Abstract: Aspects according to the present invention provide a method and implant suitable for implantation inside a human body that includes a power consuming means responsive to a physiological requirement of the human body, a power source and a power storage device. The power source comprises a sheathed piezoelectric assembly that is configured to generate an electrical current when flexed by the tissue of the body and communicate the generated current to the power storage device, which is electrically coupled to the power source and to the power consuming means.

Abstract: A catheter imaging probe for a patient. The probe includes a conduit through which energy is transmitted. The probe includes a first portion through which the conduit extends. The probe includes a second portion which rotates relative to the conduit to redirect the energy from the conduit. A method for imaging a patient. The method includes the steps of inserting a catheter into the patient. There is the step of rotating a second portion of the catheter relative to a conduit extending through a first portion of the catheter, which redirects the energy transmitted through the conduit to the patient and receives the energy reflected back to the second portion from the patient and redirects the reflected energy to the conduit.

Abstract: An apparatus for determining heart transplant rejection of a heart in a patient includes at least two electrodes adapted to be sewn into the heart that span the left ventricle. The apparatus includes a voltage generator adapted to be inserted in the patient which generates a voltage to the two electrodes and senses the resulting voltage from the two electrodes. A method for determining heart transplant rejection of a heart in a patient. A pacemaker for a patient (including bi-ventricular pacing and AICDs). The pacemaker includes an RV lead having four electrodes adapted to be inserted into the RV apex. The pacemaker includes a voltage generator which generates a voltage signal to the electrodes and senses the instantaneous voltage along the length of the RV and determines the real and imaginary components to remove the myocardial components of the septum and RV free wall to determine absolute RV blood volume. The pacemaker includes a battery connected to the voltage generator.

Abstract: Provided herein are systems, methods and compositions for the use of ultrasound for detection of cells and nanoparticles.

Abstract: An apparatus for determining cardiac performance in the patient involving a conductance catheter (12) for measuring conductance and blood volume in a heart chamber of the patient. The apparatus includes a processor (14) for determining instantaneous volume of the ventricle by applying a non-linear relationship between the measured conductance and the volume of blood in the heart chamber to identify mechanical strength of the chamber. The processor (14) is in communication with the conductance catheter (12).

Abstract: A novel contrast mechanism for diagnosing diseased tissue using Ultrasound, Doppler Ultrasonography, Optical Coherence Tomography, or optical Doppler tomography coupled with an externally applied temporally oscillating high-strength magnetic field.

Abstract: A stent for use in animals including humans is disclosed which includes unprotected and protected regions, each protected regions including a bioactive or biopenetrating agent containing therein where the protected regions are protected by the unprotected regions when the stent is in its undeployed state which has a smaller cross-sectional dimension than the stent in its deployed state. And when the stent is in its deployed state the bioactive or biopenetrating agent(s) are brought into direct and intimate contact with a tissue or interior of a blood vessel of an animal including a human.

Abstract: An apparatus and method for determining cardiac performance in a patient. The apparatus includes a multifrequency conductance catheter for measuring instantaneous volume of a heart chamber with multifrequencies. The apparatus includes a mechanism for measuring instantaneous pressure of the heart chamber. The apparatus includes a mechanism for separating the multifrequencies. The apparatus includes a mechanism for signal processing the instantaneous volume and the pressure of the heart chamber to identify mechanical strength of the chamber and for automatically producing a plurality of desired waveforms at desired frequencies for the conductance catheter. The processing mechanism is connected to the pressure measuring mechanism, the separating mechanism and the volume measuring mechanism.

Abstract: An apparatus for treating a patient. The apparatus includes a deployment mechanism having a surface. The apparatus also includes at least one probe disposed on the deployment mechanism surface. The probe extends between 25 microns and 1000 microns from the surface of the deployment mechanism. The apparatus also includes material coated on the probe. A method for treating a patient. The method includes the steps of placing a material with a probe which extends less than 1000 microns from a surface of a deployment mechanism. Next, there is the step of inserting the probe into preferably a blood vessel of a patient. Then, there is the step of penetrating the interior wall of the vessel from the interior of the vessel with the probe by activating the deployment mechanism so the material can contact the vessel.

Abstract: An apparatus for treating a patient. The apparatus includes a deployment mechanism having a surface. The apparatus also includes at least one probe disposed on the deployment mechanism surface. The probe extends between 25 microns and 1000 microns from the surface of the deployment mechanism. The apparatus also includes material coated on the probe. A method for treating a patient. The method includes the steps of placing a material with a probe which extends less than 1000 microns from a surface of a deployment mechanism. Next, there is the step of inserting the probe into preferably a blood vessel of a patient. Then, there is the step of penetrating the interior wall of the vessel from the interior of the vessel with the probe by activating the deployment mechanism so the material can contact the vessel.

Abstract: The present invention pertains to an apparatus for determining cardiac performance in a patient. The apparatus comprises a conductance catheter which can be excited with multiple frequencies for measuring instantaneous volume of a heart chamber. The apparatus comprises a mechanism for measuring instantaneous pressure of the heart chamber. The apparatus comprises a mechanism for processing the instantaneous volume and the pressure of the heart chamber to identify mechanical strength of the chamber and for automatically producing a plurality of desired waveforms at desired frequencies for the conductance catheter. The processing mechanism is connected to the pressure measuring mechanism and the volume measuring mechanism. The present invention pertains to a method for determining cardiac performance in a patient. The method comprises the steps of applying automatically multifrequencies to a conductance catheter. Then there is the step of measuring the instantaneous volume of a heart chamber of the patient.

Abstract: A metabolic catheter and method which allows the simultaneous removal of body fluids from organs and immediate addition of stop solution to the body fluid at the catheter tip to prevent degradation of the metabolite to be measured.