luteinize
简明释义
英[/ˈluːtənaɪz/]美[/ˈluːtənaɪz/]
v. (使)黄体化;刺激黄体分离
第 三 人 称 单 数 l u t e i n i z e s
现 在 分 词 l u t e i n i z i n g
过 去 式 l u t e i n i z e d
过 去 分 词 l u t e i n i z e d
英英释义
To cause the transformation of a follicle into a corpus luteum, often associated with hormonal changes in the reproductive cycle. | 使卵泡转变为黄体,通常与生殖周期中的激素变化有关。 |
单词用法
同义词
| 黄体化 | 黄体化过程发生在排卵后。 | ||
| 黄体化 | Luteinization is essential for the maintenance of the corpus luteum. | 黄体化对维持黄体是必不可少的。 |
反义词
| 抑制 | 这种药物可以抑制黄体生成素的产生。 | ||
| 压制 | 压力可以压制排卵和黄体化过程。 |
例句
1.After ovulation, the follicle transforms and begins to luteinize 黄体化 into a corpus luteum.
排卵后,卵泡转变并开始黄体化 黄体化为黄体。
2.Research shows that stress can affect the body's ability to luteinize 黄体化 properly.
研究表明,压力会影响身体正常黄体化 黄体化的能力。
3.During the menstrual cycle, the hormone luteinizing hormone (LH) causes the ovaries to luteinize 黄体化, leading to the release of an egg.
在月经周期中,促黄体激素(LH)使卵巢黄体化 黄体化,导致卵子的释放。
4.In cattle, the administration of certain hormones can induce the ovaries to luteinize 黄体化 earlier than normal.
在牛中,某些激素的施用可以使卵巢提前黄体化 黄体化。
5.The process of the ovarian follicles luteinizing 黄体化 is crucial for fertility.
卵巢卵泡的黄体化 黄体化过程对生育至关重要。
作文
The process of reproduction is one of the most intricate and fascinating aspects of biology. Among the various hormonal changes that occur during this process, the term luteinize plays a crucial role. To luteinize means to transform a follicle into a corpus luteum after ovulation, which is essential for maintaining early pregnancy. This transformation is primarily stimulated by the luteinizing hormone (LH), which is secreted by the anterior pituitary gland. Understanding how this process works can deepen our appreciation for the complexities of human reproduction.During the menstrual cycle, several follicles develop in the ovaries, but typically only one will mature and be released during ovulation. After the egg is released, the remaining follicle undergoes a transformation; it luteinizes, becoming the corpus luteum. This structure is vital because it produces hormones, particularly progesterone, which prepares the uterine lining for a potential implantation of a fertilized egg. Without this process, the chances of successful pregnancy would significantly decrease.The importance of luteinization cannot be overstated in the context of fertility treatments. For women facing challenges with ovulation, medical professionals often monitor hormone levels closely to understand when luteinization occurs. By administering LH or other medications, they can trigger this process, thereby improving the chances of conception. Furthermore, understanding the timing of luteinization can help in scheduling insemination or in vitro fertilization procedures, making it a pivotal aspect of reproductive health.Additionally, the study of luteinization extends beyond human biology. In many species, similar processes occur, reflecting the evolutionary significance of this hormonal regulation. For instance, in some animals, the timing of luteinization is influenced by environmental factors, demonstrating the adaptability of reproductive strategies across different contexts.However, disruptions in the luteinization process can lead to various reproductive issues. Conditions such as polycystic ovary syndrome (PCOS) may affect hormone levels, leading to irregular cycles and difficulties in luteinization. Understanding these conditions is crucial for developing effective treatments and supporting women's health.In conclusion, the term luteinize encapsulates a vital biological process that is essential for reproduction. From its role in the menstrual cycle to its implications in fertility treatments and its presence in various species, luteinization highlights the complexity of hormonal interactions in the body. As we continue to study and understand these processes, we gain valuable insights that can improve reproductive health and inform medical practices. The journey of an egg from a follicle to a luteinized state is not just a biological phenomenon; it is a remarkable testament to the wonders of life itself.
生殖过程是生物学中最复杂和引人入胜的方面之一。在这个过程中,发生的各种激素变化中,术语luteinize扮演着至关重要的角色。luteinize的意思是将一个卵泡转变为黄体,这一过程发生在排卵后,对于维持早期妊娠至关重要。这种转变主要由促黄体生成素(LH)刺激,LH由前垂体分泌。理解这一过程的运作可以加深我们对人类生殖复杂性的欣赏。在月经周期中,卵巢内会发育出几个卵泡,但通常只有一个会成熟并在排卵时释放。卵子释放后,剩余的卵泡经历转变;它会luteinize,成为黄体。这个结构至关重要,因为它产生激素,特别是孕酮,这为潜在的受精卵植入准备了子宫内膜。如果没有这个过程,成功怀孕的机会将大大减少。在生育治疗的背景下,luteinization的重要性不容小觑。对于面临排卵挑战的女性,医疗专业人员通常会密切监测激素水平,以了解何时发生luteinization。通过给予LH或其他药物,他们可以触发这一过程,从而提高受孕的机会。此外,理解luteinization的时机可以帮助安排人工授精或试管婴儿程序,使其成为生殖健康的关键方面。此外,luteinization的研究不仅限于人类生物学。在许多物种中,类似的过程也在发生,反映了这种激素调节的进化意义。例如,在某些动物中,luteinization的时机受到环境因素的影响,展示了不同环境中生殖策略的适应性。然而,luteinization过程中的干扰可能导致各种生殖问题。多囊卵巢综合症(PCOS)等疾病可能会影响激素水平,导致周期不规律和luteinization困难。理解这些情况对于开发有效的治疗方案和支持女性健康至关重要。总之,术语luteinize概括了一个对生殖至关重要的生物过程。从它在月经周期中的作用到其在生育治疗中的影响,以及它在各种物种中的存在,luteinization突显了体内激素相互作用的复杂性。随着我们继续研究和理解这些过程,我们获得了有价值的见解,可以改善生殖健康并指导医疗实践。从卵子从卵泡到luteinized状态的旅程不仅仅是一个生物现象;它是生命奇迹的非凡证明。
