| Patent application number | Description | Published |
|---|
| 20080221408 | System and methods for optical sensing and drug delivery using microneedles - The current techniques provide a system for monitoring a physiological parameter of a patient using microneedles that are coupled to an optical system, allowing spectroscopic measurements to be made immediately below the outer layer of the epidermis. In embodiments of the present invention, the results of the spectroscopic measurements are used to control the administration of a drug through an intravenous tube. In other embodiments, the microneedles may be coated with a drug for administration to the patient. In other embodiments, the microneedles may be mounted in a probe, wherein an actuator is used to move the needles into contact with the skin, and a drug delivery system is used to infuse the drug into the patient. A method for making needles is also provided. | 09-11-2008 |
| 20080221409 | System and method for controlling tissue treatment - Embodiments of the present invention relate to a system and method for controlling a tissue treatment device using results from a spectroscopic tissue analyzer. One embodiment provides a system that uses a direct signal from a spectroscopic tissue analyzer to control the tissue treatment device. Alternatively, the system may provide an audible feedback signal to a user, allowing the user to choose how to adjust the tissue treatment device. A final embodiment provides a probe that has active sites for treating tissue, and an optical system to convey light to the active sites, allowing an analysis of the tissue parameter at the active sites. | 09-11-2008 |
| 20080221410 | Method for identification of sensor site by local skin spectrum data - A method is provided for determining the location of the sensor. The method comprises determining a physiological parameter based on detected light and determining the location of the sensor based on the physiological parameter. In addition, a method is provided for operating a sensor that includes calibrating a sensor based on a patient-specific physiological parameter, in which the patient-specific physiological parameter is skin color, age, gender, pooled blood, venous blood pulsation, or abnormal tissue. | 09-11-2008 |
| 20080221412 | Method and apparatus for spectroscopic tissue analyte measurement - Methods and systems for calculating body fluid metrics are provided. In accordance with an exemplary embodiment of the present technique, there is provided a method for calculating body fluid metrics by acquiring an absorbance spectrum of a subject's tissue over a range of near-infrared light, performing a multi-linear regression of the absorbance spectrum of the subject's tissue in relation to absorbance spectra of tissue constituents, and calculating body fluid metrics based on the results of the multi-linear regression. A system is provided having a sensor for emitting the light into the subject's tissue and detecting reflected, scattered, or transmitted light, a spectrometer for processing the detected light and generating the absorbance spectrum of the subject's tissue, memory for storing absorbance spectra of the tissue constituents and a multi-linear regression model, and a processor for performing the multi-linear regression and calculating the body fluid metrics. | 09-11-2008 |
| 20080221413 | Multiple configuration medical sensor and technique for using the same - A sensor may be adapted to be placed on multiple tissue sites. A sensor is provided that may have one configuration associated with use on a digit and a second configuration associated with use on another tissue site, such as a forehead. Further, a sensor may be adapted to be a transmission-type sensor or a reflectance-type sensor, depending on its configuration. | 09-11-2008 |
| 20090118598 | MEDICAL SENSOR AND TECHNIQUE FOR USING THE SAME - A sensor may be adapted to provide output to indicate when the sensor experiences abnormal forces or pressure. The forces may be outside forces, or the forces may be generated by patient motion. A sensor system as provided may also be adapted to correct for such forces when calculating measurements related to a physiological characteristic. | 05-07-2009 |
| 20090171173 | SYSTEM AND METHOD FOR REDUCING MOTION ARTIFACTS IN A SENSOR - Embodiments disclosed herein may include a patient sensor which has a low-friction exterior coating. In an embodiment, the exterior surface of the sensor may come into contact with external items, such as, for example, bed linens, clothing, unintended parts of the patient's body, or other people. The low-friction coating disposed on the exterior of the sensor may include a material having a relatively low coefficient of friction with respect to these external items. In an embodiment, the low-friction material may include, for example, a fluoropolymer, a polypropylene, or a polyethylene. Additionally, in an embodiment, an internal surface of the sensor that is in contact with the patient may have a relatively high-friction coating, such as an adhesive. In an embodiment, a stack of adhesive layers may be disposed on the internal surface around one or more light emitting and/or detecting optics. | 07-02-2009 |
| 20100280344 | MEDICAL SENSOR FOR REDUCING MOTION ARTIFACTS AND TECHNIQUE FOR USING THE SAME - A sensor may be adapted to reduce motion artifacts by damping the effects of outside forces and sensor motion. A sensor is provided with a motion damping structure adapted to reduce the effect of motion of a sensor emitter and/or detector. Further, a method of damping outside forces and sensor motion is also provided. | 11-04-2010 |
| 20110118766 | Attachment System, Device and Method - A ventricular assist system and a method of implanting the system are disclosed. The system can have a pump, an inflow conduit, an outflow conduit, attachment ring, ring clamp, and a valvular structure. The attachment ring can be attached to the apex of the heart. The valvular structure can have a flexible, one-way valve in a rigid housing. The inflow conduit can be passed through the valvular structure and the attachment ring into a beating heart with minimal loss of blood. Devices such as slitting tool, coring knife, and/or C-clamp and use of the devices can form part of the system and method for implanting the ventricular assist device. | 05-19-2011 |
| 20110118829 | Attachment device and method - A ventricular assist system and a method of implanting the system are disclosed. The system can have a pump, an inflow conduit, an outflow conduit, and attachment ring and a valvular structure. The attachment ring can be attached to the apex of the heart. The valvular structure can have a flexible, one-way valve in a rigid housing. The inflow conduit can be passed through the valvular structure and the attachment ring into a beating heart with minimal loss of blood. | 05-19-2011 |
| 20110118833 | Attachment device and method - A ventricular assist system and a method of implanting the system are disclosed. The system can have a pump, an inflow conduit, an outflow conduit, and attachment ring and a valvular structure. The attachment ring can be attached to the apex of the heart. The valvular structure can have a flexible, one-way valve in a rigid housing. The inflow conduit can be passed through the valvular structure and the attachment ring into a beating heart with minimal loss of blood. | 05-19-2011 |
| 20110124991 | SYSTEM AND METHOD FOR MITIGATING INTERFERENCE IN PULSE OXIMETRY - A pulse oximetry sensor adapted to emit light from an emitter proximate to a patient's tissue and detect a portion of the emitted light on a detector proximate to the tissue. The pulse oximetry system is adapted to acquire position data for the emitter and for the detector with one or more position indicators. The pulse oximetry system is adapted to process the position data to obtain a change in position of the emitter and the detector; and to process pulse oximetry measurements using the change in position to obtain a motion-corrected pulse oximetry data. | 05-26-2011 |
| 20110125256 | Slitting Tool - A slitting tool can be used to make a linear incision. The slitting can include a flat blade contained within a housing, and an actuator for extending the flat blade out of a housing. | 05-26-2011 |
| 20110144680 | Coring Knife - A coring knife can be used to make a circular incision. The coring knife can include an abutment that can be inserted into heart tissue. The circular incision is made by pressing the circular cutting edge of the coring knife against the abutment. | 06-16-2011 |
