View clinical trials related to Pneumonia.
Filter by:The objective of this study is to evaluate the clinical characteristics and outcomes of critically ill patients with COVID-19 admitted to the intensive care unit. A Multicenter Observational Study.
The primary objectives of this study are: - To assess the safety and tolerability of cefiderocol after single-dose administration in hospitalized paediatric participants 3 months to < 18 years of age with suspected or confirmed aerobic Gram-negative bacterial infections - To assess the pharmacokinetics (PK) of cefiderocol after single-dose administration of cefiderocol in hospitalized paediatric participants 3 months to < 18 years of age with suspected or confirmed aerobic Gram-negative bacterial infections - To assess the safety and tolerability of cefiderocol after multiple-dose administration in hospitalized paediatric participants 3 months to < 12 years of age with suspected or confirmed aerobic Gram-negative bacterial infections - To assess the PK of cefiderocol after multiple-dose administration in hospitalized paediatric participants 3 months to < 12 years of age with suspected or confirmed aerobic Gram-negative bacterial infections
Phase II, prospective, interventional, single-arm, multicentric, open label trial, with a parallel retrospective collection of data on not treated patients from IRCCS, San Raffaele Scientific Institute included in the institutional observational study. A sample of 50 patients with COVID-19 pneumonia will allow to detect an absolute reduction in the rate of Respiratory-failure at day+14 after treatment of 20%, assuming that the actual rate of failure in the corresponding not treated patients is 70% (alpha=5%, power=90%, two-sided test). The software PASS15 was used for calculations. The study will also include a parallel retrospective group of temporally concomitant patients from IRCCS, San Raffaele Scientific Institute, who did not receive an experimental treatment and who are enrolled in an already IRB approved observational study
The novel coronavirus SARS-CoV-2 (COVID-19) is an emerging respiratory virus that causes pneumonia. WHO data reported admission to the intensive care unit (ICU) for 6% of patients, with a mortality rate reaching 45%. To date, apart from therapeutic trials, ICU management is symptomatic, based on organ failure support therapies. In the initial phase, the therapeutic management also includes empiric antimicrobial therapy (90% of patients, in accordance with LRTI guidelines (ATS 2019) and SRLF Guidelines (2020). One challenge for the ICU physicians is the timing for discontinuation of antimicrobial treatment, especially in case of shock or ARDS, considering that a substantial proportion of COVID-19 pneumonia patients may have pulmonary bacterial coinfection/superinfection. In order to avoid unnecessary prolonged antimicrobial therapy, and subsequent selective pressure, two tests could be combined in a personalized antibiotic strategy: - Procalcitonin (PCT): PCT is a useful tool to guide antibiotics discontinuation in community-acquired pneumonia) and viral pneumonia (PMID24612487). - Respiratory multiplex PCR FA-PPP (Biomérieux®): panel has been enlarged, including 8 viruses and 18 bacteria (quantitative analysis). The turnaround time is short. Sensitivity is high (99%, PMID32179139). It may contribute, in combination with conventional tests, to accelerate and improve the microbiological diagnosis during severe COVID-19 pneumonia. The hypothesize of the study is that the combination of the mPCR FA-PPP and PCT could be used to reduce antibiotics exposure in patients with severe confirmed COVID-19 pneumonia, with a higher clinical efficacy and safety as compared with a conventional strategy.
Phase II & Phase III: This is a pragmatic, adaptive, randomized, multicenter phase II/III study evaluating IFX-1 for the treatment of COVID-19 related severe pneumonia. The study consists of two parts: Phase II, an open-label, randomized, 2-arm phase evaluating best supportive care (BSC) + IFX-1 (Arm A) and BSC alone (Arm B); and Phase III, a double-blind, placebo-controlled, randomized phase comparing standard of care (SOC) + IFX-1 (Arm A) versus SOC + placebo-to-match (Arm B)
Coronavirus disease-2019 (COVID-19) has a quoted inpatient mortality as high as 25%. This high mortality may be driven by hyperinflammation resembling cytokine release syndrome (CRS), offering the hope that therapies targeting the interleukin-6 (IL-6) axis therapies commonly used to treat CRS can be used to reduce COVID-19 mortality. Retrospective analysis of severe to critical COVID-19 patients receiving tocilizumab demonstrated that the majority of patients had rapid resolution (i.e., within 24-72 hours following administration) of both clinical and biochemical signs (fever and CRP, respectively) of hyperinflammation with only a single tocilizumab dose. Hypotheses: 1. Tocilizumab is effective in decreasing signs, symptoms, and laboratory evidence of COVID-19 pneumonitis in hospitalized, non-critically ill patients with clinical risk factors for clinical decompensation, intensive care utilization, and death. 2. Low-dose tocilizumab is effective in decreasing signs, symptoms, and laboratory evidence of COVID-19 pneumonitis in hospitalized, non-critically ill patients with and without clinical risk factors for clinical decompensation, intensive care utilization, and death. Objectives: 1. To establish proof of concept that tocilizumab is effective in decreasing signs, symptoms, and laboratory evidence of COVID-19 pneumonitis in hospitalized, non-critically ill patients with clinical risk factors for clinical decompensation, intensive care utilization, and death, as determined by the clinical outcome of resolution of fever and the biochemical outcome measures of time to CRP normalization for the individual patient and the rate of patients whose CRP normalize. 2. To establish proof of concept that low-dose tocilizumab is effective in decreasing signs, symptoms, and laboratory evidence of COVID-19 pneumonitis in hospitalized, non-critically ill patients without clinical risk factors for clinical decompensation, intensive care utilization, and death, as determined by the clinical outcome of resolution of fever and the biochemical outcome measures of time to CRP normalization for the individual patient and the rate of patients whose CRP normalize.
In our center up to 25% of the hospitalized patients with COVID-19 progress and need an intensive care unit. It is urgent to find measures that can avoid this progression to severe stages of the disease. We hypothesize that the use of anti-inflammatory drugs used at the time they start hyperinflammation episodes could improve symptoms and prognosis of patients and prevent their progression sufficiently to avoid their need for be admitted to an Intensive Care Unit.
On Dec 31, 2019, a number of viral pneumonia cases were reported in China. The virus causing pneumonia was then identified as a new coronavirus called SARS-CoV-2. Since this time, the infection called coronavirus disease 2019 (COVID-19) has spread around the world, causing huge stress for health care systems. To diagnose this infection, throat and nose swabs are taken. Unfortunately, the results often take more than 24 hrs to return from a laboratory. Speeding diagnosis up would be of great help. This study aims to look at the breath to find signs that might allow clinicians to diagnose the coronavirus infection at the bedside, without needing to send samples to the laboratory. To do this, the team will be using a machine called a BreathSpec which has been adapted to fit in the hospital for this purpose.
PCP is one of the common opportunistic infections in patients with HIV and non-HIV-associated immunodeficiency.With the increasing number of solid organ transplantation, how to effectively treat severe PCP after solid organ transplantation has become an urgent problem to be solved.In general, Atovaquone, Dapsone, and Clindamycin-primaquine can be used as second-line alternatives when TMP-SMX fails to treat HIV-PCP. Therefore, the objective of this study is to preliminarily investigate the safety and efficacy of low-dose TMP-SMX combined with clindamycin (CT regimen) for the treatment of severe PCP after solid organ transplantation.
Coronavirus 2019 (COVID-19) is a respiratory tropism virus transmitted through droplets emitted into the environment of infected persons. The symptoms can be extremely varied and the course can range from spontaneous healing without sequelae to death. Currently, the diagnosis of certainty for resuscitation patients (by definition "severe") is based on searching for a fragment of virus genetic material within the epithelial cells of the respiratory tree, up and/or down, by PCR. It is to be expected that the epidemic peak will make it difficult (if not impossible) to respect the stereotypical path that is currently in place, due to the lack of space in the specific unit. This will require optimization of care pathways and use of the specific sectors. It is therefore necessary to define the simple criteria, available from the moment patients are admitted, to predict the result of the COVID-19 PCR.