n.脂质体

Liposomes are artificially prepared vesicles composed of lipid bilayers, used primarily as drug delivery systems.
脂质体是由脂质双层构成的人工制备囊泡，主要用于药物输送系统。
Due to their biocompatibility, liposomes can encapsulate both hydrophilic and hydrophobic drugs for targeted delivery.
由于其生物相容性，脂质体能够封装水溶性和脂溶性药物以实现靶向输送。
The unique structure of liposomes allows them to protect the encapsulated substances from degradation before reaching their target site.
脂质体的独特结构使其能够在到达目标位点前保护封装物质免受降解。
Researchers have been exploring the use of liposomes in gene therapy to deliver genetic material into cells.
研究人员一直在探索使用脂质体在基因治疗中将遗传物质递送至细胞内。
Liposomes can enhance the penetration of skincare products into the skin by improving their bioavailability.
脂质体可以通过提高生物利用度来增强护肤产品的皮肤渗透性。
In immunotherapy, liposomes can be loaded with antigens to stimulate an immune response against specific diseases.
在免疫疗法中，脂质体可以装载抗原来刺激针对特定疾病的免疫反应。
The size and surface properties of liposomes can be tailored to optimize their circulation time and targeting ability within the body.
脂质体的大小和表面性质可以根据需要调整，以优化其在体内的循环时间和靶向能力。
The development of temperature-sensitive liposomes has allowed for controlled release of drugs under specific thermal conditions.
温敏脂质体的发展使得在特定温度条件下控制药物释放成为可能。
By conjugating antibodies to liposomes, it is possible to achieve active targeting to cancer cells, thereby reducing side effects on healthy tissues.
通过将抗体与脂质体结合，可以实现对癌细胞的主动靶向，从而减少对健康组织的副作用。
Encapsulation of vaccines within liposomes can improve their stability and efficacy, leading to better immunization outcomes.
将疫苗封装在脂质体内可以提高其稳定性和效力，从而获得更好的免疫效果。