View clinical trials related to Shock.
Filter by:In the developed world critical illness is routinely treated in an intensive care unit (ICU) by highly specialized physicians, nurses and support staff. This model of intensive care is spreading rapidly to low and middle income countries and as it spreads, challenges and limitations to this model arise. In resource-poor settings, inadequate human resources, training, and equipment all present barriers to safe and effective use of life-saving procedures. The advances in medical informatics and human factors engineering have provided tremendous opportunity for novel and user-friendly clinical decision support (CDS) tools that can be applied in a complex and busy hospital setting. Real-time data feeds and standardized patient care tasks in a simulated acute care environment have been proven to have a significant advantage of a novel interface (compared to a conventional) in reducing provider cognitive load and errors. Currently researchers within the investigator's research group have developed and are pilot testing a simple electronic decision support tool: CERTAIN (Checklist for Early Recognition and Treatment of Acute Illness). This tool has been successfully tested and validated in simulated settings and is being implemented as pilot study in 18 countries. Worldwide infant and early childhood mortality continues to be very high partly due to the inability to recognize and respond aggressively to critical illnesses. Investigators expect that adaptation of the algorithms from CERTAIN has potential to be a powerful tool to improve on the medical care of children in developing countries. Investigators aim in this project is 1) to develop a pediatric adaptation of CERTAIN (CERTAINp) and 2) to implement it into clinical practice in resource-poor settings and evaluate the impact of the tool on the processes and patient outcomes.
The aim of this prospective study is to assess the prognostic value of bioactive plasma adrenomedullin (ADM) in 600 patients with severe sepsis or septic shock in an international multicenter study and to validate the findings concerning the association of ADM concentration and the use of vasopressor therapy, organ failure and outcome.
Traditional devices to measure blood pressure include automatic sphygmomanometer (pressure) cuff systems or manual blood pressures obtained by auscultation (listening with a stethoscope). Both these techniques fail to provide accurate and consistent blood pressure in the hypotensive (low blood pressure) state, which is often encountered in emergency departments and intensive care units. Alternately, invasive arterial pressure measurement is time-intensive, painful, expensive, and risks include bleeding, infection, and neurovascular injury. In clinical practice, the Doppler velocimetry system is occasionally used in hypotensive, critically-ill patients when an immediate systolic blood pressure measurement is vital for clinical and therapeutic management. With a technique similar to that used to obtain a manual blood pressure, the Doppler velocimetry system can be used in place of the auscultation of the brachial pulse to accurately determine the systolic blood pressure. It is currently unknown whether additional information can be obtained by evaluation of the Doppler waveform in healthy vs. critically-ill patients. The goal is this project is to digitally record Doppler waveforms of critically-ill patients in the Emergency Department (ED) via a standard 8MHz (fetal) Doppler probe, correlate the Doppler readings with current blood pressure and heart rate, and determine if waveform shapes and parameters are predictive of hemodynamic compromise.
Echocardiography (cardiac ultrasound) is being used more often in the critical care setting for management of severe infection (septic shock). Early studies show echocardiography to be useful in these patients, but at this time, there are no good clinical trials to justify its use. Our study goals/objectives are as follows: 1. To conduct an unblinded, two-group randomized controlled clinical trial to compare an echocardiography-guided resuscitation protocol with an Early Goal Directed Therapy (EGDT) protocol in patients with severe sepsis or septic shock. 2. Demonstrate that a sepsis treatment protocol using transthoracic echocardiography and other non-invasive assessments of cardiac output will result in more rapid resolution of septic shock compared to invasive EGDT. 3. Demonstrate patients receiving the non-invasive echocardiography protocol will receive less administration of intravenous fluid.
Prospective studies on the incidence of VTE during severe sepsis and septic shock remain absent, hindering efficacy assessments regarding current VTE prevention strategies in septic patients. The investigators will prospectively study consecutively enrolled ICU patients with severe sepsis and septic shock admitted at three hospitals. All patients will provide informed consent and the study will be IRB approved. VTE thromboprophylaxis, provided per standard of care and according to the patients' primary team, will be recorded for all patients. Patients will undergo bilateral lower (and upper, if a central venous catheter [CVC] was present) comprehensive compression ultrasonography (CUS) and will be followed for symptomatic deep vein thrombosis (DVT) and pulmonary embolism (PE) prior to discharge. The investigators will perform multivariate regression analyses to identify predictors of VTE.
Toxic Shock Syndrome (TSS) a severe condition with high morbidity and mortality results from the hosts overwhelming inflammatory response and cytokine storm. Staphylococcal superantigen toxins are the main causative agents. Toxic shock syndrome toxin (TSST-1) being responsible for almost all of menstruation associated and more than 50% of all other cases. There is no specific therapy. The aim of this study is to demonstrate the safety and tolerability of the BioMed recombinant toxic shock syndrome toxin (rTSST-1) Variant Vaccine in healthy adults. The second aim of the study is to measure antibodies in the blood of these healthy volunteers which have been produced in response to treatment with the BioMed rTSST-1 Variant Vaccine. These antibodies are expected to be important in resistance against the diseases. 46 healthy adults, male and female, age 18-64 years will be assigned to 6 dose groups of the vaccine at the Department of Clinical Pharmacology of the Medical University of Vienna. The patients will be monitored for vital signs, hematology, clinical chemistry, blood cytokine level and antibodies against TSST-1. Immunization will be repeated 4 weeks after the first with the same dose.
This is a Phase 3, double-blind, randomized study of LJPC-501 (angiotensin II) in adult patients diagnosed with catecholamine-resistant hypotension (CRH) conducted in multiple centers globally.
The Purpose of this study is to determine the impact of balanced salt solution versus chloride rich solution on clinical outcomes in paediatric severe sepsis or septic shock
This study is a randomized control trial in volunteer blood donors to quantify the effect of blood loss and subsequent crystalloid infusion on hemoglobin and markers of resuscitation such as base deficit and lactate.
Antibiotic dosing in septic shock 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. We determined the pharmacokinetic profile of piperacillin 4g every 8 hour in 15 patients treated empirically for septic shock. A PK population model was 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 were 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>4xMIC.