View clinical trials related to Respiratory Insufficiency.
Filter by:Rationale : Electric muscle stimulation reduced critical-illness related weakness in patients with severe sepsis and septic shock. But optimal protocol of the stimulation in unknown. Hypothesis: Focal muscle contraction may improved the muscle power and have systemic anti-inflammatory via cytokine secretion . The difference of electricity used in upper limb or lower limb stimulation may lead to different effect. Study design: Stratified randomized parallel control study, comparing Biceps, Quadriceps electric muscle stimulation vs. non-stimulation group. Participant: adult patients with severe sepsis and acute respiratory failure requiring mechanical ventilation. Intervention: daily stimulation of bilateral Biceps or Quadriceps by programmed electric devices 32 minutes, 5 days/week Outcome: 1. Primary outcome: Ventilator-dependent days 2. Secondary outcome: change of hand drip muscle power/interleukin-1b/interleukin-6/interleukin-8/TNF-alpha
Knowledge-based systems were initially developped to automatically adapt pressure support settings during invasive ventilation, and proved to be at least as efficient as experienced clinicians. Non-invasive ventilation has become the standard of care for patients suffering from acute hypercapnic respiratory failure (ARF)and has reduced the need for endotracheal intubation in these patients, thus reducing their hospital mortality. NIV success or failure is closely related to the tolerance of NIV treatment, which is tightly correlated to patient-ventilator synchrony. As severe asynchronies frequently occurs during NIV (namely in more than 40% of patients) and as the occurence of asynchronies is related to the use of high pressure support levels, to the presence of leaks and/or to non optimal expiratory trigger settings, very frequent ventilator settings adaptations should allow reducing patient-ventilator asynchronies but require the presence of an experienced clinician at the bedside during NIV treatment. A computer-driven ventilator settings adaptation has the adavantage of permitting very frequent ventilator settings adaptation whithout requiring the presence of an experienced clinician at the bedside and could possibly improve patient-ventilator interaction. The aim of the present study is to test the faisability of using the Smartcare NIV computer-driven system to automatically adapt ventilator settings during non invasive ventilation delivered because of acute respiratory failure.
Failure of extubation after mechanical ventilation is a frequent and deleterious issue. Main reasons for failure are hypoxemia, secretions retention, lung collapse and excessive work of breathing. Most of this issues can be partly counterbalanced by a device named "High flow conditioned oxygen therapy (HFCO)". Then, our hypothesis is that HFCO may reduce the incidence of respiratory failure after extubation in patients with high risk for failure.
Respiratory exacerbations are frequent among cystic fibrosis patients and supplemental oxygen is usually required. We will compare a new high flow nasal cannula system with Venturi masks for oxygen supplementation to patients with CF hospitalized for respiratory exacerbation.
Determing optimal time of ventilator disconnection is a challenge for both acute and chronic neuromuscular disease. In one case it is helpful for weanning from ventilator and in the other to optimize daytime ventilation in the most severe patients. The investigators propose to validate a new non invasive tool for monitoring respiratroy parameters in neuromuscular patients in both acute and chronic conditions.
The purpose of this study is to assess the hypothesis that, as compared to early intravenous feeding, early nutrition via the enteral route is associated with reduced Day 28-mortality in critically ill patients treated with mechanical ventilation and vasoactive drug.
This is a study about the efficiency and safety of a 1mg+1mg hydromorphone pain management protocol for the treatment of moderate to sever pain in the Emergency Department. Appropriate patients 60 years and older who present with a condition that causes moderate to severe pain, according to the attending physician's judgment, in which the physician would order the use of parenteral analgesia will be enrolled in one of two study arms, "1+1" versus usual care group. 1+1 patients will receive 1mg hydromorphone followed by another 1mg after 15 minutes if pain persists. Usual care group patients will have pain treated per the discretion of the attending physician. Respiratory status, vital signs, and pain scores will be monitor to assess the efficiency of pain control as well as the safety of pain medicine administration in terms of respiratory depression.
Most premature infants require mechanical ventilation for prolonged periods of time and a significant proportion of them develop Bronchopulmonary Dysplasia (BPD). Caffeine is a stimulant of the respiratory center and has been used for the treatment of Apnea of Prematurity in infants not requiring mechanical ventilation or to facilitate weaning from mechanical ventilation by starting therapy shortly before extubation. Recently the use of Caffeine in ventilated infants has been initiated earlier because of the reported reduction in BPD. However there is paucity of data supporting this practice. Because protracted mechanical ventilation and supplemental oxygen increase the risk of developing BPD, a therapy that would facilitate the reduction of the respiratory support and shorten its duration is desirable. Therefore, it is of importance to evaluate the effects of early Caffeine initiation and administration during the course of mechanical ventilation in preterm infants by means of a randomized placebo-controlled trial. Hypothesis: The primary hypothesis of this study is that early use of caffeine in mechanically ventilated preterm infants will reduce the time to first elective extubation and secondarily, that this will reduce the total duration of mechanical ventilation and oxygen supplementation, and reduce the incidence and severity of BPD. Objective: The objective of this trial is to evaluate the effects of early caffeine use during mechanical ventilation on the time to first elective extubation, total duration of mechanical ventilation and oxygen supplementation, and the incidence of BPD. Study Design: This will be a single-center prospective, randomized, double-blind, placebo controlled clinical trial. Population: Premature neonates born between 23 and 30 completed weeks of gestation, who require mechanical ventilation within the first 5 days of life will be enrolled. Infants with major congenital anomalies or small for gestational age will be excluded. Methods: Infants will be randomized within the first 5 days to receive a study drug consisting of either blinded Caffeine citrate or blinded Placebo (equivalent volume of normal saline). Infants will continue to receive the study drug until the first elective extubation.
The hypothesis of this study is that respiratory physiotherapy can promote improvement in respiratory mechanics in children with respiratory failure and the bag squeezing maneuver is more effective in improving respiratory mechanics in childrens and does not alter the hemodynamic proved safe
This study is being done to help determine whether patients with severe sepsis (overwhelming inflammation in the body as a result of an infection) lose muscle and become weak more rapidly than patients with other severe illnesses. Weakness and muscle loss that develops after a severe illness is a serious problem. Patients who develop weakness and have a decrease in muscle size often have to stay in the hospital longer and have a higher chance of dying. At the current time, it is not clear whether certain severe illnesses are more likely to cause weakness and muscle loss. This study will be done to measure the changes in muscle size and strength as a result of each patient's illness