目的：探讨3种不同的滴眼液在麻醉小鼠晶状体浑浊中的保护作用。方法：将20只6周龄C57BL/6j小鼠分为4组，A组为自然暴露组(对照组)，B组为滴用透明质酸钠组，C组为滴用甲基纤维素滴眼液组，D组为滴用生理盐水组。分别于麻醉后10，20，30，45和60 min观察小鼠晶状体浑浊情况。结果：与A组相比，3种滴眼液均不同程度地延长小鼠晶状体浑浊的时间；30 min时，4组小鼠浑浊 发生率分别为90%，50%，50%和10%，并延缓晶状体浑浊的进展；60 min时，4组小鼠3级浑浊的发生率为30%，10%，10%和0，其中生理盐水的作用效果最优，可以明显延迟晶状体变浑浊的时间。结论：麻醉小鼠的晶状体浑浊程度可以被相关滴眼液延缓，适用于短时间的眼科检查和处理，又因其经济易得，可广泛应用于小鼠活体的眼科检查中。

Objective: To study the effect of saline, carboxymethylcellulose sodium eye drops and sodium hyaluronate gel to stop the development of cataract in anesthetized mice. Methods: Twenty C57BL/6j mice, aged 6 weeks, were divided into four groups, group A was naturally exposed to air, group B was treated with sodium hyaluronate gel, group C was treated with carboxymethylcellulose sodium eye drops and group D was treated with saline. The lens opacity was observed at 10, 20, 30, 45 and 60 min after the start of the experiment. Results: Compared with group A, the eye drops delayed the development of lens opacity in varying degrees. At 30 min, the incidence rate of cataract in group A, B, C and D was 90%, 50%, 50% and 10%, respectively. At 60 min, the incidence rate of grade 3 cataract in group A, B, C and D was 30%, 10%, 10% and 0 respectively, saline did the best, which can significantly slow the process. Conclusion: Cataract development can be slowed by the protective eye drops. This finding is relevant for those experimental settings in which clear ocular media are required. 

大部分眼科手术/操作具有创伤小、疼痛刺激轻等特点，因此，选择眼表面麻醉即可满足手术的镇痛的需要，促进了眼科日间手术的广泛开展。其中，盐酸奥布卡因滴眼液是常用的眼科表面麻醉剂，具有麻醉起效迅速、镇痛作用强、持续时间久(约13 min)等特点，已经广泛应用在眼内手术中，在使用过程中，盐酸奥布卡因滴眼液对瞳孔及血管无影响，保证了眼内手术的安全。盐酸奥布卡因滴眼液能提供良好的眼表环境，对角膜厚度及角膜上皮厚度影响轻微，从而满足屈光手术的需要。此外，盐酸奥布卡因滴眼液能提供良好的术后镇痛，减少术后镇痛药物的使用，降低斜视术后患儿的躁动发生率。不含防腐剂的表面麻醉剂不影响麻醉剂的起效时间及镇痛效果，对眼表的影响轻微，从而创造良好的手术操作环境，提高手术效果，降低并发症和手术风险，是眼科手术中较为理想的表面麻醉药物。文章就盐酸奥布卡因滴眼液的作用机制及麻醉效果、药代动力学、临床疗效、安全性等进行综述。

Most ophthalmic surgeries are characterized by small incisions and mild pain, therein, the choice of topical anesthesia can meet the needs of surgeries and accelerate ophthalmic surgeries to be conducted in day surgery model. 0.4% oxybuprocaine hydrochloride eye drops is one of commonly used topical anesthetics for ophthalmic surgery, which has the characteristics of rapid onset and sufficient analgesia with long duration (about 13 minutes). Oxybuprocaine hydrochloride eye drops has been widely and safely used in intraocular surgery without affecting the pupil and blood vessels. Meanwhile, oxybuprocaine hydrochloride eye drops has negligible effects on corneal thickness and corneal epithelial thickness to meet the needs of refractive surgery. In addition, oxybuprocaine hydrochloride eye drops can provide sufficient postoperative analgesia, reduce the use of postoperative analgesics and the incidence of emergence agitation in children after strabismus surgery. The preservative-free topical anesthetic would be one of ideal topical anesthetics as it can provide a good surgical condition and reduce complications and risks of post-operative infections without changing the onset time and analgesia effects. This article provides a review of the mechanism, analgesia, pharmacokinetics, clinical efficacy, and safety profiles of 0.4% oxybuprocaine hydrochloride eye drops.

血源性滴眼液是治疗干眼的一种有效的治疗方法。来源可分为自体、供体，其中供体来源又可分为成人外周血及脐带血，并以血清、富血小板血浆、血小板来源生长因子以及血小板裂解产物的形式制成。由于各种血液制品的原理及适应症不同，本文将对不同血源性滴眼液制品的制备及面临的挑战的共识问题进行解读。

Blood-based eye drops can be used effectively in the treatment of dry eyes. The sources of blood-based eye drops can be divided into autologous and donor, and donor sources can be divided into adult peripheral blood and umbilical cord blood, which are prepared in the form of serum, platelet-rich plasma, platelet-derived growth facters and platelet lysate. Due to the different principles and indications of various blood products, the consensus issues on the preparation and challenges of different blood-based eye drop products are reviewed.

目的：建立高效液相色谱法(high-performance liquid chromatography，HPLC)测定盐酸丁卡因滴眼液中盐酸丁卡因和羟苯乙酯的含量。方法：采用Agilent Eclipse PLUS C18色谱柱(250 mm ×4.6 mm，5 μm)；以1%三乙胺溶液(三乙胺10 mL，加水990 mL，用冰醋酸调节pH值至5.0±0.5)-乙腈(65 : 35)为流动相，流速为1.0 mL/min；柱温为30 ℃；检测波长为256 nm；进样体积20 μL。结果：盐酸丁卡因在0.05~0.36 mg/mL范围内线性关系良好( r =1.000)，平均回收率为99.2%，相对标准偏差(relative standard deviation，RSD)为0.3%(n=9)，羟苯乙酯在3.02~24.14 μg/mL范围内线性关系良好(r=1.000)，平均回收率为98.2%，RSD为0.4%(n=9)，该方法重现性好。对照品溶液和供试品溶液在室温放置24 h基本稳定；结论：本方法简便、快速、准确。适用于检测盐酸丁卡因滴眼液中盐酸丁卡因和羟苯乙酯的含量。

Objective: To establish a high-performance liquid chromatography (HPLC) method for the determination of tetracaine hydrochloride and ethyl hydrobenzoate in tetracaine hydrochloride eye drops. Methods: The analytic column was Agilent Eclipse Plus C18 (4.6 mm ×250 mm, 5 μm) and the mobile phase was 1% triethylamine solution (10 mL triethylamine and 990 mL water, pH adjusted to 5.0±0.5 with glacial acetic acid) - acetonitrile (65:35) at a flow rate of 1.0 mL/min. The detection wavelength was 256 nm and the column temperature was 30 ℃. The injection volume was 20 μL. Results: The linear range of tetracaine hydrochloride was well shown within 0.05–0.36 mg/mL (r=1.000). The average recovery rate of tetracaine hydrochloride was 99.2% with relative standard deviation (RSD) 0.3% (n=9). The linear range of ethyl hydrobenzoate was well shown within 3.02–24.14 μg/mL (r=1.000). The average recovery rate of tetracaine hydrochloride was 98.2% with RSD 0.4%(n=9). The method had high reproducibility. The reference solution and testing solution were stable for 24 h in room. Conclusion: The method is simple, quick and accurate, which is suitable for the determination of tetracaine hydrochloride and ethyl hydrobenzoate in tetracaine hydrochloride eye drops.