An implantable tissue marker device is provided to be placed in a soft tissue site through a surgical incision. The device can include a bioabsorbable body in the form of a spiral and defining a spheroid shape for the device, the spiral having a longitudinal axis, and turns of the spiral being spaced apart from each other in a direction along the longitudinal axis. A plurality of markers can be disposed on the body, the markers being visualizable by a radiographic imaging device. The turns of the spiral are sufficiently spaced apart to form gaps that allow soft tissue to infiltrate between the turns and to allow flexibility in the device along the longitudinal axis in the manner of a spring.

The present disclosure provides alert implants that comprise a medical device and an implantable reporting processor (IRP), where one example of such a medical device includes a component for a total knee arthroplasty (TKA) such as a tibial extension, a femoral component for hip replacements, a breast implant, a distal rod for arm or leg breakage repair, a scoliosis rod, a dynamic hip screw, a spinal interbody spacer, and tooling and methods that may be used to form the alert implant, and uses of such alert implants in the health maintenance of patients who receive the implant.

The present disclosure provides alert implants that comprise a medical device and an implantable reporting processor (IRP), where one example of such a medical device includes a component for a total knee arthroplasty (TKA) such as a tibial extension, a femoral component for hip replacements, a breast implant, a distal rod for arm or leg breakage repair, a scoliosis rod, a dynamic hip screw, a spinal interbody spacer, and tooling and methods that may be used to form the alert implant, and uses of such alert implants in the health maintenance of patients who receive the implant.

A medical support device (1), for use in a woman's breast as an implant without incapsulated material, wherein the medical support device (1) comprises at least a wall shaped portion (2) having a first side (3), which shows a bulge out of a plane (4), and a second side (5) of the wall shaped portion (2) has a corresponding cavity, for example a dome shape, wherein the medical support device (1) comprises an elastomer. The device will keep endogenous tissue and/or fat and/or added material, such as hyaluronic acid, in place inside of deep gland tissue of a woman's breast by means of being attached to tissue, such as muscle. A method of producing and to use such a medical support device (1).

A medical support device (1), for use in a woman's breast as an implant without incapsulated material, wherein the medical support device (1) comprises at least a wall shaped portion (2) having a first side (3), which shows a bulge out of a plane (4), and a second side (5) of the wall shaped portion (2) has a corresponding cavity, for example a dome shape, wherein the medical support device (1) comprises an elastomer. The device will keep endogenous tissue and/or fat and/or added material, such as hyaluronic acid, in place inside of deep gland tissue of a woman's breast by means of being attached to tissue, such as muscle. A method of producing and to use such a medical support device (1).

The invention relates to a mesh support device (10) for supporting abreast implant (40), wherein the mesh support device (10) comprises a first panel (11) and a second panel (12), of which at least the second panel (12) is a mesh panel (12), which consists of a large number of individual meshes, and wherein the mesh support device (10) further comprises a first arm (31), which has a length Li and is arranged at a first side of the first panel (11), and a second arm (32), which has a length L2 and is arranged at a second side of the first panel (11), the second side being opposite to the first side, wherein each of the first and second arms (31, 32) is configured to be threaded through anyone of said large number of individual meshes and the lengths L.sub.1 and L.sub.2 are chosen such that 30 mm <L.sub.1 <210 mm and 30 mm <L.sub.2 <210 mm. The invention also relates to a method for fixating the breast implant (40) in the support device (10).

The invention relates to a mesh support device (10) for supporting abreast implant (40), wherein the mesh support device (10) comprises a first panel (11) and a second panel (12), of which at least the second panel (12) is a mesh panel (12), which consists of a large number of individual meshes, and wherein the mesh support device (10) further comprises a first arm (31), which has a length Li and is arranged at a first side of the first panel (11), and a second arm (32), which has a length L2 and is arranged at a second side of the first panel (11), the second side being opposite to the first side, wherein each of the first and second arms (31, 32) is configured to be threaded through anyone of said large number of individual meshes and the lengths L.sub.1 and L.sub.2 are chosen such that 30 mm <L.sub.1 <210 mm and 30 mm <L.sub.2 <210 mm. The invention also relates to a method for fixating the breast implant (40) in the support device (10).

Medical implants including sensors are described. The implant may have a flexible shell with a base, wherein the plurality of sensors may be incorporated onto and/or into the shell. The plurality of sensors may be distributed at different locations of the shell. Each sensor of the plurality of sensors may be configured to measure one or more parameters such as, e.g., temperature and/or pressure, and may comprise an electromagnetic coil useful for wireless transmission of data. Each sensor may be configured to transmit data at a frequency different from the frequency of one or more of the other sensors, may be configured to transmit data at a time different from a time data is transmitted by one or more of the other sensors, and/or may include a device identifier different from the device identifier of one or more of the other sensors.

Medical implants including sensors are described. The implant may have a flexible shell with a base, wherein the plurality of sensors may be incorporated onto and/or into the shell. The plurality of sensors may be distributed at different locations of the shell. Each sensor of the plurality of sensors may be configured to measure one or more parameters such as, e.g., temperature and/or pressure, and may comprise an electromagnetic coil useful for wireless transmission of data. Each sensor may be configured to transmit data at a frequency different from the frequency of one or more of the other sensors, may be configured to transmit data at a time different from a time data is transmitted by one or more of the other sensors, and/or may include a device identifier different from the device identifier of one or more of the other sensors.

An implantable soft tissue prosthesis device comprising a silicone elastomer-shell filled with silicone gel or liquid, which among the layers that constitute its shell includes a barrier layer formed of a low permeability silicone, which impedes the bleeding or diffusion of the silicone gel from the inside of the implant to its surroundings through the shell. This barrier layer is given a coloration different to the other layers of the shell, making it visible in the finished product. The coloration of the barrier layer gives the fabricator of the implant as well as to medical personnel, the possibility to identify the presence of the barrier layer and its homogeneity, improving the safety of the device.