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Showing 1-20 of 261 trials
NCT06605144
The Canadian Critical Care Comparative Effectiveness Platform(e) d'Évaluation Clinique Comparée en soins Critiques (CEPEC) is an international multi-centered randomized adaptive platform clinical trial. CEPEC will evaluate supportive care interventions that are used routinely in intensive care units throughout the world.
NCT03144895
Monitoring of invasive blood pressure and / or cardiac output of resuscitation patients is required and recommended
NCT07631494
Delirium affects up to 83% of mechanically ventilated patients in the Intensive Care Unit (ICU), often leading to longer hospital stays and long-term memory or cognitive problems. While standard care protocols (such as the ABCDEF bundle) exist, they are often difficult to implement fully due to their complexity and the heavy workload on nursing staff. To address these challenges, this study introduces a 'Precision Nursing' approach by integrating Artificial Intelligence (AI) and Virtual Reality (VR). We will implement an AI-driven system to assist nurses in making personalized care decisions more efficiently. Additionally, interactive VR technology will be used to stimulate patients' cognitive function and encourage early mobility. Our goal is to reduce the clinical burden on healthcare providers while significantly improving recovery outcomes for ICU patients.
NCT04676347
The main aim of this study is to realize a system of continuous evaluation of healthcare quality in semi-intensive care units.
NCT06369064
In patients requiring renal replacement therapy (RRT) in the intensive care unit (ICU), continuous techniques are predominantly using due to better hemodynamic tolerance. The most employed techniques in ICU are continuous venovenous hemodiafiltration (CVVHDF) and continuous venovenous hemodialysis (CVVHD). To our knowledge, there are no prospective studies comparing the efficiency of these two techniques with the same dose of dialysis (and the same filter). In the CompEER study, we aim to compare the efficiency of CVVHD and CVVHDF on urea reduction rate in intensive care patients with acute kidney injury. The research hypothesis is that CVVHD citrate technique is as effective as CVVHDF heparin technique for urea reduction and provides prolonged and stable clearance, facilitating antibiotic management during RRT.
NCT07579728
This study aims to evaluate the prognostic value of the C-reactive protein-albumin-lymphocyte (CALLY) index, Clinical Frailty Scale (CFS), and SOFA-2 score in predicting mortality among geriatric intensive care unit (ICU) patients. The primary outcome is ICU mortality. Secondary outcomes include 28-day mortality, ICU length of stay, duration of mechanical ventilation, need for renal replacement therapy, and vasopressor requirement. The study also investigates whether the combined use of these parameters improves predictive performance compared to conventional scoring systems such as APACHE II.
NCT07441668
This randomized controlled trial evaluates a family-centered comfort intervention for children hospitalized in a pediatric intensive care unit. The intervention consists of listening to the mother's voice, environmental light regulation, and use of a weighted blanket, delivered in addition to routine nursing care. Outcomes include child comfort, anxiety, fear, and sleep parameters, as well as parental anxiety and satisfaction with care. The study will determine whether the intervention improves child and parent outcomes compared with routine care.
NCT07548489
The goal of this clinical trial is to test whether the medication phenobarbital is as effective for treating agitated delirium among adult patients admitted to the intensive care unit. Agitated delirium is a condition involving confusion and impulsiveness which is dangerous to both patients and healthcare providers. The main questions this trial aims to answer include: * Can phenobarbital decrease the amount of time patients with agitated delirium spend in the intensive care unit and the hospital? * Does phenobarbital decrease the amount of additional calming medications patients with agitated delirium need? Researchers in this study will compare phenobarbital to other medications commonly used to treat agitated delirium. Participants will be monitored closely to make sure they remain safe and to measure how well their agitation and confusion are managed while they are in the ICU.
NCT07157917
To translate the SEDE-E (Extubated) and SEDE-T(tracheotomized) protocols-Chinese version and validate it with an RCT trial
NCT07093203
ntra-abdominal candidiasis is a serious infection common in critically ill patients, often leading to high mortality if not treated quickly. Standard antifungal treatments may be less effective due to growing resistance and poor drug penetration into the abdominal cavity. In critically ill patients, drug levels can vary widely due to factors like surgery, inflammation, fluid resuscitation, or extracorporeal support, increasing the risk of underdosing. Rezafungin is a new antifungal agent with a long half-life and broad activity against Candida species, offering potential advantages in this setting. However, there is currently no data on its concentration or effectiveness in the peritoneal fluid of patients with intra-abdominal sepsis. Its long half-life, coupled with repeated pharmacokinetic variations in critical care settings and the risk of insufficient concentrations, may hinder its use in this population.
NCT07188350
This clinical study aims to compare the effects of conventional physical therapy alone versus conventional physical therapy combined with neuromuscular electrical stimulation (NMES) in patients admitted to the ICU and undergoing invasive mechanical ventilation. Participants will be randomly assigned to receive either conventional physical therapy or the same therapy plus NMES applied to the lower limbs. The protocol includes muscle-specific stimulation parameters and safety criteria to postpone sessions in cases of clinical instability. The primary goal is to assess whether NMES improves muscle function and recovery in critically ill patients.
NCT03541785
This study follows a group of patients admitted to the PICU who are identified as being at risk for developing acute kidney injury. The investigators will use risk-stratification, biomarker testing, and a functional assessment to predict patients who will become fluid overloaded and develop acute kidney injury.
NCT06667999
Among critically ill patients, many die, and many of the survivors and their family members struggle for years with reduced quality of life. Critically ill patients are treated in intensive care units (ICUs). Here, they receive life support, e.g., mechanical ventilation and advanced support of the circulation (heart and blood vessels) and kidneys. In addition, ICU patients receive many other treatments. It is, however, uncertain if all the treatments provide value for the patients. The desirable effects of many treatments are uncertain, and some may be wasteful or even harmful. Clinical trials are necessary to validly assess the desirable and undesirable effects of different treatments. However, conventional clinical trials have limitations: * They typically only assess a single question related to a single comparison of treatments at a time. * They are often not very flexible, including with regards to the number of participants needed, and this increases the risk that a trial will end up as inconclusive. * There is no or limited re-use or sharing of infrastructure across trials, leading to duplicate work and resource use. * Trial participants do usually not benefit from the obtained knowledge before the trial concludes. * Involvement of patients, family members, and other stakeholders is typically limited, which may decrease the relevance of the questions addressed. With the Intensive Care Platform Trial (INCEPT), we aim to tackle these challenges by establishing a flexible platform trial that continuously learns from the obtained results. The platform trial may run forever with simultaneous and continuous assessment of many treatments. INCEPT will continuously learn from the accrued data and use these to improve the treatment of both participating and future patients. With INCEPT, we are also building a framework for thorough and extensive involvement of key stakeholders, including patients and family members. INCEPT will improve the way clinical trials are done and increase the probabilities that treatments are improved. This will: * Directly improve outcomes for ICU patients. * Relieve a strained healthcare system by discarding inefficient or harmful treatments. * Ensure that new treatments are beneficial or cost-effective before implementation. * Lower the costs and burdens of assessing more treatments in the critically ill.
NCT06994715
This study will be conducted in a randomized controlled experimental design to examine the effects of acupressure applied to patients treated in the intensive care unit on physiological parameters, pain, sleep quality, anxiety and perception of nurse presence. The study will be conducted with 60 patients (20 intervention, 20 placebo, 20 control groups) treated in the 2nd stage Intensive Care Unit of an University Hospital between May 2025 and January 2026. Acupressure will be applied to the intervention group for 2 days, morning and evening, for four sessions. For four sessions, pseudo acupressure will be used on the placebo group for 2 days, morning and evening. No application will be made to the control group. The data collection tools in the study are the Patient Identifier Information Form, Glasgow Coma Scale (GCS), Visual Assessment Scale (VAS), Physiological Parameter Assessment Form, Richards-Campbell Sleep Scale, Spielberg State-Trait Anxiety Inventory, and Nurse Presence Scale (PONS).
NCT06036628
This study is observational, multicenter and prospective study for surveillance of the use of new antibiotics in pediatrics for treated pediatrics infections due to multi-resistant bacteria
NCT07481773
The goal of this randomized clinical trial is to determine whether a biomarker-signature (BV) supported antibiotic treatment decision matrix can have a beneficial impact on antibiotic use and patient outcomes in an ICU population.
NCT07361419
Critically ill patients who require mechanical ventilation frequently experience rapid loss of muscle mass and physical function during their stay in the intensive care unit (ICU). As part of standard care, physiotherapy and limb mobilization exercises are commonly provided, even in patients who are sedated and confined to bed in a supine position. However, the actual physiological and metabolic intensity of these routine physiotherapy interventions is poorly understood, and current prescriptions are largely based on clinical judgment rather than objective measures of patient effort or tolerance. Oxygen consumption (VO₂) is a direct indicator of metabolic demand and physiological workload. In mechanically ventilated patients, indirect calorimetry integrated into the ventilator allows continuous measurement of VO₂ and carbon dioxide production without adding invasive procedures. While indirect calorimetry is routinely used to individualize nutritional support in the ICU, its potential role in quantifying the metabolic cost of physiotherapy interventions has been scarcely explored. The aim of this prospective observational study is to quantify the acute metabolic response to a standardized session of supine physiotherapy in adult critically ill patients receiving invasive mechanical ventilation. During routine physiotherapy sessions performed as part of usual care, oxygen consumption will be continuously measured using indirect calorimetry integrated into the ventilator circuit. Each session will include a baseline resting period, the physiotherapy intervention itself, and a post-intervention recovery period, allowing patients to act as their own controls. Physiotherapy sessions will consist of passive limb mobilization in deeply sedated patients and passive or active-assisted mobilization in patients who are awake or lightly sedated and able to cooperate. The primary outcome will be the change in oxygen consumption during physiotherapy compared with baseline rest. Secondary analyses will describe the total metabolic load of the session, peak oxygen consumption, and the time required for oxygen consumption to return toward baseline levels after the intervention. Basic cardiorespiratory variables, such as heart rate, blood pressure, oxygen saturation, and ventilatory parameters, will also be recorded to assess physiological stability and tolerance. By objectively characterizing the metabolic cost of common supine physiotherapy interventions, this study aims to improve understanding of the physiological demands imposed on mechanically ventilated ICU patients. The results may help inform safer and more individualized physiotherapy prescriptions in critical care, supporting a more objective approach to dosing rehabilitation based on patients' real metabolic responses rather than solely on activity type or sedation level.
NCT07481682
This study aimed to detect the impact of inhaled Tranexamic acid® in pulmonary hemorrhage in pediatric intensive care unit.
NCT05279547
Up to 60% of patients admitted to the Intensive Care Unit (ICU) with a prolonged stay in the ICU develop complications such as intensive care unit acquired weakness (ICUAW) characterized by limb and respiratory muscle weakness. ICUAW is associated with worse prognosis, longer ICU stay and increased morbidity and mortality. Physical therapy (PT) interventions in the intensive care unit (ICU), can improve patients' outcomes. However, improvements in muscle function achieved with standard physical activity interventions aiming at early mobilization are highly variable due to lack of consistency in definition of the interventions, lack of consideration for the complexity of exercise dose and/or insufficient stimulation of muscles during interventions. It has been suggested that modifying early mobilization and exercise protocols towards shorter intervals consisting of higher intensity exercises might result in more optimal stimulation of muscles. In the present study the researchers therefore aim to simultaneously assess (by non-invasive technologies) locomotor muscle oxygenation and activation along with the measurements of the load imposed on respiration and circulation during two different training modalities i.e., moderate intensity continuous bed-cycling (endurance training) vs high-intensity alternated by lower intensity periods of bed-cycling (interval training).
NCT07179276
Sepsis is a dysregulated host response to infection that leads to life-threatening organ dysfunction and represents a major healthcare problem. Septic shock is the most severe form, characterized by increased capillary permeability and vasodilation, resulting in hypotension and tissue hypoxia. Early identification and treatment of tissue hypoperfusion are pivotal components of initial resuscitation to limit progression to multiple organ dysfunction and death. The 2021 Surviving Sepsis Guidelines recommend guiding initial resuscitation by targeting decreases in serum lactate levels in patients with elevated lactate. However, although elevated lactate levels may reflect tissue hypoxia, serum lactate is not a direct marker of tissue perfusion. Hyperlactatemia may be attributable to mechanisms other than tissue hypoperfusion, such as accelerated aerobic glycolysis driven by excessive β-adrenergic stimulation or impaired clearance (e.g., in liver failure). The venous-to-arterial carbon dioxide partial pressure difference (CO₂ gap), which is inversely related to cardiac output, has been shown to reflect the adequacy of venous blood flow to remove CO₂ from tissues. The CO₂ gap is closely linked to microcirculatory blood flow during the early resuscitation phase of septic shock and may effectively identify persistent tissue hypoperfusion in shock states. A persistently high CO₂ gap during early resuscitation has been associated with significantly higher 28-day mortality and increased Sequential Organ Failure Assessment (SOFA) scores. Moreover, the CO₂ gap has been shown to respond to changes in cardiac output during inotrope infusion in patients with low blood flow, suggesting that its assessment could be useful for therapeutic adjustments. Therefore, there are compelling arguments to evaluate the usefulness of the CO₂ gap in guiding early resuscitation in patients with septic shock. The investigators postulated that CO₂ gap-guided early resuscitation may be more effective in improving outcomes than lactate-guided resuscitation.