Study of Renin-angiotensin System in Mechanically Ventilated Subjects
Acute Lung InjuryThe purpose of this study is to assess whether circulating Angiotensin (Ang) II and Ang (1-7) levels are associated with right ventricular (RV) dysfunction in mechanically ventilated subjects. It is also designed to further characterize the subject population for severity of RV dysfunction. This study will investigate the association of renin-angiotensin system (RAS) peptides and markers of RV function, as measured by echocardiography, in subjects requiring acute mechanical ventilation. Maximum 150 subjects will be enrolled for the study and they will be evaluated over three days period using standard of care investigations, including trans-thoracic echocardiography (TTE) and/or trans-esophageal echocardiography (TOE) echocardiography. The maximum total duration of this study for subjects is 28 days.
Role of Ascorbic Acid Infusion in Critically Ill Patients With Transfusion Related Acute Lung Injury...
Acute Lung InjuryTransfusion RelatedTRALI was defined as "acute noncardiogenic pulmonary edema typically occurs ≤ 6 hours following transfusion of plasma-containing blood products, such as packed red blood cells, fresh frozen plasma, platelets, or cryoprecipitate." In critically ill patients, TRALI remains the leading cause of transfusion-related fatalities and is accompanied by a very significant morbidity and mortality. Survival in such patients is as low as 53% compared with 83% in acute lung injury (ALI) controls. The incidence of TRALi is likely underreported. In densely populated developing countries, incidence has not decreased due to lack of male-only strategy for plasma donation. TRALI is associated with systemic inflammation characterized by low anti-inflammatory cytokine as interleukin (IL)-10, increased pro-inflammatory cytokine as IL-8. Regulation of inflammation should include avoidance of overproduction of inflammatory mediators. So, it can be dampened not only by increasing IL-10 but also by decreasing IL-1β release. C-reactive protein (CRP) is an acute phase protein which is up-regulated during infections and inflammation. CRP was recently identified as a novel first hit in TRALI. Till now, there is no established treatment for TRALI beyond supportive care and monitoring. Recently, potential therapies have been reviewed, and it was concluded that the most promising therapeutic strategies are IL-10 therapy, downregulation of CRP levels, targeting reactive oxygen species (ROS) or blocking IL-8 receptors. So, antioxidants (such as high dose vitamins), were recommended for future studies as potentially effective treatment. Vitamin C hypovitaminosis is observed in 70% of critically ill despite receiving recommended daily doses. The aim of this study is to investigate the role of intravenous vitamin C (ascorbic acid) as a targeted therapy for transfusion related acute lung injury (TRALI) in critically ill patients in terms of IL-8, IL-10, CRP, SOD, malondialdehyde (MDA), vasopressor use, duration of mechanical ventilation, ICU length of stay, 7-days mortality and 28-days mortality.
Iloprost Effects on Gas Exchange and Pulmonary Mechanics
Acute Respiratory Distress SyndromeAcute Lung Injury1 moreThis study will examine the hypothesis that iloprost maintains and improves ventilation perfusion matching in patients with pulmonary hypertension and ARDS/ALI as reflected by 1) an improved PaO2/FIO2 ratio as calculated from the measured arterial blood gases obtained before and after iloprost administration, 2) an improvement in lung compliance, and 3) an improvement in the ventilatory equivalents for oxygen and CO2 measured by expired gas analysis.
Safety, Tolerability and Preliminary Efficacy of FP-1201 in ALI and ARDS. Phase I/II
Acute Lung InjuryAcute Respiratory Distress SyndromeThe purpose of this study was to assess the safety, tolerability and preliminary efficacy of FP-1201 (Interferon Beta) in patients with Acute Lung Injury (ALI) and Acute Respiratory Distress Syndrome (ARDS).
A Phase II Randomized Trial of Fish Oil in Patients With Acute Lung Injury (ALI)
Respiratory Distress SyndromeAdult2 moreThe purpose of this study is to determine whether fish oil (containing omega-3 fatty acids) given enterally is safe and effective in reducing lung and systemic inflammation seen in acute lung injury.
The Effect of Two Different Intra-abdominal Pressure Applications on "Mechanical Power" in Laparoscopic...
Ventilator-induced Lung InjuryIn laparoscopic surgeries; a trocar is inserted through a small incision and an intervention is made into the peritoneal cavity. Approximately 3-4 liters of carbon dioxide (CO2) insufflation (inflating the abdominal cavity with carbon dioxide gas) is applied and the intra-abdominal pressure is adjusted to 10-20 mmHg. Laparoscopic cholecystectomy operation is routinely performed with 12 mmHg and 14 mmHg pressures in our operating room, and the preferred pressure value is; It is determined by the surgical team to be the most appropriate value for the patient and the operation. Both pressure values applied to the patients intraoperatively are within safe ranges. The mechanical power of ventilation (MP) is the amount of energy transferred per unit time from the mechanical ventilator to the respiratory system. Although this energy is mainly used to overcome airway resistance, some of it directly affects the lung tissue, potentially causing ventilator induced lung injury (VILI). To prevent ventilator-associated lung injury, it requires the mechanical ventilator to be adjusted so that the least amount of energy is transferred to the respiratory system per unit time for each patient. In the results obtained in the published studies; increased mechanical strength has been associated with increased in-hospital mortality, higher hospital stay and higher ICU follow-up requirement. The aim of this study is to investigate the effect of two different intra-operative intra-abdominal pressure levels applied to patients who underwent laparoscopic cholecystectomy under general anesthesia on 'Mechanical Power (MP)'.
TD-0903 for ALI Associated With COVID-19
Acute Lung Injury (ALI) Associated With COVID-19Lung Inflammation Associated With COVID-19This Phase 2 study will evaluate the efficacy, safety, pharmacodynamics and pharmacokinetics of inhaled TD-0903 compared with a matching placebo in combination with standard of care (SOC) in hospitalized patients with confirmed COVID-19 associated acute lung injury and impaired oxygenation.
Intravenous Aviptadil for Critical COVID-19 With Respiratory Failure
Critical COVID-19 With Respiratory FailureAcute Respiratory Distress Syndrome (ARDS)2 moreNovel Corona Virus (SARS-CoV-2) is known to cause Respiratory Failure, which is the hallmark of Acute COVID-19, as defined by the new NIH/FDA classification. Approximately 50% of those who develop Critical COVID-19 die, despite intensive care and mechanical ventilation. Patients with Critical COVID-19 and respiratory failure, currently treated with high flow nasal oxygen, non-invasive ventilation or mechanical ventilation will be treated with ZYESAMI (aviptadil), a synthetic form of Human Vasoactive Intestinal Polypeptide (VIP) plus maximal intensive care vs. placebo + maximal intensive care. Patients will be randomized to intravenous Aviptadil will receive escalating doses from 50 -150 pmol/kg/hr over 12 hours.
TD-0903 Pharmacokinetics Study in Healthy Participants With Supplemental Oxygenation
Acute Lung Injury (ALI) Due to Coronavirus Disease-2019 (COVID-19)This is a Phase 1 pharmacokinetic (PK) study in healthy participants to assess the plasma pharmacokinetics, safety, and tolerability of a single inhaled dose of nezulcitinib (TD-0903) with supplemental oxygenation.
High Frequency Oscillatory Ventilation Combined With Intermittent Sigh Breaths: Effects on Lung...
Respiratory Distress Syndrome In Premature InfantsBronchopulmonary Dysplasia2 moreBackground Ventilator induced lung injury (VILI) remains a problem in neonatology. High frequency oscillatory ventilation (HFOV) provides effective gas exchange with minimal pressure fluctuation around a continuous distending pressure and therefore small tidal volume. Animal studies showed that recruitment and maintenance of functional residual capacity (FRC) during HFOV ("open lung concept") could reduce lung injury. "Open lung HFOV" is achieved by delivering a moderate high mean airway pressure (MAP) using oxygenation as a guide of lung recruitment. Some neonatologists suggest combining HFOV with recurrent sigh-breaths (HFOV-sigh) delivered as modified conventional ventilator-breaths at a rate of 3/min. The clinical observation is that HFOV-sigh leads to more stable oxygenation, quicker weaning and shorter ventilation. This may be related to improved lung recruitment. Electric Impedance Tomography (EIT) enables measurement and mapping of regional ventilation distribution and end-expiratory lung volume (EELV). EIT generates cross-sectional images of the subject based on measurement of surface electrical potentials resulting from an excitation with small electrical currents and has been shown to be a valid and safe tool in neonates. Purpose, aims: To compare HFOV-sigh with HFOV-only and determine if there is a difference in global and regional EELV (primary endpoints) and spatial distribution of ventilation measured by EIT To provide information on feasibility and treatment effect of HFOV-sigh to assist planning larger studies. We hypothesize that EELV during HFOV-sigh is higher, and that regional ventilation distribution is more homogenous. Methods: Infants at 24-36 weeks corrected gestational age already on HFOV are eligible. Patients will be randomly assigned to HFOV-sigh (3 breaths/min) followed by HFOV-only or vice versa for 4 alternating 1-hours periods (2-treatment, double crossover design, each patient being its own control). During HFOV-sigh set-pressure will be reduced to keep MAP constant, otherwise HFOV will remain at pretrial settings. 16 ECG-electrodes for EIT recording will be placed around the chest at study start. Each recording will last 180s, and will be done at baseline and at 30 and 50 minutes after each change in ventilator modus. Feasibility No information of EIT-measured EELV in babies on HFOV-sigh exists. This study is a pilot-trial. In a similar study-protocol of lung recruitment during HFOV-sigh using "a/A-ratio" as outcome, 16 patients was estimated to be sufficient to show an improvement by 25%. This assumption was based on clinical experience in a unit using HFOV-sigh routinely. As the present study examines the same intervention we assume that N=16 patients will be a sufficient sample size. We estimate to include this number in 6 months.