embryologic

简明释义

英[ˌembriəˈlɒdʒɪk]美[ˌembrɪəˈlɑːdʒɪk]

胚胎学的

英英释义

单词用法

同义词

反义词

例句

1.In case 6, the heart looks "inverted" compared to normal (Figure 8). This phenomenon is called dextrocardia, and it results from a looping anomaly during embryologic development.

病例6中的心脏与正常相比看上去就像“反转”了一样(图8)，这称作右位心，是由于胚胎发育过程中的心脏成环异常导致。

2.In case 6, the heart looks "inverted" compared to normal (Figure 8). This phenomenon is called dextrocardia, and it results from a looping anomaly during embryologic development.

病例6中的心脏与正常相比看上去就像“反转”了一样(图8)，这称作右位心，是由于胚胎发育过程中的心脏成环异常导致。

3.“Opioids and their receptors act as growth regulators during embryologic development, which may explain our findings, ” said Cheryl S. Broussard, the paper’s lead author.

“在胚胎发育过程中，阿片类镇痛药物及其受体会起到生长调节素的作用，这或许可以解释我们的研究发现”，该研究报告著者CherylS. Broussard说道。

4.The study focused on the embryologic 胚胎学的 development of various species.

这项研究集中于多种物种的胚胎学的发育。

5.Understanding embryologic 胚胎学的 processes is crucial for advancements in regenerative medicine.

理解胚胎学的过程对再生医学的进步至关重要。

6.The embryologic 胚胎学的 timeline of human development is well-documented.

人类发育的胚胎学的时间表记录得很好。

7.Researchers are exploring the embryologic 胚胎学的 origins of certain genetic disorders.

研究人员正在探索某些遗传疾病的胚胎学的起源。

8.The embryologic 胚胎学的 factors influencing fetal growth are complex.

影响胎儿生长的胚胎学的因素是复杂的。

作文

The study of human development is a fascinating field that encompasses various stages of life, from conception to adulthood. One of the most critical phases in this process is the embryonic stage, which is often described using the term embryologic (胚胎学的). Understanding embryologic processes is essential for several reasons, including advancements in medical science and insights into developmental biology. At the very beginning of life, after fertilization occurs, a single cell called a zygote is formed. This zygote undergoes numerous cell divisions and transformations as it develops into an embryo. The embryologic journey is marked by significant milestones, such as the formation of germ layers, which later give rise to various organs and systems in the body. For instance, the ectoderm, mesoderm, and endoderm are three primary germ layers that emerge during the early stages of embryologic development, each contributing to different parts of the organism. Research in embryologic development has led to significant breakthroughs in understanding congenital disabilities and genetic disorders. By studying the patterns and anomalies that occur during the embryologic phase, scientists can identify potential risks and develop preventative measures. For example, if certain environmental factors or genetic mutations are found to affect embryologic development negatively, healthcare providers can offer guidance to expectant parents on how to minimize these risks. Moreover, the field of regenerative medicine heavily relies on embryologic principles. Stem cells, which have the potential to develop into any cell type, are derived from embryos. By harnessing the knowledge gained from embryologic studies, researchers aim to create therapies that can repair or replace damaged tissues and organs. This has opened up new avenues for treating conditions such as spinal cord injuries, heart disease, and neurodegenerative disorders. In addition to its medical implications, the embryologic perspective enriches our understanding of evolution and species diversity. By examining the embryologic development of various organisms, scientists can draw parallels and differences that shed light on evolutionary relationships. For instance, the study of embryologic stages across different species can reveal how certain traits have evolved over time, helping us appreciate the complexity of life on Earth. Furthermore, ethical considerations surrounding embryologic research have sparked important discussions. As we delve deeper into the mechanisms of life at such an early stage, questions arise about the moral implications of manipulating embryos. Striking a balance between scientific advancement and ethical responsibility is crucial as we navigate the future of embryologic studies. In conclusion, the term embryologic (胚胎学的) encapsulates a vital area of research that impacts various fields, including medicine, biology, and ethics. By understanding the intricacies of embryologic development, we not only advance our scientific knowledge but also enhance our ability to address health challenges and appreciate the wonders of life. As we continue to explore this complex domain, the implications of embryologic studies will undoubtedly shape the future of healthcare and our understanding of human existence.

人类发展的研究是一个引人入胜的领域，涵盖了从受孕到成年各个阶段。在这个过程中，最关键的阶段之一是胚胎阶段，通常用术语embryologic（胚胎学的）来描述。理解embryologic过程对于多个原因至关重要，包括医学科学的进步和对发育生物学的深入了解。 在生命的最初阶段，受精发生后，形成了一个称为合子的单细胞。这个合子经历了无数次细胞分裂和变换，发展成为一个胚胎。embryologic旅程的标志是重要的里程碑，例如胚层的形成，后来形成身体的各种器官和系统。例如，外胚层、中胚层和内胚层是早期embryologic发育中出现的三种主要胚层，每种胚层都对生物体的不同部分产生影响。 对embryologic发育的研究已导致对先天性缺陷和遗传疾病理解的重要突破。通过研究在embryologic阶段发生的模式和异常，科学家可以识别潜在风险并制定预防措施。例如，如果发现某些环境因素或基因突变对embryologic发育产生负面影响，医疗提供者可以为准父母提供指导，以帮助他们减少这些风险。 此外，再生医学领域也严重依赖于embryologic原理。干细胞具有转化为任何细胞类型的潜力，它们源自胚胎。通过利用从embryologic研究中获得的知识，研究人员旨在创造能够修复或替代受损组织和器官的疗法。这为治疗脊髓损伤、心脏病和神经退行性疾病等条件开辟了新的途径。 除了医学意义外，embryologic视角丰富了我们对进化和物种多样性的理解。通过检查各种生物的embryologic发育，科学家可以找出相似之处和差异，从而揭示进化关系。例如，研究不同物种的embryologic阶段可以揭示某些特征如何随着时间的推移而演变，帮助我们欣赏地球生命的复杂性。 此外，围绕embryologic研究的伦理考量引发了重要讨论。当我们深入探讨生命在如此早期阶段的机制时，关于操纵胚胎的道德含义的问题随之而来。在科学进步与伦理责任之间取得平衡，对于我们在未来导航embryologic研究至关重要。 总之，术语embryologic（胚胎学的）概括了一个重要的研究领域，影响着医学、生物学和伦理等多个领域。通过理解embryologic发育的复杂性，我们不仅推动了科学知识的进步，还增强了应对健康挑战的能力，并欣赏生命的奇迹。随着我们继续探索这一复杂领域，embryologic研究的影响无疑将塑造医疗保健的未来和我们对人类存在的理解。