cryptozoite

简明释义

英[ˌkrɪp.təˈzoʊ.ɪt]美[ˌkrɪp.təˈzoʊ.ɪt]

潜隐体

英英释义

单词用法

同义词

反义词

例句

1.It is concluded that the effect of treatment with high dose of ASDSB on mice of immune suppression merging with cryptozoite infection is mediated through the enhancement of immune functions.

结论大剂量ASDSB对免疫抑制合并隐孢子虫感染的小鼠的治疗作用是通过提高机体免疫功能发挥的。

2.It is concluded that the effect of treatment with high dose of ASDSB on mice of immune suppression merging with cryptozoite infection is mediated through the enhancement of immune functions.

结论大剂量ASDSB对免疫抑制合并隐孢子虫感染的小鼠的治疗作用是通过提高机体免疫功能发挥的。

3.The identification of cryptozoites 隐生子 in tissue samples is crucial for diagnosing certain diseases.

在组织样本中识别出cryptozoites 隐生子对诊断某些疾病至关重要。

4.Infections caused by cryptozoites 隐生子 can lead to severe health issues if not treated promptly.

由cryptozoites 隐生子引起的感染如果不及时治疗，可能会导致严重的健康问题。

5.The life cycle of the parasite includes a stage where it forms a cryptozoite 隐生子 in the host's tissues.

这种寄生虫的生命周期包括一个阶段，在宿主组织中形成一个cryptozoite 隐生子。

6.Veterinarians often encounter cryptozoites 隐生子 in animals suffering from parasitic infections.

兽医常常在遭受寄生虫感染的动物身上发现cryptozoites 隐生子。

7.Researchers are studying how cryptozoites 隐生子 can survive in harsh conditions.

研究人员正在研究cryptozoites 隐生子如何能在恶劣环境中生存。

作文

In the fascinating world of biology, there are numerous terms that describe various life forms and their stages of development. One such term is cryptozoite, which refers to a specific stage in the life cycle of certain parasitic organisms, particularly within the context of protozoan infections. Understanding the concept of cryptozoite is crucial for both academic study and practical applications in medicine and public health.The term cryptozoite is derived from Greek roots, where 'crypto' means hidden, and 'zoite' pertains to a living organism. This etymology reflects the nature of these organisms, as they often exist in a dormant or inactive state within the host's body, evading the immune system and complicating treatment efforts. For instance, in the life cycle of the malaria-causing parasite Plasmodium, the cryptozoite stage occurs after the initial infection when the parasite hides within liver cells, remaining undetected for weeks or even months.The significance of cryptozoite extends beyond mere terminology; it highlights the adaptive strategies of parasites to survive and thrive within their hosts. By entering this hidden phase, parasites can avoid the host's immune response, making it challenging for medical professionals to diagnose and treat infections effectively. This characteristic poses a significant challenge in controlling diseases like malaria, where timely intervention is crucial to prevent severe complications and mortality.In recent years, researchers have focused on understanding the molecular mechanisms that allow cryptozoite forms to persist within the host. Studies have shown that these dormant stages can reactivate under favorable conditions, leading to a resurgence of symptoms and further transmission of the disease. This insight has prompted the development of new therapeutic strategies aimed at targeting the cryptozoite stage, thereby interrupting the life cycle of the parasite and reducing the incidence of disease outbreaks.Moreover, the concept of cryptozoite is not limited to malaria alone. Other protozoan parasites, such as those causing leishmaniasis and toxoplasmosis, also exhibit similar dormant stages that contribute to their pathogenicity. Understanding these stages is vital for developing effective vaccines and treatments, as well as for implementing public health measures to control the spread of these infections.In conclusion, the term cryptozoite encapsulates a critical aspect of parasitic biology, representing a hidden yet active stage in the life cycle of certain pathogens. As we continue to explore the complexities of these organisms, it becomes increasingly clear that addressing the challenges posed by cryptozoite forms is essential in our fight against infectious diseases. By investing in research and public health initiatives, we can enhance our understanding of these elusive stages and develop more effective strategies for prevention and treatment, ultimately improving global health outcomes.

在生物学的迷人世界中，有许多术语描述各种生命形式及其发育阶段。其中一个术语是cryptozoite，它指的是某些寄生生物生命周期中特定的阶段，特别是在原生动物感染的背景下。理解cryptozoite的概念对于学术研究和医学与公共卫生的实际应用至关重要。术语cryptozoite源于希腊词根，其中'crypto'意为隐藏，而'zoite'与生物体相关。这种词源反映了这些生物的特性，因为它们通常以休眠或不活跃状态存在于宿主体内，逃避免疫系统并使治疗变得复杂。例如，在导致疟疾的寄生虫Plasmodium的生命周期中，cryptozoite阶段发生在初次感染后，当寄生虫隐藏在肝细胞中，保持未被检测的状态，持续数周甚至数月。cryptozoite的重要性超越了单纯的术语；它突显了寄生虫在宿主内生存和繁衍的适应策略。通过进入这个隐藏阶段，寄生虫可以避免宿主的免疫反应，使医疗专业人员很难有效诊断和治疗感染。这一特征在控制如疟疾等疾病中构成了重大挑战，因为及时干预对于防止严重并发症和死亡至关重要。近年来，研究人员专注于理解允许cryptozoite形式在宿主体内持久存在的分子机制。研究表明，这些休眠阶段可以在有利条件下重新激活，导致症状复发和疾病进一步传播。这一见解促使开发新的治疗策略，旨在针对cryptozoite阶段，从而中断寄生虫的生命周期，减少疾病暴发的发生。此外，cryptozoite的概念不仅限于疟疾。其他原生动物寄生虫，如引起利什曼病和弓形虫病的寄生虫，也表现出类似的休眠阶段，促进其致病性。理解这些阶段对于开发有效的疫苗和治疗方法至关重要，同时也对实施公共卫生措施以控制这些感染的传播至关重要。总之，术语cryptozoite概括了寄生生物学的一个关键方面，代表了某些病原体生命周期中的一个隐藏但活跃的阶段。随着我们继续探索这些生物的复杂性，越来越清楚的是，解决由cryptozoite形式带来的挑战对于我们抗击传染病至关重要。通过投资于研究和公共卫生举措，我们可以增强对这些难以捉摸的阶段的理解，并制定更有效的预防和治疗策略，最终改善全球健康结果。