Patent application number | Description | Published |
20090054934 | EXPANDABLE FILLERS FOR BONE CEMENT - Methods, systems, and mixtures deliver a bone cement to a void in a bone, and provide an expandable filler for expanding the volume of the bone cement. The void in the bone is accessed and a bone cement material is introduced into the void in the bone. An expandable filler is introduced into the void in the bone. The introduction of the filler can take place simultaneously with the introduction of the bone cement or before or after the bone cement. The expandable filler can be expanded and the bone cement can be allowed to set. | 02-26-2009 |
20090264892 | Methods, Materials and Apparatus for Treating Bone or Other Tissue - A method of treating a vertebra, comprising:
| 10-22-2009 |
20090264942 | Methods, Materials and Apparatus for Treating Bone and Other Tissue - A method of treating a vertebra, comprising:
| 10-22-2009 |
20100052089 | Photoelectric Structure and Method of Manufacturing Thereof - A photoelectric structure is presented, comprising one or more PiN cells. The PiN cell is formed by an intrinsic semiconductor bulk having front and rear surfaces enclosed between p- and n-type regions extending along side surfaces of said semiconductor bulk. The front and rear surfaces of the intrinsic semiconductor bulk are active surfaces of the PiN cell and said side surfaces of said semiconductor bulk formed with said p- and n-type regions are configured and operable for collecting excess charged carriers generated in said semiconductor bulk in response to collected electromagnetic radiation to which at least one of the active surfaces is exposed during the PiN cell operation. | 03-04-2010 |
20100312054 | PROSTATIC TISSUE REMOVAL AND/OR PROSTATIC CAPSULOTOMY FOR TREATMENT OF CONDITIONS - Apparatus and methods are provided including identifying a subject as suffering from a disorder of an organ of the subject. In response to the identifying, a shaft is inserted into the organ, not via a natural lumen of the subject. Using a laser beam emitted from a distal portion of the shaft, a portion of the organ is ablated. A vicinity of the portion of the organ is cooled by introducing a fluid to the vicinity, and, subsequently aspirating the fluid therefrom, the introduction and aspiration of the fluid being performed via the shaft, while the shaft is inside the organ. Other embodiments are also described. | 12-09-2010 |
20130123791 | Methods, Materials and Apparatus for Treating Bone and Other Tissue - A bone cement comprising a first component and a second component, wherein contacting the first component and the second component produces a mixture which attains a high viscosity an initial period and the viscosity of the mixture remains relatively stable for a working time of at least 5 minutes after the initial setting period, and the mixture is suitable for in-vivo use. | 05-16-2013 |
20130261217 | Methods, Materials and Apparatus for Treating Bone and Other Tissue - A bone cement comprising a first component and a second component, wherein contacting the first component and the second component produces a mixture which attains a high viscosity an initial period and the viscosity of the mixture remains relatively stable for a working time of at least 5 minutes after the initial setting period, and the mixture is suitable for in-vivo use. | 10-03-2013 |
20130345708 | Methods, Materials and Apparatus for Treating Bone and Other Tissue - A method of treating a vertebra, comprising:
| 12-26-2013 |
20150073560 | LINERS FOR MEDICAL JOINT IMPLANTS WITH IMPROVED WEAR-RESISTANCE - A polymeric liner for joint implants includes at least one friction reducing member and at least one body member. The friction reducing member is made of a polymeric matrix which contains a polymeric material and at least one nanotube nanoparticle having a volume concentration of between 5%-99% v/v (volume per volume). The body member is formed of at least a polymeric material. The friction reducing member and the body member are conjoined preferably by compression molding or any other method of coupling such as mold injection, 3D printing, adhesion or any other suitable method can be applied. A method produces the polymeric. | 03-12-2015 |