf=|usr=}}
| + | |
− | {{tp|p=32259916|t=2020. Experience of tracheotomy for critical patients with COVID-19: a case report |pdf=|usr=}}
| + | |
− | {{tp|p=32292012|t=2020. Application of tracheotomy in the treatment of severe cases of COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32164087|t=2020. Recommendations on extracorporeal life support for critically ill patients with novel coronavirus pneumonia |pdf=|usr=}}
| + | |
− | {{tp|p=32164086|t=2020. Conventional respiratory support therapy for Severe Acute Respiratory Infections (SARI): Clinical indications and nosocomial infection prevention and control |pdf=|usr=}}
| + | |
− | {{tp|p=32164082|t=2020. Respiratory support for severe 2019-nCoV pneumonia suffering from acute respiratory failure: time and strategy |pdf=|usr=}}
| + | |
− | {{tp|p=32129582|t=2020. Noninvasive Respiratory Support for Novel Coronavirus Pneumonia: Enough is Enough |pdf=|usr=}}
| + | |
− | | + | |
− | {{tp|p=C7203031|t=ä. Clinical consensus recommendations regarding non-invasive respiratory support in the adult patient with acute respiratory failure secondary to SARS-CoV-2 infection? |pdf=|usr=}}
| + | |
− | {{tp|p=C7144845|t=ä. Cuidado respiratorio en COVID-19 |pdf=|usr=}}
| + | |
− | {{tp|p=32392023|t=2020. Sedation of Mechanically Ventilated COVID-19 Patients: Challenges and Special Considerations |pdf=|usr=}}
| + | |
− | {{tp|p=C7179052|t=2020. Barrier System for Airway Management of COVID-19 Patients |pdf=|usr=}}
| + | |
− | {{tp|p=32446500|t=ä. Ultra-portable low-cost improvised powered air-purifying respirator: feasibility study |pdf=|usr=}}
| + | |
− | {{tp|p=32414510|t=ä. Extracorporeal membrane oxygenation for COVID-19-associated severe acute respiratory distress syndrome and risk of thrombosis |pdf=|usr=}}
| + | |
− | {{tp|p=32377387|t=2020. High-flow Nasal Cannula Oxygenation Revisited in COVID-19 |pdf=|usr=}}
| + | |