immunochemistry

简明释义

[/ˌɪmjunəˈkɛmɪstri/][/ˌɪmjunəˈkɛmɪstri/]

n. 免疫化学

英英释义

Immunochemistry is a branch of science that involves the study of the immune system and its components, particularly antibodies and antigens, through chemical methods.

免疫化学是一个科学分支,涉及通过化学方法研究免疫系统及其组成部分,特别是抗体和抗原。

单词用法

同义词

immunoassay

免疫测定

Immunoassays are widely used in clinical laboratories to detect specific antibodies.

免疫测定广泛应用于临床实验室,以检测特定抗体。

immunodiagnostics

免疫诊断

Immunodiagnostics play a crucial role in identifying infectious diseases.

免疫诊断在识别传染病中发挥着关键作用。

serology

血清学

Serology tests help determine the immune status of an individual.

血清学检测有助于确定个体的免疫状态。

反义词

non-immunochemistry

非免疫化学

Non-immunochemistry techniques are often used to analyze chemical compounds without the influence of immune responses.

非免疫化学技术通常用于分析化合物,而不受免疫反应的影响。

chemistry

化学

Basic chemistry provides foundational knowledge that is essential for understanding more complex fields like immunochemistry.

基础化学提供了理解更复杂领域(如免疫化学)所需的基础知识。

例句

1.The tonofilament expression in cell cytoplasm by electron-microscopy and positive reaction of cytokeratin by immunochemistry showed differentiative character of squamous epithelium.

电镜可见胞浆有张力原纤维,角蛋白免疫组织化学阳性证实鳞状上皮有分化特征。

2.These results are consistent with the result of NOS distribution from immunochemistry.

这个结果于NOS分布的免疫组化实验结果相一致。

3.Even the otherwise complex immunochemistry topics were dissected in details, and without pain.

即使不这样复杂的免疫化学题目被详细,和没有痛苦详细研究。

4.The tonofilament expression in cell cytoplasm by electron-microscopy and positive reaction of cytokeratin by immunochemistry showed differentiative character of squamous epithelium.

电镜可见胞浆有张力原纤维,角蛋白免疫组织化学阳性证实鳞状上皮有分化特征。

5.The enzyme immunochemistry of pesticides including the preparation of the specific antibody for single compound and the "broad specific" antibodies for multi-residue analysis.

农药小分子的酶免疫化学研究可以是针对单个化合物制备特异性抗体,也可以针对一类化合物制备“簇特异性”抗体从而进行多残留免疫分析。

6.RESULT1 Immunochemistry result(1) BFGF immune positive cell was found in negative control group.

在阴性对照组中发现BFGF免疫阳性细胞。

7.Immunochemistry demonstrated tumor cells were positive in the luminous tissues.

免疫组化染色显示,发光组织中肿瘤细胞呈阳性。

8.In addition, immunochemistry of CD34, CD20, and leukocyte common antigen was detected.

同时进行白细胞共同抗原、CD34、CD 20的免疫组化观察。

9.The study of immunochemistry involves the interaction between antigens and antibodies.

免疫化学的研究涉及抗原和抗体之间的相互作用。

10.Researchers are using immunochemistry techniques to identify specific proteins in cancer cells.

研究人员正在使用免疫化学技术来识别癌细胞中的特定蛋白质。

11.Understanding immunochemistry can help in the development of new vaccines.

理解免疫化学有助于新疫苗的开发。

12.Clinical labs often rely on immunochemistry for accurate blood tests.

临床实验室通常依赖免疫化学进行准确的血液测试。

13.The lab specializes in immunochemistry, which is crucial for diagnosing autoimmune diseases.

该实验室专注于免疫化学,这对诊断自身免疫性疾病至关重要。

作文

Immunochemistry is a fascinating field of science that combines the principles of immunology and chemistry to study the immune system's response to various substances. This interdisciplinary approach has led to significant advancements in both medical diagnostics and therapeutic interventions. In essence, immunochemistry (免疫化学) focuses on the interactions between antibodies and antigens, which are crucial for understanding how the body defends itself against pathogens such as bacteria and viruses. One of the most important applications of immunochemistry (免疫化学) is in the development of diagnostic tests. For instance, the use of enzyme-linked immunosorbent assays (ELISA) allows for the detection of specific proteins or antibodies in a given sample. This technique has revolutionized the way we diagnose diseases, including infectious diseases like HIV and hepatitis, as well as autoimmune disorders. By utilizing the principles of immunochemistry (免疫化学), healthcare professionals can identify the presence of disease markers with high sensitivity and specificity.Moreover, immunochemistry (免疫化学) plays a crucial role in the development of targeted therapies, particularly in the field of oncology. Monoclonal antibodies, which are engineered to bind to specific cancer cell markers, exemplify the application of immunochemistry (免疫化学) in treatment. These therapies not only enhance the effectiveness of the immune response against tumors but also minimize damage to healthy tissues, leading to fewer side effects compared to traditional chemotherapy.In addition to diagnostics and therapeutics, immunochemistry (免疫化学) is also instrumental in vaccine development. Vaccines work by stimulating the immune system to recognize and combat pathogens without causing the disease itself. The principles of immunochemistry (免疫化学) guide researchers in designing effective vaccines that elicit strong and lasting immune responses. For example, understanding how different adjuvants can enhance the immunogenicity of a vaccine is essential for creating more effective immunization strategies.Furthermore, the study of immunochemistry (免疫化学) extends beyond human health. It is also applicable in veterinary medicine, agriculture, and environmental science. For instance, immunochemical techniques are used to monitor animal health and detect diseases in livestock, ensuring food safety and public health. In environmental science, immunochemistry (免疫化学) is employed to detect pollutants and toxins in ecosystems, aiding in conservation efforts.As we continue to explore the complexities of the immune system through immunochemistry (免疫化学), the potential for new discoveries is immense. The integration of advanced technologies, such as mass spectrometry and bioinformatics, with traditional immunochemical methods is opening new avenues for research. This synergy not only enhances our understanding of immune responses but also paves the way for innovative solutions to global health challenges.In conclusion, immunochemistry (免疫化学) stands at the intersection of chemistry and biology, providing invaluable insights into the immune system and its functions. Its applications in diagnostics, therapeutics, and vaccine development have transformed modern medicine, making it a vital area of study for scientists and healthcare professionals alike. As we advance our knowledge in this field, we can expect even greater breakthroughs that will improve health outcomes and enhance our quality of life.

免疫化学是一个迷人的科学领域,它结合了免疫学和化学的原理,以研究免疫系统对各种物质的反应。这种跨学科的方法在医学诊断和治疗干预方面取得了重大进展。实际上,免疫化学immunochemistry)专注于抗体和抗原之间的相互作用,这对于理解身体如何抵御细菌和病毒等病原体至关重要。免疫化学immunochemistry)最重要的应用之一是在诊断测试的发展中。例如,酶联免疫吸附测定(ELISA)的使用允许在给定样本中检测特定蛋白质或抗体。这项技术彻底改变了我们诊断疾病的方式,包括HIV和肝炎等传染病,以及自身免疫性疾病。通过利用免疫化学immunochemistry)的原理,医疗专业人员可以以高灵敏度和特异性识别疾病标志物。此外,免疫化学immunochemistry)在靶向疗法的发展中也发挥着关键作用,特别是在肿瘤学领域。单克隆抗体被设计成与特定癌细胞标志物结合,体现了免疫化学immunochemistry)在治疗中的应用。这些疗法不仅增强了免疫系统对肿瘤的反应效果,还最大限度地减少了对健康组织的损害,从而导致比传统化疗更少的副作用。除了诊断和治疗之外,免疫化学immunochemistry)在疫苗开发中也起着重要作用。疫苗通过刺激免疫系统识别和对抗病原体而不引发疾病来发挥作用。免疫化学immunochemistry)的原理指导研究人员设计有效的疫苗,以引发强大而持久的免疫反应。例如,了解不同佐剂如何增强疫苗的免疫原性对于创建更有效的免疫策略至关重要。此外,免疫化学immunochemistry)的研究不仅限于人类健康。它在兽医学、农业和环境科学中也同样适用。例如,免疫化学技术用于监测动物健康和检测牲畜中的疾病,以确保食品安全和公众健康。在环境科学中,免疫化学immunochemistry)被用来检测生态系统中的污染物和毒素,帮助保护工作。随着我们继续通过免疫化学immunochemistry)探索免疫系统的复杂性,新的发现潜力巨大。先进技术(如质谱和生物信息学)与传统免疫化学方法的结合正在为研究开辟新的途径。这种协同作用不仅增强了我们对免疫反应的理解,也为应对全球健康挑战铺平了道路。总之,免疫化学immunochemistry)处于化学和生物学的交汇点,为我们提供了对免疫系统及其功能的宝贵见解。它在诊断、治疗和疫苗开发中的应用已经改变了现代医学,使其成为科学家和医疗专业人员必须研究的重要领域。随着我们在这一领域知识的不断推进,我们可以期待更多突破,这将改善健康结果,提高我们的生活质量。