Ophthalmology Department, Miguel Servet University Hospital, Paseo Isabel la Católica 1-3, E-50009, Zaragoza, Spain.
Aragon Institute for Health Research (IIS Aragon), GIMSO research group, University of Zaragoza (Spain), Avda. San Juan Bosco 13, Zaragoza E-50009, Spain.
Biomed Mater. 2020 Nov 21;15(6):065021. doi: 10.1088/1748-605X/aba445.
This paper presents a novel nanoformulation for sustained-release delivery of dexamethasone (DEX) to the ocular posterior segment using a Laponite (LAP) carrier-DEX/LAP 1:10 w w formulation; 10 mg ml. In vivo ocular feasibility and pharmacokinetics after intravitreal (IV) and suprachoroidal (SC) administration in rabbit eyes are compared against IV administration of a DEX solution (1 mg ml). Thirty rabbit eyes were injected with the DEX/LAP formulation (15 suprachoroid/15 intravitreous). Ophthalmological signs were monitored at day 1 and at weeks 1-4-12-24 post-administration. Three eyes per sample time point were used to quantify DEX concentration using high-performance liquid chromatography-mass spectrometry. The ocular tissues' pharmacokinetic parameters (lens, vitreous humour, choroid-retina unit and sclera) were studied. DEX/LAP was well tolerated under both administration methods. Peak intraocular DEX levels from the DEX/LAP were detected in the vitreous humour after both deliveries soon after administration. The vitreous area under the curve was significantly greater after both DEX/LAP deliveries (IV: 205 968.47; SC: 11 442.22 ng g d) than after IV administration of the DEX solution (317.17 ng g d). Intravitreal DEX/LAP delivery extended higher vitreous DEX levels up to week 24 (466.32 ± 311.15 ng g). With SC delivery, DEX levels were detectable in the choroid-retina unit (12.04 ± 20.85 ng g) and sclera (25.46 ± 44.09 ng g) up to week 24. This study demonstrated the intraocular feasibility of both SC and IV administration of the DEX/LAP formulation. The LAP increased the intraocular retention time of DEX when compared with conventional solutions. DEX/LAP could be considered a biocompatible and useful sustained-release formulation for treating posterior-pole eye diseases.
本文提出了一种使用 Laponite(LAP)载体-DEX/LAP 1:10 w/w 制剂(10mg/ml)的新型纳米制剂,用于眼部后节的地塞米松(DEX)持续释放递送。将其与玻璃体内(IV)和脉络膜上腔(SC)给药的 DEX 溶液(1mg/ml)进行比较,评估了在兔眼的体内眼部可行性和药代动力学。30 只兔眼分别接受 DEX/LAP 制剂(15 只脉络膜上腔/15 只玻璃体内)注射。给药后第 1 天和第 1、4、12、24 周监测眼科体征。使用高效液相色谱-质谱法,通过 3 个样本时间点,每个样本时间点检测 3 只眼,来定量 DEX 浓度。研究了眼部组织的药代动力学参数(晶状体、玻璃体、脉络膜-视网膜单位和巩膜)。DEX/LAP 两种给药方式均耐受良好。DEX/LAP 给药后,玻璃体内很快就能检测到 DEX 的峰值,且两种方式的检测结果都显示,DEX/LAP 两种给药方式的玻璃体内曲线下面积(AUC)均显著大于 DEX 溶液的玻璃体内 AUC(IV:205968.47;SC:11442.22ng/g/d)。玻璃体内 DEX/LAP 给药可将 DEX 水平延长至 24 周(466.32±311.15ng/g)。SC 给药时,DEX 可在脉络膜-视网膜单位(12.04±20.85ng/g)和巩膜(25.46±44.09ng/g)中检测到,最长可持续至 24 周。本研究表明,DEX/LAP 制剂的玻璃体内和脉络膜上腔给药在眼部是可行的。与传统溶液相比,LAP 增加了 DEX 的眼内滞留时间。DEX/LAP 可被认为是一种生物相容性和有用的缓释制剂,可用于治疗后极眼病。
