| Patent application number | Description | Published |
|---|
| 20090102611 | WIRELESS DISPOSABLE PHYSIOLOGICAL SENSOR - A patient physiological parameter monitoring apparatus for a subject includes a sensor assembly having at least one responsive element that produces a first signal upon detection of a change in temperature. The assembly also includes a converter for converting the first signal into an electrical signal, and a transmitter for wirelessly transmitting converted electrical signals upon demand based upon receipt of a transmitted signal from an interrogation device. Preferably, at least a portion of the sensor assembly is disposable to permit single use or single subject use and can be further used to track location and information of medical equipment in addition to subjects. | 04-23-2009 |
| 20090182526 | GUIDING IR TEMPERATURE MEASURING DEVICE WITH PROBE COVER - The invention relates to an Infrared (IR) thermometer including an IR detector configured to provide an IR emission data representative of a temperature of an area of tissue. The IR thermometer also includes one or more secondary sensors configured to provide an IR thermometer positioning data. At least one microcomputer is configured to receive the IR thermometer positioning data from one or more secondary sensors. The at least one microcomputer is configured to run an algorithm to convert the IR thermometer positioning data to an IR thermometer positioning indication, wherein the IR thermometer positioning indication suggests a direction to move the IR thermometer for a substantially optimal IR detector view of the area of tissue. The invention also relates to a guiding means including a positioning sensor and a display of IR thermometer positioning information, and a method for positioning an IR thermometer. | 07-16-2009 |
| 20100027582 | CYCLE COUNTING - The present invention provides a platform for a manufacturer of reusable medical apparatuses to provide timely post-sale service for replaceable parts. In one embodiment, the probe assembly of an electronic thermometer has a connector that is equipped with a memory device, e.g., EEPROM, that stores a variety of probe-specific service information including usage count of the probe, probe warranty information and error codes. The user can plug the connector, e.g., through an adapter module, to a local computer's USB port and submit the stored service information to a website maintained by the probe manufacturer to check up and get service for the specific probe in a timely fashion. Automatic alert for replacement probe orders depending on the amount of usage, automatic generation of RMA numbers when the probe warranty is determined to be in effect, and automatic service calls for malfunctioning thermometers can all be accomplished accordingly without the need for manual record-keeping. A healthcare provider can simply set aside a day at a scheduled interval to check all of its reusable medial apparatuses equipped with the invented system to keep them safe and effective. | 02-04-2010 |
| 20100260230 | IR THERMOMETRY PROBE COVER - A removable protective cover for an insertion probe of a medical instrument. The cover contains a flexible tubular body that compliments the probe geometry and a radially disposed flange that surrounds the proximal end of the body. A series of snap-on fasteners removably connect the cover to the instrument. A camming surface is located on the outer face of the flange which coacts with a cam follower that is movably mounted upon the instrument to flex the cover sufficiently to open the fastener and release the cover from the instrument and move the cover axially toward the distal end of the tip. | 10-14-2010 |
| 20100265986 | CALIBRATED ASSEMBLY FOR IR THERMOMETER APPARATUS - A tip assembly for an IR thermometer apparatus includes a heat sink having a heat sink cavity and a tip section and a fluid path and at least one hydraulic port. The tip assembly also includes an IR sensor mechanically seated in the tip section and thermally coupled to the heat sink. The tip assembly also includes an electrical connector configured to provide an electrical connection to the tip assembly. A fluid having a fluid temperature is introduced into the fluid path via the hydraulic port. The fluid causes the heat sink and the IR sensor to substantially reach one or more pre-determined temperatures by thermal conduction during calibration of the tip assembly. Another tip assembly having an internal heat source is described. Another tip assembly having an internal heat pump is described. A method to calibrate a tip assembly is also described. | 10-21-2010 |
| 20100284436 | IR THERMOMETER THERMAL ISOLATION TIP ASSEMBLY - An IR tip assembly includes a shroud having at least one feature that permits releasable attachment of a disposable cover fitted to a shroud. When the disposable cover is fitted to the shroud, at least one air gap is defined between the shroud and the disposable cover. An IR sensor disposed within the IR tip assembly is mechanically and thermally coupled to a heat sink. The at least one defined air gap creates a thermal isolation between the disposable cover and the disposed IR sensor. There can also be airflow through the at least one air gap. Apparatus and methods to create the airflow are described. | 11-11-2010 |
| 20100322282 | MULTI-SITE INFRARED THERMOMETER - An infrared thermometer includes a probe and an infrared sensor. The probe with an infrared target absorbs thermal radiation to provide a substantially consistent source of infrared radiation and an aperture for preventing contamination of the infrared target while permitting the transmission of thermal radiation to the target. The infrared sensor is configured for sensing infrared radiation from the infrared target. The infrared target is positioned within the probe such that it absorbs thermal radiation that comes from the aperture and thereafter emits thermal radiation to the infrared sensor. | 12-23-2010 |
| 20110051774 | TEMPERATURE PATCH - A patch may be adapted for placement proximate to a surface region of a mammal. The patch may include an infrared target for receiving thermal energy from the surface region and for emitting infrared radiation according to a substantially known emissivity property. When the target is placed proximate to the surface region, the characteristics of infrared radiation emitted by the target substantially correspond to the temperature of the surface region. The patch may have means for selectively maintaining the target in a position proximate to a surface region of a mammal. The patch may include indicia uniquely associated with the patch. | 03-03-2011 |
| 20110105910 | THERMOMETER FOR DETERMINING THE TEMPERATURE OF AN ANIMAL'S EAR DRUM AND METHOD OF USING THE SAME - The present invention relates to a thermometer for determining the temperature of an animal's ear drum. The thermometer includes a probe, an infrared-radiation detector adapted to receive infrared radiation emitted by the ear drum, and devices that help determine the probe's position in the ear canal so as to optimize the infrared radiation received from the ear drum, and to minimize the infrared radiation received from other ear parts. A method of using the thermometer is also disclosed. | 05-05-2011 |
| 20110106484 | THERMOMETER FOR DETERMINING THE TEMPERATURE OF AN ANIMAL'S EAR DRUM AND METHOD OF USING SAME - A thermometer for determining the temperature of an animal's ear drum. The thermometer includes a probe, an infrared-radiation detector adapted to receive infrared radiation emitted by the ear drum, and devices that help insure that the probe is disposed in a desired position in the ear canal so as to optimize the infrared radiation received from the ear drum, and to minimize the infrared radiation received from other ear parts. A method of using the thermometer is also disclosed. | 05-05-2011 |
| 20110158283 | TEMPERATURE-MEASUREMENT PROBE - An apparatus, system and method for temperature measurement of a target site, such a human body site. The invention includes an intelligent temperature probe configured to physically contact a target site and to communicate with a host device, which can be implemented as a hand-held device or as a personal computer. The host device can compute, store and display an accurate predicted temperature, or an actual temperature at thermal equilibrium, of the target site for each of a plurality of different intelligent temperature probes that each have unique and varied operating characteristics. A set of unique operating characteristics for each temperature probe is represented by information communicated between each respective temperature probe and the host device. | 06-30-2011 |
| 20110160595 | MEDICAL INSTRUMENT WITH PROBE, PROBE COVER, AND METHODS OF USING THE SAME - A medical instrument including a probe adapted to be inserted into an orifice of an animal's body. The instrument includes an emitter of electromagnetic radiation that is sensed by a sensor mounted on the probe. The sensor can then determine, by variations in the amount of radiation received from the emitter, whether a probe cover is mounted over the probe. A sensor can also be used to determine whether the walls of the body orifice block the radiation received from the emitter, thereby indicating position of the sensor, and thus, the probe within the orifice. A special probe cover is disclosed, and methods of using the medical instrument are also disclosed. | 06-30-2011 |
| 20110160597 | Suprasystolic Measurement in a Fast Blood-Pressure Cycle - Disclosed herein is a system for monitoring a patient that includes a cuff configured to inflate to at least partially occlude an artery of the patient and a cuff controller configured to inflate the cuff during a dynamic phase and generally maintain inflation of the cuff at about a target pressure during a static phase. The system also includes a sensor configured to receive a signal associated with the at least partially occluded artery and generate an output signal based on the received signal, and a cuff control module configured to determine the target pressure during the dynamic phase and based on the output signal, and control the cuff controller during the dynamic phase and the static phase. | 06-30-2011 |
