转移体

The novel drug delivery system utilizes transfersomes for enhanced permeation of the active ingredients across the skin.
新型药物传输系统利用转胞囊技术以增强活性成分透过皮肤的渗透性。
In this study, we prepared and characterized transfersomes loaded with anti-cancer drugs for targeted tumor therapy.
在这项研究中，我们制备并表征了装载抗癌药物的转胞囊，用于靶向肿瘤治疗。
Transfersomes have been shown to be highly flexible vesicles that can squeeze through pores smaller than their own size.
转胞囊已被证实为高度灵活的囊泡，能够挤过比其自身尺寸还要小的孔隙。
This innovative approach using transfersomes has significantly improved the bioavailability and efficacy of topical medications.
这种采用转胞囊的创新方法显著提高了局部用药的生物利用度和疗效。
Researchers are investigating the potential use of transfersomes in delivering gene therapies across the blood-brain barrier.
研究人员正在调查转胞囊在穿越血脑屏障输送基因疗法方面的潜在应用。
Due to their unique properties, transfersomes have garnered considerable interest in the field of pharmaceutical nanotechnology.
由于其独特的性质，转胞囊在制药纳米技术领域引起了相当大的关注。
The ability of transfersomes to deform and reform allows them to traverse biological barriers, making them ideal for targeted drug delivery.
转胞囊的变形和重构能力使它们能够穿越生物屏障，因此成为靶向药物递送的理想选择。
By modifying the composition of the transfersomes, we were able to control their stability and release kinetics in vivo.
通过改变转胞囊的组成，我们能够控制其在体内的稳定性和释放动力学特性。
In transdermal patches, transfersomes act as carriers that facilitate the passage of large and hydrophilic molecules through the skin.
在透皮贴片中，转胞囊作为载体，有助于大分子和亲水性分子通过皮肤。
Future research on transfersomes could lead to groundbreaking advancements in the treatment of various diseases by improving drug delivery mechanisms.
对转胞囊的未来研究有可能通过改进药物递送机制，在各种疾病的治疗方面取得突破性进展。