transdermal

简明释义

英[ˌtrænzˈdɜːməl;trɑːnz;-ns-]美[trænsˈdərməl;trænzˈdərməl]

adj. 经皮的，经皮肤

英英释义

单词用法

同义词

反义词

例句

1.OA proved to be an effective enhancer for transdermal delivery of ON in rats.

实验证明OA对于ON的大鼠在体透皮吸收是一种有效的促进剂。

2.Conclusion Diclofenac diethylamine salt gel is safe for transdermal administration.

结论双氯芬酸二乙胺盐凝胶经皮给药安全。

3.METHODS the transdermal absorption test and the research of deposit function were conducted on the penetration experiment apparatus.

方法在离体透皮实验装置上进行透皮吸收实验和贮库效应的研究。

4.The results show that the PVA gel may be a fine carrier for transdermal therapeutic system.

结果提示，这种聚乙烯醇凝胶可望作为药物透皮给药系统的一种新的良好载体。

5.Objective: To investigate the regularity of Yulian Cataplasm in vitro release and transdermal behaviors.

目的：考察萸连巴布膏的体外释放和透皮行为和规律。

6.ObjectiveTo evaluate the promoting effect of transdermal enhancers with new grey correlative analysis.

目的运用新灰色关联分析法，对几种促透剂的促透效果进行综合评价。

7.The transdermal enhancing effect of 3% eucalyptus oil and 3% menthene was superior to that of 10% clove oil.

3％桉叶油和薄荷油对奥沙普秦渗透性的促进作用强于10％丁香油。

8.OBJECTIVE:To observe the effects of menthol affecting the transdermal anount of Ketoconazole.

前言： 目的：考察薄荷醇对康唑透皮作用的影响。

9.Nicardipine hydrochloride transdermal controlled release patches with gel matrix were prepared.

制备盐酸尼卡地平的凝胶骨架控释贴剂。

10.Researchers are developing new transdermal 透皮的 systems for vaccine delivery.

研究人员正在开发新的transdermal 透皮的疫苗递送系统。

11.The transdermal 透皮的 patch releases medication slowly over time.

该transdermal 透皮的贴片会随着时间的推移缓慢释放药物。

12.The transdermal 透皮的 method can improve patient compliance.

这种transdermal 透皮的方法可以提高患者的依从性。

13.The doctor prescribed a transdermal 透皮的 patch for pain relief.

医生开了一种用于缓解疼痛的transdermal 透皮的贴片。

14.Many patients prefer transdermal 透皮的 delivery systems for their convenience.

许多患者更喜欢transdermal 透皮的给药系统，因为它们更方便。

作文

The concept of transdermal administration has revolutionized the way we think about medication delivery. Traditionally, medications are taken orally or injected, but transdermal systems offer a less invasive alternative. This method involves delivering drugs through the skin, allowing for a steady release into the bloodstream. The benefits of transdermal delivery systems are numerous. For instance, they can provide a more consistent drug level in the body, minimizing the peaks and troughs often associated with oral medications. Furthermore, transdermal patches are user-friendly and can be easily applied, making them an appealing option for patients who may have difficulty swallowing pills or administering injections.One of the most well-known examples of transdermal technology is the nicotine patch, which helps individuals quit smoking by providing a steady dose of nicotine without the harmful effects of smoking. Similarly, hormone replacement therapies often utilize transdermal patches to deliver hormones like estrogen and testosterone directly into the bloodstream, offering relief from symptoms associated with menopause or low testosterone levels.The science behind transdermal delivery is fascinating. The skin serves as a barrier that protects our bodies from external substances, but it can also be a gateway for medications when designed correctly. Researchers are continuously exploring ways to enhance the permeability of the skin to allow for more effective transdermal drug delivery. Techniques such as microneedles, which create tiny punctures in the skin, and the use of chemical enhancers are being studied to improve the efficacy of transdermal systems.However, there are challenges that come with transdermal drug delivery. Not all medications are suitable for this method; the molecular size and solubility of a drug greatly influence its ability to penetrate the skin barrier. Additionally, patient factors such as skin type and condition can affect the absorption rates of transdermal medications. Therefore, careful consideration must be given when developing transdermal systems to ensure they are safe and effective for a wide range of patients.In conclusion, transdermal drug delivery represents a significant advancement in pharmacotherapy. It offers a convenient and effective alternative to traditional methods of medication administration. As research continues to evolve, we can expect to see more innovative transdermal products on the market, ultimately improving patient compliance and health outcomes. Embracing this technology could lead to a future where managing chronic conditions becomes easier and more accessible for everyone.

透皮给药的概念彻底改变了我们对药物输送方式的思考。传统上，药物是通过口服或注射的方式进行给药，但透皮系统提供了一种更少侵入性的替代方案。这种方法涉及通过皮肤输送药物，使其能够稳定释放到血液中。透皮给药系统的好处是多方面的。例如，它们可以在体内提供更一致的药物水平，最小化口服药物常常出现的峰值和谷值。此外，透皮贴片使用方便，易于贴附，对于那些可能难以吞咽药丸或注射的人来说，是一种吸引人的选择。最著名的透皮技术之一是尼古丁贴片，它通过提供稳定剂量的尼古丁而帮助人们戒烟，而不必承受吸烟的有害影响。类似地，激素替代疗法通常利用透皮贴片将雌激素和睾酮等激素直接输送到血液中，以缓解与更年期或低睾酮水平相关的症状。透皮给药背后的科学非常迷人。皮肤作为一种屏障，保护我们的身体免受外部物质的侵害，但当设计得当时，它也可以作为药物的通道。研究人员不断探索增强皮肤渗透性的方式，以允许更有效的透皮药物输送。诸如微针技术（在皮肤上产生微小的穿刺）和化学增强剂的使用正在被研究，以提高透皮系统的有效性。然而，透皮药物输送也面临一些挑战。并非所有药物都适合这种方法；药物的分子大小和溶解度极大地影响其穿透皮肤屏障的能力。此外，患者的皮肤类型和状况等因素也会影响透皮药物的吸收率。因此，在开发透皮系统时，必须仔细考虑，以确保它们对各种患者都是安全有效的。总之，透皮药物给药代表了药物治疗的重大进展。它为传统的药物给药方法提供了一种方便有效的替代方案。随着研究的不断发展，我们可以期待市场上会出现更多创新的透皮产品，从而最终改善患者的依从性和健康结果。接受这一技术可能会导致一个未来，使慢性病管理变得更加容易和可及。