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論文 代寫:PLGA介紹分析

聚乳酸-聚乙醇酸(PLGA)是制備藥物傳遞裝置的重要高分子化合物之一。最近,它們引起了人們的註意。在組織工程應用中也有應用。PLGA是一種生物相容性和可生物降解的化合物。該化合物應用廣泛,應用領域廣泛。這是FDA批準的聚合物。特別地,PLGA被研究用於開發與小分子藥物和其他大分子相關的裝置。這是觀察到有使用在商業用途和研究。在這些裝置中有許多制造技術被應用。這些都是用來了解影響化合物降解和藥物釋放的因素。許多這些化合物在許多操作因素中是有用的。

論文 代寫:PLGA介紹分析

本研究分析的聚乳酸-乙醇酸(PLGA)化合物為地塞米松、姜黃素、載阿奇黴素聚(PLGA)脂質體、多柔比星和吲哚菁綠。結果表明,高分子化合物可以有效地用於納米顆粒藥物的輸送。在靶向給藥的情況下,有更多的生物相容性和較小的耐藥性。這些被觀察到有廣泛的應用。許多PLGA是FDA批準的聚合物,目前正在研究用於商業用途和治療。他們有許多制造技術。理解它們在未來的局限性是非常必要的。有必要進行更多的研究來克服這些限制,以便開發更有效的藥物。

論文 代寫:PLGA介紹分析

Poly lactic-co-glycolic acid (PLGA) is some of the important polymeric compounds that for the fabricate devices for the drug delivery. They have been garnering attention in the recent times. It is also have application in tissue engineering application. The PLGA is a compound that is biocompatible and biodegradable. This compound has many applications and finds its uses in many fields. This is an FDA approved polymer. In particular, PLGA is studied for the development of devices that is relevant for the small molecule drugs and other macromolecules. This is observed to have use in commercial use and research. There are many fabrication techniques that are applied in the devices. These are utilizing to understand the factors that affect the degradation and drug release of compound. Many of these compounds are useful in many operational factors.

論文 代寫:PLGA介紹分析

Poly lactic-co-glycolic acid (PLGA) compounds that were analyzed in this research were Dexamethasone, Curcumin, Azithromycin-loaded poly (lactide-co-glycolide) (PLGA) nanoparticles, Doxorubicin and Indocyanine green. It was determined that polymeric compounds can be effectively used for Nano particle drug delivery. There is more biocompatibility and lesser resistance in the case of targeted drug delivery. These are observed to have wide ranging applications. Many of the PLGA are FDA approved polymers that is being currently researched for commercial use and treatment. They have many fabrication techniques. It is imperative to understand their limitations in the future. There is a need for more research to overcome these limitations in order to develop drugs that are more efficient.