1
Philip R Westbrook, Daniel J Levendowski, Milenko Cvetinovic, Chris Berka, Yury Furman: Sleep apnea risk evaluation. Ares Medical, Fulwider Patton Lee & Utecht, November 2, 2004: US06811538 (147 worldwide citation)

In a technique for collecting and analyzing physiological signals to detect sleep apnea, a small light-weight physiological monitoring system, affixed to a patient's forehead, detects and records the pulse, oximetry, snoring sounds, and head position of a patient to detect a respiratory event, ...


2
Philip R Westbrook, Daniel J Levendowski, Milenko Cvetinovic, Chris Berka, Yury Furman: Sleep apnea risk evaluation. Ares Medical, Fulwider Patton, November 20, 2007: US07297119 (116 worldwide citation)

In a technique for collecting and analyzing physiological signals to detect sleep apnea, a small light-weight physiological monitoring system, affixed to a patient's forehead, detects and records the pulse, oximetry, snoring sounds, and head position of a patient to detect a respiratory event, such ...


3
Roderick A Hyde, Edward K Y Jung, Jordin T Kare, Royce A Levien, Robert W Lord, Mark A Malamud, John D Rinaldo Jr, Elizabeth A Sweeney, Lowell L Wood Jr: Systematic distillation of status data relating to regimen compliance. Elwha, September 26, 2017: US09770189

Configuration technologies for cost-effectively monitoring indicia of regimen compliance or noncompliance in response to one or more indications of symptoms or actions or other data on data-bearing media or in wireless transmissions, such as implementing techniques for providing or preventing access ...


4
Westbrook Philip R, Levendowski Daniel J, Cvetinovic Milenko, Berka Christine, Furman Yury: Sleep apnea risk evaluation. Ares Medical, October 22, 2003: EP1353594-A2

In a technique for collecting and analyzing physiological signals to detect sleep apnea, a small light-weight physiological monitoring system, affixed to a patient's forehead, detects and records the pulse, oximetry, snoring sounds, and head position of a patient to detect a respiratory event, such ...


5
Philip R Westbrook, Daniel J Levendowski, Milenko Cvetinovic, Chris Berka, Yury Furman: Sleep apnea risk evaluation. Fulwider Patton Lee & Utecht, Howard Hughes Center, February 3, 2005: US20050027207-A1

In a technique for collecting and analyzing physiological signals to detect sleep apnea, a small light-weight physiological monitoring system, affixed to a patient's forehead, detects and records the pulse, oximetry, snoring sounds, and head position of a patient to detect a respiratory event, such ...


6
Philip R Westbrook, Daniel J Levendowski, Milenko Cvetinovic, Chris Berka, Yury Furman: Sleep apnea risk evaluation. David A Hall, Heller Ehrman White & McAuliffe, November 7, 2002: US20020165462-A1

In a technique for collecting and analyzing physiological signals to detect sleep apnea, a small light-weight physiological monitoring system, affixed to a patient's forehead, detects and records the pulse, oximetry, snoring sounds, and head position of a patient to detect a respiratory event, such ...


7
Westbrook Philip R, Levendowski Daniel J, Cvetinovic Milenko, Berka Christine, Furman Yury: Sleep apnea risk evaluation. Ares Medical, Westbrook Philip R, Levendowski Daniel J, Cvetinovic Milenko, Berka Christine, Furman Yury, HALL David A, August 29, 2002: WO/2002/065901

In a technique for collecting and analyzing physiological signals to detect sleep apnea, a small light-weight physiological monitoring system, affixed to a patient's forehead, detects and records the pulse, oximetry, snoring sounds, and head position of a patient to detect a respiratory event, such ...


8
Wearable Brain Activity Device with Auditory Interface. Medibotics, November 1, 2018: US20180310855-A1

This invention is a wearable brain activity device with electrodes held on a person's head by a frame comprising a ring portion which encircles the person's head and an arc portion which loops over the top of the person's head. Data from the electrodes is used to analyze the person's brain activity ...