这些进步反过来又带来了更精确的诊断工具和快速开发用于新微生物菌株的高效、特异、敏感检测试剂盒。
These advances have in turn led to more precise diagnostic tools and the ability to quickly develop efficient, specific and sensitive detection kits for new microbial strains.
虽然及早诊断可以挽救生命,但是如今最为常见的诊断肺结核的方法-直观的检测唾液样品中所含的诱发疾病的微生物,需要复杂精确的设备以及训练有素的人才。
Early detection saves lives. But the most common way to diagnose TB, visually checking sputum samples for the microbe that causes the disease, requires sophisticated equipment and trained personnel.
基于对它们的更多了解,未来我们才有可能根据微生物群的组成来诊断疾病和开发有针对性的药物。
In the future, an improved understanding of the microbiota may allow us to diagnose diseases on the basis of microbiota composition and to design specific interventions.
国家卫生和流行病学研究所建立了公共卫生实验室诊断服务,对临床医师和微生物学家进行培训。
A public health laboratory diagnostic service was established at the National Institute of Hygiene and Epidemiology and training courses were conducted for clinicians and microbiologists.
微生物实验室诊断是最重要的手段之一。
One of the most important functions of the diagnostic microbiology laboratory.
为此提出了一种微生物发酵的故障诊断新方法,即两个关联向量机分别作为观测器和分类器。
Here a new method for fault diagnosis of microbiological fermentation sensor was provided, i. e. two relevance vector machines were used as observer and classifier respectively.
通过使用全自动微生物鉴定和药敏分析仪器,可以实现准确、快速地发现和鉴定病原体并及时做出病原学诊断及药物敏感性试验。
By automatic microorganism identifying and drug sensitivity analyzer, pathogen was identified accurately and quickly, pathogen diagnosis and drug sensitivity was decided soon.
针对这两种微生物的多种诊断方法面临着挑战,同时新的诊断方法正在研制和检测中。
For both organisms, multiple diagnostic challenges remain while newer diagnostic modalities are being developed and tested.
因此它能够大大提高微生物学检测和医疗诊断的效率和灵敏度。
Therefore, it could largely improve microbiological detection and efficiency and sensitivity in medical diagnosis.
采用临床诊断学、病理解剖学和微生物学等技术,对临床上送诊病猪进行了全面、详细的检查。
An illness swine delivered to clinical diagnose was checked up integrally and detailedly by using techniques of clinical diagnosis, pathological anatomy and microbiology.
微生物学和MRI是诊断的重要组成部分。
在临床医学中,毛细管电泳的应用主要包括临床疾病诊断,临床药物监测、滥用药物分析及临床微生物检测等。
The application of CE in clinical chemistry includes diagnosis of clinical disease, monitoring of clinical drug, analysis of illicit drugs and determining of clinical microbe, et al.
结果∶170位患者中,2例(1.17%)发生感染性并发症∶1例表皮葡萄球菌性脑膜炎,1例蝶窦炎(没有病源微生物学诊断)。
RESULTS: Of 170 patients, 2 (1.17%) developed infectious complications: 1 case of meningitis by Staphylococcus epidermidis and 1 case of sphenoid sinusitis (without microbiological diagnosis).
如何快速、准确地诊断机会性真菌感染,特别是深部真菌感染一直是临床微生物实验室面临的难题之一。
It is a difficult problem for rapid and accurate identification of opportunistic fungal infections, especially deep infections, in clinical mycology laboratory.
后者学习感染病病原体的诊断方法和抗微生物敏感性试验,提供临床医生诊断感染病和治疗用药的依据。
The later studies the diagnostic methods of infectious diseases and antimicrobial susceptibility tests to assist the physicians in clinical diagnosis and treatments.
后者学习感染病病原体的诊断方法和抗微生物敏感性试验,提供临床医生诊断感染病和治疗用药的依据。
The later studies the diagnostic methods of infectious diseases and antimicrobial susceptibility tests to assist the physicians in clinical diagnosis and treatments.
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