Patent application number | Description | Published |
20110038130 | PLASMA ENHANCED POLYMER ULTRA-THIN MULTI-LAYER PACKAGING - An implantable medical device including a plurality of components on a substrate, and a biocompatible multi-layer polymeric coating applied by vapour deposition to conform to and sealingly cover at least a portion of the components and/or the substrate. The coating is applied in at least two pairs of layers, wherein each pair has one layer formed by dissociation of a precursor and then simple deposition of that precursor, and the other layer is formed by at least one of plasma dissociation and excitation of the precursor to form a plasma-enhanced precursor, and then deposition of the plasma-enhanced precursor. | 02-17-2011 |
20110038131 | PACKAGING WITH ACTIVE PROTECTION LAYER - An implantable medical device including a plurality of components on a substrate, and a biocompatible multi-layer coating applied at least in part by vapour deposition to conform to and sealingly cover at least a portion of the components and/or the substrate. The coating is applied in at least two sets of layers, wherein each set has at least one layer formed by dissociation of a polymeric precursor and then deposition of that precursor, and another layer is a biocompatible liquid. | 02-17-2011 |
20110039050 | ULTRA-THIN MULTI-LAYER PROTECTION - An implantable medical device including a plurality of components on a substrate, and a biocompatible multi-layer coating applied by vapour deposition to conform to and sealingly cover at least a portion of the components and/or the substrate. The coating is applied in at least two sets, each set having first, second and third layers. At least one of the first, second and third layers consist essentially of a polymer such as parylene and at least one of the other two layers of the set consist essentially of inorganic material such that each layer differs in at least one diffusion barrier property from the other layers in the set and adds to an overall barrier effect of the coating. | 02-17-2011 |
Patent application number | Description | Published |
20090246546 | METHOD FOR PRODUCING A PLASTIC MEMBRANE DEVICE AND THE THUS OBTAINED DEVICE - A method for producing a membrane device by providing a substrate ( | 10-01-2009 |
20130197550 | Ultrasonic Surgical Apparatus with Silicon Waveguide - Ultrasound surgical apparatus are disclosed, including: medical ultrasound handpieces with proximally mounted ultrasound radiators configured to create a distally-focused beam of ultrasound energy, in combination with distal guide members for control of focal point depth; medical ultrasound handpieces with proximally mounted ultrasound radiators configured to create a distally-focused beam of ultrasound energy, in combination with distal rolling members for manipulability and control of focal point depth; medical ultrasound handpiece assemblies with coupled end effectors providing a probe with a probe dilation region configured to have an average outside diameter that is equal to or greater than the average outside diameter of a probe tip and neck; as well as junctions to an ultrasonically inactive probe sheath; medical ultrasound handpiece assemblies with coupled end effectors having positionable, ultrasonically inactive probe sheath ends slidably operable to both cover and expose at least a probe tip; and ultrasound transducer cores including a transducer structure affixed to a longitudinally elongated, generally planar, single crystal or polycrystalline material waveguide. | 08-01-2013 |
20130330498 | THREE DIMENSIONAL PACKAGING FOR MEDICAL IMPLANTS - Implantable medical devices, and methods of coating same, including a plurality of components disposed on a substrate, and a low surface energy layer deposited as a liquid over at least a first portion of the components and the substrate, the low surface energy layer becoming solidified after deposition and conforming to at least the first portion of the components. The devices further include a biocompatible hermetic coating conforming to and sealingly covering at least a portion of the low surface energy layer. | 12-12-2013 |
20150297801 | THREE DIMENSIONAL PACKAGING FOR MEDICAL IMPLANTS - Implantable medical devices, and methods of coating same, including a plurality of components disposed on a substrate, and a low surface energy layer deposited as a liquid over at least a first portion of the components and the substrate, the low surface energy layer becoming solidified after deposition and conforming to at least the first portion of the components. The devices further include a biocompatible hermetic coating conforming to and sealingly covering at least a portion of the low surface energy layer. | 10-22-2015 |
Patent application number | Description | Published |
20160110562 | SYSTEM FOR ENCODING CUSTOMER DATA - A system for transforming customer data includes a network interface and a processor. The network interface communicates a request for customer data associated with a determined set of customers. It also receives a customer profile code associated with the customer data, wherein the customer profile code comprises a first code segment and a second code segment. It further receives first and second rules associated with the customer profile code. The processor determines the set of customers, transforms the first and second code segments into customer data using the rules, and analyzes the customer data to determine an operations history for the set of customers. | 04-21-2016 |
20160110563 | SYSTEM FOR ENCODING CUSTOMER DATA - A system for encoding customer data includes a memory, a decision engine, a rules engine and an interface engine. The memory stores customer data associated with service levels and rules. The decision engine receives a request for customer data from a third party, determines that the third party is associated with a first service level, and retrieves the customer data associated with the first service level. The rules engine transforms customer data into first and second code segments by applying the rules. The rules engine combines at least the first code segment and the second code segment to form a customer profile code. An interface engine communicates the customer profile code to the third party. | 04-21-2016 |
20160110731 | SYSTEM FOR ENCODING CUSTOMER DATA - A system for authenticating a customer includes a network interface and a processor. The network interface communicates a request for customer data associated with a particular customer. It also receives a customer profile code associated with the customer, wherein the customer profile code comprises a first code segment and a second code segment. It further receives first and second rules associated with the customer profile code. The processor transforms the first and second code segments into customer data using the rules. It further authenticates the customer using the customer data. | 04-21-2016 |
20160110732 | SYSTEM FOR ENCODING CUSTOMER DATA - A system for transforming customer data includes a network interface and a processor. The network interface communicates a request for customer data associated with a particular geographical area. It also receives a customer profile code associated with the customer data, wherein the customer profile code comprises a first code segment and a second code segment. It further receives first and second rules associated with the customer profile code. The processor transforms the first and second code segments into customer data using the rules. It further analyzes the particular geographical area using the customer data. | 04-21-2016 |