View clinical trials related to CNS Infection.
Filter by:Coronavirus disease 2019 (COVID-19) is a highly infectious pandemic disease caused by SARS-CoV-2 virus. Central Nervous System (CNS) complications associated with COVID-19 might be secondary sequelae due to exuberant systemic innate-mediated hyper-inflammation, which may impair neurovascular endothelial function, disrupt blood brain barrier (BBB), activates CNS innate immune signaling pathways, and induces parainfectious autoimmunity, potentially contributing to the CNS manifestations. Although the predominant clinical manifestation of SARS-CoV-2 is characterized by dyspnea, unremitting fever and hypoxemic respiratory failure, neurologic manifestations do occur in most hospitalized SARS-CoV-2 patients and include non-specific encephalopathy, psychosis, meningitis/encephalitis, myelitis, cerebrovascular events, Guillain-Barre' syndrome, and cranial or peripheral neuropathies, such as anosmia and ageusia. To date, data about primary CNS involvement due to neurotropism and direct neuroinvasion are still lacking.
Patients who are admitted to hospital with serious infections, such as those in bone, joints or spine, require a long course of intravenous (IV) antibiotics. After an initial treatment course in hospital or through a dedicated outpatient antibiotic program many patients can complete their treatment course at home. Such infections are often caused by bacteria called Staphylococci, and currently there are three antibiotic options used routinely. A fourth antibiotic, ceftriaxone, is a promising alternative; it is also effective against Staphylococci, and is more convenient, less costly and easier to give at home, however, it has not been studied thoroughly in a prospective manner. This study will compare ceftriaxone to routinely used antibiotics (cloxacillin, cefazolin or daptomycin) to see if ceftriaxone is equally as safe and efficacious in curing deep-seated Staphylococcal infections in patients receiving home IV antibiotics. Patients with deep-seated infections caused by methicillin-susceptible Staphylococcus aureus (MSSA) or coagulase-negative Staphylococcal species will be randomly assigned home IV treatment with ceftriaxone OR one of the three other antibiotics before leaving the hospital. Patients will then receive usual care from an Infectious Disease physician and Home IV team. The study team will assess whether cure has been achieved by the end of the IV treatment, follow-up at 6 months to see if patients remain infection-free, and record any side-effects of treatment. The overall goal is to determine whether ceftriaxone can be considered non-inferior to usual antibiotic treatment in treating Staphylococcal infections in a home IV setting.
Background: Multiple neonatal disorders are associated with risks of neurological injury. Thus, management of these infants should involve a coordinated approach to permit early diagnosis with improved clinical care. Such initiative involves the use of standardized protocols, continuous and specialized brain monitoring with electroencephalography (EEG), amplitude integrated EEG (aEEG) and Near Infrared Spectroscopy (NIRS), neuroimaging and training. Brazil is a very large country with disparities in health care assessment; some neonatal intensive care units (NICUs) are not well structured and trained to provide adequate neurocritical care. However, the development and implementation of these neurocritical care units requires high expertise and significant investment of time, manpower and equipment. In order to reduce the existing gap, a unique advanced telemedicine model of neurocritical care called Protecting Brains and Saving Futures (PBSF) protocol was developed and implemented in some Brazilian NICUs. Methods: A prospective observational cohort study will be conducted in 20 Brazilian NICUs that have adopted the PBSF protocol. All infants receiving the protocol during January 2021 to December 2023 will be eligible. Ethical approval will be obtained from the participating institutions. The primary objective is to describe the use of the PBSF protocol and clinical outcomes, by center and over a 3 years period. The use of the PBSF protocol will be measured by quantification of neuromonitoring, neuroimaging exams and sub-specialties consultation. Clinical outcomes of interest after the protocol implementation are length of hospital stay, detection of EEG seizures during hospitalization, use of anticonvulsants, inotropes, and fluid resuscitation, death before hospital discharge, and referral of patients to high-risk infant follow-up. These data will be also compared between infants with primarily neurologic and primarily clinical diagnosis. Discussion: The implementation of the PBSF protocol may provide adequate remote neurocritical care in high-risk infants with optimization of clinical management and improved outcomes. Data from this large, prospective, multicenter study are essential to determine whether neonatal neurocritical units can improve outcomes. Finally, it may offer the necessary framework for larger scale implementation and help in the development of studies of remote neuromonitoring.
Study on patients with CNS infections.