View clinical trials related to Toxemia.
Filter by:The purpose of this study is to evaluate the performance of the Karius Infectious Diseases Plasma Sequencing Assay in patients who present to the emergency room with sepsis.
The aim of this investigation is to longitudinally quantify host gene expression and serum proteins in children with infectious and non-infectious SIRS. The investigators hypothesize that children with non-infectious SIRS, with bacterial infection associated SIRS, or with viral infection associated SIRS will exhibit distinct patterns of host gene expression and serum proteins. The investigators further hypothesize that it should be possible to discover sets of mRNA or protein biomarkers that will permit unambiguous diagnosis of non-infectious SIRS, SIRS associated with bacterial infection, and SIRS associated with viral infection.
Consecutive cirrhotics who present to emergency department of Institute of Liver & Biliary Sciences with documented or suspected sepsis induced hypotension will be randomized to receive either human albumin infusion over 3 hours or plasmalyte as per requirement. At admission, all patients will undergo physical examination and baseline investigations to identify site of sepsis. The aim of study is to compare the efficacy of using 20% human albumin versus plasmalyte in resuscitation of the patient that is attainment of mean arterial pressure above 65 mm of Hg at three hour after intervention and sustenance of mean arterial pressure above 65 mm of Hg at 6th hour. The randomized patient will be administered 20% albumin (0.5-1.0 gm/kg) for 3 hours, or plasmalyte at the rate of 30ml/kg. After the intervention changes in MAP (Mean Arterial Pressure), lactate level, urine output, incidence of complications, duration of ventilator, ICU (Intensive Care Unit) stay and mortality after one week will be studied.
Sepsis is a constant concern in ICU, frequent and severe, it requires early diagnosis and prompt implementation of the etiological treatment. The bacterial infections are the most common and are associated with high morbidity and mortality. Diagnosis is based on the detection of micro-organisms (bacteria) that can confirm the diagnosis and to tailor antibiotic treatments. Blood cultures are positive in 30-35% of cases and diagnosis is often based on a body of evidence that the use of biomarkers. No biomarkers (or even a combination of biomarkers) no evidence to confirm or refute the diagnosis of sepsis alone. During sepsis, gram + and gram - are circulating and often present in small amounts; they can be detected by sensitive and specific tools following a pretreatment of the blood sample (innovative technology Bacti-DIAG). The main objective of the multicentre study Bacti-DIAG-Rea is testing in prospectively, in a suspicious population resuscitation of sepsis, this new bacterial biomarker. Secondary objectives will assess whether Bacti-DIAG provides time and precision gain (gram + vs grams) in the patient's care including diagnosis and treatment. All ICU patients and with clinical criteria of Systemic Inflammatory Response Syndrome (SIRS) sepsis suspects will be included: in addition to the samples taken for routine care of the patient 4 tubes of whole blood will be collected 5mL. The definitive diagnosis of sepsis or SIRS be confirmed retrospectively by two independent experts blinded to Bacti-DIAG. The areas under the ROC curves for the detection of gram + and gram will be calculated and associated detection limits will be determined to meet the objectives of the study. It is planned to include 400 consecutive patients with SIRS criteria for sepsis 300-360 and analyze biometric and biological data based on the subsequent evolution of the patients. The care of patients will be blinded to the results of the new biomarker Bacti-DIAG
Monocentric prospective study on consecutive patients attending the emergency department and suspected to have sepsis. Blood sampling for the measurement of a panel of biomarkers of interest in sepsis.
Early and adequate fluid resuscitation (< 6 hours) in patients with circulatory failure is essential but may exacerbate oedema, which may itself: 1) aggravate pulmonary lesions and prolong mechanical ventilation, 2) aggravate organ failure and 3) increase mortality notably in patients with acute renal failure. Improving fluid balance is considered crucial in the management of patients in septic shock, but the efficacy of the measures currently proposed (diuretics associated or not with albumin and/or dialysis) is controversial. The investigators hypothesize that a whole-body compression using a body bandage could reduce capillary leakage and thus lead to faster restoration of a normal transmural pressure gradient in postcapillary venules and improve venous return. This is the first study to evaluate mechanical compression using a body bandage to reduce oedema in septic shock. To do this, a whole-body compression will be set up within the 12 hours following admission. Water balance will be monitored daily throughout the duration of the compression and vital status of patients will be search at 7 days, 28 days and 90 days.
A Prospective, Multi-Centre, Double-Blind, Randomized, Placebo-Controlled, Trial of Ulinastatin Treatment in Adult Patients with Sepsis and Septic Shock in China
A multicenter, randomized, double-blinded, placebo-controlled study of two dosing frequencies of recombinant Interleukin-7 (CYT107) treatment to restore absolute lymphocyte counts in sepsis patients; IRIS-7B (Immune Reconstitution of Immunosuppressed Sepsis patients). A parallel study will be performed in France to allow a common statistical analysis of the primary end points and analysis for the enrolled patient population.
Plasma midkine has reported to be elevated in infection and a regulator of angiotensin-converting enzyme (ACE). We aimed to investigate the plasma midkine in septic patients and its association with 28-day mortality and organ function, and also with plasma ACE and angiotensin II.
Antibiotic dosing in septic patients poses a challenge for clinicians due to the pharmacokinetic changes seen in this population. Piperacillin/tazobactam is often used for empirical treatment, and initial appropriate dosing is crucial for reducing mortality. The investigators aim was to determined the pharmacokinetic profile of piperacillin 4g every 8 hour in 22 patients treated empirically for sepsis and severe sepsis. A PK population model was be established with the dual purpose to assess current standard treatment and to simulate alternative dosing regimens and modes of administration. Time above the minimal inhibitory concentration (T>MIC) predicted for each patient was evaluated against clinical breakpoint MIC for Pseudomonas Aeruginosa (16 mg/L). Pharmacokinetic-pharmacodynamic (PK-PD) targets evaluated were 100% f T>MIC and 50% fT>MIC.