Patent application number | Description | Published |
20090198332 | METHOD FOR TEXTURING THE SURFACE OF A SYNTHETIC IMPLANT - A method for texturing the surface of a breast implant includes the step of partially impregnating a silicone outer surface of the implant with particles of a biologically active material such as acellular dermis of human or animal origin impregnated with hyaluronic acid. The biologically active material promotes tissue ingrowth into a plurality of cavities filled with a biologically active material. | 08-06-2009 |
20090198333 | METHOD FOR TEXTURING THE SURFACE OF A SYNTHETIC IMPLANT - A method for texturing the surface of a breast implant includes the step of partially impregnating a silicone outer surface of the implant with particles of a biologically active material such as acellular dermis of human or animal origin impregnated with hyaluronic acid. The biologically active material promotes tissue ingrowth into a plurality of cavities filled with a biologically active material. | 08-06-2009 |
20100034879 | HYALURONIC ACID PRODUCT AND METHOD FOR TREATING LACERATIONS AND WOUNDS IN A LIVING BODY - A method for texturing the surface of a breast implant includes the step of partially impregnating a silicone outer surface of the implant with particles of a biologically active material such as acellular dermis of human or animal origin and/or hyaluronic acid granules. The biologically active material promotes tissue ingrowth into a plurality of cavities filled with a biologically active material. | 02-11-2010 |
20100114311 | Multi-Lumen Breast Prothesis and Improved Valve Assembly Therefor - A valve assembly for a mammary implant having a chamber defined by a flexible membrane includes a valve and a flexible filling tube which includes a relatively short semi-riged tubular structure that extends into the chamber and defines a passageway. The filling tube comprises a soft and flexible length of tubing and a solid portion that has an outside diameter that is slightly larger than the inner diameter of the semi-riged tube and is stretchable longitudinally to reduce its outer diameter to facilitate passage through the semi-riged tube. The solid portion includes a T-shaped flange at its inner end and is adapted to sealing the engaged semi-riged tube upon relaxation thereof to thereby form a plug seal. The plug seal includes a plurality of reverse barbs to prevent the plug seal from becoming dislodged and forced back into the chamber. | 05-06-2010 |
20110054604 | SELF SUPPORTING AND FORMING BREAST IMPLANT AND METHOD FOR FORMING AND SUPPORTING AN IMPLANT IN A HUMAN BODY - A self supporting breast implant includes a generally cone shaped partially absorbable medical mesh support member and a silicone shell defining a hollow core that is preferably filled or partially filled with a silicone gel. The support member is made of a polypropolene/poliglecaprone monofilament and may be attached to a patient's tissue by sutures or by absorbable hooks. | 03-03-2011 |
20110054605 | SELF SUPPORTING IMPLANT IN A HUMAN BODY AND METHOD FOR MAKING THE SAME WITHOUT CAPSULAR CONTRACTURE - A self supporting breast implant includes a generally cone shaped partially absorbable medical mesh support member and a silicone shell defining a hollow core that is preferably filled or partially filled with a silicone gel. The support member is made of a polypropolene/poliglecaprone monofilament and may be attached to a patient's tissue by sutures or by absorbable hooks. A textured outer surface or shell is formed around the relatively smooth implant or inner shell and the inner shell is reduced in size to provide a small space between the inner shell and the outer shell to eliminate or at least minimize the adverse effects of capsular contraction. | 03-03-2011 |
20110106249 | SELF SUPPORTING AND FORMING BREAST IMPLANT AND METHOD FOR FORMING AND SUPPORTING AN IMPLANT IN A HUMAN BODY - A surgical implant namely a tissue expander or adjustable implant having a synthetic mesh loosely attached to the surface. The mesh is elastic in all directions and the implant adjustable or expandable. The expandable implant is filled to an over filled volume into the surrounding tissue until a new capsule forms. At this stage the volume of the implant is reduced leaving the supporting capsule with the mesh at a larger volume. The volume of the implant is then reduced thus rendering a tension free capsule around the implant. The filling tube of the adjustable implant is then removed leaving the adjustable implant in position. Alternatively the tissue expander may be removed and a new implant placed in the expanded tension free pocket. | 05-05-2011 |
20110301717 | Supporting and Forming Transitional Material for Use in Supporting Prosthesis Devices, Implants and to Provide Structure in a Human Body - A transitional mesh and thread for use in the human body is dissolved. The transitional mesh being comprised of sections of non-absorbable mesh fabric with sections of absorbable mesh fabric, such that each non-absorbable section is attached to absorbable mesh fabric. The non-absorbable mesh sections can be overlaid with absorbable mesh which after it is absorbed leaves the non-absorbable mesh in an array without connection to each other. The thread to be used to create the mesh has non-absorbable fibers that can be discontinuous, loosely woven or embedded in an absorbable material. The fabric mesh itself can be loosely woven and coated with absorbable material. The patterns of non-absorbable mesh and space between non-absorbable mesh sections can be varied to provide various strengths and degrees of motion and movement. The mesh can also be coated with materials to reduce infection, provide tissue growth, reduce scar tissue or other medicinal purposes. | 12-08-2011 |
20110307001 | OSCILLATING TISSUE DISSECTOR - Provided is a tissue dissector that includes: a tube having a proximal end and a distal end; a rod disposed within the tube, ribs attached to the rod and extending outside of the tube; a housing disposed at the proximal end of the tube; an actuator disposed in the housing, to rotationally oscillate the rod with respect to the tube; and a first seal disposed around the rod, to prevent fluid from entering the tube. | 12-15-2011 |
20120184974 | Supporting and Forming Transitional Material for Use in Supporting Prosthesis Devices, Implants and to Provide Structure in a Human Body - A biocompatible fabric comprised of a strong absorbable material and ultra fine permanent fibers which serve as a collagen support system for prosthesis devices and implants. The permanent fibers stimulate the growth of collagen but are too weak to offer the initial support desired. As the absorbable material dissolves, the collagen formed over the permanent fiber assumes the support role from the absorbable material. The supporting system is natural in appearance and motion without encapsulation or rigidity. The absorbable material can be overlaid with the non-absorbable fiber which after absorption leaves the non-absorbable mesh in an array. The fibers can be discontinuous, loosely woven or embedded in an absorbable material and can be patterned to provide various strengths and degrees of motion and movement. The materials can be coated or infused with materials to reduce infection, provide tissue growth, reduce scar tissue or other medicinal purposes. | 07-19-2012 |
20120226352 | SELF SUPPORTING AND FORMING BREAST IMPLANT AND METHOD FOR FORMING AND SUPPORTING AN IMPLANT IN A HUMAN BODY - A breast implant includes an elastomer shell; a dermal matrix disposed on the implant shell; and a support interposed between the elastomer shell and dermal matrix to separate the elastomer shell and dermal matrix. A process for making a breast implant includes disposing an elastomer shell in a support; and disposing a dermal matrix on an outer surface of the support. A method of using the breast implant include disposing the breast implant in a subject and attaching the support to tissue of the subject. | 09-06-2012 |
20130024005 | COMPOSITE IMPLANT - An implant includes a biocompatible framework material and a biologically-active material. The biologically-active material is embedded in the biocompatible framework material, and a portion of the biologically-active material is exposed to the outside of the implant. | 01-24-2013 |
20130172994 | SUPPORTING AND FORMING TRANSITIONAL MATERIAL FOR USE IN SUPPORTING PROSTHESIS DEVICES, IMPLANTS AND TO PROVIDE STRUCTURE IN A HUMAN BODY - A fabric for use in the human body composed of non-absorbable micro diameter threads contained in absorbable materials, such that over time the absorbable material dissolves or is absorbed by the body and the non-absorbable micro diameter threads cause the body to create a collagen scaffold transferring load from the absorbable material to the collagen scaffold. The fabric can be coated or impregnated with materials to reduce infection, provide tissue growth, reduce scar tissue or other medical purpose. Threads of non-absorbable material can be coated with absorbable material to create a fabric. | 07-04-2013 |
20130178874 | COMPOSITE IMPLANT - A composite implant includes a mesh scaffold having a biologically-active material configured to contact biological tissue and blood vessels; a resin disposed on the mesh scaffold; and a channel in the mesh which is configured to receive growth of the biological tissue and blood vessels, wherein the resin is biocompatible and non-absorbable. A process for preparing the composite implant includes disposing a plurality of layers of biologically-active material as an array; contacting the plurality of layers with a resin; and hardening the resin to form the composite implant. A process of using the composite implant includes implanting the composite implant into a subject, wherein the implant comprises: a mesh comprising a biologically-active material configured to contact biological tissue and blood vessels; a resin disposed on the mesh; and a channel in the mesh which is configured to receive growth of the biological tissue and blood vessels. | 07-11-2013 |
20130231743 | HYBRID BREAST IMPLANT - An implant includes a first container and a plurality of members disposed in the first container. The implant can be made by attaching a member to a second container disposed in the first container and inserting the second container in the first container. The implant can be used by disposing the implant into a subject and adjusting a volume of a fluid in the implant. | 09-05-2013 |
20140039618 | HYBRID BREAST IMPLANT AND TISSUE EXPANDER, METHODS OF MAKING AND USE OF SAME - An implant includes a first container and a plurality of members disposed in the first container. The implant can be made by attaching a member to a second container disposed in the first container and inserting the second container in the first container. The implant can be used by disposing the implant into a subject and adjusting a volume of a fluid in the implant. Additionally, a tissue expander includes an outer container; and an inner container disposed in the outer container and comprising: a reticulated frame comprising a plurality of struts which interconnect; a void disposed between the struts in the reticulated frame; and a projection connected to the struts to cover the void. | 02-06-2014 |