tissular
简明释义
adj. 组织的
英英释义
与组织相关或由组织组成的。 |
单词用法
组织反应 | |
组织损伤 | |
组织分析 | |
组织修复 | |
组织再生 | |
组织病理 |
同义词
反义词
| 非组织的 | The non-tissular components of the sample were analyzed separately. | 样本的非组织成分被单独分析。 | |
| 细胞外的 | Extracellular matrix plays a crucial role in tissue development. | 细胞外基质在组织发育中起着至关重要的作用。 |
例句
1.Conclusion: Tetrandrine can adjust the level of apoptosis in renal tubular epithelial and alleviate renal tissular injury.
结论:急性缺血性肾损伤时,中药粉防己碱能够调节肾小管上皮细胞的凋亡水平,以减轻肾组织的损伤。
2.Results the effect of plasma radiofrequency is similar to that of burn and scald, and the tissular recovery could be completed within about 3 weeks.
结果低温等离子射频对组织的影响类似于烧烫伤的反应,组织3周左右即修复。
3.Results the effect of plasma radiofrequency is similar to that of burn and scald, and the tissular recovery could be completed within about 3 weeks.
结果低温等离子射频对组织的影响类似于烧烫伤的反应,组织3周左右即修复。
4.The density of lesions were:Uniform soft tissular density in 16 cases(76.2%), calcification in 2, cavity in 1 and necrotic area in 2;
密度:病灶呈均匀软组织密度16例(76.2 % ) ,内见钙化灶2例,空洞1例,低密度坏死区2例。
5.The tissular 组织的 structure of the heart is crucial for its function.
心脏的组织的tissular结构对其功能至关重要。
6.The doctor explained the importance of tissular 组织的 health in recovery after surgery.
医生解释了手术后恢复中组织的tissular健康的重要性。
7.In this experiment, we will examine tissular 组织的 changes under stress conditions.
在这个实验中,我们将检查压力条件下的组织的tissular变化。
8.The study focused on the tissular 组织的 interactions between different cell types.
该研究集中于不同细胞类型之间的组织的tissular相互作用。
9.Researchers are studying tissular 组织的 responses to various treatments in cancer therapy.
研究人员正在研究癌症治疗中不同治疗对组织的tissular反应。
作文
In the realm of biological sciences, understanding the structure and function of tissues is essential. Tissues are groups of cells that work together to perform specific functions, and they can be categorized into four main types: epithelial, connective, muscle, and nervous tissues. Among these, the term tissular (组织的) refers specifically to anything related to these fundamental units of life. The study of tissular structures allows scientists to delve deeper into how organisms develop, function, and respond to their environment.For instance, in medical research, examining tissular characteristics can provide insights into various diseases. By analyzing the tissular composition of cancerous tissues compared to healthy ones, researchers can identify markers that indicate disease progression or response to treatment. This knowledge is crucial for developing targeted therapies that can improve patient outcomes.Furthermore, the field of regenerative medicine heavily relies on the understanding of tissular biology. Scientists are exploring ways to repair or replace damaged tissues using stem cells or bioengineered materials. By mimicking the natural tissular environment, researchers aim to create effective treatments for conditions such as heart disease or spinal cord injuries.In addition to its applications in medicine, the concept of tissular analysis is also important in agriculture. Understanding the tissular structure of plants can lead to improved agricultural practices. For example, by studying the tissular arrangement in crops, scientists can develop more resilient plant varieties that can withstand harsh environmental conditions.Moreover, the implications of tissular research extend beyond human health and agriculture. In ecology, understanding the tissular composition of different species can help in conservation efforts. By knowing how various organisms are structured at the tissue level, ecologists can better understand their roles in ecosystems and how they interact with one another.In conclusion, the term tissular (组织的) encompasses a wide range of applications across multiple fields, including medicine, agriculture, and ecology. The study of tissular structures not only enhances our understanding of life at a fundamental level but also paves the way for innovative solutions to some of the most pressing challenges we face today. As research continues to evolve, the significance of tissular studies will undoubtedly grow, highlighting the interconnectedness of all living organisms and the importance of preserving the delicate balance of our ecosystems.
在生物科学领域,理解组织的结构和功能至关重要。组织是一起工作以执行特定功能的细胞群,可以分为四种主要类型:上皮组织、结缔组织、肌肉组织和神经组织。在这些组织中,术语tissular(组织的)专门指与这些生命基本单元相关的任何事物。对tissular结构的研究使科学家能够更深入地探讨生物体如何发展、运作以及如何响应环境。例如,在医学研究中,检查tissular特征可以提供对各种疾病的见解。通过分析癌性组织与健康组织的tissular组成,研究人员可以识别出指示疾病进展或治疗反应的标志物。这一知识对开发能够改善患者结果的靶向疗法至关重要。此外,再生医学领域在很大程度上依赖于对tissular生物学的理解。科学家们正在探索使用干细胞或生物工程材料修复或替换受损组织的方法。通过模拟自然的tissular环境,研究人员旨在创造有效的治疗方法,以应对心脏病或脊髓损伤等疾病。除了在医学中的应用外,tissular分析的概念在农业中也很重要。了解植物的tissular结构可以导致改善农业实践。例如,通过研究农作物的tissular排列,科学家可以开发出更具抗逆性的植物品种,从而能够抵御恶劣的环境条件。此外,tissular研究的影响超越了人类健康和农业。在生态学中,了解不同物种的tissular组成可以帮助保护工作。通过了解各种生物在组织水平上的结构,生态学家可以更好地理解它们在生态系统中的角色及其相互作用。总之,术语tissular(组织的)涵盖了多个领域的广泛应用,包括医学、农业和生态学。对tissular结构的研究不仅增强了我们对生命基本层面的理解,而且为解决我们今天面临的一些最紧迫的挑战铺平了道路。随着研究的不断发展,tissular研究的重要性无疑会增加,突显出所有生物体之间的相互联系以及保护我们生态系统微妙平衡的重要性。
