Patents by Inventor Gregory A. Olsen
Gregory A. Olsen has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10159412Abstract: The present disclosure includes a handheld processing device including medical applications for minimally and noninvasive glucose measurements. In an embodiment, the device creates a patient specific calibration using a measurement protocol of minimally invasive measurements and noninvasive measurements, eventually creating a patient specific noninvasive glucometer. Additionally, embodiments of the present disclosure provide for the processing device to execute medical applications and non-medical applications.Type: GrantFiled: May 4, 2015Date of Patent: December 25, 2018Assignee: Cercacor Laboratories, Inc.Inventors: Marcelo M. Lamego, Massi Joe E. Kiani, Jeroen Poeze, Cristiano Dalvi, Sean Merritt, Hung Vo, Gregory A. Olsen, Ferdyan Lesmana
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Publication number: 20180192955Abstract: A sensor cartridge according to embodiments of the disclosure is capable of being used with a non-invasive physiological sensor. Certain embodiments of the sensor cartridge protect the sensor from damage, such as damage due to repeated use, reduce the need for sensor sanitization, or both. Further, embodiments of the sensor cartridge are positionable on the user before insertion in the sensor and allow for improved alignment of the treatment site with the sensor. In addition, the sensor cartridge of certain embodiments of the disclosure can be configured to allow a single sensor to comfortably accommodate treatment sites of various sizes such as for both adult and pediatric applications.Type: ApplicationFiled: January 8, 2018Publication date: July 12, 2018Inventors: Ammar Al-Ali, Marcelo Lamego, Jim Litchfield, Gregory A. Olsen
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Patent number: 9895107Abstract: A sensor cartridge according to embodiments of the disclosure is capable of being used with a non-invasive physiological sensor. Certain embodiments of the sensor cartridge protect the sensor from damage, such as damage due to repeated use, reduce the need for sensor sanitization, or both. Further, embodiments of the sensor cartridge are positionable on the user before insertion in the sensor and allow for improved alignment of the treatment site with the sensor. In addition, the sensor cartridge of certain embodiments of the disclosure can be configured to allow a single sensor to comfortably accommodate treatment sites of various sizes such as for both adult and pediatric applications.Type: GrantFiled: February 19, 2015Date of Patent: February 20, 2018Assignee: MASIMO CORPORATIONInventors: Ammar Al-Ali, Marcelo Lamego, Jim Litchfield, Gregory A. Olsen
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Patent number: 9750442Abstract: A physiological status monitor has a monitor and an interconnected sensor that generates a sensor signal. The monitor computes physiological parameters responsive to the sensor signal and displays physiological parameters accordingly. In an embodiment, the monitor displays physiological parameter information across multiple patients in a cumulative pie chart format so that a caregiver can quickly discern and readily identify patients in need of immediate medical attention.Type: GrantFiled: March 10, 2014Date of Patent: September 5, 2017Assignee: Masimo CorporationInventor: Gregory A. Olsen
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Publication number: 20170143281Abstract: A patient monitoring system can display one or more configurable health monitors on a configurable user interface. The health indicators are configured to display a physiological signal from a patient. The patient monitoring system can calculate ranges of values for the health indicator that correspond to a status of the patient. The health indicators can display different outputs based on the value of the physiological signal.Type: ApplicationFiled: October 31, 2016Publication date: May 25, 2017Inventor: Gregory A. Olsen
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Publication number: 20160324488Abstract: A sensor system for obtaining and displaying information relating to physiological parameters, such as Total Hemoglobin and Pulse rate for use by a user such as an athlete. The system can present the measured physiological parameters to the user in a useful way. For example the system can display a visual multi quadrant infographic display, which can present the total hemoglobin values measured by the system in a particular season. The system can also display a visual elevation infographic display, which can present a comparison of the total hemoglobin values measured by the system over a period of time and/or at various altitudes. The system can also display a visual yin-yang infographic display, which can present a comparison of one or more metrics calculated by the system or one or more parameters measured by the system. The system can provide useful information about the user's health and/or well-being and allow the user to quickly and easily view and interpret relevant information.Type: ApplicationFiled: May 4, 2016Publication date: November 10, 2016Inventor: Gregory A. Olsen
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Patent number: 9480435Abstract: A patient monitoring system can display one or more configurable health monitors on a configurable user interface. The health indicators are configured to display a physiological signal from a patient. The patient monitoring system can calculate ranges of values for the health indicator that correspond to a status of the patient. The health indicators can display different outputs based on the value of the physiological signal.Type: GrantFiled: February 8, 2013Date of Patent: November 1, 2016Assignee: MASIMO CORPORATIONInventor: Gregory A. Olsen
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Patent number: 9474474Abstract: In an embodiment, a patient monitor, such as a pulse oximeter, functions as a spot check glucometer when in communication with a blood glucose strip reader. In an embodiment, communications between the patient monitor and the strip reader may optionally be encrypted. Embodiments also include the strip reader housed in a dongle configured to mate with a sensor port of the pulse oximeter.Type: GrantFiled: March 4, 2014Date of Patent: October 25, 2016Assignee: MASIMO CORPORATIONInventors: Marcelo M. Lamego, Jeroen Poeze, Cristiano Dalvi, Hung Vo, Ferdyan Lesmana, Gregory A. Olsen, Sean Merritt, Ashish Patel
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Patent number: 9218454Abstract: Medical patient monitoring devices that have the capability of detecting the physical proximity of a clinician are disclosed. The medical patient monitoring devices may be configured to perform a selected action when the presence of a clinician is detected. Systems and methods for facilitating communication between medical devices that use different medical communication protocol formats are also disclosed. For example, a medical communication protocol translator can be configured to receive an input message formatted according to a first protocol format from a first medical device and to output an output message formatted according to a second protocol format supported by a second medical device using a set of translation rules. Medical monitoring reporting systems are also disclosed. The medical monitoring reporting systems may be used to analyze a stored collection of physiological parameter data to simulate the effect of changing various medical monitoring options.Type: GrantFiled: March 3, 2010Date of Patent: December 22, 2015Assignee: Masimo CorporationInventors: Massi Joe E. Kiani, Ammar Al-Ali, Bilal Muhsin, Anand Sampath, Gregory A. Olsen
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Patent number: 9153121Abstract: An alarm suspend system utilizes an alarm trigger responsive to physiological parameters and corresponding limits on those parameters. The parameters are associated with both fast and slow treatment times corresponding to length of time it takes for a person to respond to medical treatment for out-of-limit parameter measurements. Audible and visual alarms respond to the alarm trigger. An alarm silence button is pressed to silence the audible alarm for a predetermined suspend time. The audible alarm is activated after the suspend time has lapsed. Longer suspend times are associated with slow treatment parameters and shorter suspend times are associated with fast treatment parameters.Type: GrantFiled: August 26, 2014Date of Patent: October 6, 2015Assignee: MASIMO CORPORATIONInventors: Massi Joe E. Kiani, Steve L. Cebada, Gregory A. Olsen
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Publication number: 20150245773Abstract: The present disclosure includes a handheld processing device including medical applications for minimally and noninvasive glucose measurements. In an embodiment, the device creates a patient specific calibration using a measurement protocol of minimally invasive measurements and noninvasive measurements, eventually creating a patient specific noninvasive glucometer. Additionally, embodiments of the present disclosure provide for the processing device to execute medical applications and non-medical applications.Type: ApplicationFiled: May 4, 2015Publication date: September 3, 2015Inventors: Marcelo M. Lamego, Massi Joe E. Kiani, Jeroen Poeze, Cristiano Dalvi, Sean Merritt, Hung Vo, Gregory A. Olsen, Ferdyan Lesmana
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Publication number: 20150230755Abstract: A sensor cartridge according to embodiments of the disclosure is capable of being used with a non-invasive physiological sensor. Certain embodiments of the sensor cartridge protect the sensor from damage, such as damage due to repeated use, reduce the need for sensor sanitization, or both. Further, embodiments of the sensor cartridge are positionable on the user before insertion in the sensor and allow for improved alignment of the treatment site with the sensor. In addition, the sensor cartridge of certain embodiments of the disclosure can be configured to allow a single sensor to comfortably accommodate treatment sites of various sizes such as for both adult and pediatric applications.Type: ApplicationFiled: February 19, 2015Publication date: August 20, 2015Inventors: Ammar Al-Ali, Marcelo Lamego, Jim Litchfield, Gregory A. Olsen
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Patent number: 8989831Abstract: A sensor cartridge according to embodiments of the disclosure is capable of being used with a non-invasive physiological sensor. Certain embodiments of the sensor cartridge protect the sensor from damage, such as damage due to repeated use, reduce the need for sensor sanitization, or both. Further, embodiments of the sensor cartridge are positionable on the user before insertion in the sensor and allow for improved alignment of the treatment site with the sensor. In addition, the sensor cartridge of certain embodiments of the disclosure can be configured to allow a single sensor to comfortably accommodate treatment sites of various sizes such as for both adult and pediatric applications.Type: GrantFiled: May 18, 2010Date of Patent: March 24, 2015Assignee: Masimo CorporationInventors: Ammar Al-Ali, Marcelo Lamego, Jim Litchfield, Gregory A. Olsen
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Publication number: 20150051462Abstract: A physiological status monitor has a monitor and an interconnected sensor that generates a sensor signal. The monitor computes physiological parameters responsive to the sensor signal and displays physiological parameters accordingly. In an embodiment, the monitor displays physiological parameter information across multiple patients in a cumulative pie chart format so that a caregiver can quickly discern and readily identify patients in need of immediate medical attention.Type: ApplicationFiled: March 10, 2014Publication date: February 19, 2015Inventor: Gregory A. Olsen
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Publication number: 20150042466Abstract: An alarm suspend system utilizes an alarm trigger responsive to physiological parameters and corresponding limits on those parameters. The parameters are associated with both fast and slow treatment times corresponding to length of time it takes for a person to respond to medical treatment for out-of-limit parameter measurements. Audible and visual alarms respond to the alarm trigger. An alarm silence button is pressed to silence the audible alarm for a predetermined suspend time. The audible alarm is activated after the suspend time has lapsed. Longer suspend times are associated with slow treatment parameters and shorter suspend times are associated with fast treatment parameters.Type: ApplicationFiled: August 26, 2014Publication date: February 12, 2015Inventors: Massi Joe E. Kiani, Steve L. Cebada, Gregory A. Olsen
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Patent number: 8847740Abstract: An alarm suspend system utilizes an alarm trigger responsive to physiological parameters and corresponding limits on those parameters. The parameters are associated with both fast and slow treatment times corresponding to length of time it takes for a person to respond to medical treatment for out-of-limit parameter measurements. Audible and visual alarms respond to the alarm trigger. An alarm silence button is pressed to silence the audible alarm for a predetermined suspend time. The audible alarm is activated after the suspend time has lapsed. Longer suspend times are associated with slow treatment parameters and shorter suspend times are associated with fast treatment parameters.Type: GrantFiled: September 25, 2013Date of Patent: September 30, 2014Assignee: Masimo CorporationInventors: Massi Joe E. Kiani, Steve L. Cebada, Gregory A. Olsen
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Publication number: 20140275881Abstract: In an embodiment, a patient monitor, such as a pulse oximeter, functions as a spot check glucometer when in communication with a blood glucose strip reader. In an embodiment, communications between the patient monitor and the strip reader may optionally be encrypted. Embodiments also include the strip reader housed in a dongle configured to mate with a sensor port of the pulse oximeter.Type: ApplicationFiled: March 4, 2014Publication date: September 18, 2014Applicant: Cercacor Laboratories, Inc.Inventors: Marcelo M. Lamego, Jeroen Poeze, Cristiano Dalvi, Hung Vo, Ferdyan Lesmana, Gregory A. Olsen, Sean Merritt, Ashish Patel
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Publication number: 20140125478Abstract: An alarm suspend system utilizes an alarm trigger responsive to physiological parameters and corresponding limits on those parameters. The parameters are associated with both fast and slow treatment times corresponding to length of time it takes for a person to respond to medical treatment for out-of-limit parameter measurements. Audible and visual alarms respond to the alarm trigger. An alarm silence button is pressed to silence the audible alarm for a predetermined suspend time. The audible alarm is activated after the suspend time has lapsed. Longer suspend times are associated with slow treatment parameters and shorter suspend times are associated with fast treatment parameters.Type: ApplicationFiled: September 25, 2013Publication date: May 8, 2014Applicant: MASIMO CORPORATIONInventors: Massi Joe E. Kiani, Steve L. Cebada, Gregory A. Olsen
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Patent number: 8547209Abstract: An alarm suspend system utilizes an alarm trigger responsive to physiological parameters and corresponding limits on those parameters. The parameters are associated with both fast and slow treatment times corresponding to length of time it takes for a person to respond to medical treatment for out-of-limit parameter measurements. Audible and visual alarms respond to the alarm trigger. An alarm silence button is pressed to silence the audible alarm for a predetermined suspend time. The audible alarm is activated after the suspend time has lapsed. Longer suspend times are associated with slow treatment parameters and shorter suspend times are associated with fast treatment parameters.Type: GrantFiled: May 21, 2012Date of Patent: October 1, 2013Assignee: Masimo CorporationInventors: Massi Joe E. Kiani, Steve L. Cebada, Gregory A. Olsen
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Patent number: 8428967Abstract: A spot check credit system advantageously includes various embodiments for obtaining authorization or payment for each measurement, groups of measurements, times of measurement or the like. In an embodiment, the system utilizes a server that communicates web pages over a computer network. In an embodiment, the system utilizes a digital communication device such as a photocommunicative key.Type: GrantFiled: May 18, 2011Date of Patent: April 23, 2013Assignee: Cercacor Laboratories, Inc.Inventors: Gregory A. Olsen, Marcelo Lamego, Cristiano Dalvi, Johannes Bruinsma, Jeroen Poeze, Massi Joe E. Kiani