Myers T D, Olson R J
Department of Ophthalmology, University of Utah College of Medicine, Salt Lake City, USA.
J Cataract Refract Surg. 1999 Jul;25(7):953-8. doi: 10.1016/s0886-3350(99)00085-1.
To evaluate the effect of 7 viscoelastic materials on the physical properties of the Unfolder lens injection system.
John A. Moran Eye Center, University of Utah School of Medicine, Salt Lake City, Utah, USA.
New sterile SI-40NB intraocular lenses (IOLs) were loaded into the Unfolder (AMO PhacoFlex II SofTip insertion system (Allergan) using 7 viscoelastic materials: sodium hyaluronate 1.0% (Healon, Provisc), sodium hyaluronate 1.4% (Healon GV), sodium hyaluronate 1.6% (Amvisc Plus), hydroxypropyl methylcellulose 2.0% (Occucoat), sodium chondroitin 4.0%--sodium hyaluronate 3.0% (Viscoat), and hyaluronate 3.0% (Vitrax). The IOLs were then injected after 10 or 120 seconds in the chamber (chamber dwell time) and 10, 60, or 180 seconds in the barrel of the Unfolder cartridge (barrel dwell time). Torque values (g/cm) required to extrude the lenses were measured with a torque gauge, and the cartridges and IOLs were inspected for damage.
Longer chamber dwell times resulted in lower torque values to extrude the IOLs (P < .001). Conversely, longer barrel dwell times resulted in higher torque requirements for IOL extrusion (P < .001). Furthermore, rates of adverse events, such as nondelivery, IOL damage, or Unfolder cartridge damage, were higher with shorter chamber dwell times and longer barrel dwell times (P < .001). However, IOL damage was avoided when the manufacturer's recommended chamber and barrel times were used.
Increasing chamber dwell time and decreasing barrel dwell time resulted in lower torque values to extrude IOLs from the Unfolder and increased successful use. Moreover, dispersive viscoelastic agents tended to be more forgiving of changing dwell times and therefore had lower torque values and adverse event rates overall.
评估7种粘弹性材料对Unfolder晶状体注射系统物理性能的影响。
美国犹他州盐湖城犹他大学医学院约翰·A·莫兰眼科中心。
将新的无菌SI-40NB人工晶状体(IOL)装入Unfolder(AMO PhacoFlex II SofTip插入系统(爱尔康)),使用7种粘弹性材料:1.0%透明质酸钠(Healon,Provisc)、1.4%透明质酸钠(Healon GV)、1.6%透明质酸钠(Amvisc Plus)、2.0%羟丙基甲基纤维素(Occucoat)、4.0%硫酸软骨素-3.0%透明质酸钠(Viscoat)和3.0%透明质酸(Vitrax)。然后在眼房内放置10或120秒(眼房停留时间)以及在Unfolder注射器筒内放置10、60或180秒(注射器筒停留时间)后注射IOL。用扭矩计测量挤出晶状体所需的扭矩值(克/厘米),并检查注射器筒和IOL是否受损。
较长的眼房停留时间导致挤出IOL所需的扭矩值较低(P <.001)。相反,较长的注射器筒停留时间导致挤出IOL所需的扭矩要求较高(P <.001)。此外,较短的眼房停留时间和较长的注射器筒停留时间导致诸如输送失败、IOL损伤或Unfolder注射器筒损伤等不良事件的发生率较高(P <.001)。然而,当使用制造商推荐的眼房和注射器筒时间时可避免IOL损伤。
增加眼房停留时间并减少注射器筒停留时间会降低从Unfolder挤出IOL所需的扭矩值,并提高成功使用率。此外,分散性粘弹性剂往往对变化的停留时间更宽容,因此总体上扭矩值和不良事件发生率较低。
