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1. Early Tracheostomy for Managing ICU Capacity During the COVID-19 Outbreak

Author

O Plans, R Padilla, Juan Carlos Figueira, A Lesmes, Santiago Pérez-Hoyos, J Prada, R. Ortiz, Andrea Castellví, Juan Carlos Montejo, B Castiñeiras, C Rodriguez-Solis, Rafael Cuena, A Santos-Peral, Laura Colinas, Oriol Roca, C Diaz, C De Haro, R Corrales, Jose L. Jimenez, F. Gordo, M M Cruz-Delgado, Concepción Vaquero, M C Martinez, A Gomez-Carranza, R. de Pablo, Fernando Frutos-Vivar, J Marin-Corral, A Naharro, Gemma Rialp, J A Sanchez-Giralt, A Ortega, Oscar Peñuelas, Joan R. Masclans, A Canabal, G. Hernández, José M. Añón, and F. Ramos

Subjects
Male, Pulmonary and Respiratory Medicine, medicine.medical_specialty, Coronavirus disease 2019 (COVID-19), medicine.medical_treatment, Pneumonia, Viral, tracheostomy, VFD, ventilator-free day, resource, Critical Care and Intensive Care Medicine, law.invention, Interquartile range, law, timing, medicine, Humans, Intubation, Propensity Score, Pandemics, IQR, interquartile range, Aged, Bed Occupancy, Retrospective Studies, Mechanical ventilation, business.industry, capacity, COVID-19, Outbreak, Retrospective cohort study, Length of Stay, Middle Aged, failure-free, medicine.disease, Respiration, Artificial, Intensive care unit, BFD, bed-free day, Intensive Care Units, Pneumonia, Spain, Critical Care: Original Research, Emergency medicine, Female, Respiratory Insufficiency, Cardiology and Cardiovascular Medicine, business, LOS, length of stay
Abstract

Background During the first wave of the COVID-19 pandemic, shortages of ventilators and ICU beds overwhelmed health-care systems. Whether early tracheostomy reduces the duration of mechanical ventilation and ICU stay is controversial. Research Question Can failure-free day outcomes focused on ICU resources help to decide the optimal timing of tracheostomy in overburdened health-care systems during viral epidemics? Study Design and Methods This retrospective cohort study included consecutive patients with COVID-19 pneumonia who had undergone tracheostomy in 15 Spanish ICUs during the surge, when ICU occupancy modified clinician criteria to perform tracheostomy in Patients with COVID-19. We compared ventilator-free days at 28 and 60 days and ICU- and hospital bed-free days at 28 and 60 days in propensity score-matched cohorts who underwent tracheostomy at different timings (≤ 7 days, 8-10 days, and 11-14 days after intubation). Results Of 1,939 patients admitted with COVID-19 pneumonia, 682 (35.2%) underwent tracheostomy, 382 (56%) within 14 days. Earlier tracheostomy was associated with more ventilator-free days at 28 days (≤ 7 days vs > 7 days [116 patients included in the analysis]: median, 9 days [interquartile range (IQR), 0-15 days] vs 3 days [IQR, 0-7 days]; difference between groups, 4.5 days; 95% CI, 2.3-6.7 days; 8-10 days vs > 10 days [222 patients analyzed]: 6 days [IQR, 0-10 days] vs 0 days [IQR, 0-6 days]; difference, 3.1 days; 95% CI, 1.7-4.5 days; 11-14 days vs > 14 days [318 patients analyzed]: 4 days [IQR, 0-9 days] vs 0 days [IQR, 0-2 days]; difference, 3 days; 95% CI, 2.1-3.9 days). Except hospital bed-free days at 28 days, all other end points were better with early tracheostomy. Interpretation Optimal timing of tracheostomy may improve patient outcomes and may alleviate ICU capacity strain during the COVID-19 pandemic without increasing mortality. Tracheostomy within the first work on a ventilator in particular may improve ICU availability.

Published
2022

3. Early Tracheostomy for Managing ICU Capacity During the COVID-19 Outbreak: A Propensity-Matched Cohort Study.

Author

Hernandez G, Ramos FJ, Añon JM, Ortiz R, Colinas L, Masclans JR, De Haro C, Ortega A, Peñuelas O, Cruz-Delgado MDM, Canabal A, Plans O, Vaquero C, Rialp G, Gordo F, Lesmes A, Martinez M, Figueira JC, Gomez-Carranza A, Corrales R, Castellvi A, Castiñeiras B, Frutos-Vivar F, Prada J, De Pablo R, Naharro A, Montejo JC, Diaz C, Santos-Peral A, Padilla R, Marin-Corral J, Rodriguez-Solis C, Sanchez-Giralt JA, Jimenez J, Cuena R, Perez-Hoyos S, and Roca O

Subjects
Aged, Bed Occupancy statistics & numerical data, COVID-19 epidemiology, Female, Humans, Length of Stay statistics & numerical data, Male, Middle Aged, Pandemics, Pneumonia, Viral epidemiology, Pneumonia, Viral virology, Propensity Score, Retrospective Studies, Spain epidemiology, COVID-19 therapy, Intensive Care Units, Pneumonia, Viral therapy, Respiration, Artificial, Tracheostomy
Abstract

Background: During the first wave of the COVID-19 pandemic, shortages of ventilators and ICU beds overwhelmed health care systems. Whether early tracheostomy reduces the duration of mechanical ventilation and ICU stay is controversial., Research Question: Can failure-free day outcomes focused on ICU resources help to decide the optimal timing of tracheostomy in overburdened health care systems during viral epidemics?, Study Design and Methods: This retrospective cohort study included consecutive patients with COVID-19 pneumonia who had undergone tracheostomy in 15 Spanish ICUs during the surge, when ICU occupancy modified clinician criteria to perform tracheostomy in Patients with COVID-19. We compared ventilator-free days at 28 and 60 days and ICU- and hospital bed-free days at 28 and 60 days in propensity score-matched cohorts who underwent tracheostomy at different timings (≤ 7 days, 8-10 days, and 11-14 days after intubation)., Results: Of 1,939 patients admitted with COVID-19 pneumonia, 682 (35.2%) underwent tracheostomy, 382 (56%) within 14 days. Earlier tracheostomy was associated with more ventilator-free days at 28 days (≤ 7 days vs > 7 days [116 patients included in the analysis]: median, 9 days [interquartile range (IQR), 0-15 days] vs 3 days [IQR, 0-7 days]; difference between groups, 4.5 days; 95% CI, 2.3-6.7 days; 8-10 days vs > 10 days [222 patients analyzed]: 6 days [IQR, 0-10 days] vs 0 days [IQR, 0-6 days]; difference, 3.1 days; 95% CI, 1.7-4.5 days; 11-14 days vs > 14 days [318 patients analyzed]: 4 days [IQR, 0-9 days] vs 0 days [IQR, 0-2 days]; difference, 3 days; 95% CI, 2.1-3.9 days). Except hospital bed-free days at 28 days, all other end points were better with early tracheostomy., Interpretation: Optimal timing of tracheostomy may improve patient outcomes and may alleviate ICU capacity strain during the COVID-19 pandemic without increasing mortality. Tracheostomy within the first work on a ventilator in particular may improve ICU availability., (Copyright © 2021 American College of Chest Physicians. Published by Elsevier Inc. All rights reserved.)

Published
2022
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5. Aspiration Risk Factors, Microbiology, and Empiric Antibiotics for Patients Hospitalized With Community-Acquired Pneumonia.

Author

Marin-Corral J, Pascual-Guardia S, Amati F, Aliberti S, Masclans JR, Soni N, Rodriguez A, Sibila O, Sanz F, Sotgiu G, Anzueto A, Dimakou K, Petrino R, van de Garde E, and Restrepo MI

Subjects
Aged, Aged, 80 and over, Cohort Studies, Community-Acquired Infections diagnosis, Female, Humans, Male, Middle Aged, Respiratory Aspiration diagnosis, Respiratory Aspiration therapy, Risk Factors, Anti-Bacterial Agents therapeutic use, Community-Acquired Infections drug therapy, Community-Acquired Infections etiology, Hospitalization, Respiratory Aspiration complications
Abstract

Background: Aspiration community-acquired pneumonia (ACAP) and community-acquired pneumonia (CAP) in patients with aspiration risk factors (AspRFs) are infections associated with anaerobes, but limited evidence suggests their pathogenic role., Research Question: What are the aspiration risk factors, microbiology patterns, and empiric anti-anaerobic use in patients hospitalized with CAP?, Study Design and Methods: This is a secondary analysis of GLIMP, an international, multicenter, point-prevalence study of adults hospitalized with CAP. Patients were stratified into three groups: (1) ACAP, (2) CAP/AspRF+ (CAP with AspRF), and (3) CAP/AspRF- (CAP without AspRF). Data on demographics, comorbidities, microbiological results, and anti-anaerobic antibiotics were analyzed in all groups. Patients were further stratified in severe and nonsevere CAP groups., Results: We enrolled 2,606 patients with CAP, of which 193 (7.4%) had ACAP. Risk factors independently associated with ACAP were male, bedridden, underweight, a nursing home resident, and having a history of stroke, dementia, mental illness, and enteral tube feeding. Among non-ACAP patients, 1,709 (70.8%) had CAP/AspRF+ and 704 (29.2%) had CAP/AspRF-. Microbiology patterns including anaerobes were similar between CAP/AspRF-, CAP/AspRF+ and ACAP (0.0% vs 1.03% vs 1.64%). Patients with severe ACAP had higher rates of total gram-negative bacteria (64.3% vs 44.3% vs 33.3%, P = .021) and lower rates of total gram-positive bacteria (7.1% vs 38.1% vs 50.0%, P < .001) when compared with patients with severe CAP/AspRF+ and severe CAP/AspRF-, respectively. Most patients (>50% in all groups) independent of AspRFs or ACAP received specific or broad-spectrum anti-anaerobic coverage antibiotics., Interpretation: Hospitalized patients with ACAP or CAP/AspRF+ had similar anaerobic flora compared with patients without aspiration risk factors. Gram-negative bacteria were more prevalent in patients with severe ACAP. Despite having similar microbiological flora between groups, a large proportion of CAP patients received anti-anaerobic antibiotic coverage., (Copyright © 2020 American College of Chest Physicians. Published by Elsevier Inc. All rights reserved.)

Published
2021
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6. Building a Prediction Model for Radiographically Confirmed Pneumonia in Peruvian Children: From Symptoms to Imaging.

Author

Pervaiz F, Chavez MA, Ellington LE, Grigsby M, Gilman RH, Miele CH, Figueroa-Quintanilla D, Compen-Chang P, Marin-Concha J, McCollum ED, and Checkley W

Subjects
Child, Preschool, Cohort Studies, Female, Humans, Male, Medically Underserved Area, Oxyhemoglobins analysis, Peru epidemiology, Predictive Value of Tests, Sensitivity and Specificity, Community-Acquired Infections blood, Community-Acquired Infections diagnosis, Community-Acquired Infections epidemiology, Community-Acquired Infections physiopathology, Lung diagnostic imaging, Pneumonia blood, Pneumonia diagnosis, Pneumonia epidemiology, Pneumonia physiopathology, Radiography methods, Symptom Assessment methods, Ultrasonography methods
Abstract

Background: Community-acquired pneumonia remains the leading cause of death in children worldwide, and current diagnostic guidelines in resource-poor settings are neither sensitive nor specific. We sought to determine the ability to correctly diagnose radiographically confirmed clinical pneumonia when diagnostics tools were added to clinical signs and symptoms in a cohort of children with acute respiratory illnesses in Peru., Methods: Children < 5 years of age with an acute respiratory illness presenting to a tertiary hospital in Lima, Peru, were enrolled. The ability to predict radiographically confirmed clinical pneumonia was assessed using logistic regression under four additive scenarios: clinical signs and symptoms only, addition of lung auscultation, addition of oxyhemoglobin saturation (Spo 2 ), and addition of lung ultrasound., Results: Of 832 children (mean age, 21.3 months; 59% boys), 453 (54.6%) had clinical pneumonia and 221 (26.6%) were radiographically confirmed. Children with radiographically confirmed clinical pneumonia had lower average Spo 2 than those without (95.9% vs 96.6%, respectively; P < .01). The ability to correctly identify radiographically confirmed clinical pneumonia using clinical signs and symptoms was limited (area under the curve [AUC] = 0.62; 95% CI, 0.58-0.67) with a sensitivity of 66% (95% CI, 59%-73%) and specificity of 53% (95% CI, 49%-57%). The addition of lung auscultation improved classification (AUC = 0.73; 95% CI, 0.69-0.77) with a sensitivity of 75% (95% CI, 69%-81%) and specificity of 53% (95% CI, 49%-57%) for the presence of crackles. In contrast, the addition of Spo 2 did not improve classification (AUC = 0.73; 95% CI, 0.69-0.77) with a sensitivity of 40% (95% CI, 33%-47%) and specificity of 72% (95% CI, 68%-75%) for an Spo 2  ≤ 92%. Adding consolidation on lung ultrasound was associated with the largest improvement in classification (AUC = 0.85; 95% CI, 0.82-0.89) with a sensitivity of 55% (95% CI, 48%-63%) and specificity of 95% (95% CI, 93%-97%)., Conclusions: The addition of lung ultrasound and auscultation to clinical signs and symptoms improved the ability to correctly classify radiographically confirmed clinical pneumonia. Implementation of auscultation- and ultrasound-based diagnostic tools can be considered to improve diagnostic yield of pneumonia in resource-poor settings., (Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2018
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7. Differences in the response to methacholine between the tidal breathing and dosimeter methods: influence of the dose of bronchoconstrictor agent delivered to the mouth.

Author

Prieto L, Lopez V, Llusar R, Rojas R, and Marin J

Subjects
Administration, Inhalation, Adult, Cohort Studies, Cross-Over Studies, Dose-Response Relationship, Drug, Female, Forced Expiratory Volume, Humans, Male, Nebulizers and Vaporizers, Predictive Value of Tests, Tidal Volume, Asthma diagnosis, Bronchial Provocation Tests methods, Bronchoconstrictor Agents administration & dosage, Methacholine Chloride administration & dosage
Abstract

Background: It has been postulated that differences in provocative concentration of methacholine causing a 20% fall in FEV1 (PC20) values between the dosimeter method and tidal breathing method might be due to differences in the dose of agonist delivered to the mouth. The aim of the present study was to determine the influence of the dose of aerosol delivered to the mouth on differences in the response obtained with each challenge method., Methods: This study measured airway responsiveness to methacholine by dosimeter method and tidal breathing method in 27 subjects with suspected asthma. The dosimeter was modified to deliver an identical volume to that obtained with the tidal breathing method. Concentration-response curves were characterized by the PC20., Results: The dosimeter method PC20 was significantly higher than the tidal breathing method PC20, with geometric mean values of 4.03 (95% confidence interval [CI], 1.86 to 8.78 mg/mL) and 2.19 (95% CI, 1.32 to 3.64 mg/mL; p = 0.04), respectively. The mean difference in the PC20 value detected with each method was similar in subjects with tidal breathing method PC20 values > or = 2 mg/mL (0.77 doubling concentrations) and in those with PC20 values < 2 mg/mL (0.96 doubling concentrations; p = 0.83)., Conclusions: The tidal breathing method produces PC20 values significantly lower than a modified dosimeter method, which delivers the same volume of aerosol. These results suggest that the discordant PC20 values obtained with the two methods are not due to differences in the dose of agonist delivered to the mouth.

Published
2008
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10. Congenital absence of the pulmonary valve associated with tricuspid atresia and intact ventricular septum.

Author

Marin-Garcia J, Roca J, Blieden LC, Lucas RV, and Edwards JE

Subjects
Autopsy, Cardiac Catheterization, Ductus Arteriosus, Patent complications, Electrocardiography, Heart Atria diagnostic imaging, Heart Defects, Congenital diagnostic imaging, Heart Defects, Congenital pathology, Heart Septum pathology, Humans, Infant, Newborn, Male, Radiography, Heart Defects, Congenital complications, Pulmonary Valve abnormalities, Tricuspid Valve Stenosis congenital
Published
1973
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