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    • 1. 发明申请
    • Tattoo Removal and Other Dermatological Treatments using Multi-Photon Processing
    • 纹身去除和其他使用多光子处理的皮肤病治疗
    • US20090149843A1
    • 2009-06-11
    • US12136943
    • 2008-06-11
    • Alexander SmitsSzymon Suckewer
    • Alexander SmitsSzymon Suckewer
    • A61B18/20
    • A61B18/203A61B2017/00769A61B2018/00452
    • A system and method for providing multi-photon processing treatment to a patient. A localized, multi-photon processing event is initiated within a vicinity of an unwanted pigment in order to remove the pigment. The multi-photon processing event requires a relatively low energy, but very intense, pulse of light. The low amount of energy per pulse allows ablation of the material to be highly localized, with negligible thermal damage to surrounding material. The multi-photon event may be initiated by focusing a suitable electromagnetic pulse, such as a 2 mJ laser pulse having a 100 to 300 femtoseconds pulse duration, into a focal volume small enough that the intensity exceeds 1011 Watts/cm2. A suitably configured Ti:Sapphire solid state laser may provide such pulses at 1-10 kHz. By repeating the multi-photon processing event along the location of a tattoo, the tattoo may be removed with no damage to the surrounding tissue.
    • 一种用于向患者提供多光子处理处理的系统和方法。 在不想要的颜料附近开始局部化的多光子处理事件以去除颜料。 多光子处理事件需要相对较低的能量但非常强烈的光脉冲。 每个脉冲的能量低,允许材料的消融被高度局部化,对周围材料的热损伤可以忽略不计。 可以通过将合适的电磁脉冲(例如具有100至300飞秒脉冲持续时间的2mJ激光脉冲)聚焦到足够小以致强度超过1011瓦/ cm 2的焦距体积中来启动多光子事件。 适当配置的Ti:蓝宝石固态激光器可以提供1-10kHz的脉冲。 通过沿着纹身的位置重复多光子处理事件,可以去除纹身而不损坏周围的组织。
    • 2. 发明授权
    • Cataract removal using ultra-short pulse lasers
    • 使用超短脉冲激光去除白内障
    • US09351826B2
    • 2016-05-31
    • US14269170
    • 2014-05-04
    • Szymon SuckewerPeter HershAlexander SmitsRichard Register
    • Szymon SuckewerPeter HershAlexander SmitsRichard Register
    • A61B18/20A61F2/16A61F9/008
    • A61F2/1613A61F9/00834A61F2009/0087A61F2009/0088A61F2009/00887
    • A system and method of replacing a lens to treat a cataract is disclosed. Cataractous tissue is ablated via a multi-photon process using focused, ultra-short laser pulses. Multi-photon ablation requires an energy intensity between 1013 to 1015 W/cm2. Using lasers having femto-second duration pulses, this intensity is achieved with 50 micro-Joules of energy, allowing material disruption with very little heating or shock. The multi-photon ablated material is removed through a micro-channel that leads from the multi-photon ablated region to at least the surface of the eye. Once the material is removed a pre-polymer fluid is injected in to fill the void. This polymerizes into a gel once inside the lens. The polymerized, transformed material matches both the transparency to visible light and the Young's modulus of healthy lens.
    • 公开了一种更换镜片以治疗白内障的系统和方法。 白内障组织通过使用聚焦的超短激光脉冲的多光子过程消融。 多光子消融需要1013〜1015W / cm2的能量强度。 使用具有毫微微秒持续时间脉冲的激光器,以强度为50微焦的能量实现该强度,从而允许材料中断,非常少的加热或冲击。 通过从多光子烧蚀区域引导至至少眼睛表面的微通道去除多光子消融材料。 一旦去除材料,就注入预聚物流体以填充空隙。 透镜内聚合成凝胶。 聚合的转化材料与透明度与可见光和健康透镜的杨氏模量相匹配。
    • 4. 发明授权
    • Method and device for cornea reshaping by intrastromal tissue removal
    • 通过胸腔内组织去除角膜重塑的方法和装置
    • US08382744B2
    • 2013-02-26
    • US11843498
    • 2007-08-22
    • Szymon SuckewerPeter HershAlexander SmitsAnatoli Morozov
    • Szymon SuckewerPeter HershAlexander SmitsAnatoli Morozov
    • A61F9/007
    • A61F9/008A61F9/00827A61F2009/00872A61F2009/0088
    • A method and device for flapless, intrastromal keratomileusis for the correction of myopia, hyperopia and astigmatism, i.e., for vision correction by corneal reshaping without creating a flap. Ultra-short laser pulses are used to create a temporary micro-channel extending to an end point located within the cornea. A second series of ultra-short laser pulses are then delivered to photo-ablate material in the vicinity of the micro-channel end-point. The photo-ablated material may exit through the micro-channel used to deliver the laser pulses, or via a separate micro-channel. With the micro-channel oriented substantially normal to the optical axis of the cornea, and by continuing to supply the ultra-short laser pulses in the appropriate number while moving the point of ablation along the micro-channel, the photo-ablation of the intrastromal tissue may continue in a controlled fashion and the cornea reshaped in a predetermined manner without creating a flap.
    • 一种用于矫正近视,远视和散光的无瓣膜,基质内角膜磨镶术的方法和装置,即用于通过角膜重塑而不产生瓣片的视力矫正。 使用超短激光脉冲来产生延伸到位于角膜内的终点的临时微通道。 然后将第二系列的超短激光脉冲输送到微通道终点附近的光蚀刻材料。 光消融材料可以通过用于传递激光脉冲的微通道,或通过单独的微通道离开。 由于微通道取向为基本上垂直于角膜的光轴,并且通过在沿着微通道移动消融点的同时继续供应适当数量的超短激光脉冲,则基质内的光消融 组织可以以受控的方式继续,并且角膜以预定方式重新成形,而不产生瓣。
    • 5. 发明申请
    • Method and Device for Cornea Reshaping by Intrastromal Tissue Removal
    • 通过体内组织去除角膜重塑的方法和装置
    • US20080051772A1
    • 2008-02-28
    • US11843498
    • 2007-08-22
    • Szymon SuckewerPeter HershAlexander SmitsAnatoli Morozov
    • Szymon SuckewerPeter HershAlexander SmitsAnatoli Morozov
    • A61B18/20
    • A61F9/008A61F9/00827A61F2009/00872A61F2009/0088
    • A method and device for flapless, intrastromal keratomileusis for the correction of myopia, hyperopia and astigmatism, i.e., for vision correction by corneal reshaping without creating a flap. Ultra-short laser pulses are used to create a temporary micro-channel extending to an end point located within the cornea. A second series of ultra-short laser pulses are then delivered to photo-ablate material in the vicinity of the micro-channel end-point. The photo-ablated material may exit through the micro-channel used to deliver the laser pulses, or via a separate micro-channel. With the micro-channel oriented substantially normal to the optical axis of the cornea, and by continuing to supply the ultra-short laser pulses in the appropriate number while moving the point of ablation along the micro-channel, the photo-ablation of the intrastromal tissue may continue in a controlled fashion and the cornea reshaped in a predetermined manner without creating a flap.
    • 一种用于矫正近视,远视和散光的无瓣膜,基质内角膜磨镶术的方法和装置,即用于通过角膜重塑而不产生瓣片的视力矫正。 使用超短激光脉冲来产生延伸到位于角膜内的终点的临时微通道。 然后将第二系列的超短激光脉冲输送到微通道终点附近的光蚀刻材料。 光消融材料可以通过用于传递激光脉冲的微通道,或通过单独的微通道离开。 由于微通道取向为基本上垂直于角膜的光轴,并且通过在沿着微通道移动消融点的同时继续供应适当数量的超短激光脉冲,则基质内的光消融 组织可以以受控的方式继续,并且角膜以预定方式重新成形,而不产生瓣。
    • 7. 发明授权
    • Tattoo removal and other dermatological treatments using multi-photon processing
    • 使用多光子处理纹身去除和其他皮肤病治疗
    • US08187256B2
    • 2012-05-29
    • US12136943
    • 2008-06-11
    • Alexander J SmitsSzymon Suckewer
    • Alexander J SmitsSzymon Suckewer
    • A61B18/20
    • A61B18/203A61B2017/00769A61B2018/00452
    • A system and method for providing multi-photon processing treatment to a patient. A localized, multi-photon processing event is initiated within a vicinity of an unwanted pigment in order to remove the pigment. The multi-photon processing event requires a relatively low energy, but very intense, pulse of light. The low amount of energy per pulse allows ablation of the material to be highly localized, with negligible thermal damage to surrounding material. The multi-photon event may be initiated by focusing a suitable electromagnetic pulse, such as a 2 mJ laser pulse having a 100 to 300 femtoseconds pulse duration, into a focal volume small enough that the intensity exceeds 1011 Watts/cm2. A suitably configured Ti:Sapphire solid state laser may provide such pulses at 1-10 kHz. By repeating the multi-photon processing event along the location of a tattoo, the tattoo may be removed with no damage to the surrounding tissue.
    • 一种用于向患者提供多光子处理处理的系统和方法。 在不想要的颜料附近开始局部化的多光子处理事件以去除颜料。 多光子处理事件需要相对较低的能量但非常强烈的光脉冲。 每个脉冲的能量低,允许材料的消融被高度局部化,对周围材料的热损伤可以忽略不计。 可以通过将合适的电磁脉冲(例如具有100至300飞秒脉冲持续时间的2mJ激光脉冲)聚焦到足够小以致强度超过1011瓦/ cm 2的焦距体积中来启动多光子事件。 适当配置的Ti:蓝宝石固态激光器可以提供1-10kHz的脉冲。 通过沿着纹身的位置重复多光子处理事件,可以去除纹身而不损坏周围的组织。
    • 10. 发明授权
    • Tattoo removal with two laser beams via multi-photon processes
    • 通过多光子过程使用两个激光束进行纹身去除
    • US08915907B2
    • 2014-12-23
    • US13781287
    • 2013-02-28
    • Szymon Suckewer
    • Szymon Suckewer
    • A61B18/20A61B18/00A61B17/00
    • A61B18/203A61B18/20A61B2017/00769A61B2018/00452A61B2018/00458A61B2018/00577A61B2018/2025A61B2018/207
    • A method for removing tattoos using two laser beams and a multi-photon process is disclosed. A 0.1 to 100 nsec pulse secondary laser beam focused to 108 W/cm2 creates a temporary channel from the skin surface to the tattoo pigment. A 100 fsec pulse main laser beam is then guided through the channel to the pigment and focused to sufficient intensity, i.e., 1012 W/cm2 or more, to initiate a multi-photon process that breaks up the pigment, disrupting its light reflecting properties. The channel allows the main laser beam unobstructed passage to the pigments, resulting in efficient use of the main laser. The pigment fragments escape through the temporary channel or diffuse into the blood stream. A suitably configured Ti/Sapphire laser beam is split into two components, with an uncompressed component used as the secondary laser beam, and a compressed component as the main laser beam.
    • 公开了一种使用两个激光束和多光子过程去除纹身的方法。 聚焦到108W / cm 2的0.1至100nsec脉冲次级激光束产生从皮肤表面到纹身颜料的临时通道。 然后将100fsec脉冲主激光束通过通道引导至颜料并聚焦至足够的强度,即1012W / cm 2以上,以引发分解颜料的多光子过程,破坏其光反射性能。 该通道允许主激光束无阻碍地通向颜料,从而有效地使用主激光器。 颜料碎片通过临时通道逃逸或扩散到血液中。 将适当配置的Ti / Sapphire激光束分为两部分,其中未压缩部件用作次级激光束,压缩部件用作主激光束。