Early and Intensive Occupational Therapy in Mechanical Ventilated Patients
Critical IllnessVentilator Lung4 moreThis study evaluates the efficacy of an early and intensive occupational therapy (OT) protocol in critical adult patients requiring mechanical ventilation. Evaluating the functional independence at hospital discharge.
Steroids and Unfractionated Heparin in Critically Ill Patients With Pneumonia From COVID-19 Infection...
Covid19SARS-CoV Infection3 moreSARS-CoV-2 infection seems to induce in most critical cases an excessive and aberrant hyper-inflammatory host immune response that is associated with a so-called "cytokine storm", moreover pro-thrombotic derangements of haemostatic system is another common finding in most severe forms of COVID19 infections, which may be explained by the activation of coagulative cascade primed by inflammatory stimuli, in line with what is observed in many other forms of sepsis. Targeting inflammatory responses exploiting steroids' anti-inflammatory activity along with thrombosis prevention may be a promising therapeutic option to improve patients' outcome. Despite the biological plausibility, no good evidence is available on the efficacy and safety of heparin on sepsis patients, and many issues have to be addressed, regarding the proper timing, dosages and administration schedules of anticoagulant drugs. The primary objective is to assess the hypothesis that an adjunctive therapy with steroids and unfractionated heparin (UFH) or with steroids and low molecular weight heparin (LMWH) are more effective in reducing any-cause mortality in critically-ill patients with pneumonia from COVID- 19 infection compared to low molecular weight heparin (LMWH) alone. Mortality will be measured at 28 days. The study is designed as a multicenter, national, interventional, randomized, investigator sponsored, three arms study. Patients, who satisfy all inclusion criteria and no exclusion criteria, will be randomly assigned in a ratio 1:1:1 to one of the three treatment groups: LMWH group, LMWH+steroids or UFH+steroid group. A possible result showing the efficacy of the composite treatment in reducing the mortality rate among critically ill patients with pneumonia from COVID-19 infection will lead to a revision of the current clinical approach to this disease.
Paediatric Early Rehabilitation & Mobilisation During InTensive Care (PERMIT) Feasibility
ICUCritical Illness19,000 children and young people (CYP)/year are admitted to Paediatric Intensive Care Unit (PICU). The investgators want to see if patients recover quicker if rehabilitation starts early and they are encouraged to get moving whilst still in PICU. This is known as 'early rehabilitation and mobilisation' (ERM). PERMIT is an National Institute of Health research/Health Technology Assessment funded programme with four stages: The investgators undertook a national survey of perceptions, a systematic review of the literature and an observational study of ERM over 2 weeks across 14 United Kingdom PICUs The investgators worked with professionals and families to develop an ERM manual appropriate for the age and acuity level of the child. In the current phase the investgators will try out the ERM manual in 3 PICUs to see if they are useful and then Make suggestions about further research. This protocol outlines the third stage, exploring feasibility and acceptability of implementing the PERMIT intervention in the following Steps: Step 1: Implementing the PERMIT intervention within 3 PICUs Step 2: Enrolling and delivering PERMIT intervention to CYP in PICU Step 3: Measuring outcomes and assessing impact of PERMIT intervention on CYP and parents. Over 5 months, the investgatorswill share the ERM manual with 6-15 key staff on 3 PICUs so that they can consider implementation; they will be interviewed weekly. 90 staff will be eligible to complete 3 online questionnaires. If implementation is feasible, the investgators will recruit up 30 children aged 0-16 years in 3 PICUs if parents consent. On ward rounds the PICU team will use the ERM manual to assess acuity and prescribe ERM. the investgators will collect routine data and observe whether prescribed ERM is delivered. After further consent, up to 30 parents can complete questionnaires at PICU discharge and interviews (n=12-15 consenting, approx 3 declining Step 2) within 30 days. 12-15 staff will be interviewed.
Effect of Vitamin D3 Supplementation on Muscle Mass in ICU Patient
Vitamin D DeficiencySarcopenia1 moreA randomized double blind placebo control trial study will be conducted in critically ill patients with vitamin D deficiency. Investigator aimed to study the effect of oral vitamin D3 supplementation, compare to placebo, on skeletal muscle mass and body composition.
Fluid Resuscitation Optimization in Surgical Trauma Patients (FROST)
Critical IllnessTraumaThe aim of this study is to determine if the incidence of post-operative complications can be decreased by the implementation of intra-operative, minimally invasive hemodynamic monitoring (MIHM) via FloTrac™ and EV1000™ in trauma patients.
The Role of NEMS for Post ICU Rehabilitation
Critical IllnessThe purpose of this study is to investigate the role of NEMS as a rehabilitation tool for muscle weakness following critical illness. The investigators hypothesized that NEMS combined with exercise rehabilitation will have a beneficial role in restoration of muscle strength
Improving Blood Glucose Control With a Computerized Decision Support Tool: Phase 2
Critically IllHyperglycemiaThe Purpose of this study is to: Introduce the refined, validated, and safe computerized bedside decision support tool for blood glucose management in critically ill adult and pediatric ICU patients that was studied in Phase 1 into a second group of naïve ICUs, none of which participated in eProtocol-insulin development, refinement or validation Monitor how often low blood sugar levels occur during use of the bedside tool. Determine how the computerized tool effects the workload of the ICU nurses.
Immuno Nutrition by L-citrulline for Critically Ill Patients
IntubationPulmonary VentilationThe main objective of this study is to demonstrate that the only administration of L-citrulline, can improve immune functions in critically ill patients at high risk of nosocomial infection.
Intraosseous Catheter Confirmation Study
Critical IllnessThis is a prospective diagnostic accuracy study investigating the sensitivity and specificity of methods used to confirm correct placement of an intraosseous (IO) catheter. Intraosseous catheters allow medical providers to rapidly administer fluids and medications to critically ill patients when intravenous (IV) access is not present or difficult to achieve. It is standard of care to confirm the correct placement of an IO catheter prior to using it to administer medications or fluids. Three IO placement confirmatory tests will be performed on all research subjects using a standardized protocol. There will be two index tests (the method utilized by most of the medical community evaluating the stability of the catheter, ability to aspirate blood or bone marrow and ability to administer fluids without visible or palpable extravasation as well as the method of demonstrating color flow Doppler only within the intraosseous space during bedside ultrasound exam) and one reference test (ability to visualized a pulsatile waveform when the IO catheter is attached to a pressure transducer). Primary outcome measures of the study will be the determination of correct or incorrect IO catheter placement from the confirmation methods. This data will be used to investigate the primary endpoints of sensitivity and specificity of the confirmation tests as well as inter-operator variability interpreting the raw data from the confirmation methods. Secondary outcomes include complications from the IO catheter. The goal of this study is to see if a more sensitive and specific method of IO catheter confirmation can reliably be performed by different physicians and reduce the amount of complications associated with the catheters. Additional subgroup analyses will be performed in regards to the research subjects BMI and the anatomic site selected for IO catheter use (proximal tibia or humeral head).
Can Beta-Hydroxy-beta-Methylbutyrate Supplementation Counteract Muscle Catabolism in Critically...
Critical IllnessMuscle WeaknessThe rapid decline of muscle mass and function in mechanically ventilated critically ill patients is associated with prolonged length of mechanical ventilation, prolonged intensive care (ICU) and hospital stay, increased ICU and hospital mortality, and prolonged impairment in physical function and quality of life. High protein feeding only partially attenuates the muscle loss. The aim is to study the impact of HMB (3 g/day) on the muscle mass of the critically ill patients from day 4 of their admission to maximum 30 days, but at least for 10 days.