Your search keyword '"pediatric acute respiratory distress syndrome"' showing total 218 results

1. The Impact of Increased PEEP on Hemodynamics, Respiratory Mechanics, and Oxygenation in Pediatric ARDS.

Author

Junqueira, Fernanda M. D., Ferraz, Isabel S., Campos, Fábio J., Matsumoto, Toshio, Brandão, Marcelo B., Nogueira, Roberto Jn, and de Souza, Tiago H.

Subjects

ADULT respiratory distress syndrome treatment, STATISTICAL power analysis, OXYGEN saturation, POSITIVE end-expiratory pressure, ACADEMIC medical centers, DATA analysis, RESPIRATORY insufficiency, OXYGEN therapy, HEMODYNAMICS, TREATMENT effectiveness, DESCRIPTIVE statistics, BRONCHITIS, REACTIVE oxygen species, OXYGEN in the body, LONGITUDINAL method, COMMUNITY-acquired pneumonia, CARDIAC output, FRIEDMAN test (Statistics), STATISTICS, ANALYSIS of variance, ARTIFICIAL respiration, INTENSIVE care units, RESPIRATORY organs, DATA analysis software, RESPIRATORY mechanics, ECHOCARDIOGRAPHY, CHILDREN

Abstract

BACKGROUND: PEEP is a cornerstone treatment for children with pediatric ARDS. Unfortunately, its titration is often performed solely by evaluating oxygen saturation, which can lead to inadequate PEEP level settings and consequent adverse effects. This study aimed to assess the impact of increasing PEEP on hemodynamics, respiratory system mechanics, and oxygenation in children with ARDS. METHODS: Children receiving mechanical ventilation and on pressure-controlled volume-guaranteed mode were prospectively assessed for inclusion. PEEP was sequentially changed to 5, 12, 10, 8 cm H2O, and again to 5 cm H2O. After 10 min at each PEEP level, hemodynamic, ventilatory, and oxygenation variables were collected. RESULTS: A total of 31 subjects were included, with median age and weight of 6 months and 6.3 kg, respectively. The main reasons for pediatric ICU admission were respiratory failure caused by acute viral bronchiolitis (45%) and community-acquired pneumonia (32%). Most subjects had mild or moderate ARDS (45% and 42%, respectively), with a median (interquartile range) oxygenation index of 8.4 (5.8-12.7). Oxygen saturation improved significantly when PEEP was increased. However, although no significant changes in blood pressure were observed, the median cardiac index at PEEP of 12 cm H2O was significantly lower than that observed at any other PEEP level (P = .001). Fourteen participants (45%) experienced a reduction in cardiac index of > 10% when PEEP was increased to 12 cm H2O. Also, the estimated oxygen delivery was significantly lower, at 12 cm H2O PEEP. Finally, respiratory system compliance significantly reduced when PEEP was increased. At a PEEP of 12 cm H2O, static compliance had a median reduction of 25% in relation to the initial assessment (PEEP of 5 cm H2O). CONCLUSIONS: Although it may improve arterial oxygen saturation, inappropriately high PEEP levels may reduce cardiac output, oxygen delivery, and respiratory system compliance in pediatric subjects with ARDS with low potential for lung recruitability. [ABSTRACT FROM AUTHOR]

Published

2024

2. Phenotypes based on respiratory drive and effort to identify the risk factors when P0.1 fails to estimate ∆PES in ventilated children.

Author

Vedrenne-Cloquet, Meryl, Ito, Y., Hotz, J., Klein, M. J., Herrera, M., Chang, D., Bhalla, A. K., Newth, C. J. L., and Khemani, R. G.

Abstract

Background: Monitoring respiratory effort and drive during mechanical ventilation is needed to deliver lung and diaphragm protection. Esophageal pressure (∆PES) is the gold standard measure of respiratory effort but is not routinely available. Airway occlusion pressure in the first 100 ms of the breath (P0.1) is a readily available surrogate for both respiratory effort and drive but is only modestly correlated with ∆PES in children. We sought to identify risk factors for P0.1 over or underestimating ∆PES in ventilated children. Methods: Secondary analysis of physiological data from children and young adults enrolled in a randomized controlled trial testing lung and diaphragm protective ventilation in pediatric acute respiratory distress syndrome (PARDS) (NCT03266016). ∆PES (∆PES-REAL), P0.1 and predicted ∆PES (∆PES-PRED = 5.91*P0.1) were measured daily to identify phenotypes based upon the level of respiratory effort and drive: one passive (no spontaneous breathing), three where ∆PES-REAL and ∆PES-PRED were aligned (low, normal, and high effort and drive), two where ∆PES-REAL and ∆PES-PRED were mismatched (high underestimated effort, and overestimated effort). Logistic regression models were used to identify factors associated with each mismatch phenotype (High underestimated effort, or overestimated effort) as compared to all other spontaneous breathing phenotypes. Results: We analyzed 953 patient days (222 patients). ∆PES-REAL and ∆PES-PRED were aligned in 536 (77%) of the active patient days. High underestimated effort (n = 119 (12%)) was associated with higher airway resistance (adjusted OR 5.62 (95%CI 2.58, 12.26) per log unit increase, p < 0.001), higher tidal volume (adjusted OR 1.53 (95%CI 1.04, 2.24) per cubic unit increase, p = 0.03), higher opioid use (adjusted OR 2.4 (95%CI 1.12, 5.13, p = 0.024), and lower set ventilator rate (adjusted OR 0.96 (95%CI 0.93, 0.99), p = 0.005). Overestimated effort was rare (n = 37 (4%)) and associated with higher alveolar dead space (adjusted OR 1.05 (95%CI 1.01, 1.09), p = 0.007) and lower respiratory resistance (adjusted OR 0.32 (95%CI 0.13, 0.81), p = 0.017). Conclusions: In patients with PARDS, P0.1 commonly underestimated high respiratory effort particularly with high airway resistance, high tidal volume, and high doses of opioids. Future studies are needed to investigate the impact of measures of respiratory effort, drive, and the presence of a mismatch phenotype on clinical outcome. Trial registration: NCT03266016; August 23, 2017. [ABSTRACT FROM AUTHOR]

Published

2024

3. Impact of the transpulmonary pressure on right ventricle impairment incidence during acute respiratory distress syndrome: a pilot study in adults and children.

Author

Vedrenne-Cloquet, Meryl, Petit, Matthieu, Khirani, Sonia, Charron, Cyril, Khraiche, Diala, Panaioli, Elena, Habib, Mustafa, Renolleau, Sylvain, Fauroux, Brigitte, and Vieillard-Baron, Antoine

Subjects

*ADULT respiratory distress syndrome, *RIGHT ventricular dysfunction, *SHEAR waves, *RESPIRATORY mechanics, *PARTIAL pressure

Abstract

Background: Right ventricle impairment (RVI) is common during acute respiratory distress syndrome (ARDS) in adults and children, possibly mediated by the level of transpulmonary pressure (PL). We sought to investigate the impact of the level of PL on ARDS-associated right ventricle impairment (RVI). Methods: Adults and children (> 72 h of life) were included in this two centers prospective study if they were ventilated for a new-onset ARDS or pediatric ARDS, without spontaneous breathing and contra-indication to esophageal catheter. Serial measures of static lung, chest wall, and respiratory mechanics were coupled to critical care echocardiography (CCE) for 3 days. Mixed-effect logistic regression models tested the impact of lung stress (ΔPL) along with age, lung injury severity, and carbon dioxide partial pressure, on RVI using two definitions: acute cor pulmonale (ACP), and RV dysfunction (RVD). ACP was defined as a dilated RV with septal dyskinesia; RVD was defined as a composite criterion using tricuspid annular plane systolic excursion, S wave velocity, and fractional area change. Results: 46 patients were included (16 children, 30 adults) with 106 CCE (median of 2 CCE/patient). At day one, 19% of adults and 4/7 children > 1 year exhibited ACP, while 59% of adults and 44% of children exhibited RVD. In the entire population, ACP was present on 17/75 (23%) CCE. ACP was associated with an increased lung stress (mean ΔPL of 16.2 ± 6.6 cmH2O in ACP vs 11.3 ± 3.6 cmH2O, adjusted OR of 1.33, CI95% [1.11–1.59], p = 0.002) and being a child. RVD was present in 59/102 (58%) CCE and associated with lung stress. In children > 1 year, PEEP was significantly lower in case of ACP (9.3 [8.6; 10.0] cmH2O in ACP vs 15.0 [11.9; 16.3] cmH2O, p = 0.03). Conclusion: Lung stress was associated with RVI in adults and children with ARDS, children being particularly susceptible to RVI. Trial registration Clinical trials identifier: NCT0418467. [ABSTRACT FROM AUTHOR]

Published

2024

4. Impact of the transpulmonary pressure on right ventricle impairment incidence during acute respiratory distress syndrome: a pilot study in adults and children

Author

Meryl Vedrenne-Cloquet, Matthieu Petit, Sonia Khirani, Cyril Charron, Diala Khraiche, Elena Panaioli, Mustafa Habib, Sylvain Renolleau, Brigitte Fauroux, and Antoine Vieillard-Baron

Subjects

Right ventricle failure, Acute cor pulmonale, Transpulmonary pressure, Lung stress, Acute respiratory distress syndrome, Pediatric acute respiratory distress syndrome, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background Right ventricle impairment (RVI) is common during acute respiratory distress syndrome (ARDS) in adults and children, possibly mediated by the level of transpulmonary pressure (P L). We sought to investigate the impact of the level of P L on ARDS-associated right ventricle impairment (RVI). Methods Adults and children (> 72 h of life) were included in this two centers prospective study if they were ventilated for a new-onset ARDS or pediatric ARDS, without spontaneous breathing and contra-indication to esophageal catheter. Serial measures of static lung, chest wall, and respiratory mechanics were coupled to critical care echocardiography (CCE) for 3 days. Mixed-effect logistic regression models tested the impact of lung stress (ΔP L) along with age, lung injury severity, and carbon dioxide partial pressure, on RVI using two definitions: acute cor pulmonale (ACP), and RV dysfunction (RVD). ACP was defined as a dilated RV with septal dyskinesia; RVD was defined as a composite criterion using tricuspid annular plane systolic excursion, S wave velocity, and fractional area change. Results 46 patients were included (16 children, 30 adults) with 106 CCE (median of 2 CCE/patient). At day one, 19% of adults and 4/7 children > 1 year exhibited ACP, while 59% of adults and 44% of children exhibited RVD. In the entire population, ACP was present on 17/75 (23%) CCE. ACP was associated with an increased lung stress (mean ΔP L of 16.2 ± 6.6 cmH2O in ACP vs 11.3 ± 3.6 cmH2O, adjusted OR of 1.33, CI95% [1.11–1.59], p = 0.002) and being a child. RVD was present in 59/102 (58%) CCE and associated with lung stress. In children > 1 year, PEEP was significantly lower in case of ACP (9.3 [8.6; 10.0] cmH2O in ACP vs 15.0 [11.9; 16.3] cmH2O, p = 0.03). Conclusion Lung stress was associated with RVI in adults and children with ARDS, children being particularly susceptible to RVI. Trial registration Clinical trials identifier: NCT0418467.

Published

2024

5. PACCMAN Returns to Generate Evidence Supporting PALICC-2 for PARDS*.

Author

Lenz, Kyle B., Zimmerman, Jerry J., and Hartmann, Silvia M.M.

Subjects

*ADULT respiratory distress syndrome, *POSITIVE end-expiratory pressure, *INTENSIVE care units, *CHILDREN'S hospitals, *CRITICAL care medicine

Abstract

The article discusses the importance of guidelines for the treatment of pediatric acute respiratory distress syndrome (PARDS). The Second Pediatric Acute Lung Injury Consensus Conference (PALICC) guidelines are specifically designed for PARDS and are based on adult studies. The article presents the results of a study that examined the impact of a lung-protective mechanical ventilation strategy based on the PALICC guidelines. The study found that adherence to the guidelines was associated with reduced mortality and increased ventilator-free days. The findings validate the PALICC guidelines for the treatment of PARDS in children. [Extracted from the article]

Published

2024

6. Lung behavior during a staircase high-frequency oscillatory ventilation recruitment maneuver

Author

Pauline de Jager, Alette A. Koopman, Dick G. Markhorst, and Martin C. J. Kneyber

Subjects

High-frequency oscillatory ventilation, Pediatric acute respiratory distress syndrome, Recruitment, Time constant, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background Lung volume optimization maneuvers (LVOM) are necessary to make physiologic use of high-frequency oscillatory ventilation (HFOV), but lung behavior during such maneuvers has not been studied to determine lung volume changes after initiation of HFOV, to quantify recruitment versus derecruitment during the LVOM and to calculate the time to stabilization after a pressure change. Methods We performed a secondary analysis of prospectively collected data in subjects

Published

2024

7. Lung behavior during a staircase high-frequency oscillatory ventilation recruitment maneuver.

Author

de Jager, Pauline, Koopman, Alette A., Markhorst, Dick G., and Kneyber, Martin C. J.

Subjects

*HIGH-frequency ventilation (Therapy), *ADULT respiratory distress syndrome, *LUNGS, *LUNG volume, *STAIRCASES

Abstract

Background: Lung volume optimization maneuvers (LVOM) are necessary to make physiologic use of high-frequency oscillatory ventilation (HFOV), but lung behavior during such maneuvers has not been studied to determine lung volume changes after initiation of HFOV, to quantify recruitment versus derecruitment during the LVOM and to calculate the time to stabilization after a pressure change. Methods: We performed a secondary analysis of prospectively collected data in subjects < 18 years on HFOV. Uncalibrated respiratory inductance plethysmography (RIP) tracings were used to quantify lung recruitment and derecruitment during the LVOM inflation and deflation. The time constant was calculated according to the Niemann model. Results: RIP data of 51 subjects (median age 3.5 [1.7–13.3] months) with moderate-to-severe pediatric acute respiratory distress syndrome (PARDS) in 85.4% were analyzed. Lung recruitment and derecruitment occurred during the LVOM inflation phase upon start of HFOV and between and within pressure changes. At 90% of maximum inflation pressure, lung derecruitment already started during the deflation phase. Time to stable lung volume (time constant) could only be calculated in 26.2% of all pressure changes during the inflation and in 21.4% during the deflation phase, independent of continuous distending pressure (CDP). Inability to calculate the time constant was due to lack of stabilization of the RIP signal or no change in any direction. Conclusions: Significant heterogeneity in lung behavior during a staircase incremental–decremental LVOM occurred, underscoring the need for higher initial inflation pressures when transitioning from conventional mechanical ventilation (CMV) and a longer time between pressure changes to allow for equilibration. [ABSTRACT FROM AUTHOR]

Published

2024

8. Use of point-of-care ultrasound (POCUS) to monitor neonatal and pediatric extracorporeal life support.

Author

Bianzina, Stefania, Singh, Yogen, Iacobelli, Roberta, Amodeo, Antonio, Guner, Yigit, and Di Nardo, Matteo

Subjects

*MECONIUM aspiration syndrome, *EXTRACORPOREAL membrane oxygenation, *HIGH-frequency ventilation (Therapy), *MEDICAL technology management, *ULTRASONIC imaging, *OXYGENATORS

Abstract

Extracorporeal membrane oxygenation (ECMO) is an invasive life support technique that requires a blood pump, an artificial membrane lung, and vascular cannulae to drain de-oxygenated blood, remove carbon dioxide, oxygenate, and return it to the patient. ECMO is generally used to provide advanced and prolonged cardiopulmonary support in patients with refractory acute cardiac and/or respiratory failure. After its first use in 1975 to manage a severe form of meconium aspiration syndrome with resultant pulmonary hypertension, the following years were dominated by the use of ECMO to manage neonatal respiratory failure and limited to a few centers across the world. In the 1990s, evidence for neonatal respiratory ECMO support increased; however, the number of cases began to decline with the use of newer pharmacologic therapies (e.g., inhaled nitric oxide, exogenous surfactant, and high-frequency oscillatory ventilation). On the contrary, pediatric ECMO sustained steady growth. Combined advances in ECMO technology and bedside medical management have improved general outcomes, although ECMO-related complications remain challenging. Point-of-care ultrasound (POCUS) is an essential tool to monitor all phases of neonatal and pediatric ECMO: evaluation of ECMO candidacy, ultrasound-guided ECMO cannulation, daily evaluation of heart and lung function and brain perfusion, detection and management of major complications, and weaning from ECMO support. Conclusion: Based on these considerations and on the lack of specific guidelines for the use of POCUS in the neonatal and pediatric ECMO setting, the aim of this paper is to provide a systematic overview for the application of POCUS during ECMO support in these populations. What is Known: • Extracorporeal membrane oxygenation (ECMO) provides advanced cardiopulmonary support for patients with refractory acute cardiac and/or respiratory failure and requires appropriate monitoring. • Point-of-care ultrasound (POCUS) is an accessible and adaptable tool to assess neonatal and pediatric cardiac and/or respiratory failure at bedside. What is New: • In this review, we discussed the use of POCUS to monitor and manage at bedside neonatal and pediatric patients supported with ECMO. • We explored the potential use of POCUS during all phases of ECMO support: pre-ECMO assessment, ECMO candidacy evaluation, daily evaluation of heart, lung and brain function, detection and troubleshooting of major complications, and weaning from ECMO support. [ABSTRACT FROM AUTHOR]

Published

2024

9. Beyond the Alveolar Epithelium: Plasma Soluble Receptor for Advanced Glycation End Products Is Associated With Oxygenation Impairment, Mortality, and Extrapulmonary Organ Failure in Children With Acute Respiratory Distress Syndrome.

Author

Lim, Michelle J, Zinter, Matt S, Chen, Lucia, Wong, Kayley Man Yee, Bhalla, Anoopindar, Gala, Kinisha, Guglielmo, Mona, Alkhouli, Mustafa, Huard, Leanna L, Hanudel, Mark R, Vangala, Sitaram, Schwingshackl, Andreas, Matthay, Michael, and Sapru, Anil

Subjects

Lung, Epithelium, Humans, Inflammation, Pulmonary Surfactant-Associated Protein D, Surface-Active Agents, Adolescent, Child, Child, Preschool, Infant, Infant, Newborn, Lung Injury, Biomarkers, Receptor for Advanced Glycation End Products, Glycation End Products, Advanced, Respiratory Distress Syndrome, Acute Respiratory Distress Syndrome, Clinical Research, Pediatric, Rare Diseases, 2.1 Biological and endogenous factors, Aetiology, Respiratory, Good Health and Well Being, acute, respiratory distress syndrome, inflammation, multiple organ dysfunction syndrome, pediatric acute respiratory distress syndrome, soluble receptor for advanced glycation end products, surfactant protein-D, Clinical Sciences, Nursing, Public Health and Health Services, Emergency & Critical Care Medicine

Abstract

ObjectivesSoluble receptor for advanced glycation end products is a known plasma marker of alveolar epithelial injury. However, RAGE is also expressed on cell types beyond the lung, and its activation leads to up-regulation of pro-inflammatory mediators. We sought to examine the relationship between plasma soluble receptor for advanced glycation end products and primary pulmonary dysfunction, extrapulmonary organ dysfunction, and mortality in pediatric acute respiratory distress syndrome patients at two early time points following acute respiratory distress syndrome diagnosis and compare these results to plasma surfactant protein-D, a marker of pure alveolar epithelial injury.DesignProspective observational study.SettingFive academic PICUs.PatientsTwo hundred fifty-eight pediatric patients 30 days to 18 years old meeting Berlin Criteria for acute respiratory distress syndrome.InterventionsNone.Measurements and main resultsPlasma was collected for soluble receptor for advanced glycation end products and surfactant protein-D measurements within 24 hours (day 1) and 48 to 72 hours (day 3) after acute respiratory distress syndrome diagnosis. Similar to surfactant protein-D, plasma soluble receptor for advanced glycation end products was associated with a higher oxygenation index (p < 0.01) and worse lung injury score (p < 0.001) at the time of acute respiratory distress syndrome diagnosis. However, unlike surfactant protein-D, plasma soluble receptor for advanced glycation end products was associated with worse extrapulmonary Pediatric Logistic Organ Dysfunction score during ICU stay (day 3; p < 0.01) and positively correlated with plasma levels of interleukin-6 (p < 0.01), tumor necrosis factor-α (p < 0.01), and angiopoietin-2 (p < 0.01). Among children with indirect lung injury, plasma soluble receptor for advanced glycation end products was associated with mortality independent of age, sex, race, cancer/bone marrow transplant, and Pediatric Risk of Mortality score (day 3; odds ratio, 3.14; 95% CI, 1.46-6.75; p < 0.01).ConclusionsUnlike surfactant protein-D, which is primarily localized to the alveolar epithelium plasma soluble receptor for advanced glycation end products is systemically expressed and correlates with markers of inflammation, extrapulmonary multiple organ dysfunction, and death in pediatric acute respiratory distress syndrome with indirect lung injury. This suggests that unlike surfactant protein-D, soluble receptor for advanced glycation end products is a multifaceted marker of alveolar injury and increased inflammation and that receptor for advanced glycation end products activation may contribute to the pathogenesis of multiple organ failure among children with indirect acute respiratory distress syndrome.

Published

2022

10. Mechanical power and normalized mechanical power in pediatric acute respiratory distress syndrome

Author

Farhan A. R. Shaikh, Karthik N. Ramaswamy, Dinesh K. Chirla, Shekhar T. Venkataraman, and Martin C. J. Kneyber

Subjects

pediatric acute respiratory distress syndrome, mechanical power, normalized mechanical power, mechanical energy, mechanical ventilation, ventilator-induced lung injury, Pediatrics, RJ1-570

Abstract

BackgroundMechanical power (MP) refers to the energy transmitted over time to the respiratory system and serves as a unifying determinant of ventilator-induced lung injury. MP normalization is required to account for developmental changes in children. We sought to examine the relationship between mechanical energy (MEBW), MP normalized to body weight (MPBW), and MP normalized to respiratory compliance (MPCRS) concerning the severity and outcomes of pediatric acute respiratory distress syndrome (pARDS).MethodIn this retrospective study, children aged 1 month to 18 years diagnosed with pARDS who underwent pressure-control ventilation for at least 24 h between January 2017 and September 2020 were enrolled. We calculated MP using Becher's equation. Multivariable logistic regression analysis adjusted for age, pediatric organ dysfunction score, and oxygenation index (OI) was performed to determine the independent association of MP and its derivatives 24 h after diagnosing pARDS with 28-day mortality. The association was also studied for 28 ventilator-free days (VFD-28) and the severity of pARDS in terms of OI.ResultsOut of 246 admitted with pARDS, 185 were eligible, with an overall mortality of 43.7%. Non-survivors exhibited higher severity of illness, as evidenced by higher values of MP, MPBW, and MEBW. Multivariable logistic regression analysis showed that only MEBW but not MP, MPBW, or MPCRS at 24 h was independently associated with mortality [adjusted OR: 1.072 (1.002–1.147), p = 0.044]. However, after adjusting for the type of pARDS, MEBW was not independently associated with mortality [adjusted OR: 1.061 (0.992–1.136), p = 0.085]. After adjusting for malnutrition, only MP at 24 h was found to be independently associated. Only MPCRS at 1–4 and 24 h but not MP, MPBW, or MEBW at 24 h of diagnosing pARDS was significantly correlated with VFD-28.ConclusionsNormalization of MP is better related to outcomes and severity of pARDS than non-normalized MP. Malnutrition can be a significant confounding factor in resource-limited settings.

Published

2024

11. Phenotypes based on respiratory drive and effort to identify the risk factors when P0.1 fails to estimate ∆PES in ventilated children

Author

Vedrenne-Cloquet, Meryl, Ito, Y., Hotz, J., Klein, M. J., Herrera, M., Chang, D., Bhalla, A. K., Newth, C. J. L., and Khemani, R. G.

Published

2024

12. Developing a mechanistic understanding of pediatric acute respiratory distress syndrome one cell at a time

Author

James Garrett Williams and Brain Varisco

Subjects

lung recovery, pediatric acute respiratory distress syndrome, RNA seq, single cell, Therapeutics. Pharmacology, RM1-950

Published

2023

13. Case report: Miliary tuberculosis complicated by pediatric acute respiratory distress syndrome in a 12-year-old girl

Author

Jiarui Zhu, Ning Chen, Yunxiao Shang, and Yong Feng

Subjects

miliary tuberculosis, pediatric acute respiratory distress syndrome, interferon-γ release assay, child, diagnosis, Pediatrics, RJ1-570

Abstract

Acute respiratory distress syndrome (ARDS) is a rare complication of miliary tuberculosis, particularly in pediatric patients. Comorbidities and delayed diagnosis can worsen the prognosis of patients with miliary tuberculosis. A 12-year-old girl presented with fever for 20 days, and cough and tachypnea for 4 days. She was diagnosed with miliary tuberculosis complicated by pediatric ARDS. She had atypical clinical manifestations and imaging findings, a negative contact history, and negative results of a tuberculin skin test (TST) and T-SPOT.TB. Diagnostic bronchoscopy and bronchoalveolar lavage helped make the diagnosis of tuberculosis. Effective treatment was promptly initiated after confirmation of the diagnosis, and the patient's condition improved. This case illustrates that a negative contact history and laboratory results cannot rule out tuberculosis. False-negative TST and T-SPOT.TB results should be evaluated carefully. Bronchoscopy may be useful for identifying pathogens in patients with pneumonia of unknown etiology, and corticosteroids should be administered with caution.

Published

2023

14. Stratifying Severity of Acute Respiratory Failure Severity in Cyanotic Congenital Heart Disease.

Author

Yver, Hugues, Habet, Victoria, DeWitt, Aaron G., Thomas, Neal J., and Yehya, Nadir

Subjects

*ADULT respiratory distress syndrome, *CONGENITAL heart disease, *CORONARY care units, *CARDIAC intensive care, *INTENSIVE care units

Abstract

Hypoxemia is used to stratify severity in acute respiratory failure (ARF) but is less useful in cyanotic congenital heart disease (CCHD) due to an inability to differentiate hypoxemia from lung injury versus cardiac shunting. Therefore, we aimed to determine whether variables related to respiratory mechanics were associated with outcomes to assist in stratifying ARF severity in pediatric CCHD. We performed a retrospective cohort study from a single cardiac intensive care unit enrolling children with CCHD with ARF requiring mechanical ventilation between 2011 and 2019. Time-averaged ventilator settings and oxygenation data in the first 24 h of ARF were screened for association with the primary outcome of 28-day mortality. Of 344 eligible patients, peak inspiratory pressure (PIP) and driving pressure (ΔP) were selected as candidate variables to stratify ARF severity. PIP (OR 1.10, 95% CI 1.02–1.19) and ΔP (1.11, 95% CI 1.01–1.24) were associated with higher mortality and fewer ventilator-free days (VFDs) at 28 days after adjusting for age, severity of cardiac history, and FiO2. A three-level (mild, moderate, severe) severity stratification was established for both PIP (≤ 20, 21–29, ≥ 30) and ΔP (≤ 16, 17–24, ≥ 25), showing increasing mortality (both P < 0.01), decreasing VFDs and increasing ventilator days in survivors (all P < 0.05) across increasing pressures. Overall, we found that higher PIP and ΔP were associated with mortality and duration of ventilation across a three-level severity stratification system in pediatric CCHD with ARF, providing a practical method to prognosticate in subjects with multifactorial etiologies for hypoxemia. [ABSTRACT FROM AUTHOR]

Published

2023

15. Fluid Overload Precedes and Masks Cryptic Kidney Injury in Pediatric Acute Respiratory Distress Syndrome.

Author

Dixon, Celeste G., Thadani, Sameer, Fitzgerald, Julie C., Akcan-Arikan, Ayse, and Yehya, Nadir

Subjects

*ADULT respiratory distress syndrome, *ACUTE kidney failure, *HYPERVOLEMIA, *CRITICALLY ill children, *WATER-electrolyte balance (Physiology)

Abstract

OBJECTIVES: Given the complex interrelatedness of fluid overload (FO), creatinine, acute kidney injury (AKI), and clinical outcomes, the association of AKI with poor outcomes in critically ill children may be underestimated due to definitions used. We aimed to disentangle these temporal relationships in a large cohort of children with acute respiratory distress syndrome (ARDS). DESIGN: Retrospective cohort study. SETTING: Quaternary care PICU. PATIENTS: Seven hundred twenty intubated children with ARDS between 2011 and 2019. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: Daily fluid balance, urine output (UOP), and creatinine for days 1–7 of ARDS were retrospectively abstracted. A subset of patients had angiopoietin 2 (ANGPT2) quantified on days 1, 3, and 7. Patients were classified as AKI by Kidney Disease Improving Global Outcomes (KDIGO) stage 2/3 then grouped by timing of AKI onset (early if days 1–3 of ARDS, late if days 4–7 of ARDS, persistent if both) for comparison of PICU mortality and ventilator-free days (VFDs). A final category of "Cryptic AKI" was used to identify subjects who met KDIGO stage 2/3 criteria only when creatinine was adjusted for FO. Outcomes were compared between those who had Cryptic AKI identified by FO-adjusted creatinine versus those who had no AKI. Conventionally defined AKI occurred in 26% of patients (early 10%, late 3%, persistent 13%). AKI was associated with higher mortality and fewer VFDs, with no differences according to timing of onset. The Cryptic AKI group (6% of those labeled no AKI) had higher mortality and fewer VFDs than patients who did not meet AKI with FO-adjusted creatinine. FO, FO-adjusted creatinine, and ANGPT2 increased 1 day prior to meeting AKI criteria in the late AKI group. CONCLUSIONS: AKI was associated with higher mortality and fewer VFDs in pediatric ARDS, irrespective of timing. FO-adjusted creatinine captures a group of patients with Cryptic AKI with outcomes approaching those who meet AKI by traditional criteria. Increases in FO, FO-adjusted creatinine, and ANGPT2 occur prior to meeting conventional AKI criteria. [ABSTRACT FROM AUTHOR]

Published

2023

16. Twinstream Ventilator

Author

Ulreich, Raphael, Donn, Steven M., editor, Mammel, Mark C., editor, and van Kaam, Anton H.L.C., editor

Published

2022

17. Sepsis-related pediatric acute respiratory distress syndrome: A multicenter prospective cohort study.

Author

Prasertsan, Pharsai, Anantasit, Nattachai, Walanchapruk, Suchanuch, Roekworachai, Koonkoaw, Samransamruajkit, Rujipat, and Vaewpanich, Jarin

Subjects

*ADULT respiratory distress syndrome, *COHORT analysis, *SEPTIC shock, *ACUTE kidney failure, *HYPERVOLEMIA

Abstract

OBJECTIVES: This study aimed to compare the risk factors and outcomes for organ dysfunction between sepsis-related Pediatric acute respiratory distress syndrome (PARDS) and nonsepsis PARDS. METHODS: We prospective cohort recruited intubated patients with PARDS at four tertiary care centers in Thailand. The baseline characteristics, mechanical ventilation, fluid balance, and clinical outcomes were collected. The primary outcome was organ dysfunction. RESULTS: One hundred and thirty-two mechanically ventilated children with PARDS were included in the study. The median age was 29 months and 53.8% were male. The mortality rate was 22.7% and organ dysfunction was 45.4%. There were 26 (19.7%) and 106 (80.3%) patients who were classified into sepsis-related PARDS and nonsepsis PARDS, respectively. Sepsis-related PARDS patients had a significantly higher incidence of acute kidney injury (30.8% vs. 13.2%, P = 0.041), septic shock (88.5% vs. 32.1%, P < 0.001), organ dysfunction (84.6% vs. 35.8%, P < 0.001), and death (42.3% vs. 17.9%, P = 0.016) than nonsepsis PARDS group. Multivariate analysis adjusted for clinical variables showed that sepsis-related PARDS and percentage of fluid overload were significantly associated with organ dysfunction (odds ratio [OR] 11.414; 95% confidence interval [CI] 1.40892.557, P = 0.023 and OR 1.169; 95% CI 1.0121.352, P = 0.034). CONCLUSIONS: Sepsis-related PARDS patients had more severe illness, organ dysfunction, and mortality than nonsepsis PARDS patients. The higher percentage of fluid overload and presentation of sepsis was the independent risk factor of organ dysfunction in PARDS patients. [ABSTRACT FROM AUTHOR]

Published

2023

18. A Web-Based Platform for the Automatic Stratification of ARDS Severity.

Author

Yahyatabar, Mohammad, Jouvet, Philippe, Fily, Donatien, Rambaud, Jérome, Levy, Michaël, Khemani, Robinder G., and Cheriet, Farida

Subjects

*ADULT respiratory distress syndrome

Abstract

Acute respiratory distress syndrome (ARDS), including severe pulmonary COVID infection, is associated with a high mortality rate. It is crucial to detect ARDS early, as a late diagnosis may lead to serious complications in treatment. One of the challenges in ARDS diagnosis is chest X-ray (CXR) interpretation. ARDS causes diffuse infiltrates through the lungs that must be identified using chest radiography. In this paper, we present a web-based platform leveraging artificial intelligence (AI) to automatically assess pediatric ARDS (PARDS) using CXR images. Our system computes a severity score to identify and grade ARDS in CXR images. Moreover, the platform provides an image highlighting the lung fields, which can be utilized for prospective AI-based systems. A deep learning (DL) approach is employed to analyze the input data. A novel DL model, named Dense-Ynet, is trained using a CXR dataset in which clinical specialists previously labelled the two halves (upper and lower) of each lung. The assessment results show that our platform achieves a recall rate of  95.25 %  and a precision of  88.02 % . The web platform, named PARDS-CxR, assigns severity scores to input CXR images that are compatible with current definitions of ARDS and PARDS. Once it has undergone external validation, PARDS-CxR will serve as an essential component in a clinical AI framework for diagnosing ARDS. [ABSTRACT FROM AUTHOR]

Published

2023

19. Developing a mechanistic understanding of pediatric acute respiratory distress syndrome one cell at a time.

Author

Williams, James Garrett and Varisco, Brain

Subjects

*ADULT respiratory distress syndrome

Abstract

The article discusses the development of a mechanistic understanding of pediatric acute respiratory distress syndrome (PARDS) through the examination of individual cells. PARDS is a lung disease characterized by severe hypoxemia and non-cardiogenic pulmonary edema. The study focuses on the reparative transcriptomic signatures found in monocyte-derived macrophages and lung stromal cells in a PARDS patient. The research highlights the need for further investigation into the unique aspects of pediatric lung injury and recovery, as well as the identification of mechanisms critical to healthy regeneration and repair. [Extracted from the article]

Published

2023

20. Early Plasma Matrix Metalloproteinase Profiles. A Novel Pathway in Pediatric Acute Respiratory Distress Syndrome.

Author

Zinter, Matt S, Delucchi, Kevin L, Kong, Michele Y, Orwoll, Benjamin E, Spicer, Aaron S, Lim, Michelle J, Alkhouli, Mustafa F, Ratiu, Anna E, McKenzie, Anne V, McQuillen, Patrick S, Dvorak, Christopher C, Calfee, Carolyn S, Matthay, Michael A, and Sapru, Anil

Subjects

Humans, Matrix Metalloproteinases, Child, Biomarkers, Respiratory Distress Syndrome, matrix metalloproteinases, pediatric acute lung injury, pediatric acute respiratory distress syndrome, pediatric intensive care unit, tissue inhibitor of metalloproteinases, Rare Diseases, Acute Respiratory Distress Syndrome, Lung, Pediatric, 2.1 Biological and endogenous factors, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Aetiology, Good Health and Well Being, Medical and Health Sciences, Respiratory System

Abstract

RationaleMMPs (Matrix metalloproteinases) and their endogenous tissue inhibitors may contribute to lung injury through extracellular matrix degradation and modulation of inflammation and fibrosis.ObjectivesTo test for an association between MMP pathway proteins and inflammation, endothelial dysfunction, and clinical outcomes.MethodsWe measured MMPs in plasma collected on acute respiratory distress syndrome (ARDS) Day 1 from 235 children at five hospitals between 2008 and 2017. We used latent class analysis to identify patients with distinct MMP profiles and then associated those profiles with markers of inflammation (IL-1RA, -6, -8, -10, and -18; macrophage inflammatory protein-1α and -1β; tumor necrosis factor-α and -R2), endothelial injury (angiopoietin-2, von Willebrand factor, soluble thrombomodulin), impaired oxygenation (PaO2/FiO2 [P/F] ratio, oxygenation index), morbidity, and mortality.Measurements and main resultsIn geographically distinct derivation and validation cohorts, approximately one-third of patients demonstrated an MMP profile characterized by elevated MMP-1, -2, -3, -7, and -8 and tissue inhibitor of metalloproteinase-1 and -2; and depressed active and total MMP-9. This MMP profile was associated with multiple markers of inflammation, endothelial injury, and impaired oxygenation on Day 1 of ARDS, and conferred fourfold increased odds of mortality or severe morbidity independent of the P/F ratio and other confounders (95% confidence interval, 2.1-7.6; P

Published

2019

21. Multi-omic characterization of pediatric ARDS via nasal brushings

Author

James G. Williams, Rashika Joshi, David Haslam, Nadir Yehya, Rhonda L. Jones, Aditi Paranjpe, Mario Pujato, Krishna M. Roskin, Patrick M. Lahni, Hector R. Wong, and Brian M. Varisco

Subjects

Transcriptomics, Subclassification, Acute lung injury, Pediatric acute respiratory distress syndrome, Diseases of the respiratory system, RC705-779

Abstract

Abstract Rationale While nasal brushing transcriptomics can identify disease subtypes in chronic pulmonary diseases, it is unknown whether this is true in pediatric acute respiratory distress syndrome (PARDS). Objectives Determine whether nasal transcriptomics and methylomics can identify clinically meaningful PARDS subgroups that reflect important pathobiological processes. Methods Nasal brushings and serum were collected on days 1, 3, 7, and 14 from control and PARDS subjects from two centers. PARDS duration was the primary endpoint. Measurements and main results Twenty-four control and 39 PARDS subjects were enrolled. Two nasal methylation patterns were identified. Compared to Methyl Subgroup 1, Subgroup 2 had hypomethylation of inflammatory genes and was enriched for immunocompromised subjects. Four transcriptomic patterns were identified with temporal patterns indicating injury, repair, and regeneration. Over time, both inflammatory (Subgroup B) and cell injury (Subgroup D) patterns transitioned to repair (Subgroup A) and eventually homeostasis (Subgroup C). When control specimens were included, they were largely Subgroup C. In comparison with 17 serum biomarkers, the nasal transcriptome was more predictive of prolonged PARDS. Subjects with initial Transcriptomic Subgroup B or D assignment had median PARDS duration of 8 days compared to 2 in A or C (p = 0.02). For predicting PARDS duration ≥ 3 days, nasal transcriptomics was more sensitive and serum biomarkers more specific. Conclusions PARDS nasal transcriptome may reflect distal lung injury, repair, and regeneration. A combined nasal PCR and serum biomarker assay could be useful for predictive and diagnostic enrichment. Trial registration Clinicaltrials.gov NCT03539783 May 29, 2018.

Published

2022

22. Variability in Pediatric Ideal Body Weight Calculation: Implications for Lung-Protective Mechanical Ventilation Strategies in Pediatric Acute Respiratory Distress Syndrome.

Author

Ward, Shan L, Quinn, Carson M, Steurer, Martina A, Liu, Kathleen D, Flori, Heidi R, and Matthay, Michael A

Subjects

Humans, Respiratory Distress Syndrome, Adult, Tidal Volume, Body Mass Index, Respiration, Artificial, Length of Stay, Prospective Studies, Adolescent, Child, Child, Preschool, Infant, Infant, Newborn, Intensive Care Units, Pediatric, Female, Male, Acute Lung Injury, Ideal Body Weight, Respiratory Distress Syndrome, Nutrition, Pediatric, Rare Diseases, Obesity, Clinical Research, acute lung injury, ideal body weight, pediatric, pediatric acute respiratory distress syndrome, Nursing, Paediatrics and Reproductive Medicine, Pediatrics

Abstract

ObjectivesNo gold standard for ideal body weight determination in children exists. We aimed to compare four methods of ideal body weight calculation and determine level of agreement between methods and impact of measurement variance on tidal volumes prescribed in mechanically ventilated pediatric acute respiratory distress syndrome.DesignPost hoc analysis of four multicenter pediatric acute respiratory distress syndrome studies.SettingTwenty-six academic PICUs.PatientsFive hundred eighty-nine patients.InterventionsNone.Measurements and main resultsIdeal body weight was calculated by four common methods: National Center for Health Statistics, McLaren, Moore, and body mass index, and compared in three ways: 1) determine the proportion of the cohort for which each method could successfully calculate ideal body weight; 2) compare the level of agreement between the ideal body weight methods by Bland-Altman analysis; and 3) evaluate the difference in tidal volume when 6 mL/kg ideal body weight was prescribed. We a priori defined the better method to be one that could calculate ideal body weight in most subjects, had good agreement with other methods, and led to a lower tidal volume. Only 55% could have ideal body weight measured by all four methods. National Center for Health Statistics, McLaren, and Moore methods could calculate ideal body weight in greater than or equal to 90%, whereas body mass index method was successful in only 61% because of no body mass index validation in less than 2-year-olds. In comparing each method to the others, there was great variance, particularly in greater than or equal to 10-year-olds. This variance was greatest between Moore and body mass index methods with greater than or equal to 10 kg difference in ideal body weight in some subjects. The McLaren method had the best agreement with all other methods, and yielded similar prescribed tidal volume in 2- to 10-year-olds and lower tidal volume in greater than or equal to 10 years old.ConclusionsThere is substantial variation in calculated ideal body weight among four commonly used methods, particularly in adolescents. Since varying ideal body weight may lead to discrepancies in pediatric acute respiratory distress syndrome care, a standard approach to ideal body weight measurement is needed. We recommend the McLaren method to calculate ideal body weight in children with pediatric acute respiratory distress syndrome until a gold standard method is validated.

Published

2018

23. Pediatric acute respiratory distress syndrome in a Moroccan intensive care unit: a retrospective observational study of 23 cases.

Author

Benlamkaddem, Said, Bouyerman, Fatima, Berdai, Mohamed Adnane, and Harandou, Mustapha

Subjects

*ADULT respiratory distress syndrome, *INTENSIVE care units, *ASPIRATION pneumonia, *EXTRACORPOREAL membrane oxygenation, *PEDIATRIC intensive care, *PATIENT positioning

Abstract

Acute respiratory distress syndrome (ARDS) is a life-threatening condition despite medical development. Unlike adult, ARDS, in pediatric population, has been recently defined in the Pediatric Acute Lung Injury Consensus Conference (PALICC), 2015. We conduct a retrospective descriptive study, in pediatric intensive care unit (PICU) of Hassan II University Hospital during a period of 2 years (2019 to 2021) in which we included 23 pediatric cases of ARDS defined using 2012 Berlin criteria. They represent 2.7% of all patients admitted in our unit (23 patients of 850 admissions), with a male predominance 17 males/6 females, the median of age was 4.6 yearsold (2 months to 14 years-old). Pediatric acute respiratory distress syndrome (PARDS) cases were stratified as mild in 13% (n=3), moderate in 52% (n=12), and severe in 35% (n=8). The etiologies were of pulmonary origin (pneumonia, aspiration, pulmonary contusion, and foreign body) in 79% of cases (n=18), and extra-pulmonary origin (sepsis, burn and major trauma) in 21% (n=5). The management was based on lung protective invasive mechanical ventilation (95%, n=22), Prone positioning was applied (26%, n=6), inhaled nitric oxide (iNO) was used in (35%, n=8), recruitment maneuvers (56%, n=13), neuromuscular blockade (NMB) (74%, n=17) and extracorporeal membrane oxygenation (ECMO) in 1 case. The outcome was favorable in 65% (n=15) with a mean PICU-stay of 20 days (SD=16 days). Overall mortality rate was 35% (n=8), and 100% (n=5) in case of extrapulmonary (indirect) etiologies. It was proportional to the disease severity, 50% (4 of 8 cases), 33% (4 of 12 cases), and no death respectively in severe, moderate, and mild PARDS. PARDS in our context is a serious problem as it is more frequent in children < 5 years, a population considered as fragile, with a high mortality rate especially in indirect lung etiologies of PARDS. [ABSTRACT FROM AUTHOR]

Published

2023

24. Pediatric Acute Respiratory Distress Syndrome

Author

Keim, Garrett, Yehya, Nadir, Lucking, Steven E., editor, Maffei, Frank A., editor, Tamburro, Robert F., editor, and Zaritsky, Arno, editor

Published

2021

25. A comprehensive review on the management of ARDS among pediatric patients

Author

Anil Kumar Sapare and Yashwanth Raju Hunasagahalli Nagaraju

Subjects

pediatric acute respiratory distress syndrome, population, positive end-expiratory pressure, ventilation, Diseases of the respiratory system, RC705-779

Abstract

Pediatric acute respiratory distress syndrome (PARDS) is a complex inflammatory syndrome of lungs leading to disruption of alveolar epithelial membrane barrier in the lungs. It includes varying age groups from infants to adolescents. PARDS definition has changed over decades as current definition is given by the Pediatric Acute Lung Injury Consensus Conference group. Although most of management principles are extrapolated from adult data, physiology of Acute Respiratory Distress Syndrome (ARDS) in children is different when compared to adults. The present review mainly focused on current evidence in the management of ARDS with emphasis to pediatric population. MeSH headings such as ARDS, positive end-expiratory pressure (PEEP), and lung protective ventilation were used for searching publications in PubMed, Embase, and SciELO. Publications were limited to human studies in the past 20 years. Core ventilatory strategies in PARDS include use of low-tidal volume, higher PEEP and acceptance of permissive hypercapnia and permissive hypoxemia. Supportive strategies such as restrictive fluid therapy, prone positioning, early enteral nutrition, and adequate analgosedation remain the mainstay of management of principles. As PARDS contains heterogeneous population, personalized mechanical ventilation under umbrella of lung protective ventilator strategies such as low-tidal volume ventilation, open lung strategy, acceptance of permissive hypercapnia, and permissive hypoxia is standard of care.

Published

2022

26. Interleukin-1 Receptor Antagonist Is Associated With Pediatric Acute Respiratory Distress Syndrome and Worse Outcomes in Children With Acute Respiratory Failure*

Author

Dahmer, Mary K, Quasney, Michael W, Sapru, Anil, Gildengorin, Ginny, Curley, Martha AQ, Matthay, Michael A, and Flori, Heidi

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Rare Diseases, Lung, Acute Respiratory Distress Syndrome, Patient Safety, Clinical Trials and Supportive Activities, Genetics, Clinical Research, Pediatric, Respiratory, Good Health and Well Being, Biomarkers, Case-Control Studies, Enzyme-Linked Immunosorbent Assay, Female, Hospital Mortality, Humans, Infant, Infant, Newborn, Intensive Care Units, Pediatric, Interleukin 1 Receptor Antagonist Protein, Length of Stay, Male, Prospective Studies, Respiration, Artificial, Respiratory Distress Syndrome, Respiratory Insufficiency, Risk Factors, Severity of Illness Index, acute respiratory distress syndrome, biomarkers, critical illness, genetic variants, pediatric acute respiratory distress syndrome, pediatrics, single nucleotide polymorphism, BALI and RESTORE Study Investigators and Pediatric Acute Lung Injury and Sepsis Investigators (PALISI) Network, Respiratory Distress Syndrome, Adult, Nursing, Paediatrics and Reproductive Medicine, Pediatrics, Clinical sciences, Paediatrics

Abstract

ObjectivesTo test whether plasma interleukin-1 receptor antagonist or variants within the gene encoding for interleukin-1ra (IL1RN), or proteins involved in regulating interleukin-1β levels or interleukin-1β response, are associated with pediatric acute respiratory distress syndrome or outcomes in mechanically ventilated children with parenchymal lung disease.DesignProspective cohort study.SettingTwenty-two PICUs participating in the multisite clinical trial, Randomized Evaluation of Sedation Titration for Respiratory Failure (U01 HL086622).SubjectsChildren 2 weeks to 17 years old treated with invasive mechanical ventilation for acute airways and/or parenchymal lung disease.Measurements and main resultsThree-hundred seventy-eight of 549 patients had pediatric acute respiratory distress syndrome; DNA and plasma were obtained from 523 of 549 and 480 of 549 patients, respectively. Plasma interleukin-1ra was highest on the day of intubation (day 0) and decreased over the subsequent 3 days (p < 0.0001). Interleukin-1ra level was higher in patients with pediatric acute respiratory distress syndrome than those without pediatric acute respiratory distress syndrome (p < 0.0001). Multivariable regression analysis of data across all days demonstrated a significant association of interleukin-1ra (odds ratio, 1.30; 95% CI, 1.10-1.52; p = 0.002) and day (p < 0.05) with pediatric acute respiratory distress syndrome, independent of age and Pediatric Risk of Mortality-III score. Analysis on individual days indicated that plasma interleukin-1ra levels were associated with pediatric acute respiratory distress syndrome on days 0 and 2, independent of age and Pediatric Risk of Mortality-III score (p = 0.04 and 0.003, respectively), however did not quite reach significance on days 1 and 3 (p = 0.06 and 0.07, respectively). Interleukin-1ra was independently associated with mortality on day 1 (p = 0.02). Interleukin-1ra also correlated with length of mechanical ventilation, measures of oxygenation, and PICU length of stay. No genetic variants were associated with pediatric acute respiratory distress syndrome.ConclusionsPlasma interleukin-1ra is associated with pediatric acute respiratory distress syndrome, PICU length of stay, length of mechanical ventilation, and mortality in children with acute respiratory failure requiring mechanical ventilation.

Published

2018

27. The impact of PEEP on mechanical power and driving pressure in children with pediatric acute respiratory distress syndrome.

Author

Ferraz IS, Carioca FL, Junqueira FMD, Oliveira MS, Duarte GL, Foronda FK, Matsumoto T, Brandão MB, and De Souza TH

Abstract

Background: Positive end-expiratory pressure (PEEP) is widely used to improve oxygenation and avoid alveolar collapse in mechanically ventilated patients with pediatric acute respiratory distress syndrome (PARDS). However, its improper use can be harmful, impacting variables associated with ventilation-induced lung injury, such as mechanical power (MP) and driving pressure (∆P). Our main objective was to assess the impact of increasing PEEP on MP and ∆P in children with PARDS., Interventions: Mechanically ventilated children on pressure-controlled volume-guaranteed mode were prospectively assessed for inclusion. PEEP was sequentially changed to 5, 12, 10, 8, and again to 5 cm H 2 O. After 10 min at each PEEP level, ventilatory data were collected and then variables of interest were determined. Respiratory system mechanics were measured using the least squares fitting method., Results: Thirty-one patients were included, with median age and weight of 6 months and 6.3 kg. Most subjects were admitted for acute viral bronchiolitis (45%) or community-acquired pneumonia (32%) and were diagnosed with mild (45%) or moderate (42%) PARDS. There was a significant increase in MP and ∆P at PEEP levels of 10 and 12 cm H 2 O. When PEEP was increased from 5 to 12 cm H 2 O, there was a relative increase in MP of 60.7% (IQR 49.3-82.9) and in ΔP of 33.3% (IQR 17.8-65.8). A positive correlation was observed between MP and ΔP (ρ = 0.59)., Conclusions: Children with mild or moderate PARDS may experience a significant increase in MP and ∆P with increased PEEP. Therefore, respiratory system mechanics and lung recruitability must be carefully evaluated during PEEP titration., (© 2024 Wiley Periodicals LLC.)

Published

2024

28. Inflammatory and coagulant responses after acute respiratory failure in children of different body habitus

Author

Ward, Shan L., Flori, Heidi R., Dahmer, Mary K., Weeks, Heidi M., Sapru, Anil, Quasney, Michael W., Curley, Martha A. Q., Liu, Kathleen D., and Matthay, Michael A.

Published

2023

29. Respiratory Complications: Acute Respiratory Distress Syndrome, Chylothorax, Diaphragmatic Palsy and Paresis, Respiratory Physiotherapy, and Tracheostomy

Author

Lin, Jiuann-Huey Ivy, Exo, Jennifer, Munoz, Ricardo A., Munoz, Ricardo A., editor, Morell, Victor O., editor, da Cruz, Eduardo M., editor, Vetterly, Carol G., editor, and da Silva, Jose Pedro, editor

Published

2020

30. Conventional Mechanical Ventilation in Pediatric Acute Respiratory Distress Syndrome

Author

Badheka, Aditya, Allareddy, Veerajalandhar, Cheifetz, Ira, Shein, Steven L., editor, and Rotta, Alexandre T., editor

Published

2020

31. Risk Factors and Etiologies of Pediatric Acute Respiratory Distress Syndrome

Author

Kohne, Joseph G., Flori, Heidi R., Shein, Steven L., editor, and Rotta, Alexandre T., editor

Published

2020

32. The History of ARDS and the Need for a Pediatric Definition

Author

Eigen, Howard, Shein, Steven L., editor, and Rotta, Alexandre T., editor

Published

2020

33. Ancillary Pulmonary Treatments for Pediatric Acute Respiratory Distress Syndrome

Author

Beardsley, Andrew L., Shein, Steven L., editor, and Rotta, Alexandre T., editor

Published

2020

34. Clinical Outcomes in Pediatric Acute Respiratory Distress Syndrome

Author

Yehya, Nadir, Shein, Steven L., editor, and Rotta, Alexandre T., editor

Published

2020

35. Fluids, Nutrition, and Acute Kidney Injury in Pediatric Acute Respiratory Distress Syndrome

Author

Akcan-Arikan, Ayse, Typpo, Katri V., Shein, Steven L., editor, and Rotta, Alexandre T., editor

Published

2020

36. Multi-omic characterization of pediatric ARDS via nasal brushings.

Author

Williams, James G., Joshi, Rashika, Haslam, David, Yehya, Nadir, Jones, Rhonda L., Paranjpe, Aditi, Pujato, Mario, Roskin, Krishna M., Lahni, Patrick M., Wong, Hector R., and Varisco, Brian M.

Subjects

*ADULT respiratory distress syndrome, *LUNG diseases, *LUNG injuries, *NASAL polyps

Abstract

Rationale: While nasal brushing transcriptomics can identify disease subtypes in chronic pulmonary diseases, it is unknown whether this is true in pediatric acute respiratory distress syndrome (PARDS). Objectives: Determine whether nasal transcriptomics and methylomics can identify clinically meaningful PARDS subgroups that reflect important pathobiological processes. Methods: Nasal brushings and serum were collected on days 1, 3, 7, and 14 from control and PARDS subjects from two centers. PARDS duration was the primary endpoint. Measurements and main results: Twenty-four control and 39 PARDS subjects were enrolled. Two nasal methylation patterns were identified. Compared to Methyl Subgroup 1, Subgroup 2 had hypomethylation of inflammatory genes and was enriched for immunocompromised subjects. Four transcriptomic patterns were identified with temporal patterns indicating injury, repair, and regeneration. Over time, both inflammatory (Subgroup B) and cell injury (Subgroup D) patterns transitioned to repair (Subgroup A) and eventually homeostasis (Subgroup C). When control specimens were included, they were largely Subgroup C. In comparison with 17 serum biomarkers, the nasal transcriptome was more predictive of prolonged PARDS. Subjects with initial Transcriptomic Subgroup B or D assignment had median PARDS duration of 8 days compared to 2 in A or C (p = 0.02). For predicting PARDS duration ≥ 3 days, nasal transcriptomics was more sensitive and serum biomarkers more specific. Conclusions: PARDS nasal transcriptome may reflect distal lung injury, repair, and regeneration. A combined nasal PCR and serum biomarker assay could be useful for predictive and diagnostic enrichment. Trial registration Clinicaltrials.gov NCT03539783 May 29, 2018. [ABSTRACT FROM AUTHOR]

Published

2022

37. Editorial: ARDS: Reaching for the Horizon

Author

McGuire, John K, Schwingshackl, Andreas, and Anand, Kanwaljeet JS

Subjects

Paediatrics, Biomedical and Clinical Sciences, pediatric acute respiratory distress syndrome, acute lung injury, pathophysiology, treatment, fluid management, Paediatrics and Reproductive Medicine, Other Medical and Health Sciences

Published

2017

38. Evaluation of Inhaled Nitric Oxide Use in Patients with Pediatric Acute Respiratory Distress Syndrome

Author

Gülhan Atakul, Gokhan Ceylan, Ferhat Sarı, Özlem Sarac Sandal, Sevgi Topal, Mustafa Çolak, Utku Karaarslan, and Hasan Agin

Subjects

pediatric acute respiratory distress syndrome, inhale nitric oxide, pediatric intensive care unit, Pediatrics, RJ1-570

Abstract

Objective: Nitric oxide therapy is not routinely used in the treatment of pediatric acute respiratory distress syndrome (PARDS), but it is recommended to be used as an adjunctive therapy in some selected cases. In our study, we aimed to discuss patients with PARDS who were treated with inhaled nitric oxide (iNO) therapy. Methods: The data of patients who were hospitalized in the pediatric intensive care unit with a diagnosis of PARDS and received iNO treatment between January 2016 and January 2018 were retrospectively analyzed. Age, gender, length of stay, mortality, number of days on mechanical ventilation, use of vasoactive drugs, mortality scores, lactate levels, OI (oxygenation index), PaO2/FiO2, methemoglobin levels, iNO administration time, echocardiographic findings and underlying primary diseases were recorded. Results: It was determined that 9 patients who were followed up with the diagnosis of PARDS were given iNO treatment. Except for one patient, they were diagnosed with pneumonia developing on the basis of chronic disease and PARDS secondary to septic shock. Five patients died while receiving iNO therapy. Seven patients were ventilated with iNO in addition to conventional mechanical ventilation methods. Two patients who died were ventilated with HFOV (high frequency oscillatory ventilation). In 3 of 9 patients, inhaled nitric oxide treatment was successful. Conclusion: Although inhaled nitric oxide treatment is a known treatment used in different diseases, the level of its effect in PARDS patients continues to be investigated. We think that this treatment can be beneficial when applied in selected patients and experienced centers.

Published

2021

39. A Web-Based Platform for the Automatic Stratification of ARDS Severity

Author

Mohammad Yahyatabar, Philippe Jouvet, Donatien Fily, Jérome Rambaud, Michaël Levy, Robinder G. Khemani, and Farida Cheriet

Subjects

chest X-ray, machine learning, acute respiratory distress syndrome, pediatric acute respiratory distress syndrome, web-based platform, Medicine (General), R5-920

Abstract

Acute respiratory distress syndrome (ARDS), including severe pulmonary COVID infection, is associated with a high mortality rate. It is crucial to detect ARDS early, as a late diagnosis may lead to serious complications in treatment. One of the challenges in ARDS diagnosis is chest X-ray (CXR) interpretation. ARDS causes diffuse infiltrates through the lungs that must be identified using chest radiography. In this paper, we present a web-based platform leveraging artificial intelligence (AI) to automatically assess pediatric ARDS (PARDS) using CXR images. Our system computes a severity score to identify and grade ARDS in CXR images. Moreover, the platform provides an image highlighting the lung fields, which can be utilized for prospective AI-based systems. A deep learning (DL) approach is employed to analyze the input data. A novel DL model, named Dense-Ynet, is trained using a CXR dataset in which clinical specialists previously labelled the two halves (upper and lower) of each lung. The assessment results show that our platform achieves a recall rate of 95.25% and a precision of 88.02%. The web platform, named PARDS-CxR, assigns severity scores to input CXR images that are compatible with current definitions of ARDS and PARDS. Once it has undergone external validation, PARDS-CxR will serve as an essential component in a clinical AI framework for diagnosing ARDS.

Published

2023

40. Venoarterial to venovenous extracorporeal life support conversion in pediatric acute respiratory distress syndrome.

Author

Nakamura, Yuki, Rudolph, Kristina, Ricci, Marco, Auslender, Marcelo, and Badheka, Aditya

Subjects

*ADULT respiratory distress syndrome treatment, *STATISTICS, *LIFE support systems in critical care, *EXTRACORPOREAL membrane oxygenation, *RETROSPECTIVE studies, *HEALTH outcome assessment, *HOSPITAL mortality, *MATHEMATICAL variables, *COMPARATIVE studies, *T-test (Statistics), *PEARSON correlation (Statistics), *LACTATES, *CHI-squared test, *DESCRIPTIVE statistics, *SOCIODEMOGRAPHIC factors, *DATA analysis software, *LONGITUDINAL method, *CHILDREN

Abstract

In patients with pediatric acute respiratory distress syndrome (PARDS) and hemodynamic compromise who need venoarterial (VA) extracorporeal life support (ECLS), we have adopted a strategy to promote early VA-to-venovenous (VV) conversion since 2018. A single-center retrospective review was performed of all 22 patients who underwent ECLS for PARDS from 2008 to 2019. Variables were analyzed to determine factors affecting initial cannulation mode and in-hospital mortality. Outcomes were compared between before and after 2018. Of the 22 patients, 9 patients underwent initial VA-support. Small patient size and severe cardiopulmonary compromise prior to ECLS favored initial VA- over VV-support. Lactate level and vasoactive inotrope score at 24 hours post-ECLS initiation predicted in-hospital mortality. After 2018, all five patients with initial VA-support were converted to VV-support at 4.4 ± 1.3 days post-ECLS initiation without complications. In-hospital mortality decreased after 2018 (3/9) compared with before (10/13) (p = 0.041) despite longer ECLS run time (723.4 ± 384.2 vs 286.5 ± 235.1 hours, p = 0.003). The number of ECLS-related complications per ECLS 1000 run hours decreased after 2018 (7.2 ± 4.2 vs 46.9 ± 66.5, p = 0.063). Our strategy to promote early VA-to-VV conversion may be worth further evaluation in larger cohort studies. [ABSTRACT FROM AUTHOR]

Published

2022

41. Acute Respiratory Distress Syndrome Management in Pediatric Intensive Care Units in Turkey: A Prospective Survey.

Author

Yılmaz, Resul, Türkyılmaz, Enes, Karataş, Özlem Ülkü, and Samancı, Hatice Kübra

Subjects

*ADULT respiratory distress syndrome treatment, *STEROID drugs, *INTENSIVE care units, *LUNG injuries, *ENDOTRACHEAL tubes, *CROSS-sectional method, *PEDIATRICS, *SURFACE active agents, *ADULT respiratory distress syndrome, *SURVEYS, *ARTIFICIAL respiration, *QUESTIONNAIRES, *DESCRIPTIVE statistics, *NITRIC oxide, *LONGITUDINAL method, *CHILDREN

Abstract

Objective: This study aimed to explore the compliance of management strategies for pediatric acute respiratory distress syndrome in pediatric intensive care units in Turkey with current guidelines. Materials and Methods: This is a cross-sectional, prospective survey study. We delivered the survey, consisting of questions on topics in the relevant literature on acute respiratory distress syndrome management in children (1 month-18 years), to the heads/staff of the 100 units via email or phone. Results: In total, 51 (51%) out of 100 targeted pediatric intensive care units responded to the survey. We found out that 17 (33%) units comply with no acute respiratory distress syndrome guideline, while 65% frequently utilize cuffed endotracheal tubes. The majority of the units (86%) achieve their mechanical ventilation targets with the help of pressure control modes. Besides, steroid and surfactant use are present in 47% and 45% of the units, respectively, while 16% and 38% of the units use inhaled nitric oxide and high-frequency oscillatory ventilation, respectively. Conclusion: Lung-protective ventilation strategies preventing ventilator-associated lung injury are explicit in all responding units. The present survey revealed that current mechanical ventilation and non-ventilation treatment strategies in pediatric ARDS in Turkey are relatively uniform and largely consistent with international practices. [ABSTRACT FROM AUTHOR]

Published

2022

42. Pediatric Acute Respiratory Distress Syndrome-Will We Be Able to Predict It and Eventually Prevent It?

Author

Ciomartan, Tatiana C.

Subjects

*ADULT respiratory distress syndrome, *PEDIATRIC intensive care, *INTENSIVE care units

Published

2022

43. Ventilator Management for Pediatric Acute Respiratory Distress Syndrome

Author

Vesel, Travis P., Cheifetz, Ira M., Mastropietro, Christopher W., editor, and Valentine, Kevin M., editor

Published

2019

44. Acute Respiratory Failure and Management

Author

Rajapreyar, Prakadeshwari, Kopp, Whitney, Randolph, Adrienne, Duncan, Christine N., editor, Talano, Julie-An M., editor, and McArthur, Jennifer A., editor

Published

2019

45. Poor Adherence to Lung-Protective Mechanical Ventilation in Pediatric Acute Respiratory Distress Syndrome.

Author

Ward, Shan L, Quinn, Carson M, Valentine, Stacey L, Sapru, Anil, Curley, Martha AQ, Willson, Douglas F, Liu, Kathleen D, Matthay, Michael A, and Flori, Heidi R

Subjects

Humans, Respiration, Artificial, Critical Care, Adolescent, Child, Child, Preschool, Infant, Infant, Newborn, Intensive Care Units, Pediatric, Guideline Adherence, Female, Male, Practice Guidelines as Topic, Practice Patterns, Physicians', Respiratory Distress Syndrome, Rare Diseases, Lung, Nutrition, Acute Respiratory Distress Syndrome, Clinical Research, Obesity, Pediatric, Patient Safety, Respiratory, acute lung injury, ideal body weight, mechanical ventilation, pediatric, pediatric acute respiratory distress syndrome, Nursing, Paediatrics and Reproductive Medicine, Pediatrics

Abstract

ObjectivesTo determine the frequency of low-tidal volume ventilation in pediatric acute respiratory distress syndrome and assess if any demographic or clinical factors improve low-tidal volume ventilation adherence.DesignDescriptive post hoc analysis of four multicenter pediatric acute respiratory distress syndrome studies.SettingTwenty-six academic PICU.PatientsThree hundred fifteen pediatric acute respiratory distress syndrome patients.Measurements and main resultsAll patients who received conventional mechanical ventilation at hours 0 and 24 of pediatric acute respiratory distress syndrome who had data to calculate ideal body weight were included. Two cutoff points for low-tidal volume ventilation were assessed: less than or equal to 6.5 mL/kg of ideal body weight and less than or equal to 8 mL/kg of ideal body weight. Of 555 patients, we excluded 240 for other respiratory support modes or missing data. The remaining 315 patients had a median PaO2-to-FIO2 ratio of 140 (interquartile range, 90-201), and there were no differences in demographics between those who did and did not receive low-tidal volume ventilation. With tidal volume cutoff of less than or equal to 6.5 mL/kg of ideal body weight, the adherence rate was 32% at hour 0 and 33% at hour 24. A low-tidal volume ventilation cutoff of tidal volume less than or equal to 8 mL/kg of ideal body weight resulted in an adherence rate of 58% at hour 0 and 60% at hour 24. Low-tidal volume ventilation use was no different by severity of pediatric acute respiratory distress syndrome nor did adherence improve over time. At hour 0, overweight children were less likely to receive low-tidal volume ventilation less than or equal to 6.5 mL/kg ideal body weight (11% overweight vs 38% nonoverweight; p = 0.02); no difference was noted by hour 24. Furthermore, in the overweight group, using admission weight instead of ideal body weight resulted in misclassification of up to 14% of patients as receiving low-tidal volume ventilation when they actually were not.ConclusionsLow-tidal volume ventilation is underused in the first 24 hours of pediatric acute respiratory distress syndrome. Age, Pediatric Risk of Mortality-III, and pediatric acute respiratory distress syndrome severity were not associated with improved low-tidal volume ventilation adherence nor did adherence improve over time. Overweight children were less likely to receive low-tidal volume ventilation strategies in the first day of illness.

Published

2016

46. Hemadsorption as rescue therapy for patients with multisystem organ failure in pediatric intensive care—Report of two cases reports and review of the literature.

Author

Steurer, Lisa‐Maria, Schlager, Gerald, Sadeghi, Kambis, Golej, Johann, Wiedemann, Dominik, and Hermon, Michael

Subjects

*MULTIPLE organ failure, *PEDIATRIC intensive care, *CHILD patients, *ADULT respiratory distress syndrome, *ACUTE kidney failure, *ADULTS

Abstract

Hemadsorption via the cytokine‐adsorber CytoSorb (CytoSorbents Europe, Berlin, Germany) has successfully been used as an adjunctive method in adults, mainly for the purpose of immunomodulation under acute inflammatory conditions such as sepsis and cardiac surgery. In recent years, there has been growing interest in its use in pediatric intensive care to improve outcomes in patients with multiple organ failure following an inflammatory illness. Literature on the application of CytoSorb in neonatal and pediatric patients is scarce, though the implication is that it could be an effective last‐resort treatment option in critically ill pediatric patients. Herein we present the clinical cases of two pediatric patients successfully treated with a combination of the CytoSorb hemadsorber, continuous renal replacement therapy, and extracorporeal membrane oxygenation due to multiple organ failure following different underlying medical conditions. Patient 1 was a 7‐month‐old male child with Down's syndrome admitted to the Pediatric Intensive Care Unit (PICU) after congenital heart surgery, who developed antimicrobial‐resistant septic shock and severe acute respiratory distress syndrome. Patient 2 was a 2‐year‐old male child admitted to the PICU with influenza A‐associated acute liver failure resulting in hyperammonemia, lactate acidosis, hemodynamic instability, and acute kidney failure. In both patients, hemadsorption with CytoSorb was initiated as an adjunctive rescue therapy to treat refractory multisystem organ failure. Improvement of laboratory and clinical parameters was observed within hours of treatment initiation. The application of the hemadsorber—developed for use in adults—proved simple and safe for use in both of our low‐weight pediatric patients. [ABSTRACT FROM AUTHOR]

Published

2021

47. Pressure Support Ventilation (PSV) versus Neurally Adjusted Ventilatory Assist (NAVA) in difficult to wean pediatric ARDS patients: a physiologic crossover study

Author

Giorgia Spinazzola, Roberta Costa, Daniele De Luca, Giovanna Chidini, Giuliano Ferrone, Marco Piastra, and Giorgio Conti

Subjects

Neurally adjusted ventilatory assist, Weaning, Pediatric acute respiratory distress syndrome, Patient-ventilator interaction, Mechanical ventilation, Pediatrics, RJ1-570

Abstract

Abstract Background Neurally adjusted ventilatory assist (NAVA) is an innovative mode for assisted ventilation that improves patient-ventilator interaction in children. The aim of this study was to assess the effects of patient-ventilator interaction comparing NAVA with pressure support ventilation (PSV) in patients difficult to wean from mechanical ventilation after moderate pediatric acute respiratory distress syndrome (PARDS). Methods In this physiological crossover study, 12 patients admitted in the Pediatric Intensive Care Unit (PICU) with moderate PARDS failing up to 3 spontaneous breathing trials in less than 7 days, were enrolled. Patients underwent three study conditions lasting 1 h each: PSV1, NAVA and PSV2. Results The Asynchrony Index (AI) was significantly reduced during the NAVA trial compared to both the PSV1 and PSV2 trials (p = 0.001). During the NAVA trial, the inspiratory and expiratory trigger delays were significantly shorter compared to those obtained during PSV1 and PSV2 trials (Delaytrinsp p

Published

2020

48. Pneumatocele in focus: EIT's colors of the invisible.

Author

Cattaneo S, Bronco A, Bonacina D, and Bonanomi E

Published

2024

49. Recombinant human thrombomodulin for pneumonia-induced severe ARDS complicated by DIC in children: a preliminary study.

Author

Hirata, Naoyuki, Ngo, Dong Tien, Phan, Phuc Huu, Ainai, Akira, Phung, Thuy Thi Bich, Ta, Tuan Anh, Takasaki, Jin, Kawachi, Shoji, Nunoi, Hiroyuki, Nakajima, Noriko, and Dien, Tran Minh

Subjects

*ADULT respiratory distress syndrome, *ADVANCED glycation end-products, *THROMBOMODULIN, *DISSEMINATED intravascular coagulation, *HOSPITAL admission & discharge

Abstract

Purpose: Recombinant human soluble thrombomodulin (rTM) has been used to treat disseminated intravascular coagulation (DIC). Recent studies have shown the efficacy of rTM through its anti-inflammatory effects for treatment of adults with acute respiratory distress syndrome (ARDS). However, the safety and efficacy of rTM in children with severe ARDS complicated by DIC have not been reported. In this preliminary study, we reported the feasibility of using rTM for the treatment of pneumonia-induced severe ARDS complicated by DIC in children. Methods: Six children (age: median 10 months old) with pneumonia-induced severe ARDS complicated by DIC were enrolled in this preliminary study. rTM (380 U/kg) was administered for a maximum of 6 days, in addition to conventional therapies after diagnosis of severe ARDS complicated by DIC. After administration of rTM, we measured changes in the plasma TM concentration and evaluated the clinical course, status of DIC and ARDS, and other laboratory findings, including levels of cytokines, chemokines, and biomarkers. Results: In all six children, the plasma concentration of TM increased and DIC scores decreased after administration of rTM. Four of the six children recovered from the severe ARDS complicated by DIC after treatment, and were discharged from the hospital with no complications. In survived children, levels of soluble receptors for advanced glycation end products, interleukin-6, interleukin-8 and monocyte chemotactic protein-1 decreased after administration of rTM compared to those before rTM. Conclusions: The rTM administration is feasible as an adjunctive therapeutic strategy for children over 2 months with pneumonia-induced severe ARDS complicated by DIC. [ABSTRACT FROM AUTHOR]

Published

2021

50. Fulminant myocarditis, severe pediatric acute respiratory distress syndrome associated with H1N1 influenza and enteric fever rescued by prone ventilation: A case Report

Author

Goutam Goswami, Pradeep Kumar Sharma, and Nikhil Vinayak

Subjects

fulminant myocarditis, h1n1 influenza, pediatric acute respiratory distress syndrome, prone ventilation, Pediatrics, RJ1-570

Abstract

H1N1 influenza-associated fulminant myocarditis with pediatric acute respiratory distress syndrome (PARDS) is rare. We report a child of fulminant myocarditis, severe PARDS associated with H1N1 and enteric fever. She rapidly developed severe PARDS and refractory hypoxemia. She was successfully rescued with prone ventilation. Fulminant myocarditis with PARDS can be a manifestation of H1N1 infection. These scenarios pose a tough challenge, especially in resource-limited settings. Although we successfully managed our patient with prone ventilation, success in one case cannot be generalized until more evidence is generated.

Published

2021