18 Clinical Trials for Various Conditions
This prospective, multi-center, randomized, controlled clinical trial is being conducted to evaluate the safety and efficacy of the pdSTIM System to facilitate weaning from mechanical ventilation through phrenic nerve stimulation. Potential subjects who are on mechanical ventilation for at least four days and have failed at least one weaning attempt will be considered for the study. Those enrolled will be randomized in a 1:1 manner between the treatment group that is standard of care with the pdSTIM System and a Control group, which is standard of care alone. The primary endpoints focus on time to weaning and serious adverse event rates between the Treatment and Control groups.
The primary objective of this Post Approval Study is to report the proportion of patients surviving to 30 days post CentriMag support or to hospital discharge, whichever is longer. For subjects who do not recover and are bridged to a heart transplant or a long-term assist device, the primary endpoint is survival to induction of anesthesia for the surgery.
The purpose of the study is to evaluate the safety and effectiveness of the CentriMag ventricular assist system to help patients who have experienced heart failure during surgery and cannot be removed from cardiac bypass.
The purpose of this study is to determine if inspiratory muscle strength training will increase the proportion of ventilator dependent patients weaned versus Sham treated patients.
More than 300,00 people in the United States experience acute respiratory failure and require mechanical ventilation every year. Of those that recover and are extubated, the most common reason for reintubation is recurrent respiratory failure. Our study proposes a novel methodology for identifying those patients most at risk for recurrent respiratory failure.
Background: Over one million patients in the US are estimated to undergo mechanical ventilation every year, and approximately 300,000 of them fail attempts at weaning. The morbidity and mortality of these patients is greater than in patients who are successfully weaned. It follows that treatments aimed at reducing the duration of mechanical ventilation have the potential to benefit society both in terms of human suffering and cost. Patients who fail attempts at weaning assist their inspiratory muscles during inhalation by recruiting their expiratory muscles during exhalation. Unfortunately, this recruitment occurs relatively late during a weaning trial. The knowledge that (a) expiratory muscle recruitment can assist inspiration, (b) the recruitment of the expiratory muscles is delayed during weaning, and (c) that the respiratory muscles in patients requiring mechanical ventilation are in a catabolic state raises the possibility that strategies designed to produce an early recruitment, and improve the strength, of the expiratory muscles could improve weaning outcomes in difficult to wean patients. The current investigation, which will be conducted in healthy subjects and in ambulatory patients with chronic obstructive pulmonary disease (COPD) at Edward Hines Jr. VAH (Aims 1 and 2), and in patients who are difficult to wean from mechanical ventilation at RML Specialty Hospital, Hinsdale, IL (Aim 3), has been designed to develop and assess a novel triggering algorithm (VentFree), that controls the delivery of non-invasive neuro muscular electrical stimulation (NMES) to the abdominal-wall muscles during exhalation, and to study the physiological (respiratory) responses to such stimulation in assisting respiration in healthy subjects, in ambulatory patients with COPD and in patients requiring pronged mechanical ventilation.
The purpose of this study is to evaluate if the variability of biological signals, such as heart rate and temperature, can predict weaning from mechanical ventilation in patients with failure to wean.
This clinical investigation is an open-label, multi-center RCT to demonstrate the safety and effective performance of the Lungpacer DPTS (plus standard of care) as compared to Control (standard of care only) in patients aged 18 years or older who are receiving mechanical ventilation. Eligible Subjects will have received mechanical ventilation for ≥96 hours (4 days) and have failed two weaning attempts. The goal or outcome is to show a numerically greater proportion of subjects weaned in the Treatment (Lungpacer DPTS) group as compared to the Control group.
An early feasibility study to investigate the safety and feasibility of the Lungpacer Diaphragm Pacing Therapy System (DPTS) as a therapy to recondition and strengthen the diaphragm of patients who have been intubated and invasively mechanically ventilated for \> or = 7 days, have failed two or more spontaneous breathing trials (SBT), and were not hypervolemic during the latest SBT.
Integrated pulmonary index (IPI) is a tool that monitors respiratory status. It takes into account four parameters: respiratory rate, end-tidal CO2, heart rate and O2 saturation using a pulse oximeter and specialized sidestream CO2 monitor. The device can continuously monitor and display the patient's ventilatory state as a single digit, 1-10. In addition, trends can be kept and it can provide early indication of changes in respiratory status. IPI has only been studied in pediatric patients who are under sedation; however, more uses for the monitoring tool are a possibility. One of those possibilities is to use IPI to monitor pediatric patients during the weaning and extubation process to determine if a specific number, or less than a specific number, is associated with extubation failure. Therefore, clinicians and physicians would be better able to determine if the patient is ready for extubation.
Preterm neonates born at less than 30 weeks' gestation are commonly maintained on invasive or non-invasive respiratory support to facilitate gas exchange. While non-invasive respiratory support (NIS) can be gradually reduced over time as the infant grows, most weaning strategies often lead to weaning failure. This failure is evidenced by an increase in significant events such as apneas, desaturations, and/or bradycardias, increased work of breathing, or an inability to oxygenate or ventilate, resulting in escalated respiratory support. Although the optimal approach to weaning NIS remains uncertain, neonatal units that delay Continuous Positive Airway Pressure (CPAP) weaning until 32-34 weeks corrected gestational age exhibit lower rates of chronic lung disease. Therefore, the investigators aim to compare the duration on respiratory support and oxygen exposure in infants born at less than 30 weeks' gestational age who undergo a structured weaning protocol that includes remaining on CPAP until at least 32-34 weeks corrected gestational age (CGA). The hypothesis posits that preterm infants following a structured weaning protocol, including maintaining CPAP until a specific gestational age, will demonstrate lower rates of weaning failure off CPAP (defined as requiring more support and/or experiencing increased stimulation events 72 hours after CPAP weaning) than those managed according to the medical team's discretion.
This study will look at whether accounting for the amount of pressure generated by the chest wall and abdomen in a obese patient, using a measurement called transpulmonary pressure, can help shorten the amount of time patients spend on the ventilator. By decreasing the amount of time patients spend on the ventilator, they are less likely to develop complications such as infections, weakness or more procedures.
A three-arm, randomized, pilot feasibility, study to assess the effect three validated sedation strategies on outcomes of patient on mechanical ventilation.
Patients requiring the use of artificial ventilation (also called mechanical ventilation) for more than 21 days account for more than 37% of all ICU costs. As such, these patients are now transferred to centers that specialize in weaning patients from the respirator; these units are referred to as long-term acute care (LTAC) facilities. Despite the increase of LTAC facilities, research on the fastest method for disconnecting the patient from the respirator is lacking. In addition, little information is available regarding the long-term survival and quality of life after a prolonged course of artificial ventilation. The purpose of this study is to determine the fastest method for disconnecting the patient from the respirator at a LTAC facility and its effect on long-term survival and quality of life.
A growing body of knowledge has documented that the diaphragm, the primary muscle of breathing, atrophies and weakens within days of instituting mechanical ventilation support. Diaphragm weakness has been implicated as a major contributor to difficulty with weaning, or breathing without ventilator support. This study will test whether instituting a diaphragm strength training rehabilitation program will reduce the time patients require mechanical ventilation in a surgical intensive care setting.
The objective of this study is to obtain a better understanding of the spectrum of use of mechanical ventilation in intensive care units: 1. Main analysis: To know the all-cause mortality rate in mechanically ventilated patients 2. Secondary analyses: * To know the current status of mechanical ventilation in the intensive care unit and determine the number and percentage of patients who are admitted to an intensive care unit and require mechanical ventilation. * To compare the results with prior data collected in previous observational studies (1998 and 2004) * Non-invasive positive pressure ventilation * Weaning * Use of adjuvant therapies as steroids or selective digestive decontamination * Sedation including prevalence of delirium in mechanically ventilated patients * Prediction of the duration of mechanical ventilation * Other
To compare a new mode of mechanical ventilation, Automatic Tube Compensation (ATC) with a traditional one, Continuous Positive Airway Pressure(CPAP), on its effectiveness for detecting patients no longer needing mechanical ventilation.
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.