Patent application number | Description | Published |
20150045340 | AMIDINE SUBSTITUTED BETA-LACTAM COMPOUNDS, THEIR PREPARATION AND USE AS ANTIBACTERIAL AGENTS - The present invention relates to novel β-lactam compounds, their preparation and use. In particular, this invention relates to novel β-lactam compounds which are amidine substituted monobactam derivatives useful as antimicrobial agents and their preparation. | 02-12-2015 |
20150105388 | CARBOXAMIDE-SUBSTITUTED HETEROARYL-PYRAZOLES AND THE USE THEREOF - This invention relates to new carboxamide-substituted heteroaryl-pyrazoles, method for their production, their use for the treatment and/or prophylaxis of diseases, as well as their use for the production of pharmaceutical agents for the treatment and/or prophylaxis of diseases, in particular retroviral diseases, in humans and/or animals. | 04-16-2015 |
20150203500 | TRIS(HETERO)ARYLPYRAZOLES AND USE THEREOF - The present invention relates to new tri(hetero)aryl pyrazoles, methods for their preparation, their use for treating and/or preventing diseases as well as their use in the preparation of drugs for treating and/or preventing diseases, in particular retroviral diseases in humans and/or animals. | 07-23-2015 |
Patent application number | Description | Published |
20120083775 | Device and process for machining the human eye using laser technology - A device for machining the human cornea with focused laser radiation includes controllable components for setting the location of the radiation focus, a control computer for controlling these components, and also a control program for the control computer. The control program contains instructions that have been designed to bring about, upon execution by the control computer, the generation of incisions in the cornea in accordance with a predetermined incision figure, the incision figure defining a corneal bed, a flap situated on the bed and also at least one tissue strip situated in the region of the peripheral edge of the flap between the bed and the flap and extending along the edge of the flap. After the flap has been folded away, the tissue strip has to be removed and enables a creaseless post-ablative close fitting of the folded-back flap against the surface of the bed. In this manner, microstriae which may impair the visual capacity can be avoided. | 04-05-2012 |
20130274723 | DEVICE AND PROCESS FOR MACHINING THE HUMAN EYE USING LASER TECHNOLOGY - A device for machining the human cornea with focused laser radiation includes controllable components for setting the location of the radiation focus, a control computer for controlling these components, and also a control program for the control computer. The control program contains instructions that have been designed to bring about, upon execution by the control computer, the generation of incisions in the cornea in accordance with a predetermined incision figure, the incision figure defining a corneal bed, a flap situated on the bed and also at least one tissue strip situated in the region of the peripheral edge of the flap between the bed and the flap and extending along the edge of the flap. After the flap has been folded away, the tissue strip has to be removed and enables a creaseless post-ablative close fitting of the folded-back flap against the surface of the bed. In this manner, microstriae which may impair the visual capacity can be avoided. | 10-17-2013 |
20130281992 | Extracting lenticules for refractive correction - In certain embodiments, refractive correction includes controlling a focus of pulsed laser radiation having ultrashort pulses. A channel is created with the pulsed laser radiation to facilitate separation of the lenticule from the eye. A posterior incision is created with the pulsed laser radiation to form a posterior side of the lenticule. An anterior incision is created with the pulsed laser radiation to form an anterior side of the lenticule. | 10-24-2013 |
Patent application number | Description | Published |
20130274723 | DEVICE AND PROCESS FOR MACHINING THE HUMAN EYE USING LASER TECHNOLOGY - A device for machining the human cornea with focused laser radiation includes controllable components for setting the location of the radiation focus, a control computer for controlling these components, and also a control program for the control computer. The control program contains instructions that have been designed to bring about, upon execution by the control computer, the generation of incisions in the cornea in accordance with a predetermined incision figure, the incision figure defining a corneal bed, a flap situated on the bed and also at least one tissue strip situated in the region of the peripheral edge of the flap between the bed and the flap and extending along the edge of the flap. After the flap has been folded away, the tissue strip has to be removed and enables a creaseless post-ablative close fitting of the folded-back flap against the surface of the bed. In this manner, microstriae which may impair the visual capacity can be avoided. | 10-17-2013 |
20130281992 | Extracting lenticules for refractive correction - In certain embodiments, refractive correction includes controlling a focus of pulsed laser radiation having ultrashort pulses. A channel is created with the pulsed laser radiation to facilitate separation of the lenticule from the eye. A posterior incision is created with the pulsed laser radiation to form a posterior side of the lenticule. An anterior incision is created with the pulsed laser radiation to form an anterior side of the lenticule. | 10-24-2013 |
20150141971 | MARKING LENTICULES FOR REFRACTIVE CORRECTION - In certain embodiments, marking a lenticule includes controlling a focus of pulsed laser radiation having ultrashort pulses. A lenticule marking is created in a cornea of an eye with the pulsed laser radiation to mark the lenticule. The lenticule is then created in the cornea with the pulsed laser radiation. | 05-21-2015 |