Three groups of biocompatible implants were created, to leverage physiological impairment caused by (i) cardiovascular, (ii) renal, and (iii) neuronal diseases. Each group of implants is subdivided into three categories according to extra functionality added plus integrated additions. The first generation contains basic functionality and the second and third generations contain extra functions. Finally, further additions can be combined and integrated. Therefore, the first group comprises of the “First Generation of Cardiovascular Implants” plus the “Second Generation of Cardiovascular Implants” plus the “Third Generation of Cardiovascular Implants” plus additional integrations named “Additions”. Equally, the second group comprises of the “First”, the “Second” and the “Third” Generation of Renal Prosthetics plus Additions. The same categorisation applies to Neural Implants, which are three generations plus additions. This can be found in the description of claims presented in the Austrian Prio (provisional patent application) number A 60273/2019, from 11 Dec. 2019.

Three groups of biocompatible implants were created, to leverage physiological impairment caused by (i) cardiovascular, (ii) renal, and (iii) neuronal diseases. Each group of implants is subdivided into three categories according to extra functionality added plus integrated additions. The first generation contains basic functionality and the second and third generations contain extra functions. Finally, further additions can be combined and integrated. Therefore, the first group comprises of the “First Generation of Cardiovascular Implants” plus the “Second Generation of Cardiovascular Implants” plus the “Third Generation of Cardiovascular Implants” plus additional integrations named “Additions”. Equally, the second group comprises of the “First”, the “Second” and the “Third” Generation of Renal Prosthetics plus Additions. The same categorisation applies to Neural Implants, which are three generations plus additions. This can be found in the description of claims presented in the Austrian Prio (provisional patent application) number A 60273/2019, from 11 Dec. 2019.

A device, a kit and a method is presented for permanently augmenting the pump function of the left heart. The mitral valve plane is assisted in a movement along the left ventricular long axis during each heart cycle. The very close relationship between the coronary sinus and the mitral valve is used by various embodiments of a medical device providing this assisted movement. By means of catheter technique an implant is inserted into the coronary sinus, the device is augmenting the up and down movement of the mitral valve and thereby increasing the left ventricular diastolic filling when moving upwards and the piston effect of the closed mitral valve when moving downwards.

An implantable medical device for transcatheter delivery, which includes an anchor unit (100) configured to be anchored at an annulus of a cardiac valve of a patient, at least one coupling unit (200) that extends along a first length radially from said anchor unit (100) towards a coaptation line of said valve and including an extension unit (400) extending along a second length. The extension unit (400) is configured to cross between the leaflets of the cardiac valve in order to fill out for an insufficient closing of the valve leaflets of said cardiac valve.

An implantable medical device for transcatheter delivery, which includes an anchor unit (100) configured to be anchored at an annulus of a cardiac valve of a patient, at least one coupling unit (200) that extends along a first length radially from said anchor unit (100) towards a coaptation line of said valve and including an extension unit (400) extending along a second length. The extension unit (400) is configured to cross between the leaflets of the cardiac valve in order to fill out for an insufficient closing of the valve leaflets of said cardiac valve.

Vacuum dressings with a guide tube are provided for implantable medical devices that inhibit infection associated with in-dwelling devices while encouraging healing of the incision around the device. The vacuum dressings mitigate pooling of fluids that harbor bacteria from between the outer diameter of an inserted implantable medical device and the inner diameter of a guide tube and also in the cylindrical gap, between the outer diameter of an inserted implantable medical device and the inner wall of the subcutaneous tunnel, which remains in fluid communication with skin microflora. Implantable medical devices may also illustratively include a variety of catheters, such as venous access, peritoneal dialysis, and other indwelling venous access catheters that require skin penetration; cannulas; Steinman pins; Kirschner wires; and cardiac assist device lines.

The present invention provides methods, systems, kits, and cardiac compression devices that have both passive chambers and active chambers to improve heart function.

Embodiments of the present invention include a portable medical device with an integrated web server. The portable medical device is configured to establish a communication session with a user device. The integrated web server is configured to load software onto the user computing device for exchanging data with the portable medical device.

The present invention provides methods, systems, kits, and cardiac compression devices that have both passive chambers and active chambers to improve heart function.

The present invention provides methods, systems, kits, and cardiac compression devices that have both passive chambers and active chambers to improve heart function.