View clinical trials related to Toxemia.
Filter by:Sepsis associated encephalopathy (SAE) is a poorly understood acute cerebral dysfunction that frequently appears in the setting of sepsis induced systemic inflammation. In fact, altered mentation is recognized as an independent predictor of death and poor outcomes in patients with sepsis. SAE may be manifested by a number of symptoms characterized by a change in baseline behavior, attention, alertness, cognition, or executive functioning. It occurs in the absence of direct Central Nervous System (CNS) infection, and the exact pathophysiology is of SAE is unknown, but theoretically seems to encompass a constellation of mechanisms such as impairment of the blood brain barrier (BBB), endothelial dysfunction, alteration in cerebral blood flow and neurotransmission, circulating inflammatory mediators, cellular hypoxia, and metabolic disturbances, that ultimately result in neuronal dysfunction and cell death. SAE is characterized by an altered mental status (AMS) that ranges from delirium to coma, and can lead to long-term cognitive impairment. SAE may appear early in the course of sepsis, and is often underestimated as an independent factor of mortality, yet the pathophysiology of SAE remains unknown, and there is a lack of specific investigations available to clinicians. Studies have evaluated biomarkers as prognostic tools. The Investigator propose to measure neuron specific enolase (NSE), S-100B, glial fibrillary acidic protein (GFAP), ubiquitin C-terminal hydrolase L1 (UCH-L1), Tau protein, Copeptin, spectrin breakdown products (SBDP 145, SBDP150), αII-spectrin N-terminal fragment (SNTF), neurofilament light and heavy chains (NF-L, NF-H), myelin basic protein (MBP), secretoneurin (SN), and other peptide levels in the serum of sepsis patients who develop altered mental status, to evaluate the kinetics of said biomarkers for 72 hours. The Investigator will monitor the course of the patients' hospitalization to determine whether there are biomarker correlates with survival and outcomes, including neurologic impairment. Finally, this investigation may provide a mechanistic pathway that defines the development of AMS in septic patients.
The investigators would like to determine if early administration of oral Midodrine in participants diagnosed with sepsis will impact blood pressures and decrease the need for and/or doses of intravenous pressor agents.
Severe sepsis and septic shock are the most severe forms of sepsis (which associates a systemic inflammatory response with infection). These are serious pathologies with a lethality estimated at almost 40% at 28 days (after the onset of sepsis). After a first pro-inflammatory phase, a second compensatory phase called Compensatory Anti-Inflammatory Response Syndrome (CARS) takes place quickly. Patients then show signs of immunosuppression and profound alterations in immune functions. It is during this phase that the vast majority of deaths occur, far from the onset of the shock, which is related to the inability of the immune system to eliminate the initial infectious agent and / or a greater susceptibility Important to develop secondary infections (nosocomial infection, latent virus reactivation ...). The CARS phase has been the subject of studies focusing on measuring the plasma concentration of anti-inflammatory cytokines (such as Interleukin (IL) -10), the percentage of regulatory T lymphocytes (Treg), Or the percentage of monocytic expression of HLA-DR in septic patients. The investigator proposes to carry out the first study on a newly described regulatory lymphocytic subpopulation: regulatory B lymphocytes (Breg) from a quantitative and functional point of view in severe septic states.
The purpose of this prospective, non-interventional, multi-centre clinical study is to assess the clinical validity of the Heparin Binding Protein (HBP) assay for indicating the presence, or outcome, of severe sepsis (including septic shock), over 72 hours, in patients with suspected infection following emergency department admission.
Sepsis is life-threatening and dysregulated response to infection that results in endothelial activation and dysfunction that leads to systemic microvascular leak and multiple-organ failure. This study will identify patients that have sepsis with thrombocytopenia and randomize them to receive a unit of platelets or an equivalent volume of saline.
Babies that get an infection after 3 days of age while in the Neonatal Intensive Care Unit is not related to their delivery but to the hospital environment. Preventing these infections results in shorter hospital stays for babies, less risk of long term health problems and less health care resources required to care for them. Hand washing alone doesn't remove all bacteria from the hands of healthcare workers, and studies have shown that infections in adults and children admitted to hospital decrease if health care providers use clean, non- sterile gloves when treating patients. The main focus of this study will be to find out if using gloves when caring for newborns in the NICU is better than washing hands alone. McMaster Children's Hospital and The Hospital for Sick Children will be the pilot sites to participate in a future larger study where some infants will be cared for using non-sterile gloves, and others will be cared for using the standard hand washing method.
Mitochondria are organelles (a specialized subunit of a cell) responsible for providing cells with energy. For reasons not yet understood, mitochondria will release their DNA into blood in response to cellular injury or cell death. With a simple blood draw, investigators can measure the amount of mitochondrial DNA in a patient's blood. The investigators' hypothesis, is that mitochondrial DNA can be used as a surrogate marker of cellular injury to predict patient outcomes. The investigators intend to test their hypothesis by measuring mitochondrial DNA in adult patients presenting to the Emergency Department with sepsis (a life-threatening condition due to an infection) and observing their hospital course.
Toxemia of pregnancy is a recognized entity for over 2000 years with its known complications and fatality. Nowadays, a most accepted terminology for the following defined syndrome is "hypertensive disorders in pregnancy" given by American College of Obstetrics and Gynecology. It is an important cause of maternal and fetal morbidity and mortality. Pregnancy induced hypertension (PIH) was classified as gestational hypertension, preeclampsia, severe preeclampsia and eclampsia. PIH is a hypertensive disorder in pregnancy that occurs after 20 weeks of pregnancy in the absence of other causes of elevated blood pressure (BP) (BP >140/90 mmHg measured two times with at least of 4 hour interval) in combination with generalized edema and/or proteinuria (>300 mg per 24 hrs). When there is significant proteinuria it is termed as preeclampsia; seizure or coma as a consequence of PIH is termed as eclampsia. Preeclampsia was classified into mild and severe preeclampsia. Mild eclampsia—BP >140/90 mmHg, proteinuria+, and/or mild edema of legs, Severe preeclampsia—BP >160/110 mmHg,proteinuria++ or ++++, headache, cerebral or visual disturbances, epigastric pain, impaired liver function tests and increase in serum creatinine. Proteinuria was tested using dipstick method as +=0.3 gm/L, ++=1 gm/L, and +++=3 gm/L. The pathological changes of this disease appear to be related to vascular endothelial dysfunction and its consequences (generalized vasospasm and capillary leak). Ocular involvement is common in PIH.Common symptoms are blurring of vision, photopsia, scotomas and diplopia. Visual symptoms may be the precursor of seizures.Progression of retinal changes correlates with progression of PIH and also with the fetal mortality due to similar vascular ischemic changes in placenta.Vasospastic manifestations are reversible and the retinal vessels rapidly return to normal after delivery. Ophthalmoscope should be rated next to the sphygmomanometer as an instrument of diagnostic importance in cases of PIH. Ophthalmoscopy does not only helps in diagnosing the disease but repeated observations assist in assessing the severity, progress of disease, response to treatment if any and ultimate outcome or prognosis.
Sepsis occurs when a serious infection - most commonly infection of the lungs, urinary system, or blood - leads to acute organ failure. It is a common, expensive, and frequently lethal condition. A growing body of evidence suggests that early recognition and treatment of sepsis can improve survival. Unfortunately, many patients with sepsis do not receive key therapies until physicians working in Emergency Departments have assessed them - often introducing marked delays. It is estimated that one-half of patients with sepsis are treated and transported to hospital by paramedics. This allows paramedics a unique opportunity to provide early treatment at the initial point of patient contact, thereby decreasing the time to treatment for these critically ill patients. This randomized controlled trial will evaluate whether prompt recognition followed by early antibiotics and/or intravenous fluids delivered by paramedics in the field leads to improved survival, compared to usual care, for patients who are transported to the hospital with sepsis.
Severe sepsis is a common condition with high mortality and morbidity. A previous meta-analysis has demonstrated the safety of glutamine supplementation with suggestion of mortality and morbidity benefits in critically ill patients. But there is lack of evidence to recommend the use of intravenous glutamine supplementation in this population group. A randomized controlled trial which is adequately powered will resolve this issue and can be included in future international nutrition guidelines for the critically ill. This pilot study is done prior to a proposed local multi-center study to investigate the effects of glutamine supplementation.