Abstract: Apparatus and methods for vibro-acoustic detection of cardiac conditions are disclosed. An example method includes calculating a frequency difference between a first frequency of a first cardiac signal and a second frequency of a second cardiac signal; calculating an amplitude difference between the first cardiac signal and the second cardiac signal; calculating a root-mean-square value based on a difference between the first cardiac signal and the second cardiac signal; calculating a value based on the frequency difference, the amplitude difference, and the root-mean-square value; and detecting a cardiac condition based on the value.

Abstract: A system and method for use in detecting an endotracheal tube location within a body electronically detects indigenous breath sounds emanating from a region of the body and processes the detected indigenous breath sounds to generate a parameter representative of an acoustic characteristic of the body associated with the endotracheal tube location within the body. The system and method generates an output indicative of the endotracheal tube location within the body based on the parameter representative of the acoustic characteristic of the body.

Abstract: Apparatus and methods for vibro-acoustic detection of cardiac conditions are disclosed. An example method includes calculating a frequency difference between a first frequency of a first cardiac signal and a second frequency of a second cardiac signal; calculating an amplitude difference between the first cardiac signal and the second cardiac signal; calculating a root-mean-square value based on a difference between the first cardiac signal and the second cardiac signal; calculating a value based on the frequency difference, the amplitude difference, and the root-mean-square value; and detecting a cardiac condition based on the value.

Abstract: Apparatus and methods that use the acoustic characteristics of vascular blood flow to assess vascular conditions are disclosed. An example method for detecting a change in a vascular condition receives sound information associated with blood flowing through a vascular structure and converts the sound information into data associated with a plurality of cardiac cycles. The example method processes the data associated with the plurality of cardiac cycles to determine an acoustic characteristic associated with a current state of the vascular condition and detects the change in the vascular condition based on a difference between the acoustic characteristic associated with the current state of the vascular condition and a baseline acoustic characteristic associated with an earlier state of the vascular condition.

Abstract: A spirometer for measuring fluid flow, particularly associated with exhalation of respiratory patients. The spirometer of this invention preferably has a fluidic oscillator wherein the fluid oscillates within a chamber of the fluidic oscillator. An oscillation frequency of the fluid flow within the chamber is correlated to a flow rate. A computer is used to process input data, such as data representing frequency of the oscillatory flow within the chamber, to a flow rate passing through the spirometer. The spirometer of this invention may have no moving parts, which results in the need for only a design calibration and no periodic calibrations throughout use of the spirometer.

Abstract: A spirometer for measuring fluid flow, particularly associated with exhalation of respiratory patients. The spirometer of this invention preferably has a fluidic oscillator wherein the fluid oscillates within a chamber of the fluidic oscillator. An oscillation frequency of the fluid flow within the chamber is correlated to a flow rate. A computer is used to process input data, such as data representing frequency of the oscillatory flow within the chamber, to a flow rate passing through the spirometer. The spirometer of this invention may have no moving parts, which results in the need for only a design calibration and no periodic calibrations throughout use of the spirometer.

Abstract: A system and method for detecting a gastric motility dysfunction acquires acoustic event information associated with a body and compares the acquired acoustic event information to information associated with a healthy condition. The system and method then identifies the gastric motility dysfunction based on the comparison of the acquired acoustic event information to the information associated with the healthy condition.

Abstract: Apparatus and methods that use the acoustic characteristics of vascular blood flow to assess vascular conditions are disclosed. An example method for detecting a change in a vascular condition receives sound information associated with blood flowing through a vascular structure and converts the sound information into data associated with a plurality of cardiac cycles. The example method processes the data associated with the plurality of cardiac cycles to determine an acoustic characteristic associated with a current state of the vascular condition and detects the change in the vascular condition based on a difference between the acoustic characteristic associated with the current state of the vascular condition and a baseline acoustic characteristic associated with an earlier state of the vascular condition.

Abstract: Artificial iris and lens apparatus are disclosed. An example apparatus includes a lens-shaped body having first and second regions. The second region has a lower light transmission characteristic than the first region and at least a portion of the second region is configured to reduce a retinal distortion.

Abstract: A sensor for use with a biological entity includes a housing and an acoustic transducer disposed within the housing. The acoustic transducer is adapted to detect a biological sound impinging on a surface of the biological entity. The sensor may also include an electrode integral with the sensor. The electrode is adapted to detect an electric potential associated with the surface of the biological entity. A plurality of sensors can be held in a predetermined pattern on the surface of the biological entity using a flexible carrier that provides a plurality of sensor mounting locations.

Abstract: A spirometer for measuring fluid flow, particularly associated with exhalation of respiratory patients. The spirometer of this invention preferably has a fluidic oscillator wherein the fluid oscillates within a chamber of the fluidic oscillator. An oscillation frequency of the fluid flow within the chamber is correlated to a flow rate. A computer is used to process input data, such as data representing frequency of the oscillatory flow within the chamber, to a flow rate passing through the spirometer. The spirometer of this invention may have no moving parts, which results in the need for only a design calibration and no periodic calibrations throughout use of the spirometer.

Abstract: A system and method for use in detecting an endotracheal tube location within a body electronically detects indigenous breath sounds emanating from a region of the body and processes the detected indigenous breath sounds to generate a parameter representative of an acoustic characteristic of the body associated with the endotracheal tube location within the body. The system and method generates an output indicative of the endotracheal tube location within the body based on the parameter representative of the acoustic characteristic of the body.

Abstract: A system and method for detecting a gastric motility dysfunction acquires acoustic event information associated with a body and compares the acquired acoustic event information to information associated with a healthy condition. The system and method then identifies the gastric motility dysfunction based on the comparison of the acquired acoustic event information to the information associated with the healthy condition.