bacteriologic

简明释义

英[ˌbæktɪrɪəˈlɑdʒɪk]美[ˌbæktɪrɪəˈlɑdʒɪk]

adj. 细菌学的

英英释义

单词用法

同义词

反义词

例句

1.CSF and blood were tested by standard bacteriologic technique. CSF, blood and concentrated urine were tested directly for detecting antigen by CIE. The data were analysed by epidemiologic methods.

对脑脊液（CSF）、血作常规细菌学检查，脑脊液、血和浓缩尿标本进行对流免疫电泳（CIE）抗原检测，全部资料进行流行病学分析。

2.Most of the specimens containing acetic acid, propionic acid, butyric acid, isobutyric acid, valeric acid, lactic acid and succinic acid which were accorded with the result of bacteriologic study.

在大多数标本中含有乙酸、丙酸、丁酸、异丁酸、戍酸、乳酸和琥珀酸，与细菌培养的结果基本相符。

3.Aim: to evaluate the result of local application of clindamycin membrane treating acute topical type pericoronitis of wisdom tooth with clinical observation and bacteriologic examination.

目的：对局部应用氯林可霉素药膜治疗急性局限型智齿冠周炎的结果进行临床观察和细菌学检测，以评价其在智齿冠周炎治疗中的意义。

4.Methods After the limb blasted, to compare the pathologic and bacteriologic change on wound in 3d, 7d and 14d respectively, and define the optimal timing of wound closure.

方法：犬左后肢炸伤后，对比3天、7天、14天三个时间点创面病理学特点和细菌含量及性质变化。

5.The evidence from bacteriologic analysis was equivocal .

这一细菌学分析的证据是不明确的。

6.Most of the specimens containing acetic acid, propionic acid, butyric acid, isobutyric acid, valeric acid, lactic acid and succinic acid which were accorded with the result of bacteriologic study.

在大多数标本中含有乙酸、丙酸、丁酸、异丁酸、戍酸、乳酸和琥珀酸，与细菌培养的结果基本相符。

7.METHODS The clinical data of 85 cases with PPE were retrospectively analyzed. The clinical pathological type, bacteriologic features and treatment results were investigated.

方法回顾性分析85例PPE患者的临床资料，分析病理分型、细菌学特点与治疗结果。

8.Objective Comparative studies on the dynamic changes and the bacteriologic activities from the haemolymph of Musca Domestica L. induced by several factors.

目的比较不同诱导源诱导家蝇血淋巴中产生抗菌物质的动力学变化及抗菌活性。

9.The bacteriologic 细菌学 findings were crucial in developing a treatment plan for the patient.

这些细菌学发现对制定患者的治疗计划至关重要。

10.In bacteriologic 细菌学 research, scientists often use cultures to grow and study bacteria.

在细菌学研究中，科学家们经常使用培养基来生长和研究细菌。

11.Many hospitals have specialized bacteriologic 细菌学 labs for diagnosing infectious diseases.

许多医院设有专门的细菌学实验室，用于诊断传染病。

12.The doctor ordered a bacteriologic 细菌学 test to determine the cause of the infection.

医生要求进行细菌学测试以确定感染的原因。

13.The lab conducted a thorough bacteriologic 细菌学 analysis to identify the pathogens present in the water sample.

实验室进行了彻底的细菌学分析，以识别水样中的病原体。

作文

The field of medicine has made tremendous strides over the years, particularly in understanding the role of bacteria in human health. One of the pivotal areas of study is the bacteriologic (细菌学的) examination of pathogens that can cause diseases. This branch of science helps us identify harmful bacteria and develop effective treatments to combat infections. In recent years, the importance of bacteriologic (细菌学的) research has grown exponentially, especially with the rise of antibiotic-resistant strains of bacteria. These so-called 'superbugs' pose a significant threat to public health, making it imperative for scientists to delve deeper into bacteriologic (细菌学的) studies. By understanding the genetic makeup and behavior of these organisms, researchers can devise new strategies to manage and treat bacterial infections.Moreover, bacteriologic (细菌学的) techniques are not only crucial in hospitals but also play a vital role in food safety. The food industry employs bacteriologic (细菌学的) testing to ensure that products are free from harmful bacteria that can cause foodborne illnesses. Regular testing and monitoring help maintain public health standards and prevent outbreaks of diseases linked to contaminated food.In addition to clinical and food safety applications, bacteriologic (细菌学的) research is also essential in environmental science. Understanding how bacteria interact with their environment allows scientists to develop bioremediation techniques, utilizing bacteria to clean up pollutants and restore ecosystems. This innovative approach showcases the versatility of bacteriologic (细菌学的) knowledge in addressing some of the world's pressing environmental challenges.Education in bacteriologic (细菌学的) studies is becoming increasingly important as well. Universities and research institutions are offering specialized programs that focus on microbiology and its applications. Students learn about various bacteriologic (细菌学的) methods, including culturing, staining, and identifying bacteria, which are fundamental skills for any aspiring microbiologist.Furthermore, the integration of technology into bacteriologic (细菌学的) research has opened new avenues for discovery. Advanced imaging techniques and genomic sequencing allow scientists to observe bacterial behavior in real-time and analyze their genetic material with unprecedented precision. This technological revolution is enhancing our understanding of bacterial life and paving the way for novel therapies and interventions.In conclusion, the significance of bacteriologic (细菌学的) research cannot be overstated. From medical applications to food safety and environmental protection, the study of bacteria is integral to many aspects of our lives. As we continue to face new challenges posed by infectious diseases and environmental degradation, the insights gained from bacteriologic (细菌学的) studies will be crucial in developing effective solutions. It is essential for future generations of scientists to embrace this field and contribute to the ongoing quest for knowledge that can ultimately improve human health and the environment.

医学领域近年来取得了巨大的进步，尤其是在理解细菌在人类健康中所扮演的角色方面。研究的一个关键领域是对病原体进行bacteriologic(细菌学的)检查，这些病原体可能导致疾病。这个科学分支帮助我们识别有害细菌并开发有效的治疗方法来对抗感染。近年来，bacteriologic(细菌学的)研究的重要性急剧上升，尤其是在抗生素耐药菌株日益增加的情况下。这些所谓的“超级细菌”对公共健康构成了重大威胁，因此科学家必须深入研究bacteriologic(细菌学的)问题。通过了解这些生物的基因构成和行为，研究人员可以设计新的策略来管理和治疗细菌感染。此外，bacteriologic(细菌学的)技术不仅在医院至关重要，还在食品安全中发挥着重要作用。食品行业采用bacteriologic(细菌学的)测试，以确保产品不含有可能导致食源性疾病的有害细菌。定期测试和监测有助于维护公共卫生标准，并防止与受污染食品相关的疾病爆发。除了临床和食品安全应用外，bacteriologic(细菌学的)研究在环境科学中也至关重要。了解细菌如何与其环境相互作用使科学家能够开发生物修复技术，利用细菌清理污染物并恢复生态系统。这种创新的方法展示了bacteriologic(细菌学的)知识在应对一些全球紧迫环境挑战中的多样性。教育方面，bacteriologic(细菌学的)研究也变得越来越重要。大学和研究机构提供专门的课程，重点研究微生物学及其应用。学生学习各种bacteriologic(细菌学的)方法，包括培养、染色和识别细菌，这些都是任何有志于成为微生物学家的人的基本技能。此外，技术的整合进入bacteriologic(细菌学的)研究开辟了新的发现途径。先进的成像技术和基因组测序使科学家能够实时观察细菌行为，并以前所未有的精确度分析它们的遗传物质。这场技术革命正在增强我们对细菌生命的理解，并为新疗法和干预措施铺平道路。总之，bacteriologic(细菌学的)研究的重要性不容低估。从医疗应用到食品安全和环境保护，细菌研究在我们生活的许多方面都是不可或缺的。随着我们继续面临由传染病和环境退化带来的新挑战，从bacteriologic(细菌学的)研究中获得的见解将在开发有效解决方案方面至关重要。未来的科学家一代必须拥抱这一领域，为持续追求知识做出贡献，从而最终改善人类健康和环境。