View clinical trials related to Sepsis, Severe.
Filter by:The etiological diagnosis of sepsis is the key to guide clinical treatment. Metagenomic sequencing (mNGS) is very suitable for the diagnosis of sepsis due to its rapid, accurate and not easy to be disturbed by the environment. However, the conventional pathogen mNGS has potential risks such as low detection rate, loss of intracellular bacteria and fungi. At present, the latest fully targeted pathogen capture mNGS technology makes up for the shortcomings of conventional methods by bidirectional enrichment of pathogen nucleic acids. The aim of this study was to explore the value of fully targeted pathogen capture mNGS in improving etiological diagnosis in patients with sepsis compared with conventional methods.
The inflammatory storm in critically ill patients releases cytokines, causing systemic immune damage, which may be an important cause of multiple organ failure and even death. Inflammatory storms exacerbate the deterioration of the disease in those children. Gamma globulin may be an effective option to control inflammatory storms. However, this preliminary result needs to be verified from reliable and representative RCTs. In our study, we conducted a retrospective study on the use of gamma globulin and an unused control group. At present, the indications of IVIG are mainly focused on the neuromuscular system and the blood system. We hope to establish a more appropriate and operable evaluation table for the suitability of gamma globulin for clinical use.
The immune response can acquire different profiles (proinflammatory and anti-inflammatory response) depending on the activating agent.The objective of this study is to compare the immunological profile in patients with severe sepsis and positive blood cultures.
correlation between procalcitonin levels and the severity of sepsis and it's possibility to be used as a prognostic marker in patients with sepsis and severe sepsis
REHSI is a prospective, multi-center, open label, randomized, controlled two arms, to evaluate the ability of ivabradine to reduce an elevated heart rate in septic shock patients. The primary end point is the reduction of heart rate within 24 hours. This trial will randomize 70 patients (men and women, aged ≥ 18 years) with newly diagnosed Septic Shock (despite adequate fluid resuscitation, were still requiring high-dose norepinephrine (NE) to maintain a mean arterial pressure (MAP) ≥65 mmHg , and had a tachycardia >100 beats per minute (bpm). Treatment period will last 4 days. All patients will be followed for up to six months.