Huang Yiming, Gui Shuangying
Department of Pharmacy, Anhui University of Chinese Medicine No. 1, Qianjiang Road Hefei Anhui 230012 China
Institute of Pharmaceutics, Anhui Academy of Chinese Medicine Hefei Anhui 230012 China.
RSC Adv. 2018 Feb 13;8(13):6978-6987. doi: 10.1039/c7ra12008g. eCollection 2018 Feb 9.
Lyotropic liquid crystals (LLCs) formed by the self-assembly of amphiphilic molecules in a solvent (usually water) have attracted increasingly greater attention in the last few decades, especially the lamellar phase (L), the reversed bicontinuous cubic phase (Q) and the reversed hexagonal phase (H). Such phases offer promising prospects for encapsulation of a wide range of target molecules with various sizes and polarities owing to the unique internal structures. Also, different structures of mesophases can give rise to different diffusion coefficients. The bicontinuous cubic phase and the hexagonal phase have been demonstrated to control and sustain the release of active molecules. Furthermore, the structures are susceptible to many factors such as water content, temperature, pH, the presence of additives Many researchers have been studying these influencing factors in order to accurately fabricate the desired phase. In this paper, we give a review of the characteristics of different structures of liquid crystalline phases, the influencing factors on the phase transition of liquid crystals and the relationship between structures of LLC and drug diffusion. We hope our review will provide some insights into how to manipulate in a controlled manner the rate of incorporating and transferring molecules by altering the structure of lyotropic mesophases.
在过去几十年中,两亲分子在溶剂(通常为水)中自组装形成的溶致液晶(LLC)越来越受到关注,尤其是层状相(L)、反向双连续立方相(Q)和反向六方相(H)。由于其独特的内部结构,这些相为封装各种尺寸和极性的广泛目标分子提供了广阔前景。此外,不同结构的中间相可产生不同的扩散系数。双连续立方相和六方相已被证明能够控制和维持活性分子的释放。此外,这些结构易受许多因素影响,如水含量、温度、pH值、添加剂的存在等。许多研究人员一直在研究这些影响因素,以便精确制备所需的相。在本文中,我们综述了液晶相不同结构的特征、液晶相变的影响因素以及溶致液晶结构与药物扩散之间的关系。我们希望我们的综述能为如何通过改变溶致中间相的结构来可控地操纵分子的掺入和转移速率提供一些见解。