Active medical implant having a hermetically sealed capsule and method for making same
First Claim
1. In an active medical implant having a battery and an electronics unit, the improvement comprising:
- a hermetically sealed capsule comprising a first part having a receptacle therein and comprising, at least in part, a multi-layer material having a first layer consisting of a biocompatible material and a second layer consisting of a substantially diffusion-proof and substantially corrosion-resistant metal, said first layer and said second layer being joined together with said layer of biocompatible material comprising an exterior wall of said first part;
a second part, closing an upper opening in said first part, and comprised of at least said biocompatible material;
a partition wall disposed in said receptacle in said first part and having a surface facing away from said upper opening, said partition wall comprising a substantially diffusion-proof, corrosion-resistant metal at least at said surface and forming a first closed space in said first part in which said battery is disposed with said partition wall and a portion of said first part constituting a casing for said battery completely surrounding said battery with substantially diffusion-proof, corrosion-resistant metal, said casing being an integral part of said first part; and
said partition wall and said second part forming a second closed space in said first part in which said electronics unit is disposed.
1 Assignment
0 Petitions
Accused Products
Abstract
An active medical implant has a hermetically sealable capsule formed by a first part and a second closing part, the capsule being devised to hold a battery unit, an electronics unit, conductors for electrically connecting the battery to the electronics unit, and contacts arranged on the exterior of the capsule for connection to electrodes. The first part is made, at least in part, of a rolled, multi-layer composite sheet or plate, one layer of which is made of a biocompatible material and a second layer of which is made of a diffusion-proof material which is essentially resistant to corrosive chemicals. The two layers are joined by rolling, with the layer made of biocompatible material constituting the outer wall of the capsule. The closing part contains a layer of the biocompatible material serving as the capsule'"'"'s outer wall and a partition wall made of diffusion-proof material which is essentially resistant to corrosive chemicals, is arranged to form a first essentially closed space for the power source in the first part. A second space for the electronics unit is formed between the wall closing the capsule and the partition wall.
98 Citations
24 Claims
-
1. In an active medical implant having a battery and an electronics unit, the improvement comprising:
-
a hermetically sealed capsule comprising a first part having a receptacle therein and comprising, at least in part, a multi-layer material having a first layer consisting of a biocompatible material and a second layer consisting of a substantially diffusion-proof and substantially corrosion-resistant metal, said first layer and said second layer being joined together with said layer of biocompatible material comprising an exterior wall of said first part; a second part, closing an upper opening in said first part, and comprised of at least said biocompatible material; a partition wall disposed in said receptacle in said first part and having a surface facing away from said upper opening, said partition wall comprising a substantially diffusion-proof, corrosion-resistant metal at least at said surface and forming a first closed space in said first part in which said battery is disposed with said partition wall and a portion of said first part constituting a casing for said battery completely surrounding said battery with substantially diffusion-proof, corrosion-resistant metal, said casing being an integral part of said first part; and said partition wall and said second part forming a second closed space in said first part in which said electronics unit is disposed. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
-
-
9. A battery unit for a medical implant comprising:
-
a first part comprising at least in part a multi-layer material having a first layer consisting of a biocompatible material and a second layer consisting of a substantially diffusion-proof and corrosion-resistant metal, said first and second layers being joined together with said first layer forming an exterior wall of said first part, said first part forming a receptacle; a battery disposed in said receptacle; and a cover hermetically closing said receptacle and comprising at least one layer of a substantially diffusion-proof and corrosion-resistant metal and forming a closed space, with said first part, in which said battery unit is disposed and constituting a battery casing completely surrounding said battery with substantially diffusion-proof, corrosion-resistant metal. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
-
-
17. A method for manufacturing a casing for an active medical implant comprising:
-
selecting a first sheet layer of a biocompatible material; selecting a second sheet layer of a substantially diffusion-proof, corrosion-resistant material; rolling said first and second sheet layers together to form a composite, multi-layer sheet; forming said composite, multi-layer sheet into a bowl-shaped receptacle; placing a battery in said receptacle, said battery having first and second poles; and hermetically sealing said receptacle with a second part and disposing at least one insulated feedthrough in said second part connected to one of said poles of said battery.
-
-
18. In an active medical implant having a battery and an electronics unit, the improvement comprising:
-
of a hermetically sealed capsule comprising a first part having a receptacle therein and comprising, at least in part, a multi-layer material having a first layer consisting of a biocompatible material and a second layer consisting of a substantially diffusion-proof and substantially corrosion-resistant material, said first layer and said second layer being joined together with said layer of biocompatible material comprising an exterior wall of said first part; a second part, closing an upper opening in said first part, and comprised of at least said biocompatible material; a partition wall disposed in said receptacle in said first part, said partition wall comprising a substantially diffusion-proof, corrosion-resistant material and forming a first closed space in said first part in which said battery is disposed with said partition wall and a portion of said first part constituting a casing for said battery, said casing being an integral part of said first part; said partition wall and said second part forming a second closed space in said first part in which said electronics unit is disposed; said battery having first and second poles and said battery being in direct contact with said second layer of said first part, with said second layer comprising a first of the poles of said battery and being connected to said electronics unit; and a feed-through extending through said partition wall for connecting a second of the poles of the battery to said electronics unit.
-
-
19. A battery unit for a medical implant comprising:
-
a first part comprising at least in part a multi-layer material having a first layer consisting of a biocompatible material and a second layer consisting of a substantially diffusion-proof and corrosion-resistant material, said first and second layers being joined together with said first layer forming an exterior wall of said first part, said first part forming a receptacle; a battery disposed in said receptacle; a cover hermetically closing said receptacle and comprising at least one layer of a substantially diffusion-proof and corrosion-resistant material and forming a closed space, with said first part, in which said battery unit is disposed and constituting a battery casing; said battery having first and second poles and said second layer comprising one of said poles of said battery; and an insulated feed-through disposed in said cover connected to a second of said poles of said battery.
-
-
20. A method for manufacturing a casing for an active medical implant comprising:
-
selecting a first sheet layer of a biocompatible material; selecting a second sheet layer of a substantially diffusion-proof, corrosion-resistant metal; rolling said first and second sheet layers together to form a composite, multi-layer sheet; forming said composite, multi-layer sheet in a bowl-shaped receptacle having an interior with said second sheet layer facing said interior; placing a battery in said receptacle; providing a second part having at least a surface comprised of a substantially diffusion-proof, corrosion-resistant metal; and hermetically sealing said receptacle with said battery therein with said cover with said surface of said cover facing said interior of said receptacle and thereby completely surrounding said battery in said receptacle with substantially diffusion-proof, corrosion-resistant metal. - View Dependent Claims (21, 22, 23, 24)
-
Specification