Hengerer Fritz H, Mittelbronn Michel, Hansmann Martin-Leo, Auffarth Gerd U, Conrad-Hengerer Ina
J Refract Surg. 2017 Oct 1;33(10):670-675. doi: 10.3928/1081597X-20170718-01.
To compare histological analyses of capsulotomies from different laser systems with regard to tissue alteration, laser spot formation, and energy settings.
Four femtosecond laser platforms approved for cataract surgery were evaluated: LenSx (Alcon Laboratories, Inc., Fort Worth, TX), Catalys (Abbott Medical Optics, Santa Ana, CA), Victus (Tecnolas/Bausch & Lomb, Munich, Germany), and LensAR (Topcon, Gamagori, Japan). Ten human anterior lens capsulotomy disks from each laser system were analyzed: five by means of light microscopy and five by transmission electron microscopy (TEM). TEM was used especially to examine the cellular and stromal changes at the cutting edges. The cellular demarcation line was measured at 15 points along the rim and statistically compared with the findings from all laser platforms. Three capsules of each laser platform were prepared for TEM to evaluate the cellular and tissue edges of the laser cuttings.
All capsulotomies revealed a circular demarcation zone of different sizes along the cutting edges. Light microscopy showed a radial tissue damage of 36.0 ± 12.3 μm after Victus laser capsulotomy, 8.9 ± 2.9 μm after Catalys laser capsulotomy, 25.2 ± 5.6 μm after LensAR laser capsulotomy, and 39.8 ± 5.1 μm after LenSx laser capsulotomy. Differences between the damaged tissue zones correlated with the laser systems and their energy settings.
The use of less energy and larger spot separation led to smaller collateral damaged tissue areas along the cutting edges. The aberrant laser spots along the cutting edge may result in weakening of the remaining tissue, thereby enhancing the risk for capsular ruptures during surgery. [J Refract Surg. 2017;33(10):670-675.].
比较不同激光系统的晶状体囊切开术在组织改变、激光光斑形成和能量设置方面的组织学分析结果。
评估了四种获批用于白内障手术的飞秒激光平台:LenSx(爱尔康实验室公司,得克萨斯州沃思堡)、Catalys(雅培医疗光学公司,加利福尼亚州圣安娜)、Victus(德国慕尼黑Technolas/博士伦)和LensAR(日本东京Topcon)。对每个激光系统的10个人类晶状体前囊切开术圆盘进行分析:5个用于光学显微镜检查,5个用于透射电子显微镜(TEM)检查。TEM尤其用于检查切割边缘的细胞和基质变化。在边缘沿线的15个点测量细胞分界线,并与所有激光平台的结果进行统计学比较。为TEM准备每个激光平台的三个囊,以评估激光切割的细胞和组织边缘。
所有囊切开术在切割边缘均显示出不同大小的圆形分界区。光学显微镜检查显示,Victus激光晶状体囊切开术后径向组织损伤为36.0±12.3μm,Catalys激光晶状体囊切开术后为8.9±2.9μm,LensAR激光晶状体囊切开术后为25.2±5.6μm,LenSx激光晶状体囊切开术后为39.8±5.1μm。受损组织区域之间的差异与激光系统及其能量设置相关。
使用较低能量和较大光斑间距可导致切割边缘旁侧受损组织区域较小。切割边缘的异常激光光斑可能导致剩余组织变弱,从而增加手术期间囊膜破裂的风险。[《屈光手术杂志》。2017;33(10):670 - 675。]
