Rhenix Lifesciences, Hyderabad, Telangana, India.
CureScience, San Diego, California, USA.
Drug Deliv. 2024 Dec;31(1):2375521. doi: 10.1080/10717544.2024.2375521. Epub 2024 Jul 12.
Leptomeningeal disease (LMD) refers to the infiltration of cancer cells into the leptomeningeal compartment. Leptomeninges are the two membranous layers, called the arachnoid membrane and pia mater. The diffuse nature of LMD poses a challenge to its effective diagnosis and successful management. Furthermore, the predominant phenotype; solid masses or freely floating cells, has altering implications on the effectiveness of drug delivery systems. The standard of care is the intrathecal delivery of chemotherapy drugs but it is associated with increased instances of treatment-related complications, low patient compliance, and suboptimal drug distribution. An alternative involves administering the drugs systemically, after which they must traverse fluid barriers to arrive at their destination within the leptomeningeal space. However, this route is known to cause off-target effects as well as produce subtherapeutic drug concentrations at the target site within the central nervous system. The development of new drug delivery systems such as liposomal cytarabine has improved drug delivery in leptomeningeal metastatic disease, but much still needs to be done to effectively target this challenging condition. In this review, we discuss about the anatomy of leptomeninges relevant for drug penetration, the conventional and advanced drug delivery methods for LMD. We also discuss the future directions being set by different clinical trials.
脑膜疾病(LMD)是指癌细胞浸润脑膜间隙。脑膜是两层膜,称为蛛网膜和软脑膜。LMD 的弥漫性特征使其有效诊断和成功治疗面临挑战。此外,主要表型为实体肿块或自由漂浮细胞,这对药物递送系统的有效性有不同的影响。标准治疗方法是鞘内给予化疗药物,但它与治疗相关并发症的增加、患者顺应性低和药物分布不理想有关。另一种方法是系统给予药物,然后它们必须穿过液性屏障才能到达脑膜间隙内的目标部位。然而,这种途径已知会导致脱靶效应,并在中枢神经系统内的靶部位产生治疗浓度以下的药物浓度。新型药物递送系统的发展,如阿糖胞苷脂质体,已经改善了脑膜转移疾病中的药物递送,但仍有许多工作要做,以有效地针对这种具有挑战性的疾病。在这篇综述中,我们讨论了与药物渗透相关的脑膜解剖结构、LMD 的常规和先进的药物递送方法。我们还讨论了不同临床试验设定的未来方向。
