View clinical trials related to Toxemia.
Filter by:This is a randomized, open label study to evaluate the Initial Specimen Diversion Device (ISDD) in reducing the contamination rate in blood culture analysis. Blood culture data will be derived from inpatient and/or outpatient settings in a variety of hospital departments (e.g. ER, surgical, medical, etc.). Only samples that are collected via PIVC's may be included in this study. The ISDD will be compared to current laboratory practices for the collection of blood for culture purposes. Laboratory Standard Procedures (LSP) is defined as collection of venipuncture blood for culture without an initial diversion method to divert and sequester potential blood contaminants.
The primary objective of the proposed study will be to determine if a multi-modality teaching curriculum utilizing high-fidelity simulation and didactic lecture will result in sustained improvement by internal medicine residents in written knowledge and clinical performance when compared to residents receiving a curriculum utilizing only didactic lecture. The investigators hypothesis is that the addition of high-fidelity simulation to a traditional didactic lecture curriculum will result in sustained and superior written knowledge and practical performance when compared to a group receiving only didactic lecture on the same topic. Specifically, the investigators will be assessing internal medicine resident knowledge and performance in the area of sepsis in the hospitalized patient, and will shape the investigators teaching curriculum around this focus.
Rationale : Electric muscle stimulation reduced critical-illness related weakness in patients with severe sepsis and septic shock. But optimal protocol of the stimulation in unknown. Hypothesis: Focal muscle contraction may improved the muscle power and have systemic anti-inflammatory via cytokine secretion . The difference of electricity used in upper limb or lower limb stimulation may lead to different effect. Study design: Stratified randomized parallel control study, comparing Biceps, Quadriceps electric muscle stimulation vs. non-stimulation group. Participant: adult patients with severe sepsis and acute respiratory failure requiring mechanical ventilation. Intervention: daily stimulation of bilateral Biceps or Quadriceps by programmed electric devices 32 minutes, 5 days/week Outcome: 1. Primary outcome: Ventilator-dependent days 2. Secondary outcome: change of hand drip muscle power/interleukin-1b/interleukin-6/interleukin-8/TNF-alpha
It is clearly shown that patients in the Intensive care Unit (ICU) with severe sepsis or multi organic failure are very susceptible to develop neuromuscular complications. That can be attributed to a hyper catabolic state, general inflammation and immobilization. This can leads a significant muscle wasting, polyneuropathy and/or myopathy. These alterations have been defined with the term Intensive Care Acquired Weakness (ICUAW) and can leads important functional squeals and impaired quality of life for months, years and in some cases irreversibly. To overcome these complications, early activation by physiotherapy becomes an important tool. This type of treatment has been show to be feasible, safe and improves the functional capacity of patients. In addition to a reduction in the duration of ICU and hospital stay and improved quality of life for patients. The objective of this study is to demonstrate that the early and active physical activity in patients with severe sepsis can limit the loss of muscle mass and complications related to this type of damage. Procedures: Patients or relatives will be asked to participate in the study. If a positive response is done, patients will be randomized in an intervention or control group. A baseline evaluation will be performed during the first day of study admission. That includes a physical exploration, electrophysiological studies, skeletal muscle histological/biochemical evaluations and monitoring of blood biomarkers and others clinical outcomes will be registered. Intervention will be divided in a morning and afternoon times, patient will be positioned in chair or bed and mobilized by physiotherapist. As usual, all patients will be attaining manual mobilization for 20 minutes twice a day. Only for intervention group, additional cycle-ergometer exercise will be performed for 30 minutes at better performance achieved and tolerated for patient. All vitals parameters will be strictly controlled before, during and after intervention. The same baseline evaluation will be repeated after day 7 and clinical outcomes will be registered until ICU discharge.
This Randomized, pragmatic, multicentric with blinding of patients and health professionals, intention-to-treat analysis has by primary endpoint to evaluate whether the aspirin use reduces the intensity of organic dysfunction measured by the variation of the SOFA score starting from the day of admission to the seventh day. Secundary endpoint: To evaluate if the aspirin use reduces the time of mechanical ventilation, length of stay in the ICU and in the hospital. In addition, to evaluate the safety of its administration regarding the occurrence of bleeding. The data will be collected directly from the chart of the patients admitted to the ICU. Data quality assurance will be made through periodic verification, aiming for complete and consistent data. The centers will receive periodic reports for adequacy of potentially inconsistent or incomplete data. The baseline SOFA of patients with sepsis is 8.8 with a standard deviation of 3. The expected reduction in the control group in the SOFA at day 7 is 2 points. Considering a power of 80% and a level of significance of 0.05, it is estimated that 109 patients will be needed in each group. A total of 218 patients will compose the sample. All analyzes will follow the intention-to-treat principle. We will evaluate the effect of aspirin compared to placebo on primary and binary outcomes by means of relative risks, 95% confidence intervals and chi-square tests. For continuous outcomes with normal distribution, we will present the mean difference, 95% confidence interval and P value calculated by t test. For continuous outcomes with asymmetric distribution, we will perform Wilcoxon test.
This study is being done to help determine whether patients with severe sepsis (overwhelming inflammation in the body as a result of an infection) lose muscle and become weak more rapidly than patients with other severe illnesses. Weakness and muscle loss that develops after a severe illness is a serious problem. Patients who develop weakness and have a decrease in muscle size often have to stay in the hospital longer and have a higher chance of dying. At the current time, it is not clear whether certain severe illnesses are more likely to cause weakness and muscle loss. This study will be done to measure the changes in muscle size and strength as a result of each patient's illness
This study is a randomized control trial assessing the impact of a simple evidence-based protocol for the treatment severe sepsis in Zambia. The intervention protocol consists of a scheduled fluid regimen, early blood culture and antibiotics, and dopamine and blood transfusion when necessary. It is hypothesized that the protocol will significantly decrease in-hospital mortality in patients with severe sepsis.
The primary objective is to demonstrate that the plasma inducible nitric oxide synthase (iNOS) assay (PliNOSa® test) has an acceptable relative risk ratio for predicting the onset of sepsis within 72 hours of testing when performed on the first day a patient is admitted or transferred to the intensive care unit (ICU) and is considered to be at risk of becoming septic. The PliNOSa® test measures inducible nitric oxide synthase (iNOS) in plasma and uses a pre-determined iNOS cut-off value to identify patients at risk for the onset of the sepsis pathology.
This study is to determine whether the intravenous application of 'Ⅳ-Globulin S inj. (Human Immunoglobulin G)' can reduce mortality in patients with severe sepsis or septic shock.
Neonatal sepsis (serious infection) continues to be one of the major causes of morbidity and mortality in the newborn period around the world. India, with one of the world's largest populations, continues to struggle with extremely high infant and neonatal mortality rates. Sepsis accounts for 50% of deaths among community born (and 20% of mortality among hospital-born) infants. Closely linked with this is a burgeoning problem of antimicrobial resistance, which is increasingly restricting the therapeutic options for medical care providers. Friendly bacteria called "Probiotics" have been used in multiple infectious and inflammatory disease states in humans. Fructooligosaccharides are sugars found naturally in many fruits and vegetables and also in human breast milk. These sugars reach the colon undigested and serve as food for the friendly bacteria. The current study uses a probiotic preparation containing Lactobacillus plantarum and fructooligosaccharides as an attempt to prevent neonatal infections. Currently no conclusive data are available on the utility of probiotics in such conditions. If successful, such inexpensive preventive therapy can be made available to general public in resource poor countries. Similar preparations can also be used in the western world to prevent similar infectious conditions of the neonatal period, especially in preterm infants where sepsis continues to be a major cause of hospital stay and death.