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NCT06853236
The purpose of this multi-site prospective study is to assess validity of a new step test called Functional-Incremental Stepping-in-place- Test (F-IST) compared to gold-standard cardiopulmonary exercise testing (CPET) and to physical function and health perception, respectively. The investigators will also assess test-retest reliability of the F-IST. The investigators hypothesize that the F-IST will have high validity and test-retest reliability to be used in field testing environments such as the ICU.
NCT06819592
This research is about whether treatment with a commonly used antibiotic can prevent infections in airway and lungs and improves the chance of surviving, if it is given soon after patients commence mechanical ventilation when they have been admitted to hospital with an acute severe brain injury. An acute severe brain injury can occur as a result of a stroke, a traumatic injury or due to lack of oxygen to the brain that happens as a result of a cardiac arrest. Patients who are unconscious after an acute severe brain injury often need assistance to breath adequately, and this assistance is given by a breathing tube, connected to a mechanical ventilator. This treatment is an emergency medical treatment. The breathing tube is inserted into the patients' airway by either their mouth or neck. For patients who need assistance with their breathing from a mechanical ventilator, infections in the airways and lungs, known as pneumonia, are a common complication. Everyone naturally has bacteria in their mouth, esophagus and stomach. Clinicians think that during the process of inserting the breathing tube, small amounts of these bacteria can be introduced into the airways and lung when people are unconscious following an acute severe brain injury, or during the process of placing the breathing tube into the airways. These bacteria are now in a place they aren't meant to be and can cause an infections in the airways and lungs known as pneumonia. The purpose of this research is to see if giving one dose of a common antibiotic can prevent patients developing pneumonia, which is associated with having a breathing tube inserted and being on a ventilator, improving the chance of recovery following the acute severe brain injury and ultimately improving the chance of surviving. When patients have a known infection, current guidelines are to treat them with antibiotics. Antibiotics work to kill the bacteria causing the infection. When a patient has an infection in their lungs, they often need to stay on the mechanical ventilator for longer. While current practice is to give patients with a proven infection in their airways and lungs (pneumonia) antibiotics, it is unknown if giving an antibiotic to patients to prevent these infections before they show signs of pneumonia may lead to better outcomes.
NCT07368010
The ARREVE-3 trial will evaluate whether a structured palliative care protocol can improve end-of-life management for mechanically ventilated ICU patients in whom a decision to withdraw life-sustaining therapies has been made. This cluster-randomized controlled trial compares protocol-based care with usual practice across participating centers. The intervention includes comprehensive guidance on symptom management, sedation, nursing care, withdrawal procedures, and family support, supported by standardized staff training. The primary endpoint is adherence to recommended end-of-life practices, while secondary outcomes assess patient comfort, communication with relatives, and the impact on families and healthcare professionals
NCT07249749
ICU mortality indicates the severity of disease, healthcare quality, and the efficacy of interventions. The severity scores are tools to predict the risk of mortality in the ICU, and the APACHE II score is frequently used for this purpose. However, studies validating the score in Colombia are limited. There is uncertainty about the precision and discrimination capacity of the APACHE II score in a population that varies from the original, with varying diseases, and in a different timeline. The investigators determined to evaluate: 1. Evaluate the rate of mortality in the ICU by type of disease and type of admission. 2. The factors associated with mortality. 3. Validate the performance of the APACHE II score as a predictor of mortality.
NCT06958354
In intensive care units, sepsis, which can be defined as bacteremia and the irregular and uncontrolled inflammatory response to it, is one of the most important causes of mortality. Early recognition of sepsis and appropriate antibiotic use for the causative agent is one of the most important steps in the fight against sepsis. Procalcitonin (PCT) is a calcitonin precursor peptide and has been reported to predict bacteremia early. While the PCT concentration level is negligible in healthy individuals, it has been shown to increase especially in bacterial infections, sepsis, trauma and burns. In our study, our aim is to determine whether there is a relationship between serum PCT concentration levels taken within 24 hours according to the time of the sample taken for blood culture with growth in patients followed up in our Internal Intensive Care Unit.
NCT06844617
Proning is a way of helping people who are very sick and have trouble breathing. It involves lying patients on their front to get more oxygen into their body. This process happens in a part of the hospital called the Intensive Care Unit, and can last up to 16 hours per day. When in this position, doctors need to turn the patients' head and move their arms every 2-4 hours. Doctors call this repositioning. It helps prevent sores as well as other injuries. To do this, the health care team slide the patient up the bed, so that their (supported) head hangs over the end of the mattress. The head is then turned before the patient is slid back down the bed; their arms are then moved into a different position. This is currently performed by a team of 5+ staff and takes lots of time and resources. The process is also potentially dangerous because it requires a lot of movement which can hurt patients or staff. To make repositioning easier and safer, a group of doctors and engineers have created a new device. It is like a cushion that goes under the patient and inflates. This allows staff to reposition patients without needing to slide the patient on the bed. This also reduces the number of staff needed and lowers the risk to patients and staff. Feedback from staff, patients and the public are being used to help improve the system. To see if the new device works well in other hospitals, the investigators are planning to do a study with 30 patients in up to 4 different hospitals. This will last 14 months, and they will collect information on how well it performs. They will ask patients if they want to take part and will collect feedback after they leave hospital. During the study, staff from each hospital will monitor the device to make sure it is safe and record how useful it is. Any problems will be recorded, and staff will be asked for their opinions on how it affects their work. As well as monitoring safety, they will record the time saving achieved. This is important as it allows repositioning more often, which may reduce pressure sores. It also allows staff to spend more time focusing on other patients and important tasks. To share the results with other doctors, the researchers will write reports and give presentations. If successful, they will start making and selling the device to help sick patients on Intensive Care.
NCT06602050
The maximal inspiratory pressure or negative inspiratory force values is a parameter that measures the functional ability of the respiratory system. The ability to reduce the risk of atelectasis, effective coughing and mobilization of airway secretions is directly proportional to the magnitude of this value. Grip strength is a parameter that noninvasively assesses functional status in critical care patients.Respiratory muscles work in a complex interaction with peripheral muscles. This dynamic relationship has been described in many populations.The aim of this study was to determine the relationship between maximum inspiratory pressure and grip strength and physical functional status in mechanical ventilator patients.
NCT06861634
Reducing the quantity of morphinomimetics during the operative period reduces the prevalence and intensity of adverse effects. However, morphinomimetics are indispensable during surgery, as they limit the autonomic nervous system's deleterious reactions to nociception. The administration of these drugs in intravenous boluses during surgery is usually guided by their duration of action and by variations in heart rate and blood pressure. Other events, such as hypovolemia or extreme surgical position, may stimulate the autonomic nervous system outside of nociception. These events, along with routine drug administration, can lead to undue consumption of morphinomimetics. The Nol index, a multiparametric monitor of nociception, is based on analysis of variations in plethysmography waveform, heart rate and skin conductance. It has been demonstrated that the use of this type of monitor can reduce intraoperative consumption of morphinomimetics and optimize their administration. Does intraoperative morphinomimetic administration optimized by the NOL index have an impact on the occurrence of dose-dependent adverse effects?
NCT03702504
The general objective is to promote patient safety and quality improvement in critical care towards a significant reduction of observed mortality rates and economic costs through the improvement of outcomes and reduction of medical errors.