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Objective: Acute respiratory tract infections are one of the leading causes of morbidity and mortality in children. Although human bocavirus (HBoV) infections are not as common as other seasonal respiratory viruses, children who are infected with HBoV are more likely to suffer from a variety of respiratory conditions, including the common cold, acute otitis media, asthma exacerbations, bronchiolitis pneumonia, some of the affected children require pediatric intensive care unit stay. Here, we aimed to evaluate pediatric bocavirus (HBoV) cases presenting with severe respiratory tract symptoms during the coronavirus disease 2019 (COVID-19) pandemic. Method(s): This retrospective study evaluated the medical records of children diagnosed with respiratory infections, followed up at the Faculty of Medicine, Eskisehir Osmangazi University between September 2021 and March 2022. In this study, patients with HBoV identified using nasopharyngeal polymerase chain reaction (PCR) were considered positive. Cases were analyzed retrospectively for their clinical characteristics. Result(s): This study included 54 children (29 girls and 25 boys) with HBoV in nasopharyngeal PCR samples. The cases ranged in age from 1 month to 72 months (median 25 months). At the time of presentation, cough, fever, and respiratory distress were the most prevalent symptoms. Hyperinflation (48%), pneumonic consolidation (42%), and pneumothorax-pneumomediastinum (7%) were observed on the chest X-ray;54% of the children required intensive care unit stay. The median length of hospitalization was 6 days. Bacterial coinfection was detected in 7 (17%) children, while HBoV and other viruses were present in 20 (37%) children;57% of children received supplemental oxygen by mask, 24% high-flow nasal oxygen, 7% continuous positive airway pressure, and 9% invasive mechanical ventilation support. Antibiotics were given to 34 (63%) cases, and systemic steroid treatment was given to 41 (76%) cases. Chest tubes were inserted in three out of the four cases with pneumothorax-pneumomediastinum. All patients were recovered and were discharged from the hospital. Conclusion(s): The COVID-19 pandemic changed the epidemiology of seasonal respiratory viruses and the clinical course of the diseases. Although it usually causes mild symptoms, severe respiratory symptoms can lead to life-threatening illnesses requiring intensive care admission.Copyright © 2023. The Author(s).
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Introduction: Patients with COVID pneumonia who require intubation and prolonged mechanical ventilation are at risk for complications such as recurrent infection, tracheomalacia, tracheal stenosis, and the development of tracheoesophageal fistula (TEF). TEF is a devastating complication where the trachea and esophagus develop an abnormal connection in the lower airway that dramatically increases the mortality of critically ill patients by recurrent aspiration and pneumonias. Though commonly associated with neoplasms another risk is pressure induced ischemia of the common wall between the trachea and esophagus. This can occur due to overinflation of the endotracheal (ET) cuff, especially with concomitant use of a nasogastric tube (NGT). Definitive management requires surgical repair. Case Description/Methods: A 69-year-old male patient presented with acute hypoxemic respiratory failure secondary to COVID pneumonia requiring intubation and insertion of an NGT. On day 29 the patient underwent percutaneous enterogastrostomy (PEG) placement and tracheostomy;it was noted intraoperatively that the tracheal mucosa was inflamed and friable. On day 36 bronchoscopy was performed through the tracheostomy tube due to concerns for mucus plugging. Friable mucosa with granulation tissue was seen at the distal end of the tube, so an extra-long tracheostomy tube was exchanged to bypass the granulation tissue. Later that night the ventilator measured a 50% discrepancy between the delivered and exhaled tidal volumes, triggering an alarm. Exam noted distension of the PEG-bag with a fluid meniscus in the tubing moving in sync with each respiration. TEF was considered and bronchoscopic evaluation confirmed a 1-centimeter TEF. The patient underwent successful TEF repair and is slowly recovering (Figure). Discussion(s): Critically ill patients who require prolonged support are at high risk of complications and device related injury. With each device-day there is an increased risk of complications, such as infection, dislodgement, and pressure-related injuries. This case highlights the importance of serial physical examinations as well as understanding possible device related complications. An unexpected finding, such as a persistent air leak, air in a PEG bag, or a fluctuating meniscus should raise suspicion for the development of a serious complication and would warrant prompt confirmatory testing. Our literature review revealed no reports of a PEG tube abnormalities as a presenting finding for TEF.
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Background: Radiological changes in children with lung damage caused by SARS-CoV-2 can be diagnosed by radiology exams with the identification of interstitial inflammation characterized of viral pneumonia. Aim(s): Evaluation of pulmonary radiological manifestations in children with COVID-19 infection. Method(s): Expected research evaluated pulmonary radiological changes among 315 children with SARS-CoV-2 infection, with moderate and severe form, from the age of 2 days till 18 years. Age distribution of hospitalized children with clinical signs of COVID-19 infection:<28 days-36 children(11,4%:95%CI8,2-15,6),28 days-1year-72 children(22,9%:95%CI18,4-28),1-3years-65 children(20,6%:95%CI16,4-25,6),4-7 years-66 children(21%:95%CI16,7-26),7-18years-76 children(24,1%:95%CI19,6-29,3). Result(s): Chest X-ray in children with SARS-CoV-2 infection found interstitial changes of the ground glass"type among 161 children(52.8%:95%CI 47-58.5) Condensation opacities in 51 children(16.7%:95%CI12.8-21.5)confirmed pneumonia of bacterial etiology associated with COVID-19 infection. Bronchitis was confirmed in 62 cases among hospitalized children(20.3%:95% CI16-25.4),and obstructive bronchitis characterized by imaging of hyperinflation- among 25 children(12.6%:95%CI8,3-18). Young children and infants had a thymus hyperplasia in 21.6%:95%CI17.2- 26.8 cases. At the acute stage of COVID-19 infection signs of fibrosis, atelectasis, traction bronchiectasis were detected in unique cases(0.3%:95%CI0-2.1). Conclusion(s): Lung damage caused by COVID-19 infection in children is generally characterized by changes with interstitial inflammation that are confirmed by Chest X-ray.
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SESSION TITLE: Critical Thinking SESSION TYPE: Case Reports PRESENTED ON: 10/19/2022 09:15 am - 10:15 am INTRODUCTION: Compressive therapies to improve respiratory mechanics, such as abdominal compression, have been described in literature in patients with COVID-19 induced acute respiratory distress syndrome (COVID-19 ARDS) 1–3. These compressive therapies minimize the risk of barotrauma by equal distribution of pressure across the alveoli. Hence, they help with lung protective ventilation. This phenomenon of paradoxical improvement in respiratory compliance with increase in intraabdominal pressure (IAP) has not been described in ILD population. We describe a case of end-stage fibrotic ILD, secondary to hypersensitivity pneumonitis (HP), exhibiting a paradoxical improvement in respiratory compliance with sustained abdominal compression. CASE PRESENTATION: 56-year-old female with history of NASH-related cirrhosis was transferred to our hospital for expedited work-up of lung transplant due to rapid progression of biopsy-proven steroid-unresponsive fibrotic HP. Due to worsening hypoxic respiratory failure, she was intubated on arrival to our hospital. Following intubation, she was sedated and paralyzed and was found to have high peak and plateau pressures in supine and reverse Trendelenburg positions. However, on application of abdominal pressure, her peak and plateau pressure showed a dramatic reduction in absolute values. This reduction was sustained during the entire duration of the maneuver. Overall, it reduced driving pressures and improved the static compliance of the respiratory system. We subsequently applied abdominal binder (table 1) and found a similar decrease in pressures (see images). Unfortunately, due to functional disability, patient was not deemed a candidate for lung and liver transplant and was transitioned to comfort measures. DISCUSSION: Paradoxical improvement in respiratory compliance has been demonstrated in late-stage COVID ARDS1,2. The mechanism behind this is unclear. In theory, increase in IAP increases intrapleural pressures, reduces end-expiratory volume and overdistention of aerated lung1,2. We hypothesize that patients with end-stage ILD behave similarly to patients with COVID-ARDS. However, this is purely exploratory as our observations are limited by lack of intrapleural measurements. Use of abdominal compression is a simple maneuver, which can be performed at the bedside to assess for the paradoxical phenomenon. Even though we postulate that long-term abdominal compression is well tolerated, we do not know the effects of sustained long-term abdominal compression on gas-exchange and chest wall dynamics. CONCLUSIONS: Patients with end-stage fibrotic lung disease, exhibiting high-driving pressures on mechanical ventilator in supine and reverse Trendelenburg positions, can be screened for reduction in peak and plateau pressures with abdominal compression. Use of this maneuver may help in lung-protective ventilation and minimize ventilator-induced lung injury. Reference #1: Elmufdi FS, Marini JJ. Dorsal Push and Abdominal Binding Improve Respiratory Compliance and Driving Pressure in Proned Coronavirus Disease 2019 Acute Respiratory Distress Syndrome. Crit Care Explor. 2021;3(11):e0593. doi:10.1097/cce.0000000000000593 Reference #2: Julia Cristina Coronado. Paradoxically Improved Respiratory Compliance With Abdominal Compression in COVID-19 ARDS. Is COVID-19 a risk factor Sev preeclampsia? Hosp Exp a Dev. 2020;(January):2020-2022. Reference #3: Stavi D, Goffi A, Shalabi M Al, et al. The Pressure Paradox: Abdominal Compression to Detect Lung Hyperinflation in COVID-19 Acute Respiratory Distress Syndrome. Am J Respir Crit Care Med. 2022;205(2):245-247. doi:10.1164/rccm.202104-1062IM DISCLOSURES: No relevant relationships by Abhishek Bhardwaj No relevant relationships by Brandon Francis no disclosure on file for Marina Freiberg;No relevant relationships by Simon Mucha No relevant relationships by Arsal Tharwani
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SESSION TITLE: Post-COVID-19 Infection Complications SESSION TYPE: Case Report Posters PRESENTED ON: 10/17/2022 12:15 pm - 01:15 pm INTRODUCTION: COVID-19 has affected over 200 million people worldwide. Clinicians continue to observe unusual manifestations of this disease. In an attempt to improve our understanding of COVID-19 pneumonia, we present the details of one patient who developed large bilateral pulmonary cysts. CASE PRESENTATION: A 40-year-old woman with no known medical problems presented with the chief complaint of fever, nausea, vomiting, generalized weakness followed by difficulty breathing that developed over a few days. Her vital signs on admission included temperature 98.4° F, heart rate 104 beats/minute, respiratory rate 48 breaths/minute, O2 saturation 88 percent on 15 liters of oxygen through a non-rebreather mask, and Body Mass Index 42 kg/m2. The patient tested positive for COVID-19. Computed tomography (CT) of the chest to rule out a pulmonary embolism showed bilateral extensive ground-glass opacities and reticular and nodular opacities. She was intubated for acute hypoxic respiratory failure. Twenty days into the hospital admission, she was noted to have a bulla in the right lower lobe. A repeat CT chest on day 45 revealed an increase in the number and size of cysts bilaterally. Patient was discharged to rehab and later readmitted for worsening respiratory status. This time she tested positive for human metapneumovirus. A CT chest showed increase in the size of the right sided lung cysts;the left sided lung cysts had resolved. DISCUSSION: The first COVID-19 related pulmonary cystic lesions were reported in May 2020(1). Since then, several reports have now established a relationship between an infection and cyst formation. The most common distribution is peripheral in the lower lobes. The pathogenesis remains uncertain, but several mechanisms have been proposed. Microthrombi in the pulmonary circulation could lead to ischemia and subsequent remodeling of interstitial matrix and bronchial obstruction with distal hyperinflation due to check valve mechanism. (1,2). Hamad et al. propose that pneumatoceles are formed by air leaked in to the interstitium which causes stripping and separation of a thin layer of lung parenchyma with further injury to the small blood vessels and bronchioles. The rate of barotrauma in non-COVID-19 related ARDS is 0.5%;the rate in COVID-19 ARDS is 15% (3). This suggests a close relation between COVID-19 pneumonia and subsequent development of pulmonary cysts. Our patient had no preexisting pulmonary disease and was noted to have pulmonary cysts after being on mechanical ventilation for almost 2 weeks. The patient later contracted the human metapneumovirus infection and CT showed that the right-sided lung cysts had become bigger in size. However, the left-sided cysts which had a maximum diameter of 4.8 cm had resolved. CONCLUSIONS: We need to follow patients with COVID 19 induced lung cysts clinically and radiologically to understand the clinical course and best management strategies. Reference #1: Kefu Liu et al. COVID 19 with cystic features on Computed tomography;Medicine (Baltimore) 2020May;99(18): e20175. PMCID: PMC7486878 Reference #2: Galindo J, Jimenez L, Lutz J et al. Spontaneous pneumothorax with or without pulmonary cysts, in patients with COVID 19 Pneumonia. Journal of infections in developing countries 2021;15(10);1404-1407 Reference #3: McGuinness G, Zhan C, Rosenberg N, Azour L, Wickstrom M, Mason DM, Thomas KM, Moore WH. Increased incidence of barotrauma in patients with COVID-19 on invasive mechanical ventilation. Radiology. 2020;297(2): E252–E262. doi: 10.1148/radiol.2020202352 DISCLOSURES: No relevant relationships by Arunee Motes No relevant relationships by Kenneth Nugent No relevant relationships by Tushi Singh No relevant relationships by Myrian Vinan Vega
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Introduction: Spontaneous pneumothoraxes in children are uncommon, may be idiopathic or associated with underlying pulmonary disease, and can present management challenges. We present a 12-year-old female with recurrent right sided spontaneous pneumothorax in the setting of an asymptomatic SARS-Co-V2 (COVID) infection and imaging concerning for congenital lobar overinflation (CLO) versus congenital pulmonary airway malformation (CPAM), prompting surgical intervention. Case: A 12-year-old pre-menstrual female with remote history of eczema, asthma, and environmental allergies presented from an outside facility with four-days of progressive chest pain and dyspnea on exertion and diagnosis of right-sided spontaneous pneumothorax, improving after pigtail chest tube placement. Physical exam was significant for tall thin body habitus;family history was significant for paternal spontaneous pneumothorax as an adolescent. She was incidentally found to be COVID positive. Chest plain films (CXRs) showed subcutaneous emphysema and persistent right-sided pneumothorax. Clamping trial failed, prompting removal of the pigtail and placement of 12F chest tube with resultant near complete re-expansion. On serial CXRs, a right hilar cystic lucency was newly identified. Chest CT confirmed the right upper lobe (RUL) air-filled cystic structure and abrupt narrowing of the RUL posterior segmental bronchus, concerning for CLO versus CPAM. Chest tube was successfully removed on day 6, and she was discharged home with planned follow-up. Three months later, she was readmitted for recurrent right-sided spontaneous pneumothorax diagnosed after one day of chest pain, cough, and dyspnea. Laboratory testing revealed mild leukopenia and anemia;she was COVID negative. A chest tube was placed and set to wall suction. Due to persistent pneumothorax, this was replaced with a pigtail drain on day 5. CXRs demonstrated persistent cystic RUL lung mass. With her prior COVID infection now resolved, RUL wedge resection was completed via video-assisted thoracoscopic surgery on day 8. She tolerated the procedure well and was discharged on day 10 with resolving pneumothorax. Tissue for pathology results revealed pleural fibrosis and focal hemorrhage without malignancy, most consistent with a ruptured bleb. At one week follow up, she remained stable without complications. Discussion: Pneumothoraxes in tall, thin adolescents are often categorized as primary spontaneous. Most pneumothoraxes resolve with conservative management and often do not require surgical intervention. Congenital lung malformations are a rare secondary cause in children and may be detected on CXR. Chest imaging should be carefully reviewed for congenital malformations requiring specific surgical intervention. These findings, along with the patient's clinical course, may assist in determining management.
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Introduction: Beneficial effects of prone position on outcome in ARDS may be related to decreased anterior chest wall compliance, which facilitates lung recruitment. The effects of anterior external chest wall compression (AEC) in supine position on respiratory mechanics and gas exchange are less well known [1]. We aimed to evaluate the effects of AEC in invasively ventilated COVID-19 patients. Methods: In 10 sedated and paralyzed COVID-19 patients ventilated in volume control mode, airway and esophageal pressures, driving pressure (DP) and lung compliance (Clung) were recorded before (baseline) and during (5 kg, 10 kg) AEC (10-min epochs). AEC was performed by placing one or two 5 l fluid bags on anterior chest. Repeated arterial blood gas analysis was available in 6 patients. Results: Patients' (9/1 M/F, age 65 [range 53-74] yrs, BMI 29.2 [range 23.2-50.5] kg/m2, PEEP median 11.8 (IQR 9.7-13.9) cmH2O), Clung at baseline (median 21.3;IQR 15.0-32.6 ml/cmH2O) increased > 10% with 5 kg AEC (mean 20.7 ± 7.3%, max. increase 30.9%) and additionally increased with 5.9% (range -2.9-19.3%) with 10 kg AEC (Fig. 1a, p < 0.001). Better response was related to an anteriorly located baby lung on CT imaging. At baseline, median transpulmonary DP (Pl DP) was 17.46 (IQR 11.50-25.07) cmH2O and decreased with 16.2 ± 4.9% and 20.6 ± 8.2% during 5 kg and 10 kg AEC, respectively (Fig. 1b, p < 0.001). pCO2 decreased in 4 patients and remained equal in 2 patients (Fig. 1c). The latter group also had minimal change in Pl DP and Clung. In all patients PO2 decreased with need for increasing FiO2. Median P/F ratio of 124 (IQR 104-143) mmHg at baseline decreased to 105 (IQR 92-124) mmHg and 86 (IQR 78-114) mmHg during 5 kg and 10 kg AEC respectively. Conclusions: This preliminary data demonstrates improved compliance of the aeriated lung by decreasing hyperinflation. No evidence for recruitment was found in contrast to existing literature showing improved oxygenation [2]. (Table Presented).
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With the increase in use of smaller magnets in gadgets and toys at home, magnets pose a growing aspiration risk in children. We present two simultaneous cases of magnet-related foreign body aspiration (FBA) in two children, in two different cities: Karachi, and Lahore. They presented with similar signs and symptoms: tachypnea, tachycardia and asymmetric breath sounds on auscultation. They were initially diagnosed with the help of a chest X ray. Both the cases were complicated by failed bronchoscopy attempts due to the slippery texture of the magnet. Due to the failed bronchoscopy, both patients had a prolonged and complicated course including a 24–48 hour stay in the PICU prior to magnet removal. They eventually had to undergo thoracotomy for successful removal of the magnet. Both had an unremarkable post-operative course and were discharged in good health.
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BACKGROUND: There is limited evidence on the clinical importance of the endotracheal tube (ETT) size selection in patients with status asthmaticus who require invasive mechanical ventilation. We set out to explore the clinical outcomes of different ETT internal diameter sizes in subjects mechanically ventilated with status asthmaticus. METHODS: This was a retrospective study of intubated and non-intubated adults admitted for status asthmaticus between 2014-2021. We examined in-hospital mortality across subgroups with different ETT sizes, as well as non-intubated subjects, using logistic and generalized linear mixed-effects models. We adjusted for demographics, Charlson comorbidities, the first Sequential Organ Failure Assessment score, intubating personnel and setting, COVID-19, and the first PaCO2 . Finally, we calculated the post-estimation predictions of mortality. RESULTS: We enrolled subjects from 964 status asthmaticus admissions. The average age was 46.9 (SD 14.5) y; 63.5% of the encounters were women and 80.6% were Black. Approximately 72% of subjects (690) were not intubated. Twenty-eight percent (275) required endotracheal intubation, of which 3.3% (32) had a 7.0 mm or smaller ETT (ETT ≤ 7 group), 16.5% (159) a 7.5 mm ETT (ETT ≤ 7.5 group), and 8.6% (83) an 8.0 mm or larger ETT (ETT ≥ 8 group). The adjusted mortality was 26.7% (95% CI 13.2-40.2) for the ETT ≤ 7 group versus 14.3% ([(95% CI 6.9-21.7%], P = .04) for ETT ≤ 7.5 group and 11.0% ([95% CI 4.4-17.5], P = .02) for ETT ≥ 8 group, respectively. CONCLUSIONS: Intubated subjects with status asthmaticus had higher mortality than non-intubated subjects. Intubated subjects had incrementally higher observed mortality with smaller ETT sizes. Physiologic mechanisms can support this dose-response relationship.
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COVID-19 , Status Asthmaticus , Adult , Female , Humans , Intubation, Intratracheal , Middle Aged , Retrospective Studies , SARS-CoV-2 , Status Asthmaticus/therapyABSTRACT
Monetary finance (money creation by central banks to fund public expenditure) is a high-profile part of economic, political and policy debates concerning the legitimacy of central banks in liberal economies and democracies. This article makes a distinctively legal contribution to those debates by analysing the legal frameworks governing monetary finance in three prominent central banking systems between 2008 and 2020: the Federal Reserve System, the Eurosystem and the Bank of England. It begins by explaining the law governing central bank and national treasury relations in the United States, the EU and the UK. It then examines how that law operated under the unconventional monetary policies adopted by central banks in response to the financial crisis and the COVID-19 pandemic. The article concludes by reflecting on the challenges monetary finance presents to the sui generis position of central banks in the liberal constitutional order.
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INTRODUCTION: Lung hyperinflation in chronic obstructive pulmonary disease (COPD) is associated with activity limitation, impaired cardiac output, and mortality. Several studies have demonstrated that long-acting muscarinic antagonists (LAMAs) delivered by dry powder inhalers can promote lung deflation; however, the potential of nebulized LAMAs on improving hyperinflation in COPD is currently unknown. METHODS: This single-center, randomized, double-blind, two-way crossover study (NCT04155047) evaluated the efficacy of a single dose of nebulized LAMA [glycopyrrolate (GLY) 25 µg] versus placebo in patients with COPD and lung hyperinflation. Patients with moderate-to-severe COPD and a residual volume (RV) ≥ 130% of predicted normal were included. The primary endpoint was changed from baseline in RV at 6 h post-treatment. Other endpoints included changes from baseline in spirometric and plethysmographic measures up to 6 h post-treatment. RESULTS: A total of 22 patients (mean pre-bronchodilator RV, 153.7% of predicted normal) were included. The primary objective of the study was not met; the placebo-adjusted least squares (LS) mean [95% confidence interval (CI) change from baseline in RV with GLY at 6 h post-treatment was - 0.323 l (- 0.711 to 0.066); p = 0.0987]. A post hoc evaluation of the primary analysis was conducted after excluding a single statistical outlier; substantial improvements in RV with GLY compared with placebo was observed after exclusion of this outlier [placebo-adjusted LS mean change from baseline (95% CI) in RV was - 0.446 l (- 0.741 to - 0.150)]. Improvements from baseline were also observed with GLY compared with placebo in spirometric and plethysmographic measures up to 6 h post-treatment. GLY was generally safe, and no new safety signals were detected. CONCLUSIONS: This is the first study to evaluate the effect of nebulized GLY on lung deflation. Nebulized GLY resulted in marked improvements in RV up to 6 h post-treatment, compared with placebo. Improvements were also observed with GLY in spirometric and plethysmographic parameters of lung function. TRIAL REGISTRATION: ClinicalTrials.gov identifier, NCT04155047.
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PURPOSE: The aim of this study was to assess whether the computed tomography (CT) features of COVID-19 (COVID+) ARDS differ from those of non-COVID-19 (COVID-) ARDS patients. MATERIALS AND METHODS: The study is a single-center prospective observational study performed on adults with ARDS onset ≤72 h and a PaO2/FiO2 ≤ 200 mmHg. CT scans were acquired at PEEP set using a PEEP-FiO2 table with VT adjusted to 6 ml/kg predicted body weight. RESULTS: 22 patients were included, of whom 13 presented with COVID-19 ARDS. Lung weight was significantly higher in COVID- patients, but all COVID+ patients presented supranormal lung weight values. Noninflated lung tissue was significantly higher in COVID- patients (36 ± 14% vs. 26 ± 15% of total lung weight at end-expiration, p < 0.01). Tidal recruitment was significantly higher in COVID- patients (20 ± 12 vs. 9 ± 11% of VT, p < 0.05). Lung density histograms of 5 COVID+ patients with high elastance (type H) were similar to those of COVID- patients, while those of the 8 COVID+ patients with normal elastance (type L) displayed higher aerated lung fraction.