infundibulum

简明释义

英[ˌɪnfʌnˈdɪbjʊləm]美[ˌɪnfʌnˈdɪbjələm]

n. [昆] 漏斗状器官；漏斗管

复 数 i n f u n d i b u l a

英英释义

单词用法

同义词

反义词

例句

1.At the ovarian end of the oviduct is the infundibulum.

在卵巢端的输卵管末端为漏斗部。

2.Conclusions: the anatomic structures of the uncinate process and ethmoid infundibulum have close relation to chronic sinusitis.

结论：筛漏斗及钩突的解剖形态是慢性鼻窦炎发病的重要解剖因素。

3.This structure also known as the infundibulum is often grouped with other "circumventricular organs" which share the property of being outside the blood-brain-barrier.

垂体柄或漏斗与其它脑室周围器官一样有着血脑屏障外器官的特性。

4.This structure also known as the infundibulum is often grouped with other "circumventricular organs" which share the property of being outside the blood-brain-barrier.

垂体柄或漏斗与其它脑室周围器官一样有着血脑屏障外器官的特性。

5.At approximately the same time, the infundibulum forms as a down growth of the neuroepithelium from the diencephalon.

大约于此同时，漏斗出现，表现为从间脑向下生长的神经上皮。

6.The length of infundibulum and the Angle of uncinate process were correlated to the score of the sinus opacity of sinusitis patients.

筛漏斗长度及钩突角度与鼻窦炎积分之间有显著相关性。

7.The fringelike fimbriae transport ovulated eggs from the ovarian surface to the infundibulum.

状的伞将排出的卵，从卵巢表面运送到漏斗。

8.The pituitary infundibulum is either absent or truncated.

垂体柄可以缺如或缩短。

9.The anterior pituitary may be affected by absence or hypoplasia of the infundibulum.

垂体前叶可以受累而缺失或漏斗发育不良。

10.The infundibulum of the kidney plays a crucial role in urine formation.

肾脏的漏斗部在尿液形成中发挥着关键作用。

11.During surgery, the doctor pointed out the infundibulum as a landmark for the procedure.

在手术过程中，医生指出漏斗部作为手术的标志性结构。

12.The infundibulum connects the pituitary gland to the hypothalamus in the brain.

在大脑中，漏斗部连接下丘脑和垂体腺。

13.The heart has a structure called the infundibulum, which helps direct blood flow out of the right ventricle.

心脏有一个结构称为漏斗部，它帮助引导血液从右心室流出。

14.In embryology, the infundibulum is important for the development of certain organs.

在胚胎学中，漏斗部对某些器官的发展非常重要。

作文

The human body is a marvel of biological engineering, composed of various intricate systems that work together to sustain life. One of the fascinating structures within our anatomy is the infundibulum, which plays a crucial role in several physiological processes. The term infundibulum refers to a funnel-shaped structure that can be found in different parts of the body, including the brain and the reproductive system. Understanding the function and significance of the infundibulum can provide valuable insight into how our bodies operate on a fundamental level.In the context of the brain, the infundibulum is a stalk-like structure that connects the pituitary gland to the hypothalamus. This connection is vital for the regulation of hormones that control various bodily functions such as growth, metabolism, and reproduction. The hypothalamus sends signals through the infundibulum to the pituitary gland, prompting it to release or inhibit hormones based on the body’s needs. This intricate communication system highlights the importance of the infundibulum in maintaining homeostasis within the body.Moreover, the infundibulum is also present in the female reproductive system, specifically in the fallopian tubes. Here, the infundibulum serves as the funnel-shaped opening that captures the ovum (egg) released from the ovary. The fimbriae, which are finger-like projections at the end of the infundibulum, help to guide the egg into the tube, where it may meet sperm for fertilization. This process is essential for reproduction and illustrates how the infundibulum facilitates critical biological functions.The significance of the infundibulum extends beyond its anatomical presence; it symbolizes the interconnectedness of various bodily systems. The way the infundibulum enables communication between the hypothalamus and pituitary gland exemplifies the body's complex signaling pathways. Similarly, its role in guiding the ovum showcases the coordination necessary for successful reproduction. These examples underscore the idea that even small structures like the infundibulum can have profound implications for overall health and functionality.In medical research, understanding the infundibulum can lead to advancements in treating hormonal imbalances and fertility issues. For instance, if the infundibulum is compromised due to injury or disease, it could disrupt the hormone signaling from the hypothalamus to the pituitary gland, leading to various health problems. Similarly, blockages in the fallopian tubes, including the infundibulum, can result in infertility. By studying this structure, researchers can develop targeted therapies to address these challenges.In conclusion, the infundibulum is a remarkable example of how specific anatomical features contribute to the larger tapestry of human physiology. Its roles in the endocrine and reproductive systems highlight the complexity and interdependence of our bodily functions. As we continue to explore the intricacies of human biology, the infundibulum serves as a reminder of the significance of even the smallest structures in sustaining life. Understanding such components not only enhances our knowledge of anatomy but also paves the way for future medical breakthroughs that can improve health outcomes for individuals facing hormonal or reproductive challenges.

人类身体是生物工程的奇迹，由各种复杂的系统组成，这些系统共同工作以维持生命。在我们解剖学中，一个引人入胜的结构是infundibulum，它在多个生理过程中发挥着至关重要的作用。术语infundibulum指的是一种漏斗形结构，可以在身体的不同部位找到，包括大脑和生殖系统。理解infundibulum的功能和重要性可以为我们提供关于身体如何在基本层面上运作的宝贵见解。在大脑的背景下，infundibulum是一种茎状结构，连接垂体腺和下丘脑。这种连接对于调节控制各种身体功能（如生长、代谢和生殖）的激素至关重要。下丘脑通过infundibulum向垂体腺发送信号，促使其根据身体的需要释放或抑制激素。这种复杂的通信系统突显了infundibulum在维持身体内稳态中的重要性。此外，infundibulum还存在于女性生殖系统中，特别是在输卵管中。在这里，infundibulum作为漏斗形开口，捕捉从卵巢释放的卵子。位于infundibulum末端的指状突起（fimbriae）帮助引导卵子进入输卵管，在那里可能与精子相遇进行受精。这个过程对生殖至关重要，说明了infundibulum如何促进关键的生物功能。infundibulum的重要性超越了其解剖学的存在；它象征着各种身体系统之间的相互联系。infundibulum使下丘脑与垂体腺之间的沟通成为可能，体现了身体复杂的信号传递途径。同样，它在引导卵子方面的作用展示了成功生殖所需的协调。这些例子强调了，即使是像infundibulum这样的小结构也可能对整体健康和功能产生深远的影响。在医学研究中，理解infundibulum可以推动治疗激素失衡和生育问题的进展。例如，如果infundibulum因伤害或疾病而受到损害，可能会干扰下丘脑到垂体腺的激素信号，导致各种健康问题。同样，输卵管的阻塞，包括infundibulum，可能导致不孕症。通过研究这一结构，研究人员可以开发针对性的治疗方法来解决这些挑战。总之，infundibulum是特定解剖特征如何有助于人类生理学更大图景的一个显著例子。它在内分泌和生殖系统中的作用突显了我们身体功能的复杂性和相互依赖性。随着我们继续探索人类生物学的复杂性，infundibulum提醒我们，即使是最小的结构在维持生命中也具有重要意义。理解这样的组成部分不仅增强了我们对解剖学的知识，而且为未来的医学突破铺平了道路，这些突破可以改善面临激素或生殖挑战的个体的健康结果。