capsular

简明释义

英[ˈkæpsjʊlə(r)]美[ˈkæpsjuːlər]

adj. 蒴的；胶囊状的

英英释义

单词用法

同义词

反义词

例句

1.As part of the capsular exposure, fibers of the rectus femoris are elevated off the anterior capsule.

作为关节囊显露的一部分，股直肌的纤维由前关节囊上掀起。

2.Imaging studies show ring enhancement and capsular thickening.

影像上表现为环状强化，囊壁增厚。

3.OBJECTIVE:To establish and evaluate the intracerebral capsular hemorrhage models in rats.

目的：建立和评价大鼠脑内囊出血模型。

4.ObjectiveTo investigate the clinical causes of capsular bag block syndrome(CBS).

目的探讨晶状体囊袋阻滞综合征的临床原因。

5.Their postoperative vision, astigmatism, decentration of IOL, posterior capsular opacity and main fundus complication were examined.

观察术后视力、散光、晶状体偏位、后囊浑浊及主要眼底并发症等。

6.Recently The modern extExfra-capsular extirpator wasperformed with new surgical instruments under microscope.

现代白内障囊外摘除术是在手术显微镜下，运用新型手术器械完成的。

7.Sealed capsular irrigation device makes it possible for the prevention of PCO with medicine.

封闭囊袋灌洗系统的问世使药物防治后发性白内障成为可能。

8.In the lab, we studied the capsular 囊状的 structure of bacterial cells under a microscope.

在实验室里，我们在显微镜下研究了细菌细胞的capsular 囊状的 结构。

9.Research showed that the capsular 囊状的 layer of the tumor could affect treatment options.

研究表明，肿瘤的capsular 囊状的 层可能会影响治疗选择。

10.The capsular 囊状的 design of the new product helps protect it from damage during shipping.

新产品的capsular 囊状的 设计有助于在运输过程中保护其免受损坏。

11.The doctor explained that the pain was due to a problem with the capsular 囊状的 tissue surrounding the joint.

医生解释说，疼痛是由于关节周围的capsular 囊状的 组织出现问题引起的。

12.The capsular 囊状的 format of the medication makes it easier to swallow.

这种药物的capsular 囊状的 格式使其更易于吞咽。

作文

In the field of biology, the term capsular refers to structures that are encased in a capsule or a protective layer. This is particularly relevant in microbiology, where many bacteria possess a capsular feature that helps them evade the immune system of their host. The capsular layer can be composed of polysaccharides or proteins, forming a thick, gelatinous shield around the bacterial cell wall. This adaptation not only protects the bacteria from phagocytosis but also plays a crucial role in their virulence. Understanding the capsular characteristics of pathogens is essential for developing vaccines and treatments. For instance, the capsular polysaccharide of Streptococcus pneumoniae is a key target in vaccine development, as it is responsible for the bacterium's ability to cause diseases such as pneumonia and meningitis.In addition to its biological significance, the concept of capsular can also be found in other fields such as medicine and pharmaceuticals. In drug delivery systems, capsular technology is often used to enhance the efficacy of medications. By encapsulating drugs within a capsular structure, pharmaceutical scientists can control the release rate of the active ingredients, ensuring that they are delivered to the target site in a more efficient manner. This is particularly beneficial in treating chronic diseases where consistent dosage is crucial.Moreover, the capsular approach can improve the stability of sensitive compounds, protecting them from degradation due to environmental factors like light and moisture. This innovation has led to the development of various capsular formulations, including microcapsules and nanocapsules, which have been successfully applied in fields ranging from nutrition to cosmetics.Furthermore, the architectural design world has also embraced the idea of capsular forms. Architects often use capsular elements to create unique and innovative structures that stand out in urban landscapes. These designs often feature rounded shapes and smooth surfaces, giving buildings a modern and futuristic appearance. The use of capsular forms can also enhance the functionality of spaces by providing flexible and modular layouts that cater to various needs.In conclusion, the term capsular encompasses a wide range of applications across different disciplines. Whether in biology, medicine, or architecture, the capsular concept highlights the importance of protective structures and innovative designs. As research and technology continue to advance, the relevance of capsular systems is likely to grow, leading to new discoveries and applications that could significantly impact our understanding of life and the built environment. By studying the capsular nature of various phenomena, we can unlock new potentials and improve existing solutions in numerous fields. Thus, the exploration of capsular characteristics is not just an academic exercise but a practical endeavor with far-reaching implications.

在生物学领域，术语capsular指的是被胶囊或保护层包裹的结构。这在微生物学中尤为相关，因为许多细菌具有capsular特征，帮助它们逃避宿主的免疫系统。capsular层可以由多糖或蛋白质组成，形成一层厚厚的、胶状的屏障，包围细菌细胞壁。这种适应性不仅保护细菌免受吞噬作用，还在其致病性中起着至关重要的作用。了解病原体的capsular特性对于开发疫苗和治疗方法至关重要。例如，肺炎链球菌的capsular多糖是疫苗开发的关键目标，因为它是导致肺炎和脑膜炎等疾病的细菌能力的原因。除了生物学上的重要性外，capsular的概念还可以在医学和制药等其他领域找到。在药物递送系统中，capsular技术常用于增强药物的疗效。通过将药物封装在capsular结构中，制药科学家可以控制活性成分的释放速率，确保它们以更高效的方式递送到目标部位。这在治疗慢性疾病时尤其有利，因为一致的剂量至关重要。此外，capsular方法可以提高敏感化合物的稳定性，保护它们免受光和湿度等环境因素的降解。这一创新导致了各种capsular配方的发展，包括微胶囊和纳米胶囊，这些配方已成功应用于营养和化妆品等领域。此外，建筑设计界也接受了capsular形式的理念。建筑师经常使用capsular元素来创造独特而创新的结构，使其在城市景观中脱颖而出。这些设计通常具有圆润的形状和平滑的表面，使建筑呈现出现代和未来主义的外观。使用capsular形式还可以通过提供灵活和模块化的布局来增强空间的功能性，以满足各种需求。总之，术语capsular涵盖了不同学科中的广泛应用。无论是在生物学、医学还是建筑领域，capsular概念都突显了保护结构和创新设计的重要性。随着研究和技术的不断进步，capsular系统的相关性可能会增长，从而导致新的发现和应用，这可能对我们对生命和建筑环境的理解产生重大影响。通过研究各种现象的capsular特性，我们可以解锁新的潜力，并改善多个领域中现有的解决方案。因此，探索capsular特性不仅仅是学术上的练习，而是具有深远影响的实用努力。