luteinization

简明释义

英[ˌluːtɪɪnaɪˈzeɪʃ(ə)n]美[ˌluːtɪənəˈzeɪʃn]

n. 使……成为黄体部分

英英释义

单词用法

同义词

反义词

例句

1.Objective: to gain insight into the relationship between premature luteinization and outcome of IVF in short-term protocol.

目的：研究短方案超促排卵过程中过早黄素化对IVF结局的影响。

2.Objective: to gain insight into the relationship between premature luteinization and outcome of IVF in short-term protocol.

目的：研究短方案超促排卵过程中过早黄素化对IVF结局的影响。

3.During the menstrual cycle, the process of follicle development leads to luteinization, or 黄体化, which prepares the body for potential pregnancy.

在月经周期中，卵泡发育的过程导致了luteinization，或黄体化，这为潜在的怀孕做好准备。

4.The study focused on the role of hormones in luteinization, specifically how they trigger 黄体化 in ovarian follicles.

这项研究集中于激素在luteinization中的作用，特别是它们如何触发卵巢卵泡中的黄体化。

5.An increase in luteinizing hormone (LH) is crucial for luteinization, leading to the formation of the corpus luteum, or 黄体化。

促黄体生成素（LH）的增加对luteinization至关重要，这导致了黄体的形成，或称为黄体化。

6.In vitro studies have shown that certain factors can influence luteinization and thus affect fertility treatments, or 黄体化。

体外研究表明，某些因素可以影响luteinization，从而影响生育治疗，或称为黄体化。

7.The timing of luteinization is essential for synchronizing ovulation with artificial insemination procedures, or 黄体化。

对于人工授精程序来说，luteinization的时机对同步排卵至关重要，或称为黄体化。

作文

Luteinization is a crucial biological process that occurs in the female reproductive system, particularly during the menstrual cycle. This process involves the transformation of the ovarian follicles into corpus luteum after ovulation. The significance of luteinization (黄体化) cannot be overstated as it plays a vital role in preparing the body for potential pregnancy. During the first half of the menstrual cycle, the follicles develop under the influence of hormones such as follicle-stimulating hormone (FSH). Once ovulation occurs, typically around the middle of the cycle, the ruptured follicle undergoes luteinization (黄体化). This transformation is driven by luteinizing hormone (LH), which is secreted by the pituitary gland. The cells of the ruptured follicle proliferate and differentiate into luteal cells, which are responsible for producing progesterone, a hormone essential for maintaining the uterine lining. The primary function of the corpus luteum, formed through luteinization (黄体化), is to secrete progesterone. This hormone prepares the endometrium, or uterine lining, for implantation of a fertilized egg. If fertilization occurs, the corpus luteum continues to produce progesterone until the placenta takes over this function, ensuring that the pregnancy can be sustained. In the absence of fertilization, the corpus luteum degenerates, leading to a decrease in progesterone levels and ultimately triggering menstruation. Understanding luteinization (黄体化) is not only important for reproductive health but also has implications for fertility treatments. For women experiencing difficulties in conceiving, knowing how luteinization (黄体化) works can help in developing targeted therapies. For instance, certain medications may be used to induce or support luteinization (黄体化) to enhance the chances of successful implantation and pregnancy. Moreover, research into luteinization (黄体化) has revealed that various factors can influence this process, including age, hormonal imbalances, and overall health. For example, women with polycystic ovary syndrome (PCOS) may experience irregularities in luteinization (黄体化), affecting their menstrual cycles and fertility. Understanding these variations can lead to better management strategies for those affected by such conditions. In summary, luteinization (黄体化) is a fundamental process in the female reproductive system that ensures the proper functioning of the menstrual cycle and supports potential pregnancy. Its significance extends beyond basic biology, impacting fertility treatments and our understanding of reproductive health issues. As research continues to evolve, the insights gained from studying luteinization (黄体化) will undoubtedly contribute to advancements in women's health and fertility management.

黄体化是一个关键的生物过程，发生在女性生殖系统中，特别是在月经周期期间。这个过程涉及卵泡在排卵后转变为黄体。luteinization（黄体化）的重要性不容小觑，因为它在为潜在妊娠做好准备方面发挥着至关重要的作用。 在月经周期的前半段，卵泡在促卵泡激素（FSH）的影响下发育。一旦排卵发生，通常在周期的中间，破裂的卵泡经历luteinization（黄体化）。这一转变是由促黄体激素（LH）驱动的，LH由脑垂体分泌。破裂卵泡的细胞增殖并分化为黄体细胞，这些细胞负责产生孕酮，这是一种对维持子宫内膜至关重要的激素。 通过luteinization（黄体化）形成的黄体的主要功能是分泌孕酮。这种激素为子宫内膜做好准备，以便受精卵的植入。如果发生受精，黄体将继续产生孕酮，直到胎盘接管这一功能，从而确保妊娠可以持续。在没有受精的情况下，黄体退化，导致孕酮水平下降，最终引发月经。 了解luteinization（黄体化）不仅对生殖健康重要，而且对生育治疗也有影响。对于面临怀孕困难的女性来说，了解luteinization（黄体化）的工作原理可以帮助制定针对性的治疗方法。例如，某些药物可以用来诱导或支持luteinization（黄体化），以提高成功植入和怀孕的机会。 此外，关于luteinization（黄体化）的研究表明，各种因素可以影响这一过程，包括年龄、激素失衡和整体健康。例如，患有多囊卵巢综合症（PCOS）的女性可能会经历luteinization（黄体化）的不规律，影响她们的月经周期和生育能力。了解这些变化可以导致更好的管理策略，以应对受此影响的人群。 总之，luteinization（黄体化）是女性生殖系统中的一个基本过程，确保月经周期的正常运作并支持潜在妊娠。它的重要性超越了基本生物学，对生育治疗和我们对生殖健康问题的理解产生了影响。随着研究的不断发展，从研究luteinization（黄体化）中获得的见解无疑将有助于女性健康和生育管理的进步。