Senju Laboratory of Ocular Sciences, Senju Pharmaceutical Co, Ltd, Kobe, Hyogo, Japan.
Am J Ophthalmol. 2012 Apr;153(4):651-60, 660.e1. doi: 10.1016/j.ajo.2011.09.029. Epub 2012 Feb 4.
To test if the drug FK962 (N-(1-acetylpiperidin-4-yl)-4-fluorobenzamide) facilitates axonal elongation and recovery of corneal sensitivity after creation of a corneal flap in rabbits.
Animal study.
Primary cultures of rabbit trigeminal ganglion cells were used to test if FK962 promoted nerve elongation in vitro. A 130 μm-thick×8.6 mm-diameter flap was created in rabbit corneas where topical 10(-6) M FK962 was administered 4 times daily. After treatment of 7 days, corneal mechanical sensitivity was measured using a Cochet-Bonnet esthesiometer. Whole-mount corneal sections were prepared, sensory nerve axons were stained with antibody for neurofilament, and axonal elongation from transected nerve termini were scored using standardized criteria. Ocular pharmacokinetics modeling was used to predict permeation of topical FK962 into cornea.
FK962 accelerated sprouting and elongation of neurites in cultured neuronal cells from rabbit trigeminal ganglia. In the in vivo rabbit model, distal axons from transected nerve termini in corneas disappeared soon after flap surgery; but with time, axons regenerated and elongated. Topical application of 10(-6) M FK962 for 7 days significantly enhanced axonal elongation and increased corneal sensitivity. Increased corneal sensitivity was directly and significantly correlated with axonal elongation, suggesting functional enhancement of re-innervation by FK962.
Results from a rabbit model of laser in situ keratomileusis (LASIK) surgery showed that topical FK962 facilitated corneal re-innervation leading to recovery of sensitivity. Results suggested that topical application of FK962 might decrease complications in patients after LASIK surgery.
检测药物 FK962(N-(1-乙酰基哌啶-4-基)-4-氟苯甲酰胺)是否能促进兔角膜瓣下神经纤维的轴突生长和角膜敏感性的恢复。
动物研究。
应用兔三叉神经节细胞原代培养,检测 FK962 是否能促进体外神经纤维的生长。在兔角膜上制作 130μm 厚×8.6mm 直径的角膜瓣,局部给予 10(-6) M FK962,每日 4 次。治疗 7 天后,使用 Cochet-Bonnet 触觉计测量角膜机械敏感性。制备全角膜切片,用神经丝抗体标记感觉神经轴突,用标准化标准评分神经轴突的生长。利用眼局部药代动力学模型预测 FK962 对角膜的渗透性。
FK962 可加速兔三叉神经节培养神经元细胞突起的生长和分支。在兔模型中,角膜瓣下神经切断后,远侧轴突很快消失,但随着时间的推移,轴突再生并延长。局部应用 10(-6) M FK962 7 天,明显促进轴突生长,增加角膜敏感性。角膜敏感性的增加与轴突生长直接显著相关,提示 FK962 增强了神经再支配的功能。
激光原位角膜磨镶术(LASIK)兔模型的结果表明,局部应用 FK962 促进角膜神经再支配,导致敏感性恢复。结果表明,局部应用 FK962 可能减少 LASIK 术后患者的并发症。
