1
Christopher Horvath, Laszlo O Romoda, Guenther Grabner, Herbert A Reitsamer: Methods for deploying intraocular shunts. AqueSys, Thomas C Meyers, Brown Rudnick, November 13, 2012: US08308701 (38 worldwide citation)

The present invention generally relates to methods for deploying intraocular shunts without the use of an optical apparatus that contacts an eye, such as a goniolens. In certain embodiments, methods of the invention involve inserting into an eye a deployment device configured to hold an intraocular ...


2
Christopher Horvath, Ronald D Bache, Laszlo O Romoda, Guenther Grabner, Herbert A Reitsamer, John R Samples: Methods for implanting a soft gel shunt in the suprachoroidal space. AqueSys, James W Hill, Mark Bentley, McDermott Will & Emery, October 7, 2014: US08852137 (32 worldwide citation)

The invention generally relates to methods for implanting a soft gel shunt in the suprachoroidal space. In certain embodiments, methods of the invention involve inserting into the eye a hollow shaft configured to hold a soft gel intraocular shunt, deploying the soft gel shunt from the hollow shaft s ...


3
Christopher Horvath, Ronald D Bache, Laszlo O Romoda, Guenther Grabner, Herbert A Reitsamer, John R Samples: Devices and methods for implanting a shunt in the suprachoroidal space. AqueSys, James W Hill, Mark Bentley, McDermott Will & Emery, June 24, 2014: US08758290 (19 worldwide citation)

The invention generally relates to devices and methods for implanting a shunt in the suprachoroidal space of an eye. In certain aspects, devices of the invention include a housing, a deployment mechanism at least partially disposed within the housing, and a flexible hollow shaft coupled to the deplo ...


4
Laszlo O Romoda, Christopher Horvath, Guenther Grabner, Herbert A Reitsamer: Devices for deploying intraocular shunts. AqueSys, James W Hill, McDermott Will & Emery, September 9, 2014: US08828070 (19 worldwide citation)

The present invention generally relates to devices for deploying intraocular shunts without the use of an optical apparatus that contacts an eye, such as a goniolens. In certain embodiments, devices of the invention include a housing, in which a distal end of the housing includes a protrusion, a dep ...


5
Guenther Grabner, Herbert A Reitsamer, Christopher Horvath, Laszlo O Romoda: Systems for deploying intraocular shunts. AqueSys, James W Hill, M Todd Hales, McDermott Will & Emery, November 19, 2013: US08585629 (18 worldwide citation)

The present invention generally relates to systems for deploying intraocular shunts without the use of an optical apparatus that contacts an eye, such as a goniolens. In certain embodiments, systems of the invention include a locking mechanism, and a device configured to hold and deploy an intraocul ...


6
Christopher Horvath, Laszlo O Romoda, Guenther Grabner, Herbert A Reitsamer: Devices for deploying intraocular shunts. AqueSys, McDermott Will & Emery, August 4, 2015: US09095411 (12 worldwide citation)

The present invention generally relates to devices for deploying intraocular shunts without the use of an optical apparatus that contacts an eye, such as a goniolens. In certain embodiments, devices of the invention include a housing including a proximal portion and a distal portion, in which the di ...


7
Christopher Horvath, Laszlo O Romoda, Guenther Grabner, Herbert A Reitsamer: Methods for deploying intraocular shunts. AqueSys, McDermott Will & Emery, May 3, 2016: US09326891 (9 worldwide citation)

The present invention generally relates to methods for deploying intraocular shunts without the use of an optical apparatus that contacts an eye, such as a goniolens. In certain embodiments, methods of the invention involve inserting into an eye a deployment device configured to hold an intraocular ...


8
Christopher Horvath, Laszlo O Romoda, Brian Hamstrom, Ronald D Bache, Guenther Grabner, Herbert A Reitsamer: Adjustable glaucoma implant. AqueSys, Nathan S Smith, McDermott Will & Emery, September 8, 2015: US09125723 (1 worldwide citation)

Methods and devices for adjusting or configuring the flow rate of an intraocular shunt are provided whereby hypotony can be avoided by increasing the flow rate through the device. In some embodiments, the device is a shunt that can have a first flow that can be modified to a second flow by modifying ...


9
Herbert A Reitsamer, Guenther Grabner, Christopher Horvath, Laszlo O Romoda: Intraocular devices. AQUESYS, Nathan S Smith, McDermott Will & Emery, October 2, 2018: US10085884

Glaucoma can be treated by implanting an intraocular shunt into the eye. Such procedures can employ various deployment devices, shunts, and implantation techniques.


10
Christopher Horvath, Laszlo O Romoda, Guenther Grabner, Herbert A Reitsamer: Devices for deploying intraocular shunts. Aquesys, May 17, 2012: US20120123430-A1

The present invention generally relates to devices for deploying intraocular shunts without the use of an optical apparatus that contacts an eye, such as a goniolens. In certain embodiments, devices of the invention include a housing including a proximal portion and a distal portion, in which the di ...