View clinical trials related to Mechanical Ventilation.
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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).
The purposes of this study were to investigate the caloric requirement and clinical outcomes in mechanically ventilated critically ill elderly patients and identify those at high nutritional risk who require high protein formula intervention.
The process of weaning from mechanical ventilation was decided after clinical judgment and weaning predictive index. Nevertheless, indexes predicting weaning outcome like Maximal Inspiratory Pressure (MIP) are frequently inaccurate. However the long-term involvement of respiratory muscles in critically ill patients has not been established. The objective of this study was to assess the relationship on MIP at extubation on one-year mortality in critically ill patients.
In the general intensive care unit (ICU) population, there is strong evidence for benefit from lung-protective mechanical ventilation, including the use of low tidal volumes and adequate levels of positive end-expiratory pressure (PEEP). In burn patients it is highly uncertain whether these settings are beneficial and there are even concerns over safety of, in particular use of low tidal volumes. There is lack of international guidelines and consequently ventilation practice in burn patients may widely vary. The primary objective is to determine ventilation practice in burn ICUs worldwide, focusing on the size of tidal volumes and the levels of PEEP used for burn patients. In addition, data on other strategies considered important in patients who receive ventilation are also collected, including data on neuromuscular blocking agents, sedatives and analgesics, and type and amount of intravenous fluids used in the period of ventilation. The secondary objective is to determine the association between tidal volume size and levels of PEEP, and duration of ventilation in burn patients.
Today, the electronic medical record, microprocessor mechanical ventilators, and physiologic monitoring are under-utilized when translating research into decision support. Current medical informatic capabilities can be leveraged to calculate trends in measured parameters to initiate a paradigm shift in critical care from reaction-based treatment to proactive and plausibly preventative care. Therefore, the purpose of this study is to develop baseline understanding of our practice and how data collection utilizing a newly implemented system called T3. We would like to retrospectively review mechanically ventilated patients in which we have collected continuous data to test a newly developed analytic platform. Additionally we would like to compare these results to our standards of practice established by clinical practice guidelines.
Chronic obstructive lung disease (COPD) is a major cause of morbidity and mortality, and is a major reason for ICU admission. Cardiac function is often impaired in this disease but its association with clinical outcome has not been fully established. The study aims to investigate the association between cardiac dysfunction and clinclial outcomes.
Acute respiratory distress syndrome (ARDS) is characterized by acute bilateral pulmonary infiltrates and impairment of oxygen uptake. For example, pneumonia can cause the development of ARDS. Despite modern intensive care treatment, mortality in ARDS patients remains high (40%). Invasive mechanical ventilation (MV) is the mainstay of ARDS treatment. Controlled MV is the conventional ventilation strategy to ensure lung protective ventilation (low tidal volumes) and recovery of the lungs. However, among disadvantages of controlled MV are the development of respiratory muscle atrophy (due to disuse) and the need for high dose sedatives to prevent patient-ventilator asynchrony. The use of high doses of sedatives and respiratory muscle weakness are associated with increased morbidity, worse clinical outcomes and prolonged MV. Besides controlled MV, a patient can be ventilated with supported ventilation. Supported MV decreases the likelihood to develop muscle atrophy, improves oxygenation and hemodynamics, and lowers consumption of sedatives. However potential disadvantages of supported ventilation include generation of too high tidal volumes, especially in patients with high respiratory drive. A previous study in healthy subjects has shown that titration of neuromuscular blocking agent (NMBA) can decrease activity of inspiratory muscles, while maintaining adequate ventilation. It is hypothesized that low dose NMBA may enable supported MV with adequate tidal volumes, in patients with high respiratory drive.
Impairment of airway patency is a common cause of extubation failure and opioids and hypnotics can adversely affect airway patency. Ketamine, a noncompetitive antagonist of N-methyl-D-aspartate (NMDA), unlike other anesthetics activates respiratory effort and promotes bronchodilation. At subanesthetic plasma concentration, ketamine reduces both opioid and propofol requirements. The purpose of this pharmaco-physiological interaction trial is to evaluate the effects of ketamine on breathing and electroencephalography in mechanically ventilated patients.
Background: Patients in the intensive care unit (ICU) are the sickest in hospital, and need advanced life-support. Survivors of critical illness are very vulnerable to weakness and disability. 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 employs special equipment that attaches to a patient's hospital bed, allowing them gentle leg exercise while in the ICU. The investigators will offer patients in-bed cycling while they are needing a breathing machine, to help them recover from weakness as fast as possible. Before doing a larger trial testing if in-bed cycling reduces disability, data on safety (Is it safe?) and feasibility (Can the investigators do it?) are needed. Objectives: To study the safety and feasibility of in-bed leg cycling in critically ill patients who need breathing machines. Methods: Adult patients admitted to the ICU who need a breathing machine and are expected to survive their ICU stay are eligible. Specially trained physiotherapists will provide patients with 30 minutes of in-bed cycling each day while they are in the ICU. Outcomes: The investigators will study (1) Safety: the heart rate and breathing patterns of patients doing in-bed cycling, while carefully monitoring for safety. (2) Feasibility: 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 the investigators can assess patients' strength in the ICU and at hospital discharge. Relevance: As the Canadian population ages, the demand for breathing machines during acute illness will increase dramatically. Effective methods of physiotherapy are needed for critically ill patients to minimize muscle weakness, speed recovery, and improve quality of life. This pilot study is the first of several future larger studies about in-bed cycling in the ICU. This program of research will help patients needing life support to regain their strength and recover as fast as possible from critical illness.