The α-test: Rapid Cell-free CD4 Enumeration Using Whole Saliva

Indocyanine Green-Guided Intraoperative Imaging to Facilitate Video-Assisted Retroperitoneal Debridement for Treating Acute Necrotizing Pancreatitis

10.3791/62538-v 06:52 min

Stabilized Longitudinal In Vivo Cellular-Level Visualization of the Pancreas in a Murine Model with a Pancreatic Intravital Imaging Window

10.3791/62024-v 05:56 min

A Reproducible Intensive Care Unit-Oriented Endotoxin Model in Rats

10.3791/60913-v 07:54 min

Slicing and Culturing Pig Hearts under Physiological Conditions

10.3791/60719-v 05:16 min

Sleeve Gastrectomy in Mice using Surgical Clips

10.3791/59591-v

Murine Myocardial Infarction Model using Permanent Ligation of Left Anterior Descending Coronary Artery

10.3791/56672-v 08:13 min

Study of In Vivo Glucose Metabolism in High-fat Diet-fed Mice Using Oral Glucose Tolerance Test (OGTT) and Insulin Tolerance Test (ITT)

10.3791/50200-v 12:16 min

Patient Derived Cell Culture and Isolation of CD133+ Putative Cancer Stem Cells from Melanoma

10.3791/64612-v 05:10 min

Gasless Endoscopic Thyroidectomy via the Trans-Axillary Approach

10.3791/64493-v 10:04 min

Isolation of Regenerating Hepatocytes after Partial Hepatectomy in Mice

10.3791/64355-v

Laser-Induced Action Potential-Like Measurements of Cardiomyocytes on Microelectrode Arrays for Increased Predictivity of Safety Pharmacology

Microbiological Rapid On-Site Evaluation for Pulmonary Infectious Diseases

作者： Xiangwen Weng*1, Weiting Sun*2, Zhenchun Luo*1, Yuling Zhou1, Xing An3 1Department of Emergency and the Intensive Care Unit,Chongqing Hospital of Traditional Chinese Medicine, 2Department of Critical Care Medicine,Hospital of Chengdu University of Traditional Chinese Medicine, 3Respiratory and critical care,Chongqing Hospital of Traditional Chinese Medicine

简介：

Overview

This protocol introduces the microbiological rapid on-site evaluation (M-ROSE) workflow, which includes slide making, staining, and interpretation. It aims to assist physicians in making rapid clinical decisions regarding primary infections.

Key Study Components

Area of Science

Microbiology
Clinical Diagnostics
Infectious Diseases

Background

M-ROSE is designed for real-time assessment of primary infections.
It utilizes rapid cell staining technology and high-definition imaging.
Interpretation of results is a significant challenge due to the need for trained personnel.
Understanding pathogens in real-time can help reduce unnecessary antibiotic use.

Purpose of Study

To provide a standardized workflow for rapid clinical evaluation.
To enhance treatment strategies for patients with infections.
To improve the accuracy of pathogen identification.

Methods Used

Slide making for sample preparation.
Staining techniques for visualizing pathogens.
High-definition microscopic imaging for result interpretation.
Training protocols for personnel to improve interpretation accuracy.

Main Results

M-ROSE allows for rapid assessment of infections.
Improved understanding of pathogens aids in treatment decisions.
Challenges in interpretation highlight the need for trained staff.
Potential to reduce antibiotic resistance through better targeting.

Conclusions

M-ROSE is an efficient method for real-time clinical evaluation.
It supports physicians in making informed treatment choices.
Further studies are needed to expand its clinical application.

Frequently Asked Questions

What is M-ROSE?

M-ROSE is a rapid on-site evaluation protocol for assessing primary infections.

How does M-ROSE improve clinical decision-making?

It provides real-time results that help physicians formulate accurate treatment strategies.

What are the main components of the M-ROSE workflow?

The workflow includes slide making, staining, and interpretation of results.

What challenges are associated with M-ROSE?

The main challenge is the interpretation of results, which requires trained personnel.

How can M-ROSE impact antibiotic resistance?

By improving pathogen identification, it can reduce unnecessary broad-spectrum antibiotic use.

Is there a need for further research on M-ROSE?

Yes, more clinical studies are needed to validate its effectiveness and expand its use.

The protocol here demonstrates a fast and standardized microbiological rapid on-site evaluation (M-ROSE) workflow, including three steps: slide making, staining, and interpretation. This protocol will help physicians make rapid clinical decisions.