View clinical trials related to Respiratory Insufficiency.
Filter by:Respiratory depression occurs in labor and delivery; noticeably when neuraxial opioids are given.Pathophysiological respiratory depression -failure to respond to hypercapnia or hypoxia - is challenging to measure clinically.American Society of Anesthesiologist guidelines recommend suitable respiratory monitoring for 24 hours post cesarean delivery (CD). Use of capnograph will enable us to assess breath-by-breathe respiration in a population receiving neuraxial opioids - potentially at risk for respiratory depression. Our aim is to assess our ability to capture maternal postpartum respiratory parameters in a cohort following opioid neuraxial administration for CD.
In the developed world critical illness is routinely treated in an intensive care unit (ICU) by highly specialized physicians, nurses and support staff. This model of intensive care is spreading rapidly to low and middle income countries and as it spreads, challenges and limitations to this model arise. In resource-poor settings, inadequate human resources, training, and equipment all present barriers to safe and effective use of life-saving procedures. The advances in medical informatics and human factors engineering have provided tremendous opportunity for novel and user-friendly clinical decision support (CDS) tools that can be applied in a complex and busy hospital setting. Real-time data feeds and standardized patient care tasks in a simulated acute care environment have been proven to have a significant advantage of a novel interface (compared to a conventional) in reducing provider cognitive load and errors. Currently researchers within the investigator's research group have developed and are pilot testing a simple electronic decision support tool: CERTAIN (Checklist for Early Recognition and Treatment of Acute Illness). This tool has been successfully tested and validated in simulated settings and is being implemented as pilot study in 18 countries. Worldwide infant and early childhood mortality continues to be very high partly due to the inability to recognize and respond aggressively to critical illnesses. Investigators expect that adaptation of the algorithms from CERTAIN has potential to be a powerful tool to improve on the medical care of children in developing countries. Investigators aim in this project is 1) to develop a pediatric adaptation of CERTAIN (CERTAINp) and 2) to implement it into clinical practice in resource-poor settings and evaluate the impact of the tool on the processes and patient outcomes.
Extra-corporeal membrane oxygenation (ECMO) life support system can provide both cardiac and respiratory support to patients with heart and respiratory failure. It can save time for these organs to recovery or for these patients to receive further management. However, many patients will die in spite of ECMO support. One of the key factor is whether the blood flow provided by the ECMO can meet the requirement of organ perfusion. The adequacy of macrocirculation may be determined by arterial pressure and minute blood flow of ECMO. However, the adequacy of microcirculation remains as a major unresolved clinical problem. This is a prospective observational clinical trial. The sublingual microcirculation will be examined with the incident dark field video microscope within 6 hours after venoarterial ECMO placement, and then at 24 h, 48 h, 72 h, and 96 h. The severity of multiple organ injury and clinical data will be recorded as well. The major parameters of microcirculation include total small vessel density, perfused small vessel density, and microvascular flow index. The sublingual microcirculation will also be examined before weaning off ECMO, within 6 hours after ECMO removal, and then at 24 h, 48 h, and 72 h. Serum level of endothelial cell specific molecule-1 at specific time points will be examined. The data of 14-day mortality, 28-day mortality, duration of ECMO support, and intensive care unit stay will be recorded. This study aims primarily to investigate the relationship between microcirculation and prognosis of these patients. This study will also investigate the relationship among serum level of endothelial cell specific molecule-1, microcirculation, and prognosis of these patients. Wish the results of this study can be applied in further research to help to improve the quality of ECMO care.
Background : Patient with hypoxemic respiratory failure treated with NIV receive between NIV session oxygen therapy. Gaz exchange disorder with a decrease of the ratio between Partial Pressure of Arterial Oxygen (PaO2) and Inspired Fraction of Oxygen (FIO2) are noticed when NIV is stopped at the end of the session du to alveolar derecruitment Optiflow is a high flow oxygen delivery system used a heated humidifier and heated breathing circuit. In observational studies, Optiflow increase oxygenation of patients with hypoxemic respiratory failure. Oxygenation is better than under high-concentration mask and work of breathing is reduced. The aim of the study is to compare in acute hypoxemic respiratory failure, optiflow to oxygen therapy under high-concentration mask, on patients oxygenation between NIV sessions (measured as the difference between PaO2/FiO2 ratio at the beginning and at the end of the session), during the first two NIV sessions Study design : Prospective, randomized, controlled, multicentric, open clinical trial with two groups: - control group with conventional clinical management, oxygen therapy and sequential used of NIV - Optiflow group with high flow oxygen delivery system, conventional clinical management and sequential used of NIV for a period of 36 hours at least. Number of subjects: 100 (50 patients per group) patients admitted in intensive Care Unit for hypoxemic respiratory failure.
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The NAVA, by its more physiological aspect and a better adaptation of the patient to the ventilator with a decrease of asynchronies patients-ventilators, could decrease the duration of weaning and so decrease the duration of invasive mechanical ventilation and the morbi-mortality. The objective of this study is to compare the neurally adjusted ventilatory assist versus the usual management of weaning from mechanical ventilation, in term of duration of weaning, at the patients in period of difficult weaning from the invasive mechanical ventilation.
Background: Patients in the intensive care unit (ICU) are the sickest in hospital, and need advanced life-support. Survivors of critical illness are very weak and disabled. Up to 1 in 4 have severe leg weakness impairing their quality of life for as long as 5 years after ICU discharge. In-bed cycling involves use of special equipment that attaches to a patient's hospital bed, allowing them gentle exercise while in the ICU. Methods: Adult patients admitted to the ICU who need a breathing machine and are expected to survive their ICU stay are eligible. Patients will randomly receive 30 minutes of in-bed cycling each day they are in the ICU or routine physiotherapy, both delivered by specially trained physiotherapists. Outcomes: Feasibility: The investigators will study whether patients can cycle on most days of their ICU stay, whether patients and their families agree to be a part of the study, and whether investigators can systematically assess patients' strength. Relevance: Effective methods of physiotherapy are needed for critically ill patients to minimize muscle weakness, speed recovery, and improve quality of life. This pilot randomized study is the second of several future larger studies about in-bed cycling in the ICU. Our pilot work includes CYCLE Pilot and CYCLE Vanguard. CYCLE Pilot is an external pilot and enrolled 66 patients from 3/2015 to 6/2016. CYCLE Vanguard is an internal pilot and enrolled 47 patients from 11/2016 to 3/2018. CYCLE Vanguard patients will be analyzed in the main CYCLE RCT (NCT03471247).
Nasal High Oxygen Flow (HOF) has been demonstrated to reduce the re-intubation rate in hypoxic patients and ameliorate breathing pattern in hypercapnic patients. The aim of this study is to better understand the physiological mechanism underlying these results, assessing the respiratory mechanics in stable hypercapnic COPD patients.
The purpose of this study is to learn more about problems with swallowing that could develop in patients who are very sick and need a machine to help them breathe.
A randomised controlled trial comparing volume-targeted ventilation to pressure-limited ventilation in infants born at or near term.