22 Clinical Trials for Various Conditions
TITRE - Trial of Indication-based Transfusion of Red Blood Cells in ECMO, is a multicenter, prospective, randomized clinical trial. The overarching goal of TITRE is to determine whether restricting red blood cell (RBC) transfusion according to an indication-based strategy for those with bleeding and/or deficit of tissue oxygen delivery, compared with transfusion based on center-specific hemoglobin or hematocrit thresholds, can reduce organ dysfunction and improve later neurodevelopment in critically ill children receiving Extracorporeal Membrane Oxygenation (ECMO) support.
The purpose of this research is to determine if the use of RELiZORB™ improves nutrition tolerance and helps critically ill patients meet their nutrition goals. RELiZORB™ is a digestive enzyme cartridge that contains lipase and works as a pancreatic enzyme replacement. It promotes breaking down fat and helps the body absorb it. The device connects with tube feedings to help the body with digestion. RELiZORB™ is approved by the U.S. Food and Drug Administration (FDA) for use with tube feedings in patients 5 years of age or older. While the use of RELiZORB™ in this study is consistent with the FDA approval, the use of RELiZORB™ in patients with multi organ failure is not in the current standard of care practice at Inova Health Care facilities.
Single center, prospective, randomized, double-blind, pragmatic Phase 2 clinical study in severely injured trauma patients within hours of hospitalization who have survived initial resuscitation.
The purpose of this study is to learn how blood clotting substances respond in children with septic shock, low platelet counts, and multiple organ failure (MOF) treated at different institutions. Multiple organ failure can be related to an infection producing "septic shock," in which substances released in the blood cause poor blood flow to the organs. The number of platelets circulating in your child's blood stream is also decreased (this is called "thrombocytopenia") as a result of this condition. Research has shown that certain substances in the part of the blood known as plasma (the clear liquid part of the blood not including the red blood cells but holding blood clotting factors) can cause the organs to work poorly. The investigators would like to compare these blood responses in children with this condition, receiving a variety of different treatments, for multiple organ failure in other medical centers around the world. The investigators hope to enroll 80 patients into the study.
This multi-center prospective intervention study is designed to develop coenzyme Q10 (CoQ10) supplementation as a cost-effective adjunctive therapy for burn injury. The long-term goals of this project are to establish the beneficial effects of CoQ10 on multiple organ dysfunction and on the clinical and functional outcomes of burn victims.
This phase II trial studies how well early metabolic resuscitation therapy works in reducing multi-organ dysfunction in patients with septic shock. Early metabolic resuscitation is made of large doses of glucose, protein, and essential metabolic molecules that may help lower the effects of septic shock on the body. Giving patients early metabolic resuscitation in combination with standard of care may work better in reducing multi-organ dysfunction syndrome in patients with septic shock compared to standard of care alone.
A prospective randomized controlled trial studying the ordering of palliative care consultations in the emergency department (Ig) versus later palliative care consultations in the hospital--ICU or hospital ward(Cg). Patients will be randomly allocated to Ig or Cg with a 1:1 ratio.
This study will involve blood draws to test for specific cytokines. The study goal is to gain a better understanding of the role of inflammatory response in the development of specific complications in burn and TENS patients.
The study aims to determine how historical cases of respiratory abnormalities are documented by clinicians in the electronic health records (EHR) of Memorial Hermann Healthcare System (MHHS) inpatient facilities. The knowledge gained from this study will support the design of modern data-driven surveillance approach to continuously collect, monitor and timely recognize postoperative respiratory abnormalities using electronic healthcare recorded data.
This study is a randomized clinical trial of an intervention to improve outcomes for patients and their family by using ICU nurse facilitators to support, model, and teach communication strategies that enable patients and their families to secure care in line with patients' goals of care over an illness trajectory, beginning in the ICU and continuing to care in the community.
Sepsis is a clinical entity that complicates infection. Without early recognition and timely management, it can rapidly progress to severe sepsis, septic shock, and culminate in multiple organ dysfunction syndrome. Forty to 70% of septic patients have low vitamin D status, yet little is known about the impact of vitamin D3 (vitD3) supplementation in this patient population. As such, the investigators propose a randomized, double-blinded, placebo-controlled trial to test the hypothesis that early, rapid correction of low vitamin D status, as an adjunct to established treatment guidelines, will improve clinical outcomes and measurably alter immune profile in patients with severe sepsis.
Severe acute respiratory failure (ARF) requiring prolonged mechanical ventilation is the most common form of acute organ dysfunction in the hospital, and is often associated with multiple organ failure (MOF), high mortality, and functional impairment. Most studies on ARF have focused on patients in the intensive care unit (ICU) after they have been on mechanical ventilation for days and end organ damage is already established. The overall goal of this proposed project is to improve the outcomes of patients at high risk for developing severe ARF and prolonged mechanical ventilation in and outside of the ICU. The project aims to intervene early in high risk patients with an electronic medical records (EMR)-based, patient-centered checklist of common critical care practices aimed at preventing lung injury and hospital acquired adverse events that commonly lead to organ failure (Prevention of Organ Failure checklist -PROOFcheck). This application proposes a stepped-wedge, clustered randomized control trial to determine the utility of PROOFcheck to improve survival and reduce the duration of mechanical ventilation and multiple organ failure in patients identified as high risk for progressing to severe ARF and prolonged mechanical ventilation. The aims in the UH2 phase are: 1) to refine a previously validated Lung Injury Prediction Score into a pragmatic, EMR-based early prediction model to Accurately Predict Prolonged Ventilation (APPROVE), which will automatically identify patients anywhere in the hospital who are at high risk for developing severe ARF requiring mechanical ventilation \>48 hours; 2) to incorporate PROOFcheck into the EMR to prompt clinicians on care practices to limit lung injury, prevent adverse events, and avoid additional organ failure; and 3) to establish the infrastructure for the proposed trial. The proposed pragmatic trial will harness the hospital-wide EMR to identify patients at high risk for prolonged mechanical ventilation with APPROVE for intervention with PROOFcheck. As such, the proposed trial aims to break out of the clinical silos by which care is currently organized in the hospital and bring patient-centered, context appropriate care to the acutely ill patient wherever and whenever the patient's condition requires it.
The purpose of this study is to learn more about how to treat patients with severe injuries related to trauma and to prevent failure of vital organs in this patient population. Approximately 200 severely injured patients with blunt trauma and 40 healthy volunteer subjects will be enrolled in this study. During the study seven blood samples (4-5 mls) will be collected from patients who have suffered severe trauma over a 28 day period. A one time 5 ml blood sample will be collected from the healthy volunteers. Clinical data will be collected daily while patients are hospitalized. The initial blood sample must be collected from qualifying patients within the first 12 hours of admission to the hospital. The reason for blood sampling is to validate a rapid genomic test in real time. Once confirmed, this genomic test can be used to identify patients who will have a complicated clinical course and would, therefore, be good candidates for interventional, immunomodulatory therapies.
This is an observational study to understand the changes in alveolar dead space in medical critically ill patients with severe infection (severe sepsis) requiring mechanical ventilation and the possibility to predict multi-organ failure. The measurement of alveolar dead space used to require sophisticated equipment and time. New ventilators have microprocessors that allow rapid mathematical calculation with minimal intervention.
The purpose of this study is to help improve our understanding of the biology involved in the body's response to serious trauma or burn injury. The host response to trauma and burns is a collection of physiological and pathophysiological processes that depend critically upon the regulation of the human innate immune system, with particular emphasis on the inflammatory component of that system. No single research center or small group of centers has the capacity to delineate the integrated response of this complex biological system, which involves multiple molecular and genetic interactions that vary in time. Our proposal promotes the identification of important dynamic relationships that regulate the integration of this complex biological system, with the expectation that this understanding will ultimately impact the diagnosis, prognosis, and treatment of the hospitalized, severely injured patient.
The purpose of this study is to help improve our understanding of the biology involved in the body's response to serious trauma or burn injury. The host response to trauma and burns is a collection of physiological and pathophysiological processes that depend critically upon the regulation of the human innate immune system, with particular emphasis on the inflammatory component of that system. No single research center or small group of centers has the capacity to delineate the integrated response of this complex biological system, which involves multiple molecular and genetic interactions that vary in time. Our proposal promotes the identification of important dynamic relationships that regulate the integration of this complex biological system, with the expectation that this understanding will ultimately impact the diagnosis, prognosis, and treatment of the hospitalized, severely injured patient.
The purpose of this study is to determine whether providing high dose glutamine and antioxidants to critically ill patients will be associated with improved survival.
The purpose of this study is to determine if administration of angiotensin-(1-7) (TXA127) prevents acute kidney injury and deterioration into multi-organ failure in patients with severe COVID-19. Participants will undergo a 10-day treatment with either placebo or study drug. The drug will be administered intravenously for 3 hours once each day for 10 days consecutively.
The purpose of this study is to assess the ability of an empiric resuscitation strategy compared to standard care to decrease the incidence of organ failure in normotensive sepsis patients.
The purpose of this study is to (1) demonstrate the efficacy and safety (toxicity) of 25 mg/kg/day of Defibrotide in patients with severe veno-occlusive disease (sVOD) and (2) evaluate serum and endothelial markers of veno-occlusive disease (VOD) through the analysis of blood samples.
To define relationships between 1) HIV load and risk of CMV disease, 2) CMV load and the risk of developing CMV disease, and 3) CMV load and HIV load. To establish threshold CMV and HIV load values in peripheral blood fractions that are associated with development of CMV end-organ disease. To define the natural history of CMV diseases in the context of highly active antiretroviral therapy (HAART). Establishment of threshold CMV and HIV load values associated with CMV disease would facilitate identification of HIV-infected individuals truly at risk for CMV disease in whom targeted prophylactic interventions to prevent CMV disease would be indicated. These studies would also further the understanding of the natural history of CMV disease within the context of AIDS. Natural history studies conducted prior to the advent of highly active antiretroviral therapy (HAART; i.e., 3-drug regimens that include HIV reverse transcriptase and protease inhibitors) have demonstrated that the risk for developing CMV disease increases with progression of HIV disease and with declining CD4 counts. Presently the need exists to define the natural history of CMV disease in patients with AIDS within the context of HAART.
The primary goal of this Multicenter Study is to develop and to evaluate a method for measuring donor-specific cell free DNA in blood samples from transplant recipients as markers of rejection. Blood samples obtained periodically from heart transplant recipients are assessed for cell free DNA relative to clinical data in order to determine whether changes in the level of cell free DNA indicate rejection. This research study proposes testing a blood sample obtained from the heart transplant recipient. The research seeks to establish whether this blood test will show when the patient is beginning to or already rejecting the transplanted heart. BACKGROUND Identifying if a transplant patient is beginning to or already rejecting the heart is necessary, so that appropriate treatment can be started to halt the rejection. Heart catheterization with biopsy is the usual method used for assessing whether a patient may be rejecting the heart. There are also a number of other methods that transplant physicians will use to look for signs of rejection including other blood tests, echocardiograms, obtaining pressure readings during heart catheterization, and micro-array testing of blood obtained during biopsy. These technologies are limited in ability to consistently and accurately identify the presence of rejection. The usual method of checking for rejection involves obtaining a sample of the heart tissue (heart biopsy); biopsy can only be accomplished through heart catheterization which is an invasive procedure that has risks associated with disturbing the heart such as puncturing the heart or causing the heart rate to change or damaging tissue in the heart. Overtime, repeating this invasive procedure can diminish the ease of the procedure because the veins can become scarred and more difficult to access. For these reasons, researchers believe that it would be good to have a blood test that gives information about the possibility of rejection so that it may not be necessary to do as many heart biopsies. Also, a blood test may be able to provide information about the heart or about rejection that is currently not available at all.