View clinical trials related to Critical Illness.
Filter by:The goal of this clinical trial is to investigate the effects of nutrition therapy guided by indirect calorimetry and nitrogen balance among critically ill patients with acute kidney injury. The main question it aims to answer whether nutrition therapy guided by indirect calorimetry and nitrogen balance could improve 28 days mortality among critically ill patients with acute kidney injury or not. type of study: clinical trial Participants will be provided enteral or parenteral nutrition after randomization(48-72 days after admissions) with total energy guided by indirect calorimetry measurements and total protein by nitrogen balance with maximum of 1.3 gram per kilogram per day for total of 14 days If there is a comparison group: Researchers will compare with the control groups (nutrition therapy provided by physician using clinical equation of choice or judgements to see if participants were provided with these interventions, their 28 days mortalities would be better
Gastrointestinal complications are common in critically ill children. GIC are commonly observed, as either a primary reason for admission or as a part of multiple organ dysfunction syndromes MODS in children admitted in the Pediatric Intensive Care Unit (PICU). Despite its prominence in critically ill patients with MODS. GIC are often ignored in PICU which often delays enteral nutrition preventing patients from getting adequate calorie and protein intake, ultimately leading to acquired malnutrition in these patients. The lack of a uniform standard definition of GIC adds to delays in its recognition. Critical illness can result in intestinal mucosal ischemia that further damages the gut barrier function
Muscle wasting occurs rapidly in critically ill patients and impacts both short and long term outcomes. Altered protein metabolism drives muscle loss in ICU patients, with muscle protein breakdown exceeding muscle protein synthesis (MPS). Interventions aimed at attenuating muscle loss by stimulating MPS rates are hampered by a lack of knowledge on altered muscle protein turnover rates during critical illness. Only a few studies have specifically assessed muscle protein synthesis by using contemporary intravenous stable isotope infusions, which allows the assessment of MPS over a short (<9 hours) period of time. Results from such acute studies can be difficult to extend or translate into long-term clinical practice and outcomes. Oral deuterated water (2H2O) dosing provides an alternative method that can be utilized to extend the measurement of muscle protein synthesis over a period of several days or weeks. It could therefore provide a valuable tool to study muscle protein synthesis during ICU admission and the impact of different anabolic interventions. Although multiple studies using the deuterated water methodology have been performed in both healthy volunteers and patients, it has not yet been performed in critically ill patients. In this prospective study the investigators aim to assess fractional rates of muscle protein synthesis over a period of (maximal) 7 days in critically ill patients admitted to the intensive care unit. Secondly, the investigators aim to assess mechanisms of acute muscle wasting on an microscopic, ultrastructural and molecular level. Furthermore, the investigators aim to investigate to what extent muscle fibre size is recovered 3 months after ICU discharge.
This is a single-center, observational, descriptive, longitudinal, and prospective study This study aims to determine the cumulative incidence during admission and the incidence rate of potential hypoglycemic events (defined as subcutaneous glucose <80 mg/dL detected by CGM) in patients admitted to the Intensive Care Unit (ICU) of HLA Moncloa Hospital over four years of follow-up. The study also aims to document the occurrences of hypoglycemic events, describe the characteristics of patients receiving CGM sensors, and outline the actions taken as a result of detecting potential hypoglycemic events
The central venous catheter (CVC) is commonly used in intensive care unit (ICU). The primary complications associated with CVCs especially with prolonged use include thrombosis and infections. Hence, it is essential to remove the CVC as soon as it becomes unnecessary. Peripheral intravenous cannulation (PIVC) on a critically ill patient can be a significant challenge for nurses. After several days in ICU, patients may develop significant edema in the upper limbs, complicating the PIVC. Near-infrared light devices (NILD) are medical devices that use near-infrared light to highlight the patient's peripheral venous network directly on their skin. The advantage of this device is its minimal training and ease of use for effective application. Nurses can use this medical device without specific conditions once they have received training on its use. The vein illuminator has not been extensively studied in ICU. This study aims to compare two techniques for PIVC in critically ill patients with existing CVC for whom maintaining the deep venous access is no longer indicated. The investigators hypothesize that the use of the NILD would increase the success rate of first-attempt PIVC insertion compared to a landmark approach (traditional method) for PIVC in ICU.
In a retrospective observational study, critically ill COVID-19 patients admitted to the ICU with the CoV-2 delta-variant between august 2021 and february 2022 were evaluated (ethics application nr. 129/22 of the ethics commssion of the university Ulm.
It is well recognized the association between fluid volume administered and positive fluid balance with adverse outcomes . Active fluid removal is widely practiced in an attempt to mitigate this potential damage. However, it is not clear which is the best approach for the post-resuscitation phase in critically ill patients. In this context, Point-of-Care ultrasound (POCUS) through Venous Excess Ultrasound (VExUS) would allow the assessment of the degree of venous congestion, through the visualization of vascular anatomy and blood velocity using Doppler, being potentially useful to guide fluid removal. The investigators will evaluate whether fluid management after the initial phase of VExUS-guided resuscitation is able to improve outcomes compared to usual therapy in patients with septic shock. This is a single center, prospective, open and randomized clinical study in which patients admitted to intensive care will be included after the first 24 hours of resuscitation. A total of 200 patients will be randomized either to volume management guided by VExUS or to the standard therapy arm as per usual practice.
The CR-AZI Study will assess the immunomodulatory effects of Azithromycin for pediatric Critical Asthma.
The goal of this worldwide observational study is to investigate ventilation practice in critically ill pediatric patients. The main questions it aims to answer are: 1. What is the global current practice of ventilatory support in critically ill pediatric patients? 2. Which potentially modifiable factors related to ventilation are associated with outcome? Participating pediatric intensive care units will gather detailed information about ventilation practice and outcome, such as duration of ventilatory support, length of ICU stay and ICU mortality.
This clinical trial aims to study intrarenal venous flow patterns change during fluid removal treatment in critically ill patients