Acute chlorine poisoning caused by an accident at a swimming pool

Chlorine is an irritant gas that is widely used in water purification. Several previous reports had reported accidents of inhalation injuries at swimming pools. However, there have been limited data on the detection of on-site chlorine concentration. This study aims to report a chlorine leakage accident at a swimming pool caused by improper disinfection operations. Calculation using the gas diffusion simulation software showed that the on-site chlorine concentration was 221.45 ppm. When the accident occurred, there were 92 individuals at the swimming pool and the gym, among which 61 were referred to the emergency department of five different hospitals for feeling ill. Among them, 22 patients underwent chest high-resolution computed tomography scans in our hospital. According to the findings, 4 (18.2%) patients had peribronchitis, 3 (13.6%) had tracheobronchitis, 4 (18.2%) had pneumonia, 4 (18.2%) had interstitial pulmonary edema, and 3 (13.6%) had alveolar pulmonary edema. The symptoms of 22 patients who visited our hospital significantly improved after comprehensive treatment. Three months after the accident, 8 of 17 patients presented obstructive ventilation defects or small airway dysfunction. The accidental exposure to chlorine may induce acute poisoning with various respiratory injuries and prolonged lung dysfunction.

High Flow Oxygen Therapy in Patients with Burn Injury

Some patients with severe burn injury have a high risk of developing acute respiratory failure, the cause of which may be interstitial pulmonary edema caused by inadequate infusion therapy.The objective: to evaluate the effectiveness of high-flow oxygen therapy (HFOT) in acute parenchymatous respiratory failure in burn patients.Subjects and methods. The prospective analysis included 74 patients with ARF in the stage of burn toxemia, without inhalation trauma, with PaO2/FiO2 below 300. In Main Group (37 patients), HFOT was used, while in Control Group patients received oxygenation through nasal cannula with the rate up to 15 l/min. Parameters of respiratory rate, PaO2/FiO2, PaCO2, MAP, heart rate, the number of intubations, respiratory comfort were recorded within 48 hours.Results. Main Group had higher values of oxygenation index in 48 hours of the trial (342 vs. 305.5, p = 0.02), faster normalization of blood gas composition compared to Control Group. HFOT was associated with greater respiratory comfort (8.4 vs. 5.3 VAS scores, p = 0.03), lower need in mechanical ventilation (4 vs. 11, p = 0.04).Conclusion: HFOT is an effective method for the treatment of respiratory failure in inpatients with burns. The need for intubation decreases, it is more comfortable to be tolerated than standard methods of oxygen therapy.

A Case of Bedside Ultrasound in COVID-19 to Prognosticate Functional Lung Recovery

Introduction. The fight against COVID-19 poses questions as to the clinical presentation, course, diagnosis, and treatment of the condition. This case study presents a patient infected with COVID-19 and suggests with additional research, that bedside ultrasound may be used to diagnose severity of disease and potentially, prognosticate functional lung recovery without using unnecessary resources and exposing additional healthcare professionals to infection. Case Report. A 46-year-old male presented to the emergency department (ED) with cough, fever, and shortness of breath. Chest X-ray showed patchy airspace opacities bilaterally. Rapid testing resulted positive for SARS-CoV-2. Bedside ultrasound showed abnormal lung parenchyma, with diffuse comet tail artifacts, consistent with interstitial pulmonary edema. Following a prolonged intubation, patient’s abnormal lung ultrasound findings are resolved.

The Impact of Time to Intubate Towards Mortality Rate Among Covid-19 Patients in Dr. Soetomo General Hospital Resuscitation and ICU

Backgrounds: The COVID-19 pandemic began to spread in Indonesia in March 2020 and continues to increase. Patients with severe symptoms are known to have impaired oxygenation leading to hypoxaemia. Severe oxygenation disorders can be seen from clinical symptoms of respiratory distress and examination of blood gas analysis with a low PF ratio. Patients with respiratory distress should be assisted by administering a High-Flow Nasal Cannula to mechanical ventilation. Patients who experience respiratory distress for a long time will cause a decrease in negative intrathoracic pressure which can cause interstitial pulmonary edema and will lead to an increase in mortality. Therefore, this study was prepared with the aim of analyzing the effect of intubation time on mortality of Covid-19 patients in a special resuscitation and infection room at a hospital in Indonesia. Methods: This study is a retrospective analytic observational study with a sample of 35 subjects. This study uses the criteria for respiratory distress through the 3rd edition of the COVID-19 Management Guidelines with the RR criteria> 30 times per minute. Results: The results showed that the median mortality of patients during intubation was 8 hours, while the median mortality of patients from the time the patient entered the intensive care unit until intubation was 6 hours. Conclusion: Therefore, it can be concluded that the shorter the intubation time and the time to enter the intensive care unit until intubation is carried out in Covid-19 patients, the lower the patient mortality rate.

A Clinical Study of Noninvasive Assessment of Lung Lesions in Patients with Coronavirus Disease-19 (COVID-19) by Bedside Ultrasound

Purpose This study was conducted to explore the clinical value of noninvasive assessment of bedside ultrasound in the diagnosis of lung lesions of Coronavirus Disease-19. Methods In this retrospective study, 30 patients with Coronavirus Disease-19 admitted to our hospital from January 18 to February 5, 2020, were selected as the research subjects. All cases were examined by lung ultrasound and CT. Lung lesions were reviewed by blinded observers, with imaging scores being used to analyze the ultrasound findings of lung lesions in patients with Coronavirus Disease-19 and with chest CT being used as the reference standard. The clinical value of ultrasound in the noninvasive assessment of lung lesions was evaluated. Results Lung ultrasound signs in patients with Coronavirus Disease-19 were mainly manifested as interstitial pulmonary edema (90.0 %, 27/30) and pulmonary consolidations (20.0 %, 6/30). The lung lesions were mainly distributed in the subpleural and peripheral pulmonary zones. The lower lobe and the dorsal region had a greater tendency to be involved. There was moderate agreement (Kappa = 0.529) between the noninvasive assessment of bedside ultrasound for lung lesions in patients with Coronavirus Disease-19 and CT. The ultrasound scores to evaluate mild, moderate and severe lung lesions exhibited sensitivity of 68.8 % (11/16), 77.8 % (7/9), 100.0 % (2/2), specificity of 85.7 % (12/14), 76.2 % (16/21), 92.9 % (26/28), and diagnostic accuracy of 76.7 % (23/30), 76.7 % (23/30), 93.3 % (28/30), respectively. The follow-up dynamic ultrasound examination showed that the condition of all patients worsened gradually, with the ultrasound scores of lung lesions increasing to varying degrees. Conclusion Though the diagnostic efficacy of bedside ultrasound is relatively low for mild to moderate patients, it is high for severe patients. Bedside ultrasound has important clinical significance for noninvasive assessment and dynamic observation of lung lesions in patients with Coronavirus Disease-19, which is worth further consideration.

Heavy upright exercise increases ventilation-perfusion mismatch in the basal lung: indirect evidence for interstitial pulmonary edema

Ventilation-perfusion (V̇a/Q̇) mismatch during exercise may result from interstitial pulmonary edema if increased pulmonary vascular pressure causes fluid efflux into the interstitium. If present, the increased fluid may compress small airways or blood vessels, disrupting V̇a/Q̇ matching, but this is unproven. We hypothesized that V̇a/Q̇ mismatch would be greatest in basal lung following heavy upright exercise, consistent with hydrostatic forces favoring edema accumulation in the gravitationally dependent lung. We applied new tools to reanalyze previously published magnetic resonance imaging data to determine regional V̇a/Q̇ mismatch following 45 min of heavy upright exercise in six athletes (V̇o2max = 61 ± 7 mL·kg−1·min−1). In the supine posture, regional alveolar ventilation and local perfusion were quantified from specific ventilation imaging, proton density, and arterial spin labeling data in a single sagittal slice of the right lung before exercise (PRE), 15 min after exercise (POST), and in recovery 60 min after exercise (REC). Indices of V̇a/Q̇ mismatch [second moments (log scale) of ventilation (LogSDV) and perfusion (LogSDQ) vs. V̇a/Q̇ distributions] were calculated for apical, middle, and basal lung thirds, which represent gravitationally nondependent, middle, and dependent regions, respectively, during upright exercise. LogSDV increased after exercise only in the basal lung (PRE 0.46 ± 0.06, POST 0.57 ± 0.14, REC 0.55 ±0.14, P = 0.01). Similarly, LogSDQ increased only in the basal lung (PRE 0.40 ± 0.06, POST 0.51 ± 0.10, REC 0.44 ± 0.09, P = 0.04). Increased V̇a/Q̇ mismatch in the basal lung after exercise is potentially consistent with interstitial pulmonary edema accumulating in gravitationally dependent lung during exercise. NEW & NOTEWORTHY We reanalyzed previously published MRI data with new tools and found increased ventilation-perfusion mismatch only in the basal lung of athletes following 45 min of cycling exercise. This is consistent with the development of interstitial edema in the gravitationally dependent lung during heavy exercise.