1)laser iridoplasty激光虹膜成形术
1.Modified laser iridoplasty for acute primary angle closure glaucoma;改良的激光虹膜成形术治疗原发性闭角型青光眼急性发作
2.Efficacy of laser iridoplasty in non-pupillary blockage of angle closure;激光虹膜成形术治疗非瞳孔阻滞型房角关闭
英文短句/例句
1.Argon laser iridoplasty in the treatment of plateau- like iris configuration as result of numerous ciliary body cysts氩激光虹膜成形术在多发性睫状体囊肿引起的虹膜高褶治疗中的应用
2.Laser peripheral iridoplasty and iridotomy for the treatment of angle_closure glaucoma.激光周边虹膜成形并切除术治疗闭角型青光眼
3.Change of anterior chamber angle after modified argon laser peripheral iridoplasty改良氩激光周边虹膜成形术后前房角的改变
4.Treatment of acute attack of primary angle closure glaucoma with Krypton red laser peripheral iridoplasty氪红激光周边虹膜成形术治疗急性发作期闭角型青光眼
5.Conclusions Modified argon laser peripheral iridoplasty is an effective method lor treatment ol middle and later stages ol closure angle glaucoma.结论 改良氩激光周边虹膜成形术是治疗中、晚期闭角型青光眼的有效方法之一
6.Objective To observe the change of anterior chamber angle with middle and later stage of closure angle glaucoma after modified argon laser peripheral iridoplasty.目的 探讨采用改良氩激光周边虹膜成形术后中晚期闭角型青光眼前房角的改变及疗效。
7.A Study on the Treatment of Acute Angle-closure Glaucoma by Kr Laser Compound Iridoplasty;氪激光复合式虹膜成形术治疗急性闭角型青光眼的实验及临床研究
8.UK national survey of prophylactic YAG iridotomy英国预防性YAG激光虹膜切除术调查
9.Combined green laser and neodymium:yttrium aluminum garnet laser peripheral iridectomy.绿激光及Nd:YAG激光联合应用行虹膜周边切除术
10.Nd:YAG laser peripheral iridectomy for angle-closure glaucomaNd:YAG激光周边虹膜切除术治疗闭角型青光眼
11.A clinical observation of laser periphery iridotomy for early stage of primary angle-closure glaucoma激光虹膜切除术治疗早期原发性闭角型青光眼
12.Investigation of YAG laser iris roots piercing and prevention of malignant glaucomaYAG激光虹膜根部造孔术与恶性青光眼的预防
13.A Prosective Evaluation of Changes in Anterior Segment Morphology after Laser Iridotomy.;激光周边虹膜切除术后眼前节结构变化的评价
14.CO_2 Laser Sclerectomy with Iridectomy in Primary GlaucomaCO_2激光巩膜切除联合虹膜切除术治疗原发性青光眼
15.Use of combining laser krypton and Nd:YAG in iridectomy氪离子激光与Nd:YAG激光联合行虹膜周边切除术临床研究
16.Combined argon and neodymium: yttrium aluminum garnet laser peripberal iridectomy:a new approach in clinical practice氟激光和掺钕钇铝石榴石激光联合应用进行周边虹膜切除术
17.Effect observation of combined krypton and Q-switched Nd∶YAG laser peripheral iridotomy氪离子与Q-开关Nd∶YAG激光联合激光虹膜切除术的远期疗效
18.Observation of prophylactic laser peripheral iridotomy for primary acute angle closure glaucoma激光周边虹膜切除术预防闭角型青光眼急性发作临床观察
相关短句/例句
kr-laser peripheral iridoplasty氪激光周边虹膜成形术
1.Objective To evaluate the effect and safety of combined application of kr-laser peripheral iridoplasty(kr-LPI) and YAG-laser peripheral iridectomy(YAG-LPI) in patients with acute angle-closure glaucoma(AACG) using ultrasound biomicroscope (UBM).方法初次发作的急性闭角型青光眼患者67例70眼,诊断后立即行氪激光周边虹膜成形术同时或待角膜透明后行YAG激光周边虹膜切除术,观察激光治疗前后视力、眼压及超声生物显微镜监测下的房角开放度数变化。
3)laser peripheral iridoplasty激光周边虹膜成形术
1.Laser peripheral iridoplasty as treatment for medically unresponsive acute attack of angle-closure glaucoma;激光周边虹膜成形术治疗药物无效的急性闭角型青光眼
2.Objective To examine the effects of laser peripheral iridoplasty(LPI) on treatment of durative high intraocular pressure(IOP) of acute angle-closure glaucoma and to verify its safety.目的 观察激光周边虹膜成形术在治疗急性闭角型青光眼持续性高眼压中的作用 ,证实该治疗方法的有效性和安全性。
3.Objective To evaluate the therapeutic effects of laser peripheral iridoplasty for an acute attack of primary angle closure glaucona(PACG).目的 评估激光周边虹膜成形术治疗原发性闭角型青光眼急性发作的效果。
4)Laser peripheral iridoplasty combined with iridotomy激光周边虹膜成形联合虹膜切开术
5)iridoplasty虹膜成形术
1.Immediate Argon Laser Peripheral Iridoplasty as Treatment of Acute Attack of Primary Angle Closure Glaucoma;氩激光周边虹膜成形术治疗急性闭角型青光眼临床评价
2.Krypton laser peripheral iridoplasty as treatment of acute attack of primary angle-closure glaucoma;氪激光周边虹膜成形术治疗原发性闭角型青光眼的急性发作期
3.Follow-up study for immediate argon laser peripheral iridoplasty as the treatment for acute attack of primary angle closure glaucoma;氩激光周边虹膜成形术治疗急性闭角型青光眼随访研究
6)Angle of anterior chamber激光虹膜周切术
延伸阅读
激光快速成形技术的简单介绍激光快速成形(Laser Rapid Prototyping:LRP)是将CAD、CAM、CNC、激光、精密伺服驱动和新材料等先进技术集成的一种全新制造技术。与传统制造方法相比具有:原型的复制性、互换性高;制造工艺与制造原型的几何形状无关;加工周期短、成本低,一般制造费用降低50%,加工周期缩短70%以上;高度技术集成,实现设计制造一体化。 LPR主要包括:立体光造型(SLA) 技术;选择性激光烧结(SLS) 技术;激光熔覆成形(LCF)技术;激光近形(LENS)技术;激光薄片叠层制造(LOM) 技术;激光诱发热应力成形(LF)技术及三维印刷技术等。 立体光造形(SLA)技术 SLA技术又称光固化快速成形技术,其原理是计算机控制激光束对光敏树脂为原料的表面进行逐点扫描,被扫描区域的树脂薄层(约十分之几毫米)产生光聚合反应而固化,形成零件的一个薄层。工作台下移一个层厚的距离,以便固化好的树脂表面再敷上一层新的液态树脂,进行下一层的扫描加工,如此反复,直到整个原型制造完毕。由于光聚合反应是基于光的作用而不是基于热的作用,故在工作时只需功率较低的激光源。此外,因为没有热扩散,加上链式反应能够很好地控制,能保证聚合反应不发生在激光点之外,因而加工精度高),表面质量好,原材料的利用率接近100%,能制造形状复杂、精细的零件,效率高。对于尺寸较大的零件,则可采用先分块成形然后粘接的方法进行制作。 美国、日本、德国、比利时等都投入了大量的人力、物力研究该技术,并不断有新产品问世。我国西安交通大学也研制成功了立体光造型机LPS600A。目前,全世界有10多家工厂生产该产品。 ●在汽车车身制造中的应用 SLA技术可制造出所需比例的精密铸造模具,从而浇铸出一定比例的车身金属模型,利用此金属模型可进行风洞和碰撞等试验,从而完成对车身最终评价,以决定其设计是否合理。美国克莱斯勒公司已用SLA技术制成了车身模型,将其放在高速风洞中进行空气动力学试验分析,取得了令人满意的效果,大大节约了试验费用。 ●用于汽车发动机进气管试验 进气管内腔形状是由十分复杂的自由曲面构成的,它对提高进气效率、燃烧过程有十分重要的影响。设计过程中,需要对不同的进气管方案做气道试验,传统的方法是用手工方法加工出由几十个截面来描述的气管木模或石膏模,再用砂模铸造进气管,加工中,木模工对图纸的理解和本身的技术水平常导致零件与设计意图的偏离,有时这种误差的影响是显著的。使用数控加工虽然能较好地反映出设计意图,但其准备时间长,特别是几何形状复杂时更是如此。英国Rover公司使用快速成型技术生产进气管的外模及内腔模,取得了令人满意的效果。
