Bipolar electrode for medical applications
First Claim
1. A bipolar electrode system for medical applications comprising an implantable heart pacemaker with an insulated flexible conductor system having at least one active electrode, a passive electrode disposed along the conductor system at an interval from the active electrode, and means for providing selected double layer capacitance at a phase boundary between a surface layer of said passive electrode and surrounding body fluids without substantial impairment of the flexibility of said conductor system, said means including a carrier material and an active region connected therewith forming said passive electrode, at least said active region of said passive electrode forming said surface layer exposed to said body fluids and providing said double layer capacitance at the phase boundary with the body fluids in the range of from about 10 millifarads per centimeter squared to about 100 millifarads per centimeter squared as measured at one hertz and said surface layer having a length along said conductor system selected for maintaining flexibility of said conductor system.
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Abstract
In order to improve the mechanical properties in the area of the passive electrode given bipolar electrodes, the active region of the passive electrode exhibits a surface layer that has a high double layer capacitance at the phase boundary with the body fluids. The size of the passive electrode can be considerably reduced as a result. Particularly suitable as the surface layer is a porous layer consisting of a carbide, nitride or carbonitride of at least one of the metals titanium, vanadium, zirconium, niobium, molybdenum, hafnium, tantalum or tungsten. A layer of activated carbon with a surface having a porous microstructure or, in the simplest case, a roughened surface are also suitable.
90 Citations
11 Claims
- 1. A bipolar electrode system for medical applications comprising an implantable heart pacemaker with an insulated flexible conductor system having at least one active electrode, a passive electrode disposed along the conductor system at an interval from the active electrode, and means for providing selected double layer capacitance at a phase boundary between a surface layer of said passive electrode and surrounding body fluids without substantial impairment of the flexibility of said conductor system, said means including a carrier material and an active region connected therewith forming said passive electrode, at least said active region of said passive electrode forming said surface layer exposed to said body fluids and providing said double layer capacitance at the phase boundary with the body fluids in the range of from about 10 millifarads per centimeter squared to about 100 millifarads per centimeter squared as measured at one hertz and said surface layer having a length along said conductor system selected for maintaining flexibility of said conductor system.
Specification