Br J Ophthalmol. 2001 Oct;85(10):1231-6. doi: 10.1136/bjo.85.10.1231.
(I) To examine whether small holes produced by 248 nm excimer laser ablation in a polymer substrate could consistently produce a pressure drop in the desired target range (5-15 mm Hg) at physiological aqueous flow rates for use as an internal flow restrictor in a glaucoma drainage device, and (ii) to investigate whether external leakage could be reduced in comparison with conventional tube and plate glaucoma drainage devices by redesigning the exterior cross sectional shape of the portion contained within the sclerocorneal tunnel.
Single holes with target diameters of 10 microm, 15 microm, 20 microm, and 25 microm were drilled using a 248 nm excimer laser in sample discs (n=6 at each diameter) punched from a 75 microm thick polyimide sheet. Sample discs were tested in a flow rig designed to measure the pressure drop across the discs. Using filtered, degassed water at a flow rate of 1.4 microl/min repeated flow measurements were taken (n=6) for each disc. After flow testing, all discs were imaged using a scanning electron microscope and the dimensions of each hole were derived using image analysis software. In the external leakage study, corneoscleral buttons (n=13) were prepared from cadaver pig eyes and mounted on an artificial anterior chamber infused with Tyrode solution. After the pressure had stabilised, standard occluded silicone tube implants were inserted through 23 gauge needle stab incisions at the limbus. These were compared against prototype PMMA implants with a novel shape profile inserted through 1.15 mm width microvitreoretinal (MVR) stab incisions at the limbus. The infusion rate was maintained and a second pressure measurement was taken when the pressure had stabilised. The difference between the first and second pressure measurement was then compared, as an index of external leakage.
Ablated tubes were found to have a near perfect circular outline on both the entry and exit side. The observed pressure drops across the ablated sample discs at each target diameter were as follows: 10 microm, mean 25.66 (SD 4.9) mm Hg; 15 microm, 6.7 (1.15); 20 microm, 1.66 (1.07); and 25 microm, <0.1 mm Hg. A strong correlation was observed between observed pressure drops and those predicted by Poiseuille's formula (R(2) =0.996). Target ablations of 15 microm diameter produced tubes that consistently achieved a pressure drop within the desired range (5-15 mm Hg). In the external leakage study, preinsertion pressures (mm Hg; mean (SD)) were 19.00 (4.3) (conventional method) and 20.00 (3.9) (new technique with PMMA prototypes). Post-insertion pressures were significantly reduced (10.40 (7.7); p<0.01) for the conventional technique and were essentially unchanged for the new technique (18.80 (4.9); p>0.1).
It was shown that it is possible, in principle, to control the dimensions of a manufactured tubular lumen in a glaucoma drainage device accurately enough to provide consistent protection from hypotony in the early period after glaucoma filtration surgery. By redesigning the external profile of glaucoma drainage device and incision technique, it was also shown that it is possible to eliminate uncontrolled external leakage.
(I)研究用248纳米准分子激光在聚合物基底上打出的小孔,在生理房水流量下能否始终产生处于所需目标范围(5 - 15毫米汞柱)的压降,以用作青光眼引流装置中的内部限流装置;(ii)通过重新设计位于巩膜角膜隧道内部分的外部横截面形状,研究与传统的管状和板状青光眼引流装置相比,是否可以减少外部渗漏。
使用248纳米准分子激光在从75微米厚的聚酰亚胺片材冲压出的样品圆盘(每个直径n = 6)上钻出目标直径为10微米、15微米、20微米和25微米的单孔。在设计用于测量圆盘两端压降的流动装置中对样品圆盘进行测试。以1.4微升/分钟的流速使用经过过滤、脱气的水对每个圆盘重复进行流量测量(n = 6)。流量测试后,使用扫描电子显微镜对所有圆盘成像,并使用图像分析软件得出每个孔的尺寸。在外部渗漏研究中,从猪尸体眼睛制备角膜巩膜纽扣(n = 13),并安装在注入泰罗德溶液的人工前房中。压力稳定后,通过在角膜缘处23号针头穿刺切口插入标准的闭塞性硅胶管植入物。将这些与通过角膜缘处1.15毫米宽的微型玻璃体视网膜(MVR)穿刺切口插入的具有新型形状轮廓的原型聚甲基丙烯酸甲酯(PMMA)植入物进行比较。维持输注速率,压力稳定后进行第二次压力测量。然后比较第一次和第二次压力测量之间的差异,作为外部渗漏的指标。
发现消融后的管道在入口和出口侧都有近乎完美的圆形轮廓。在每个目标直径下,观察到的穿过消融样品圆盘的压降如下:10微米,平均25.66(标准差4.9)毫米汞柱;15微米,6.7(1.15);20微米,1.66(1.07);25微米,<0.1毫米汞柱。观察到的压降与泊肃叶公式预测的压降之间存在很强的相关性(R² = 0.996)。直径为15微米的目标消融产生的管道始终能在所需范围内(5 - 15毫米汞柱)实现压降。在外部渗漏研究中,插入前压力(毫米汞柱;平均值(标准差))对于传统方法为19.00(4.3),对于新技术(PMMA原型)为20.00(3.9)。传统技术的插入后压力显著降低(10.40(7.7);p < 0.01),而新技术的插入后压力基本不变(18.80(4.9);p > 0.1)。
结果表明,原则上有可能足够精确地控制青光眼引流装置中制造的管状内腔的尺寸,以在青光眼滤过手术后早期为防止低眼压提供持续保护。通过重新设计青光眼引流装置的外部轮廓和切口技术,还表明有可能消除不受控制的外部渗漏。
