Abstract: Disclosed are systems and methods for generating graphical displays of analyte data and/or health information. In some implementations, the graphical displays are generating based on a self-referential dataset that are modifiable based on identified portions of the data. The modified graphical displays can indicate features in the analyte data of a host.

Abstract: Disclosed are systems and methods for generating graphical displays of analyte data and/or health information. In some implementations, the graphical displays are generating based on a self-referential dataset that are modifiable based on identified portions of the data. The modified graphical displays can indicate features in the analyte data of a host.

Abstract: Disclosed are compositions, methods and processes for fabricating and using a device or other implement including a surface or surfaces having a nanoscale or microscale layer or coating of Si—O—N—P. These coatings and/or layers may be continuous, on the surface or discontinuous (e.g., patterned, grooved), and may be provided on silica surfaces, metal (e.g., titanium), ceramic, and combination/hybrid materials. Methods of producing an implantable device, such as a load-bearing or non-load-bearing device, such as a bone or other structural implant device (load-bearing), are also presented. Craniofacial, osteogenic and disordered bone regeneration (osteoporosis) uses and applications of devices that include at least one surface that is treated to include a nanoscale or microscale layer or coating of Si—O—N—P are also provided. Methods of using the treated and/or coated devices to enhance enhanced vascularization and healing at a treated surface of a device in vivo, is also presented.

Abstract: Disclosed are compositions, methods and processes for fabricating and using a device or other implement including a surface or surfaces having a nanoscale or microscale layer or coating of Si—O—N—P. These coatings and/or layers may be continuous, on the surface or discontinuous (e.g., patterned, grooved), and may be provided on silica surfaces, metal (e.g., titanium), ceramic, and combination/hybrid materials. Methods of producing an implantable device, such as a load-bearing or non-load-bearing device, such as a bone or other structural implant device (load-bearing), are also presented. Craniofacial, osteogenic and disordered bone regeneration (osteoporosis) uses and applications of devices that include at least one surface that is treated to include a nanoscale or microscale layer or coating of Si—O—N—P are also provided. Methods of using the treated and/or coated devices to enhance enhanced vascularization and healing at a treated surface of a device in vivo, is also presented.

Abstract: The method is for rendering an object. An object to be rendered is identified. An outline of the object is defined. A front plate of the object is identified. A back plate that is shifted relative to the front plate is created. A beveled side extending between the front plate and the back plate is identified. A beveled contour of the beveled side from a series of segments of edges is created. A boundary line between visible and non-visible segments of surfaces is identified.

Abstract: The method is for rendering an object. An object to be rendered is identified. An outline of the object is defined. A front plate of the object is identified. A back plate that is shifted relative to the front plate is created. A beveled side extending between the front plate and the back plate is identified. A beveled contour of the beveled side from a series of segments of edges is created. A boundary line between visible and non-visible segments of surfaces is identified.

Abstract: A multimedia messaging system for use in providing voice mail, fax mail, e-mail, notification services, etc. over telephony lines is disclosed in which the system is adaptable for clustering to a single telephony-equipped switch. Multiple back-end systems can be added to the single telephony equipped switch such that the back-end machines operate the same as they would in stand-alone mode, thus making the cluster transparent to the back-end machines.