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Cardiac surgery is a procedure that is commonly performed worldwide. Despite these technological advances, cardiac surgery remains a high-risk surgery. Among post-operative complications, acute kidney injury, respiratory failure, myocardial infarction, and stroke as well as cognitive dysfunction are significant causes of mortality in patients undergoing and following cardiac surgery. Inhaled nitric oxide (NO) therapy as a selective pulmonary vasodilator in cardiac surgery has been one of the most significant pharmacological advances in managing pulmonary hemodynamics and life threatening right ventricular dysfunction and failure. In addition, newer applications show greater promise of inhaled NO as a therapy in the area of cardiac surgery associated acute kidney injury and ischemia reperfusion. However, this remarkable expectation to inhaled NO has experienced a roller-coaster ride with high hopes and nearly universal demonstration of physiological benefits but disappointing translation of these benefits to harder clinical outcomes, like mortality. Most of our understanding on the iNO field in cardiac surgery stems from small observational or single center randomized trials, which failed to ascertain strong evidence base. As a consequence, there are only week clinical practice guidelines on the field and only European expert opinion for the use of iNO in routine and more specialized cardiac surgery. There is need for a large multicenter randomized controlled study to confirm the administration of iNO as an effective weapon for the battle against life threatening complication in high risk cardiac surgical patients. In a previous meta analysis with 27 studies included, we demonstrated that inhaled nitric oxide (NO) could reduce the duration of mechanical ventilation and reducing biomarkers of organ injury and clinical signs of organ dysfunction in cardiac surgery under cardiopulmonary bypass (CPB) , but had no significance in the ICU stay, hospital stay, and mortality. This may be attributed to the small sample size of the most included studies (of the 27 studies included, 20 studies with sample size less than 100) and heterogeneity in timing, dosage and duration of iNO administration. Well-designed, large-scale, multicenter clinical trials are needed to further explore the effect of iNO in improving postoperative prognosis in cardiovascular surgical patients. We are planning a large multicenter controlled randomized trial to demonstrate that inhaled nitric oxide can reduce composite outcome of death and Major Adverse Events (MAEs), including need for intensive supports due to heart failure, low cardiac output sydrome, or renal failure, respiratory failure, etc., and myocardial infarction, stroke, and sepsis at 30 days after surgery from 20% to 16% in patient undergoing cardiac surgery with cardiopulmonary bypass. If the hypothesis had been proved and validated, the results of this study can provide strong evidence for guidelines to facilitate the routine use of iNO in all cardiopulmonary bypass assisted cardiac procedures with 31,800 postoperative outcomes improved per year in US and in China.
The goal of this observational study is to determine whether a marker of dead space (the end-tidal to alveolar dead space fraction \[AVDSf\]) is more strongly associated with mortality risk than markers of oxygenation abnormality (oxygenation index) and to determine whether dead space (AVDSf) is an important marker of heterogeneity in the inhaled nitric oxide (iNO) treatment effect for children with acute respiratory distress syndrome (ARDS). The study aims are: 1. To validate AVDSf for risk stratification of mortality in pediatric ARDS 2. To determine if there is heterogeneity in treatment effect for iNO defined by AVDSf 3. To detect the association between AVDSf and microvascular dysfunction trajectory and whether iNO therapy modifies this association This is a prospective, multicenter observational study of 1260 mechanically ventilated children with moderate to severe ARDS. In a subgroup of 450 children with severe ARDS, longitudinal blood samples will be obtained to measure plasma protein markers.
RESIST PAD is a randomized trial of 200 PAD patients to establish: 1) whether a 12-week exercise intervention significantly increases Δ nitrite at 12-week follow-up, compared to control; 2) whether exercise "responders" have greater Δ nitrite increases compared to "non-responders"; 3) among non-responders, whether supplementing exercise with nitrate-rich beetroot juice between weeks 13-24 increases Δ nitrite and improves 6-minute walk at 24-week follow-up.
The increase in skin blood flow in response to rapid local heating of the skin (i.e., cutaneous vasodilation) is commonly used to assess nitric oxide (NO)-dependent dilation and overall microvascular function. Historically, rapid local heating to 42°C was considered the standard approach for these assessments. More recently, many investigators have adopted rapid local to 39°C instead, based on its larger dependency on NO and therefore improved ability to quantify NO-dependent dilation without the use of pharmacological techniques. However, to date, only one direct methodological comparison between these protocols has been performed. In this study, the investigators use the blood vessels in the skin as a representative vascular bed for examining mechanisms of microvascular dysfunction in humans. Using a minimally invasive technique (intradermal microdialysis for the local delivery of pharmaceutical agents) they examine the blood vessels in a nickel-sized area of the skin in young adults ages 18 - 30 years old. Local heating of the skin at the microdialysis sites is used to explore differences in mechanisms governing microvascular control. As a compliment to these measurements, the investigators also have participants fill out a variety of surveys to assess things such as sleep quality, physical activity, daily stressors, etc.
this study is aiming at learning more about primary ciliary dyskinesia (PCD) and tests that are used to diagnose this condition. One purpose of this study is to measure the level of nitric oxide in the nasal passages and examine how often the results correlate with other tests currently done to make the diagnosis.
This study will focus on people with claudication from peripheral arterial disease. The investigators are researching whether a multicomponent therapeutic can increase the production of Nitric Oxide in the blood and whether that leads to an improvement in pain free walking distance and overall physical activity.
The purpose of this study is to determine the effect of a dietary supplement rich in nitric oxide (NO) on nasal nitric oxide and fractional exhaled nitric oxide (FeNO),on ciliary beat frequency assessed by high-speed digital video microscopy and on lung function assessed by spirometry in normal patients and patients with Primary ciliary dyskinesia (PCD).
Currently, there is a lack of evidence-based prevention strategies for respiratory infection and management of these conditions can be costly to the public. Airway nitric oxide provides a first line of defense against pathogens, and beetroot juice, a source of dietary nitrate, has been shown to elevate nitric oxide. The main objective of this project is to demonstrate that one week of supplementation with beetroot juice elevates airway nitric oxide during stressful periods in young adults and thereby can protect against respiratory viral infections.
This study aims to understand the heart and blood sugar health benefits of using an adjunctive therapy to lower high insulin levels in people with type 1 diabetes. The investigators will also look at people with a specific type of diabetes called Glucokinase-Maturity Onset Diabetes of the Young (GCK-MODY) and those without diabetes to help interpret the results. The investigators will use a medication that helps the body get rid of sugar, called and SGLT2 inhibitor, with the goal to reduce the body's insulin requirements. The investigators believe this could lead to better heart and blood sugar health, including a better response to insulin and more available nitric oxide, a gas that helps blood vessels function well. The investigators will compare heart and blood sugar health risk factors in participants with type 1 diabetes, participants with Glucokinase-Maturity Onset Diabetes of the Young (GCK-MODY), and non-diabetic healthy volunteers under two conditions: high insulin levels typical of type 1 diabetes and normal insulin levels typical of the other two groups.
This study is researching a drug called dupilumab. The study is focused on patients who have uncontrolled asthma. Asthma is a condition where the airways narrow and swell, making it difficult to breathe. Uncontrolled asthma means that patients are still having frequent symptoms while taking their current asthma medication. The aim of the study is to see which regimen is more effective: taking dupilumab with an inhaled asthma medication or only taking a higher dose of the inhaled asthma medication. The type of asthma medication that will be used is a combination inhaled corticosteroid and long-acting beta-agonist (referred to as an ICS/LABA). Some patients may also receive an additional asthma medication called a long-acting muscarinic antagonist (referred to as a LAMA) if they are already receiving a LAMA. The study is also looking at: • What side effects may happen from taking dupilumab