Active clinical trials for "Hypercapnia"

The Autonomic (or "automatic") Nervous System (ANS) regulates internal processes, including control of heart rate and blood pressure (BP). When someone stands, and gravity tries to pull blood away from the brain, the ANS works to maintain BP and brain blood flow. Neurogenic Orthostatic Hypotension (NOH) occurs when our "fight-or-flight" part ("sympathetic") of the ANS fails. BP can drop a lot when upright, reducing blood flow and oxygen delivery to the brain, and this can cause symptoms of light-headedness, nausea, and fainting. One solution to help counter the effects of NOH may be to increase sympathetic activity by breathing higher levels of carbon dioxide. In healthy volunteers, small increases in the amount of inhaled carbon dioxide has been shown to increase BP in the upright position, and this improves symptoms! The objectives of the current study are to apply carbon dioxide in patients with NOH and healthy controls to: (a) evaluate the effects of breathing carbon dioxide on BP and brain blood flow, and (b) determine if a device that increases carbon dioxide while standing will work as a new therapy

Opioids are potent painkillers but come with serious adverse effects ranging from addiction to potentially lethal respiratory depression via activation of μ-opioid receptors (MOP) at specific sites in the central nervous system. Cebranopadol is a first-in-class investigational drug to treat patients with acute and chronic pain. The molecule dually activates the Nociceptin/Orphanin FQ peptide (NOP) receptor and the classical MOP receptor. This is a unique mechanism of action and has demonstrated efficacy in multiple Phase 2 and Phase 3 clinical studies across several nociceptive and neuropathic indications as well as a superior safety profile, low potential for abuse and minimal risk of physical dependence. In animal studies, cebranopadol produced considerably less respiratory depression at comparably analgesic doses of oxycodone and fentanyl and appeared to have a ceiling to its respiratory effects. Preliminary clinical trials have suggested that these results will be similar in humans. The present study is designed to investigate if: 1) cebranopadol produces less respiratory depression than oxycodone 2) cebranopadol respiratory effects have a ceiling at very high doses and 3) cebranopadol does not produce significant respiratory depression, as measured in this study design with 30 subjects, at any dose in the VRH model.

Chronic hypercapnic respiratory failure (CHRF) in the context of Chronic Obstructive Pulmonary Disease (COPD) and Obesity Hypoventilation Syndrome (OHS) is associated with increased mortality. The availability and effectiveness of domiciliary Non-invasive ventilation (NIV) treatment (when indicated) is key as this treatment can improve quality of life and reduce health-care costs from associated burden of disease. The emerging obesity epidemic means that there is now increased home mechanical ventilation set-ups in patients with obesity related respiratory failure (ORRF), yet there are no alternative treatments for patients struggling with domiciliary NIV. Domiciliary NHF has been shown to improve health related quality of life in stable CHRF in patients with COPD and improve cost effectiveness yet there are no current studies looking at the use of domiciliary NHF and its outcomes in ORRF. The study aims to deliver a pre and post intervention study evaluating patient reported and clinical outcomes in patients using NHF over twelve weeks, who have either COPD or OHS and have been unable to use domiciliary NIV. The study wishes to address key outcomes such as quality of life, clinical effectiveness, compliance and acceptability with the use of domiciliary NHF in both of these patient populations.

Patients with moderate to severe acute exacerbation of chronic obstructive pulmonary disease are often complicated with hypercapnia and respiratory failure, so they need to be admitted to ICU for monitoring and respiratory support treatment. Noninvasive ventilation has become the first-line respiratory support for the treatment of AECOPD with hypercapnia and respiratory failure. However, 26-54% of AECOPD patients with hypercapnia and respiratory failure eventually fail to receive noninvasive ventilation and need endotracheal intubation and invasive ventilation to maintain effective gas exchange. For these patients, the in-hospital survival rate is only 31-76%, and the prognosis is poor. In AECOPD patients with high risk of noninvasive ventilation failure and expected need of intubation, timely giving other ways of respiratory support to reduce blood CO2 may avoid patients receiving tracheal intubation and invasive ventilation, thus avoiding related complications and adverse prognosis. As a new type of respiratory support technology, ECCO2R is worthy of attention in monitoring and evaluation of support effect in AECOPD patients with respiratory failure. It is urgent that ECCO2R can effectively alleviate respiratory failure, avoid complications related to tracheal intubation, improve quality of life and reduce mortality.

The aims of the study are to compare long-term one-year outcome with or without AirvoTM in stabile hypercapnic COPD patients, who are non-compliant to NIV after an acute exacerbation of COPD.

The aim of this study is to conduct a prospective, single-center randomized controlled study to investigate the changes of plasma NFL concentration in patients undergoing laparoscopic surgery with mild hypercapnia, and further explore its impact on the central nervous system.

We hypothesized that patients with mild hypercapnia during anesthetic emergence after TIVA had a shorter recovery time than patients with normal blood carbonate levels. We will select patients undergoing transurethral lithotripsy, who were expected to have mild postoperative pain, compare tracheal extubation time in patients with normal blood carbonic acid level and mild hypercapnia, to evaluate the effect of blood carbonic acid level during anesthetic emergence on recovery time from TIVA by. We also examined the changes of cerebral blood flow by TCD to investigate the possible mechanism of mild hypercapnia affecting the recovery time from TIVA.

Chronic Obstructive Pulmonary Disease (COPD) patients are more likely to develop acute hypercapnic respiratory failure. In the acute phase, non invasive ventilation has been shown to improve mortality and reduce intubation rate. Few studies are available about long term benefits of home non invasive ventilation in COPD patients with chronic hypercapnic respiratory failure who survived after an acute episode. The purpose of this study is to determine whether home non invasive ventilation can reduce recurrent acute hypercapnic respiratory failure in COPD patients who survived an acute hypercapnic respiratory failure episode treated by non invasive ventilation.

Objective of the study is to assess the safety and efficacy of CO2 removal by the multiECCO2R (CO2 Removal System) on the multiFiltrate/multiFiltrate Pro in veno-venous extracorporeal circulation during continuous renal replacement therapy (CRRT) in patients presenting with hypercapnia due to acute lung failure and acute kidney injury.

It is estimated that 1,275,000 people in the United States alone live with spinal cord injury, including around 100,000 Veterans with spinal cord injury, making the V.A. the largest integrated health care system in the world for spinal cord injuries injury care. New therapies are needed to prevent the morbidities and mortalities associated with the high prevalence of respiratory disorders in Veterans with spinal cord injury. The current research project and future studies would set the base for developing innovative therapies for this disorder. This proposal addresses a new therapeutic intervention for sleep apnea in spinal cord injury. The investigators hypothesized that daily hypercapnia treatments improve respiratory symptoms and alleviate sleep apnea in patients with chronic spinal cord injury. The investigators will perform a pilot study to examine the impact of daily hypercapnia treatments for-two week durations among Veterans with spinal cord injury. The investigators believe that this novel approach to treating sleep apnea and will yield significant new knowledge that improves the health and quality of life of these patients.