perineurial

简明释义

英[ˌpɛrɪnˈjʊəriəl]美[ˌpɛrɪˈnʊrɪəl]

神经束膜的

英英释义

单词用法

同义词

反义词

例句

1.Horseradish peroxidase was used to label the regenerative axons of peroneal nerves 4 or 9 weeks after epineurial or Perineurial suture or nerve grafting in sciatic nerves in rats.

大鼠坐骨神经外膜缝合、束膜缝合或神经移植后4周或9周，应用辣根过氧化物酶逆行标记腓总神经中再生轴突的胞体。

2.Horseradish peroxidase was used to label the regenerative axons of peroneal nerves 4 or 9 weeks after epineurial or Perineurial suture or nerve grafting in sciatic nerves in rats.

大鼠坐骨神经外膜缝合、束膜缝合或神经移植后4周或9周，应用辣根过氧化物酶逆行标记腓总神经中再生轴突的胞体。

3.Injuries to the perineurial 神经周围的 area can lead to chronic pain syndromes.

对神经周围的区域的损伤可能导致慢性疼痛综合症。

4.Researchers are investigating how perineurial 神经周围的 tissues influence nerve signaling.

研究人员正在调查神经周围的组织如何影响神经信号传递。

5.The study focused on the role of perineurial 神经周围的 cells in nerve regeneration.

这项研究集中在神经周围的细胞在神经再生中的作用。

6.The drug was designed to target the perineurial 神经周围的 layer to improve delivery to the nerve.

该药物旨在靶向神经周围的层，以改善对神经的递送。

7.Inflammation can affect the perineurial 神经周围的 environment, leading to pain.

炎症可以影响神经周围的环境，导致疼痛。

作文

The human body is a marvel of biological engineering, with complex systems that work seamlessly together. Among these systems, the nervous system stands out as one of the most intricate and vital. It is responsible for transmitting signals between different parts of the body, allowing us to respond to our environment and maintain homeostasis. One of the key components of the nervous system is the nerve sheath, which plays a crucial role in protecting and insulating nerve fibers. This is where the term perineurial comes into play. The perineurial layer refers to the protective sheath surrounding individual nerve fibers, providing structural support and aiding in signal transmission. Understanding the significance of the perineurial layer is essential for comprehending how nerves function effectively. The perineurial layer is composed of specialized cells that create a barrier, ensuring that the nerve fibers remain insulated from external influences. This insulation is critical because it prevents the loss of electrical signals, allowing for efficient communication between neurons. Without the perineurial layer, nerve fibers would be susceptible to damage and interference, leading to potential neurological disorders. In clinical settings, the importance of the perineurial structure becomes even more evident. For instance, in conditions such as diabetic neuropathy, the integrity of the perineurial layer can be compromised, resulting in symptoms like pain, tingling, or numbness. Medical professionals often study the perineurial layer to understand the underlying mechanisms of nerve damage and to develop effective treatments. By examining the changes in the perineurial layer, researchers can gain insights into the progression of various neurological diseases and identify potential therapeutic targets. Moreover, the perineurial layer also plays a role in the regeneration of nerve fibers after injury. When a nerve is damaged, the perineurial cells can facilitate repair processes by guiding the regrowth of axons. This regenerative capacity is vital for restoring function and minimizing long-term disability. Understanding the biology of the perineurial layer has opened up new avenues for research in nerve repair and regeneration, highlighting its importance not only in basic neuroscience but also in clinical applications. In conclusion, the perineurial layer is an essential component of the nervous system that warrants further study. Its role in protecting nerve fibers, maintaining signal integrity, and facilitating regeneration underscores its significance in both health and disease. As we continue to explore the complexities of the nervous system, gaining a deeper understanding of structures like the perineurial layer will be crucial in advancing medical science and improving patient outcomes. The study of the perineurial layer exemplifies the intricate relationship between structure and function in biological systems, reminding us of the delicate balance that sustains life.

人体是生物工程的奇迹，具有复杂的系统无缝协作。在这些系统中，神经系统以其复杂性和重要性脱颖而出。它负责在身体不同部分之间传递信号，使我们能够对环境做出反应并维持体内平衡。神经系统的一个关键组成部分是神经鞘，它在保护和绝缘神经纤维方面发挥着至关重要的作用。这就是术语perineurial的来源。perineurial层指的是包围单个神经纤维的保护鞘，提供结构支持并帮助信号传输。理解perineurial层的重要性对于理解神经如何有效运作至关重要。perineurial层由专门的细胞组成，这些细胞形成屏障，确保神经纤维不受外部影响的侵害。这种绝缘至关重要，因为它防止电信号的丢失，从而允许神经元之间的高效通信。如果没有perineurial层，神经纤维将容易受到损伤和干扰，导致潜在的神经疾病。在临床环境中，perineurial结构的重要性变得更加明显。例如，在糖尿病神经病变等情况下，perineurial层的完整性可能会受到损害，导致疼痛、刺痛或麻木等症状。医学专业人员经常研究perineurial层，以了解神经损伤的潜在机制，并开发有效的治疗方案。通过检查perineurial层的变化，研究人员可以深入了解各种神经疾病的进展，并确定潜在的治疗靶点。此外，perineurial层在神经纤维受伤后的再生中也起着作用。当神经受损时，perineurial细胞可以通过引导轴突的再生来促进修复过程。这种再生能力对恢复功能和减少长期残疾至关重要。理解perineurial层的生物学为神经修复和再生的研究开辟了新的途径，突显了它在基础神经科学和临床应用中的重要性。总之，perineurial层是神经系统的一个重要组成部分，值得进一步研究。它在保护神经纤维、维持信号完整性和促进再生方面的作用凸显了它在健康和疾病中的重要性。随着我们继续探索神经系统的复杂性，更深入地理解像perineurial层这样的结构对于推动医学科学进步和改善患者结果至关重要。对perineurial层的研究体现了生物系统中结构与功能之间的微妙关系，提醒我们维持生命所需的微妙平衡。