Abstract: A method for predicting a hypoglycemic event or a hyperglycemic event includes (a) collecting one or more data streams, wherein at least one of the one or more data streams includes a glucose (GL) data stream corresponding to a user, (b) determining one or more features based on the one or more collected data streams, wherein at least one of the one or more features is distinct from each of the one or more data streams, (c) generating a prediction of whether or not a hypoglycemic event or a hyperglycemic event will occur by a prediction model based on the one or more features determined at (b), and (d) issuing an alert to the user in response to the prediction generated at (c) including a prediction that a hypoglycemic event or a hyperglycemic event will occur.

Abstract: An approximating anchor device, corresponding kits, and methods for implementing the device are described herein. In one embodiment, the approximating anchor device includes a first cylindrical fastener defining a first set of cross lumens, each of the first set of cross lumens extending substantially perpendicular to a central axis of the first cylindrical fastener, a second cylindrical fastener defining a second set of cross lumens, each of the second set of cross lumens extending substantially perpendicular to a central axis of the second cylindrical fastener, and a string running through the first set of cross lumens of the first cylindrical fastener and the second set of cross lumens of the second cylindrical fastener. Tightening of the string will draw the first cylindrical fastener and the second cylindrical fastener towards each other.

Abstract: The present disclosure relates to methods and devices to detect perforation of the bowel, for example, resulting from surgical procedures, such as laparoscopy, diagnostic procedures, such as colonoscopy, medical conditions, such as diverticulitis, and trauma. The present disclosure also relates to filtration systems and electrical connector assemblies for use in the methods and devices.

Abstract: The present disclosure relates to methods and devices to detect perforation of the bowel, for example, resulting from surgical procedures, such as laparoscopy, diagnostic procedures, such as colonoscopy, medical conditions, such as diverticulitis, and trauma. The present disclosure also relates to filtration systems and electrical connector assemblies for use in the methods and devices.

Abstract: The present disclosure relates to methods and devices to detect perforation of the bowel, for example, resulting from surgical procedures, such as laparoscopy, diagnostic procedures, such as colonoscopy, medical conditions, such as diverticulitis, and trauma. The present disclosure also relates to filtration systems and electrical connector assemblies for use in the methods and devices.

Abstract: The present disclosure relates to reticulated elastomeric matrices, and more particularly to at least partially degradable elastomeric elements that are compressible and exhibit resilience in their recovery and that can be employed in diverse applications including, without limitation, biological implantation, especially in humans.

Abstract: The present disclosure relates to reticulated elastomeric matrices, and more particularly to at least partially degradable elastomeric elements that are compressible and exhibit resilience in their recovery and that can be employed in diverse applications including, without limitation, biological implantation, especially in humans.

Abstract: The present disclosure relates to methods and devices to detect perforation of the bowel, for example, resulting from surgical procedures, such as laparoscopy, diagnostic procedures, such as colonoscopy, medical conditions, such as diverticulitis, and trauma. The present disclosure also relates to filtration systems and electrical connector assemblies for use in the methods and devices.

Abstract: A computational model of the internal human pelvic environment. The model comprises meshed finite element regions corresponding to internal tissues or organs selected from the group consisting of pelvic muscles, vagina, vaginal walls, intestinal tissues, bowel tissues, bladder, bladder walls, cervix, and combinations thereof.

Abstract: The present disclosure relates to reticulated elastomeric matrices, and more particularly to at least partially degradable elastomeric elements that are compressible and exhibit resilience in their recovery and that can be employed in diverse applications including, without limitation, biological implantation, especially in humans.

Abstract: A computational model of the internal human pelvic environment. The model comprises meshed finite element regions corresponding to internal tissues or organs selected from the group consisting of pelvic muscles, vagina, vaginal walls, intestinal tissues, bowel tissues, bladder, bladder walls, cervix, and combinations thereof.

Abstract: A computational model of the internal human pelvic environment. The model comprises meshed finite element regions corresponding to internal tissues or organs selected from the group consisting of pelvic muscles, vagina, vaginal walls, intestinal tissues, bowel tissues, bladder, bladder walls, cervix, and combinations thereof.

Abstract: The present disclosure relates to reticulated elastomeric matrices, and more particularly to at least partially degradable elastomeric elements that are compressible and exhibit resilience in their recovery and that can be employed in diverse applications including, without limitation, biological implantation, especially in humans.

Abstract: A computational model of the internal human pelvic environment. The model comprises meshed finite element regions corresponding to internal tissues or organs selected from the group consisting of pelvic muscles, vagina, vaginal walls, intestinal tissues, bowel tissues, bladder, bladder walls, cervix, and combinations thereof.

Abstract: A device and method for determining location dependent biomechanical properties of internal tissues is disclosed. The device comprises an expandable probe which is insertable into an orifice of a body and into a body; a flexible conduit to conduct fluid between a fluid supply and said expandable probe; means for conducting fluid between said fluid supply and said expandable probe, said means capable of changing the volume of said expandable probe; a pressure transducer for measuring fluid pressure of said expandable probe; imaging means for detecting strain of internal tissues contacted by said expandable probe; and calculating means for determining biomechanical properties of said internal tissues.

Abstract: A computational model of the human vaginal environment is disclosed. The model comprises finite element analysis software, segmented tissue regions, at least one defined material parameter for each of said segmented tissue regions, and at least one boundary condition for each of said segmented tissue regions. At least one of the boundary conditions is subject to physiological condition changes and the model comprises computing means for manipulating the material parameters and the boundary conditions with the finite element analysis software.

Abstract: A container is formed of a shell having a top section, a bottom section and a central section connecting the top section and the bottom section. At least a majority region of the central section is provided with a plurality of structural ribs about its periphery. The ribs are discontinuous in a circumferential direction extending around the central section. This construction enables the container to withstand deformation due to internal or external pressures.

Abstract: A container is formed of a shell having a top section, a bottom section and a central section connecting the top section and the bottom section. At least a majority region of the central section is provided with a plurality of structural ribs about its periphery. The ribs are discontinuous in a circumferential direction extending around the central section and have specific structures in their shape, their orientation with respect to each other and their longitudinal alignment to enable the container to withstand deformation due to internal or external pressures. Each rib has longitudinal angle of orientation is less than 90° relative to the vertical axis of the container.

Abstract: A container is formed of a shell having a top section, a bottom section and a central section connecting the top section and the bottom section. At least a majority region of the central section is provided with a plurality of structural ribs about its periphery. The ribs are discontinuous in a circumferential direction extending around the central section. This construction enables the container to withstand deformation due to internal or external pressures.