An inflatable bladder of a penile prosthesis has a multi-layered wall structure with a wall spacing between walls to allow an interior distal wall end to move independently of an exterior distal wall end.

An anatomical teaching model includes a replica of male anatomy having a replicated penis integrated with a replicated scrotum. A first cavity is formed in the replicated penis, where the first cavity is adapted to receive an inflatable body of a penile prosthesis. A second cavity is formed in the replicated scrotum, where the second cavity is adapted to receive a pump of a pump of the penile prosthesis. An access port is formed in a distal surface of the replica of male anatomy for access to the first cavity.

An anatomical teaching model includes a replica of male anatomy having a replicated penis integrated with a replicated scrotum. A first cavity is formed in the replicated penis, where the first cavity is adapted to receive an inflatable body of a penile prosthesis. A second cavity is formed in the replicated scrotum, where the second cavity is adapted to receive a pump of a pump of the penile prosthesis. An access port is formed in a distal surface of the replica of male anatomy for access to the first cavity.

A wirelessly powered inflatable medical implant system includes a medical provider software application, a patient external controller and a MR-Conditional, nonferrous pump in reservoir implant. The medical provider software application programs the patient external controller for the patient to transmit wireless power and control signals to circuitry in a pump in reservoir implant. In response, the pump in reservoir implant, containing a fluid reservoir and pump package submerged therein, transfers fluid from the reservoir through tubing, and into one or more inflatable medical implants. Submerging the pump package within the reservoir simplifies surgery in males and pump placement in females and provides pump package heatsinking to limit implant overheating.

A wirelessly powered inflatable medical implant system includes a medical provider software application, a patient external controller and a MR-Conditional, nonferrous pump in reservoir implant. The medical provider software application programs the patient external controller for the patient to transmit wireless power and control signals to circuitry in a pump in reservoir implant. In response, the pump in reservoir implant, containing a fluid reservoir and pump package submerged therein, transfers fluid from the reservoir through tubing, and into one or more inflatable medical implants. Submerging the pump package within the reservoir simplifies surgery in males and pump placement in females and provides pump package heatsinking to limit implant overheating.

Disclosed is a graft for implant after excision of the IPP (induratio penis plastica) plaque due to Peyronie's disease. The graft is formed by a loom woven fabric, with low porosity, deriving from a monofilament or multifilament yarn of fibres of resorbable polymer in PGA (polyglycolide).

Disclosed is a graft for implant after excision of the IPP (induratio penis plastica) plaque due to Peyronie's disease. The graft is formed by a loom woven fabric, with low porosity, deriving from a monofilament or multifilament yarn of fibres of resorbable polymer in PGA (polyglycolide).

A penile prosthesis includes a penile prosthetic; a pump; a reservoir; first tubing adapted to couple the penile prosthetic to the pump; second tubing adapted to couple the reservoir to the pump; and a plate adapted to couple with the penile prosthetic. The plate is implantable and adapted to orient the penile prosthetic in an anatomically natal penis position that is adapted for penetrative intercourse.

A penile prosthesis includes a penile prosthetic; a pump; a reservoir; first tubing adapted to couple the penile prosthetic to the pump; second tubing adapted to couple the reservoir to the pump; and a plate adapted to couple with the penile prosthetic. The plate is implantable and adapted to orient the penile prosthetic in an anatomically natal penis position that is adapted for penetrative intercourse.

According to an aspect, an inflatable penile prosthesis includes a fluid reservoir configured to hold fluid, an inflatable member, and a pump assembly configured to transfer the fluid between the fluid reservoir and the inflatable member. The pump assembly includes a valve body, a pump bulb, and a deflation mode actuator. The valve body includes a bi-directional valve configured to move from an inflation position to a deflation position in response to an activation of the deflation mode actuator. The bi-directional valve in the inflation position is configured to open a fluid passageway in the valve body to transfer fluid from the pump bulb to the inflatable member. The bi-directional valve in the deflation position is configured to open a fluid passageway in the valve body to transfer fluid from the inflatable member to the fluid reservoir that bypasses the pump bulb.