Method and apparatus for monitoring an organ of a patient

The invention claimed is: 1. An implanted device for an organ of a patient comprising: a housing; a detector having electrodes that have a varying distance over time between them which produces a detector signal based on electrical signals derived from the organ; a signal processor disposed in the housing in communication with the detector which determines admittance from the detector signal based on the varying distance over time between the electrodes; and a drive circuit disposed in the housing to cause the electrodes to generate emitted electrical signals, the detector that generates the detector signal based on electrical signals derived from tissue and fluid from the organ; and the signal processor in communication with the detector which subtracts in real time a tissue component from the detector signal and produces a fluid volume signal, the electrodes produce a combined signal that has a tissue component and a fluid component. 2. The implanted device as described in claim 1 wherein the fluid is blood, the tissue is myocardium and the processor determines LV, RV, LA, or RV length, area, and/or volume of the heart in 1, 2 or 3 dimensions. 3. The implanted device as described in claim 2 wherein the myocardial component Rm is determined by R m = - Im ⁢ { Z _ } × ( 1 + ( ωɛ m σ m ) 2 ) ωɛ m σ m , where Z is the complex impedance; ω=2πf where f is the frequency; ∈ m is permittivity of muscle; and σ m is the conductivity of muscle. 4. The implanted device as described in claim 3 wherein the fluid is blood and blood component Rb is determined by R b = Re ⁢ { Z _ } - R m 1 + ( ω ⁢ ⁢ R m ⁢ C m ) 2 , where Z is the complex impedance; ω=2πf where f is the frequency; R m is the resistance of muscle, and C m is the capacitance of muscle. 5. The implanted device as described in claim 4 wherein the signal processor subtracts in real time the myocardial component from the detector signal and produces the left and right ventricle, and left and right atrial blood volume signal. 6. An implanted device for an organ of a patient comprising: a housing; a detector having electrodes that have a varying distance over time between them which produces a detector signal based on electrical signals derived from the organ; a signal processor disposed in the housing in communication with the detector which determines admittance from the detector signal based on the varying distance over time between the electrodes; and a drive circuit disposed in the housing to cause the electrodes to generate emitted electrical signals, the detector that generates the detector signal based on electrical signals derived from tissue and fluid from the organ, the signal processor in communication with the detector which subtracts in real time a tissue component from the detector signal and produces a fluid volume signal, the electrodes produce a combined signal that has a tissue component and a fluid component, the fluid is blood, the tissue is myocardium and the processor determines LV, RV, LA, or RV length, area, and/or volume of the heart in 1, 2 or 3 dimensions, the myocardial component Rm is determined by R m = - Im ⁢ { Z _ } × ( 1 + ( ωɛ m σ m ) 2 ) ωɛ m σ m , where Z is the co