The purpose of this study is to determine the value of M-ROSE(microbiological rapid on-site evaluation)in severe hospital-acquired pneumonia.
Severe hospital acquired pneumonia (SHAP) is the critical risk factor leading to the death of nosocomial infection patients. Rapid identification of pathogens, guidance of individualized treatment and rational application of antibiotics can not only improve the administration of antibiotics, but also reduce the production of multi drug resistant bacteria. Metagenomic second-generation sequencing (mNGS) is an important tool to quickly identify the pathogen in ICU. However, due to the low qualified rate of lower respiratory tract specimens in patients with SHAP, easily polluted, and the difficulty to determine whether microorganisms are infectious, colonizated or polluted, the value of mNGS was limited in the etiological diagnosis of SHAP. The bedside M-ROSE system established by our research team can determine whether the lower respiratory tract specimen is qualified, whether infection exists and the pathogen of infection within half an hour. Based on the previous work, this project plans to conduct a prospective multicenter, single blind, randomized controlled study under the guidance of M-ROSE and mNGS in the individualized anti-infection strategy of SHAP, to reduce the mortality of patients with SHAP; Combined with the third-generation sequencing, the standard analysis framework for the traceability and prevention and control of drug-resistant bacteria was established to clarify the transmission route of drug-resistant bacteria, so as to provide a new solution for the prevention and control of clinical multidrug-resistant bacteria.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
SINGLE
Enrollment
166
The M-ROSE analysis process consists of 3 procudures. 1. Specimen quality assessment. The BALF undergoes the process of smear, diff-quik stain, gram stain and are analyzed by experts to report the cytoloy and pathogen patterns to determine whether the sample is qualified according to the cell proportions. The qualified BALF samples are: squamous epithelial cell proportion\<1%, columnar epithelial cell proportion \<5% . 2. Distinguish infection and colonization. According to the cytoloy pattern, the proportion of neutrophils \> 50% often strongly suggests pulmonary bacterial infection; Neutrophil phagocytosis proportion\> 5% indicates infection, and phagocytosis of bacteria is the pathogen. Besides, fungal and hyphae can be found under the microscope. 3. Preliminary identification of infectious pathogens. Identify the infected bacteria and fungi, and the results are gram-positive cocci, gram-positive bacilli, gram-negative cocci, gram-negative bacilli, yeasts and molds.
Yi Tao
Beijing, Beijing Municipality, China
RECRUITINGmortality
Alive or Dead.
Time frame: During the intervention.
Blood leukocyte ratio tread
The changing of blood leukocyte ratio
Time frame: During the intervention.
28 day outcome
Live or dead.
Time frame: 28 days after admission
Blood neutriphil ratio tread
The changing of blood neutriphil ratio tread
Time frame: During the intervention.
Blood interleukin 6 tread
The changing of blood interleukin 6 tread
Time frame: During the intervention.
Blood C-reactive protein
The changing of blood C-reactive protein
Time frame: During the intervention.
Blood procalcitonin tread
The changing of blood procalcitonin tread
Time frame: During the intervention.
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