Abstract: Blood pressure measurement devices comprising a transducer may have error introduced when the transducer is placed in mechanical communication with a vein or artery. This error may be based on alignment, applanation, calibration, and the contact based stress required to obtain a signal from pressure in a vein or artery. The present invention teaches isolating and removing this error from the blood pressure system which may increase the accuracy of the measurement. Calibration is also provided.

Abstract: A non-invasive pressure measurement device measures pressure of fluid in a conduit via a piezoelectric transducer positioned proximate to the conduit having a fluid passing therethrough. The piezoelectric transducer is in communication with the conduit via a plate member having a protrusion extending outward from one side of the member. In one application, the device continuously measures blood pressure without the need for an inflatable cuff. Also, the device can detect and measure heart beat pulses from the fluid and utilize heart beat pulse information to provide further characteristics pertaining to the fluid in the conduit.

Abstract: Disclosed herein are bio-nanosensor devices and methods suitable for blood assays. The bio-nanosensors are based on thickness shear mode transducer capable of transmitting a shear wave into a biofluid adjacent to a bio-functionalized sensing interface of a piezoelectric crystal. The bio-functionalized sensing interface includes one or more antibodies and/or biomarker-specific ligands capable of sensing HIV. The disclosed bio-nanosensors are capable of defecting the presence of HIV virus at picogram sensitivities using no more than 10 ?l of blood in less than 15 minutes.

Abstract: A sensor is disclosed for analyzing information, such as interfacial interactions, found in various systems. A sensor is located proximate to an interface that is to be studied. The sensor is actuated in order to produce acoustical signals. The frequency of oscillation of the sensor is varied in order to enable the sensor to produce acoustical signals at different harmonics. The different acoustical signals are used to analyze the system at various distances from the surface of the sensor.

Abstract: An acoustic blood analyzer with a transducer section of acoustic biosensors for measurement of blood properties including, but not limited to blood coagulation, platelet function and various blood disorders in a blood sample is provided. Methods for use of the blood analyzer in measurement of blood properties are also provided.

Abstract: A sensor is disclosed for analyzing information, such as interfacial interactions, found in various systems. A sensor is located proximate to an interface that is to be studied. The sensor is actuated in order to produce acoustical signals. The frequency of oscillation of the sensor is varied in order to enable the sensor to produce acoustical signals at different harmonics. The different acoustical signals are used to analyze the system at various distances from the surface of the sensor.

Abstract: A piezoelectric sensor and assembly for measuring chemical, biochemical and physical measurands is disclosed. The piezoelectric sensor comprises a piezoelectric material, preferably a crystal, a common metal layer attached to the top surface of the piezoelectric crystal, and a pair of independent resonators placed in close proximity on the piezoelectric crystal such that an efficacious portion of acoustic energy couples between the resonators. The first independent resonator serves as an input port through which an input signal is converted into mechanical energy within the sensor and the second independent resonator serves an output port through which a filtered replica of the input signal is detected as an electrical signal. Both a time delay and an attenuation at a given frequency between the input signal and the filtered replica may be measured as a sensor output.

Abstract: A system and method for homogeneous bioassay uses acoustic energy emissions. A measurement cell is designed for binding reactions of mobile biorecognition molecules. The binding reaction contained in the measurement cell is for example a ligand/receptor binding reaction or a complementary nucleic acid binding reaction. A passive acoustic energy transducer is coupled to the measurement cell for detecting acoustic energy generated by the binding reaction of mobile biorecognition molecules. The passive acoustic energy transducer generates a corresponding analog electrical signal. A signal conditioner coupled to the passive acoustic energy transducer filters and amplifies the electrical signal. A signal analyzer determines spectra of the conditioned electrical signal corresponding to characteristic acoustic energy emissions of the binding reaction of mobile biorecognition molecules.