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    • 11. 发明授权
    • Method for applying a coating
    • 施加涂层的方法
    • US06811805B2
    • 2004-11-02
    • US10154249
    • 2002-05-22
    • Allen GilliardLynn Cook WintertonRafael Victor AndinoJohn Lally
    • Allen GilliardLynn Cook WintertonRafael Victor AndinoJohn Lally
    • A61L5103
    • B29D11/00317B29D11/00903G02B1/10
    • The invention provide a method for applying a coating to an ophthalmic lens or a mold for making the ophthalmic lens or a medical device other than ophthalmic lens. The method comprises spraying at least one layer of a coating liquid onto an ophthalmic lens using a spraying process selected from the group consisting of an air-assisted atomization and dispensing process, an ultrasonic-assisted atomization and dispensing process, a piezoelectric assisted atomization and dispensing process, an electro-mechanical jet printing process, a piezo-electric jet printing process, a piezo-electric with hydrostatic pressure jet printing process, and a thermal jet printing process. The coating can comprise a property/functionality pattern or a color image or combination of both.
    • 本发明提供了一种将涂层施加到眼用透镜或用于制造眼科镜片或除眼镜之外的医疗装置的模具的方法。 该方法包括使用选自空气辅助雾化和分配过程,超声波辅助雾化和分配过程,压电辅助雾化和分配过程的喷雾方法将至少一层涂布液体喷涂到眼科镜片上 工艺,机电喷射印刷工艺,压电喷墨印刷工艺,静压喷射印刷工艺的压电和热喷涂印刷工艺。 涂层可以包括性质/功能性图案或彩色图像或两者的组合。
    • 12. 发明申请
    • Method for making contact lenses
    • 隐形眼镜的制作方法
    • US20070037897A1
    • 2007-02-15
    • US11500721
    • 2006-08-08
    • Guigui WangDawn SmithJuergen VogtJohn LallyBrian Devlin
    • Guigui WangDawn SmithJuergen VogtJohn LallyBrian Devlin
    • B29D11/00G02B1/04
    • B29C33/60B29C33/62B29D11/00134B29D11/00192G02B1/043
    • The instant invention pertains to a method and a fluid composition for producing contact lenses with improved lens quality and with increased product yield. The method of the invention involves adding a non-crosslinkable hydrophilic polymer into a fluid composition including a lens-forming material in an amount sufficient to reduce an averaged mold separation force by at least about 40% in comparison with that without the non-crosslinkable hydrophilic polymer and to provide a disparity of about 10 N or less in mold separation force. The non-crosslinkable hydrophilic polymer has a limited miscibility with the lens-forming material low enough to successfully and timely form an intact interfacial film with a sufficient thickness at an interface between the mold and the fluid composition therein, and has a structure that minimizes entanglement of the non-crosslinkable hydrophilic polymer in the interfacial film with the polymer matrix of the formed lens.
    • 本发明涉及一种用于制造具有改善的镜片质量和增加的产品产量的隐形眼镜的方法和流体组合物。 本发明的方法包括将不可交联的亲水性聚合物添加到包含透镜形成材料的流体组合物中,该透镜形成材料的量足以将平均的模具分离力减小至少约40%,与没有不可交联的亲水性 并且在模具分离力中提供约10N或更小的差异。 不可交联的亲水性聚合物与透镜形成材料的混溶性有限,足够低以在模具和其中的流体组合物之间的界面处成功地及时地形成具有足够厚度的完整界面膜,并且具有最小化缠结的结构 的界面膜中的不可交联的亲水聚合物与形成的透镜的聚合物基体。
    • 13. 发明申请
    • Materials containing multiple layers of vesicles
    • 含有多层囊泡的材料
    • US20080063898A1
    • 2008-03-13
    • US11981208
    • 2007-10-31
    • John LallyNicholas Kotov
    • John LallyNicholas Kotov
    • B05D7/00B32B9/00
    • G02B1/043A61K9/127
    • The present invention provides a composite material, preferably an ophthalmic device, more preferably a contact lens, which comprises a vesicle-containing coating including at least one layer of a vesicle and one layer of a polyionic material having charges opposite the charges of the vesicle. Such composite material can find use in biomedical applications, for example, a device for localized drug delivery and an in vivo analyte sensor such as glucose sensing contact lens. By lifting off the vesicle-containing coating from a substrate, a self-standing membrane (film) capable of encapsulating a wide variety of guest materials can be prepared. In addition, the invention provides methods for making vesicle-containing composite and film materials of the present invention.
    • 本发明提供一种复合材料,优选眼科装置,更优选隐形眼镜,其包括含囊泡的涂层,其包含至少一层囊泡和一层具有与囊泡的电荷相反的电荷的聚离子材料。 这种复合材料可用于生物医学应用,例如用于局部药物递送的装置和体内分析物传感器,例如葡萄糖感测隐形眼镜。 通过从基材上取出含囊泡的涂层,可以制备能够包封各种客体材料的自立膜(膜)。 另外,本发明提供了制造本发明的含囊泡复合材料和薄膜材料的方法。
    • 15. 发明申请
    • Method for producing tinted contact lenses
    • 生产有色隐形眼镜的方法
    • US20050134795A1
    • 2005-06-23
    • US11007442
    • 2004-12-08
    • John LallyVogt Juergen
    • John LallyVogt Juergen
    • B29C67/00B29D11/00G02C7/02D06P5/00
    • B29D11/00317
    • The invention provides a method of producing a full-body tinted contact lens. The method of the invention comprises the steps of: preconditioning particles of a pigments; dispersing the preconditioned pigment particles in a polymerizable fluid composition to obtain a pigment-containing polymerizable dispersion; introducing an amount of the pigment-containing polymerizable dispersion in a mold for making a contact lens; polymerizing the polymerizable dispersion in the mold to form a full-body tinted contact lens with the particles of the pigment entrapped and distributed therein. In addition, the invention provides a method for preparing preconditioned pigment particles and full-body tinted contact lenses produced according the method of the invention.
    • 本发明提供一种制造全身有色隐形眼镜的方法。 本发明的方法包括以下步骤:预处理颜料颗粒; 将预处理的颜料颗粒分散在可聚合流体组合物中以获得含颜料的可聚合分散体; 将一定量的含颜料的可聚合分散体引入用于制造隐形眼镜的模具中; 将可聚合分散体聚合在模具中以形成全身有色隐形眼镜,其中包含并分布在其中的颜料颗粒。 此外,本发明提供了一种根据本发明的方法制备预处理的颜料颗粒和全身有色隐形眼镜的方法。