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Lung Injury clinical trials

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NCT ID: NCT04693403 Completed - Clinical trials for Acute Respiratory Distress Syndrome

Adult Respiratory Failure Intervention Study Africa

ARISE-AFRICA
Start date: March 13, 2023
Phase: N/A
Study type: Interventional

The dearth of Intensive care units in low resource settings portends for poor outcomes amongst patients with acute hypoxemic respiratory failure (AHRF) . To our knowledge, the effect of CPAP and HFNC on major outcomes has not been assessed in adults with AHRF in resource-limited settings. The aim of this prospective, multicenter, randomized, controlled, trial is to determine whether High-flow oxygen through a nasal cannula (HFNC) or Continuous positive airway pressure (CPAP) system can reduce mortality among patients with acute hypoxemic respiratory failure (AHRF) in a limited resource setting as compared with standard low flow oxygen therapy?

NCT ID: NCT04686331 Completed - Clinical trials for Community-acquired Pneumonia

Accuracy of Lung Injury Biomarkers in the Initial Investigation of Patients With Suspected Pneumonia

Start date: March 1, 2021
Phase:
Study type: Observational

The aim of this study is to investigate the diagnostic and prognostic value of surfactant protein D, Krebs von den Lungen (KL-6), and Chitinase-3-like protein 1 (YKL-40) in the initial investigation of patients hospitalized with suspected pneumonia. This to improve the diagnosis of pneumonia, contribute to a more rapid and accurate antibiotic treatment, and assess disease severity to predict short-term and long-term mortality in community-acquired pneumonia patients.

NCT ID: NCT04660448 Completed - Clinical trials for Acute Respiratory Distress Syndrome

Lung Ultrasound Score and Pediatric Intensive Care Outcomes (LUS-PICO)

LUS-PICO
Start date: December 1, 2020
Phase:
Study type: Observational [Patient Registry]

Bedside lung ultrasonography helps to obtain reliable clinical information about lung aeration, that has been categorized by means of the so-called lung ultrasound score (LUS). In critically ill adults, LUS has been related with the outcome both in patients with respiratory and some non-respiratory conditions. Pediatric studies about lung aeration have been done mainly on postoperative cardiac patients and infants with bronchiolitis. In this prospective, observational, multicenter, feasibility and diagnostic accuracy study, we will explore the degree of lung aeration impairment as a potential outcome predictor in critically ill children with a variety of underlying conditions. Children from 1 month to 18 years of age admitted to PICU will be recruited and LUS will be calculated at two time points: at 12 ± 6 hours and at 48-72 hours. Univariate and multivariate statistical analysis will be performed in order to ascertain the outcome influence of clinical factors in general and LUS in particular.

NCT ID: NCT04645316 Completed - Lung Injury Clinical Trials

The Effect of Sevoflurane and Desflurane on Clara Cell Protein on the Lung

Start date: November 25, 2020
Phase: N/A
Study type: Interventional

Inhalation anesthesia; It means that the anesthetic drugs taken by the respiratory tract pass into the blood through the lung alveoli, reach the brain tissue, and create an anesthetic effect according to the density in the brain tissue. All inhalation anesthetics affect organ functions to varying degrees. Clara cell has been shown to have cell regeneration, immunomodulatory, anti-inflammatory and antioxidant activity in the bronchial epithelium. It is also thought that some substances accumulated in the respiratory system participate in the detoxification. Clara cell protein acts as a protein marker that indicates the severity of airway injuries after exposure to irritants. In this study, we planned to investigate the effect of inhalation anesthetics on Clara cell protein in liver transplant donors who will undergo hepatectomy surgery.

NCT ID: NCT04641897 Completed - Clinical trials for Acute Respiratory Distress Syndrome

Impact of Decreasing Respiratory Rate on Lung Injury Biomarkers in ARDS Patients

Start date: March 1, 2020
Phase: N/A
Study type: Interventional

Acute respiratory distress syndrome (ARDS) is a form of acute lung injury of inflammatory origin, which represents a public health problem worldwide due to its prevalence, and its high mortality rate, close to 40%. Mechanical ventilation is a fundamental therapy to improve gas exchange, however, it can also induce further lung injury, a phenomenon known as ventilator induced lung injury (VILI). The limitation of tidal volume is the strategy that has shown the greatest decrease in mortality and is the cornerstone of protective ventilation. However, the respiratory rate, a fundamental parameter in the programming of the mechanical ventilator, has not been evaluated in most of the main clinical studies to date. Moreover, the natural clinical response to the use of a low tidal volume strategy is the increase in respiratory rate, which may harm the lung as it increases the energy applied to the lung parenchyma. The investigators hypothesize that the use of a lower respiratory rate, tolerating moderate hypercapnia, is associated with less VILI, measured by the release of proinflammatory mediators at the systemic level (biotrauma), compared to a conventional higher respiratory rate strategy in patients with moderate to severe ARDS. This effect is mediated by lower energy applied to the pulmonary parenchyma. To confirm this hypothesis the investigators propose a prospective cross-over clinical trial in 30 adult patients with ARDS in its acute phase, which will be randomized to two sequences of ventilation. Each period will last 12 hours, and respiratory rate (RR) will be set according to PaCO2 goal: 1) Low RR, PaCO2 60-70 mmHg; and 2) High RR, PaCO2 35-40 mmHg. Protective ventilation will be applied according to ICU standards under continuous sedation and neuromuscular blockade. Invasive systemic arterial pressure and extravascular lung water will be monitored through an arterial catheter (PICCO® system), and airway and esophageal pressures and hemodynamics continuously measured throughout the protocol. The main outcome will be Interleukin-6 in plasma. At baseline and at the end of each period blood samples will be taken for analysis, and electrical impedance tomography (EIT) and transthoracic echocardiography will be registered. After the protocol, patients will continue their management according to ICU standards.

NCT ID: NCT04607434 Completed - Immunosuppression Clinical Trials

Mechanism of Delayed Neutrophil Apoptosis in Acute Lung Injury

Start date: January 1, 2021
Phase:
Study type: Observational

Literature basis Acute respiratory distress syndrome (ARDS) is a clinical syndrome characterized by respiratory distress and progressive hypoxemia, which is caused by diffuse alveolar and pulmonary interstitial edema caused by various pulmonary and extrapulmonary factors other than cardiogenic factors. ARDS incidence rate is as high as 75 /10 000 per year, and sepsis and pulmonary infection are the most common causes. In the past, it was generally believed that excessive immune activation is the core of the pathophysiology of ARDS, and neutrophils are recognized as the core driver of inflammatory hyperactivity and lung injury in ARDS. Although some progress has been made in the epidemiology, pathogenesis and pathophysiology of ARDS in the past 50 years, and the clinical outcomes of some patients with ARDS have been improved by optimizing the mode of mechanical ventilation and fluid treatment, as well as prone ventilation and the use of muscle relaxants, ARDS is still one of the most common causes of death and disability in intensive care units, The mortality rate of the disease is currently as high as 30-40%. There is still a lack of effective drugs for the treatment of ARDS in clinic, and even glucocorticoids applied for immune overactivation have not achieved good results. This is related to the unclear pathogenesis of ARDS. Therefore, it is still a hot and difficult point to further explore the pathogenesis and progression of ARDS and find new therapeutic targets. In the past, mature PMN in peripheral blood was generally considered as a functional cell in the end stage, but it is widely involved in different innate immune responses (including inflammation, infection, tumor, autoimmunity, etc.) and can adopt very different effector mechanisms. Therefore, with the deepening of research, neutrophil subtypes with different functions (such as immune regulation and repair) have been identified in recent years: cd16dimcd62lbrightpmn and cd16brightcd62ldimmpmn. In the steady state of healthy people, the classic mature neutrophils (cd16brightcd62lbright) in peripheral blood account for more than 98% of the total PMN, and the proportion of the two neutrophil subtypes is relatively low. In the inflammatory state, the proportion of cd16dimcd62lbright and cd16brightcd62ldim neutrophils increased significantly. Proteomic analysis showed that there were significant differences between the two subtypes of neutrophils. The nucleus of cd16dimcd62lbright neutrophil subgroup is banded, which is released from bone marrow after being stimulated by lipopolysaccharide (LPS). It accounts for 20% - 25% of PMN in whole blood in LPS infection model. The apoptosis rate is significantly reduced, and the bacteriostatic effects such as oxidative burst and phagocytosis are significantly enhanced; On the contrary, cd16brightcd62ldim neutrophil subgroup has reduced antibacterial ability and shows immunosuppressive phenotype. It is a newly discovered neutrophil subtype with immunosuppressive function in recent years, which can inhibit T cell proliferation, which is related to immunosuppression in the experimental human endotoxemia model. In our previous studies, we have successfully obtained a new amino acid derivative of ocotillol ginsenoside, which may have the pharmacological activities of ocotillol ginsenoside and glycine, and has a potential role in improving the delay of apoptosis and immunosuppression of ARDS neutrophil subtypes, and has the potential of new drug development for the treatment of ARDS. The experimental steps are as follows: Firstly, the peripheral blood of ARDS patients in ICU was collected, and neutrophils were isolated from the peripheral blood. The proportion of neutrophil subtypes and the degree of apoptosis were detected by flow cytometry. Co culture with human T lymphocytes in vitro to observe its ability to inhibit T cell proliferation. Then, the neutrophils of ARDS patients were cultured with different doses of ginsenoside glycine derivatives, and the detection of the above indexes was repeated again. Finally, the mechanism of neutrophils in the pathogenesis and progression of ARDS was discussed.

NCT ID: NCT04541199 Completed - Acute Lung Injury Clinical Trials

Driving Pressures in a Closed-loop and a Conventional Mechanical Ventilation Mode

Start date: August 30, 2019
Phase: N/A
Study type: Interventional

In mechanically ventilated patients, driving pressure (ΔP) assess the strain applied to the respiratory system and is related to ICU mortality. The aim of this randomized cross-over trial was to compare ΔP selected by a closed-loop system and by physician tailored mechanical ventilation mode. Pediatric patients admitted to PICU will be enrolled if they were invasively ventilated without any detectable respiratory effort, hemodynamic instability, or significant leakages. Two 60 minute periods of ventilation determined by randomization in APV-CMV and ASV 1.1 will be compared. Settings were adjusted to reach the same minute ventilation in both modes. ΔP will be calculated as the difference between plateau pressure and total PEEP measured using end-inspiratory and end-expiratory occlusion maneuvers, respectively.

NCT ID: NCT04519606 Completed - Clinical trials for Ventilator-Induced Lung Injury

Respiratory Mechanics During One-lung Ventilation

Start date: December 1, 2020
Phase:
Study type: Observational [Patient Registry]

Intraoperative lung protective ventilatory strategy has been widely recognized to reduce postoperative pulmonary complications in laparotomy and laparoscopic surgeries. However, the clinical evidence and consensus for ventilatory strategy to protect the dependent lung segments during thoracic surgery that requires one-lung ventilation (OLV) is currently not available. Since lung compliance changes significantly during OLV, the levels of respiratory mechanics should be optimized to avoid barotrauma and volutrauma. This study aims to determine the optimal levels of volume-pressure dynamics during OLV and at the phase of recruitment of the independent lungs by achieving optimal lung compliance, gas exchange and hemodynamics.

NCT ID: NCT04449081 Completed - Septic Shock Clinical Trials

Knowledge, Attitude and Practice of Dental Students About COVID-19

Start date: April 25, 2020
Phase:
Study type: Observational

Coronavirus disease 2019 (abbreviated "COVID- 19") is a pandemic respiratory disease that is caused by a novel coronavirus and was first detected in December 2019 in Wuhan, China. The disease is highly infectious, and its main clinical symptoms include fever, dry cough, fatigue, myalgia, and dyspnoea.1 In China, 18.5% of the patients with COVID-19 developed to the severe stage, which is characterized by acute respiratory distress syndrome, septic shock, difficult-to-tackle metabolic acidosis, and bleeding and coagulation dysfunction. After China, COVID-19 spread across the world and many governments implemented unprecedented measures like suspension of public transportation, the closing of public spaces, close management of communities, and isolation and care for infected people and suspected cases. The Malaysian government had enforced Movement Control Order (MCO) from 18th March to 4th May 2020 and henceforth Conditional Movement Control Order (CMCO) until 9th June 2020. The battle against COVID-19 is still continuing in Malaysia and all over the world. Due to the CMO and CMCO in the country, public and private universities have activated the e-learning mode for classes and as the government ordered, universities are closed and no face-to-face activities allowed. This has forced students of all disciplines including dentistry to stay at home which are wide-spread across Malaysia and shift to e- learning mode. To guarantee the final success for fight against COVID-19, regardless of their education status, students' adherence to these control measures are essential, which is largely affected by their knowledge, attitudes, and practices (KAP) towards COVID-19 in accordance with KAP theory. Once the restrictions are eased students have to come back and resume their clinical work in the campus. Hence, in this study we assessed the Knowledge, Attitude, and Practice (KAP) towards COVID-19 and the students preference for online learning.

NCT ID: NCT04412057 Completed - ARDS Clinical Trials

Clinical Trial to Evaluate CERC-002 in Adults With COVID-19 Pneumonia and Acute Lung Injury

Start date: July 17, 2020
Phase: Phase 2
Study type: Interventional

The study is a prospective, randomized, placebo-controlled, double-blind phase 2 clinical study of the efficacy and safety of CERC-002, a potent inhibitor of LIGHT (Lymphotoxin-like, exhibits Inducible expression, and competes with Herpes Virus Glycoprotein D for Herpesvirus Entry Mediator, a receptor expressed by T lymphocytes), for the treatment of patients with 2019 novel coronavirus disease (COVID-19) pneumonia who have mild to moderate Acute Respiratory Distress Syndrome (ARDS). LIGHT is a cytokine in the tumor necrosis factor super family (TNFSF14) which drives inflammation and induces many other cytokines including IL-1, IL-6 and GM-CSF. LIGHT levels have been shown to be elevated in COVID-19 infected patients and inhibiting LIGHT is hypothesized to ameliorate the cytokine storm which has shown to be a major factor in progression of ARDS. The study will assess the efficacy and safety of CERC-002 in patients with severe COVID-19 over a 28 day period as single dose on top of standard of care.