Embodiments described herein relate to an analyte monitoring device having a user interface with a display and a plurality of actuators. The display is configured to render a plurality of display screens, including a home screen and an alert screen. The home screen is divided into a plurality of sim
Embodiments described herein relate to an analyte monitoring device having a user interface with a display and a plurality of actuators. The display is configured to render a plurality of display screens, including a home screen and an alert screen. The home screen is divided into a plurality of simultaneously displayed panels, with a first panel displays a rate of change of continuously monitored analyte levels in interstitial fluid, a second panel simultaneously displays a current analyte level and an analyte trend indicator, and a third panel displays status information of a plurality of components of the device. When an alarm condition is detected, the display renders the alert screen in place of the home screen, the alert screen displaying information corresponding to the detected alarm condition. Furthermore, the actuators are configured to affect further output of the analyte monitoring device corresponding to the detected condition.
대표청구항▼
1. An analyte monitoring device comprising: a user interface having a display and a plurality of actuators, wherein the display is configured to render a plurality of display screens, including at least a home screen and an alert screen, wherein the home screen is divided into a plurality of simulta
1. An analyte monitoring device comprising: a user interface having a display and a plurality of actuators, wherein the display is configured to render a plurality of display screens, including at least a home screen and an alert screen, wherein the home screen is divided into a plurality of simultaneously displayed panels, wherein a first panel of the plurality of panels is configured to display a rate of change of continuously monitored analyte levels in interstitial fluid, wherein a second panel of the plurality of panels is configured to simultaneously display a current analyte level and an analyte trend indicator, and wherein a third panel of the plurality of panels is configured to display status information of a plurality of components of the analyte monitoring device; andwhen an alarm condition is detected, the display is configured to replace one of the plurality of panels with the alert screen, the alert screen having information corresponding to the detected alarm condition, and wherein at least one of the plurality of actuators is configured to affect a further output of the analyte monitoring device corresponding to the detected condition. 2. The analyte monitoring device of claim 1, wherein the first panel includes a timeline graph having a plurality of indicators disposed thereon, wherein each of the plurality of indicators represent an event. 3. The analyte monitoring device of claim 2, wherein the event is selected from a group of events consisting of a discrete blood glucose measurement, an insulin dose, an exercise period, a meal, a state of health, and a custom event. 4. The analyte monitoring device of claim 1, wherein information displayed in at least one the plurality of panels is color coded based on a severity of a condition the information represents. 5. The analyte monitoring device of claim 1, wherein at least one of the actuators is programmable by a user. 6. The analyte monitoring device of claim 1, wherein the display is rendered in an orientation based on a type of alert screen displayed. 7. The analyte monitoring device of claim 1, wherein at least one of the plurality of panels is expandable when at least one of the plurality of actuators is actuated. 8. The analyte monitoring device of claim 1, wherein at least one of the actuators is illuminated by a lighting assembly. 9. The analyte monitoring device of claim 8, wherein the lighting assembly includes a light source and a light pipe, wherein the light pipe is configured to direct light from the light source to the at least one of the actuators. 10. The analyte monitoring device of claim 1, further including a test strip port. 11. The analyte monitoring device of claim 10, wherein at least a portion of the test strip port is illuminated by an illumination assembly. 12. The analyte monitoring device of claim 11, wherein the illumination assembly includes a light source and light pipe, and wherein at least a portion of the test strip port comprises the light pipe. 13. A method, comprising: receiving continuous analyte level information data from a transmitter, the transmitter having a sensor in fluid contact with interstitial fluid;displaying a graphical representation of a rate of change of the continuous analyte level data over a predetermined amount of time in a first panel of a display screen of a display device;simultaneously displaying a numerical representation of a current analyte level and an iconic trend indicator in a second panel of the display screen of the display device, wherein the current analyte level is compared with a plurality of subsequent analyte levels, and wherein the current analyte level and the trend indicator are updated only when a difference between the plurality of subsequent analyte levels and the current analyte level exceeds a predetermined threshold;displaying an alert screen in response to a detected condition, wherein the alert screen is displayed in place of the first panel and the second panel; andcontrolling further output of the display device based on user actuation of at least one of a plurality of buttons disposed on the display device when the alert screen is displayed. 14. The method of claim 13, wherein the graphical representation includes at least one event icon corresponding to a user event. 15. The method of claim 14, wherein the user event corresponds to the detected condition. 16. The method of claim 13, wherein the graphical representation includes a first user defined analyte level threshold indicator and a second user defined analyte level threshold indicator, wherein when the current analyte level information passes at least one of the first analyte level threshold indicator or the second analyte level threshold indicator, an analyte level alert is displayed. 17. The method of claim 13, further comprising displaying a plurality of iconic status representations of a plurality of components of the display device, wherein the plurality of iconic status representations are displayed on a third panel of the display screen of the display device, wherein the third panel is simultaneously displayed with the first panel and the second panel. 18. The method of claim 13, further comprising automatically rotating the displayed alert screen into a predetermined orientation based on a type of detected condition. 19. The method of claim 13, further comprising, displaying a menu screen on a third panel of the display screen of the display device, wherein the third panel is simultaneously displayed with the first panel and the second panel. 20. The method of claim 13, wherein when the alert screen is displayed, further output corresponding to the detected condition is affected. 21. An analyte monitoring device having a user interface, the user interface comprising: a display, wherein the display is configured to:simultaneously display a plurality of distinct panels, wherein a first panel of the plurality of distinct panels displays historical analyte level information over a predetermined amount of time, and wherein a second panel of the plurality of distinct panels displays real-time analyte level information; anddisplay an alert screen in response to an alert condition being detected, wherein the alert screen is displayed in place of the plurality of distinct panels when the alert condition is detected; anda plurality of buttons, wherein at least one of the plurality of buttons is configured to interact with at least one of the plurality of panels when the plurality of panels are displayed and wherein at least one of the plurality of buttons is configured to interact with the alert screen when the alert screen is displayed. 22. The user interface of claim 21, wherein actuation of the at least one of the plurality of buttons is configured to affect an output of the analyte monitoring device when the alert screen is displayed. 23. The user interface of claim 22, wherein the output of the monitoring device comprises at least one of a display output, an audible output, a vibratory output, and a combination thereof. 24. The user interface of claim 21, wherein the detected alert condition corresponds to one of a low urgency alert condition, an intermediate urgency alert condition, a medium urgency alert condition, and high urgency alert condition. 25. The user interface of claim 21, wherein the alert screen is displayed in a rotated position based on a type of condition the alert screen represents. 26. A user interface for a personal medical device comprising: a display configured to display a home screen having a first section configured to display color coded graphical information corresponding to historic analyte levels of a user and a second section configured to simultaneously display color coded textual information corresponding to current analyte levels of the user, and a plurality of alert screens, wherein the plurality of alert screens are hierarchically arranged based on a severity of a condition that each of the plurality of alert screens represent, wherein one of the plurality of alert screens is displayed in a third section of the home screen, wherein the third section of the home screen is simultaneously displayed with the first section of the home screen and the second section of the home screen, and wherein when the third section of the home screen is displayed, a size of the first section of the home screen and a size of the second section of the home screen are automatically adjusted; anda plurality of buttons, wherein the plurality of buttons have a first functionality when the home screen is displayed and wherein the plurality of buttons have a second functionality when each of the plurality of alert screens are displayed. 27. The user interface of claim 26, wherein the size of the first section of the home page is adjustable with respect to the size of the second section of the home page. 28. The user interface of claim 26, wherein a position of the first section of the home page is adjustable with respect to a position of the second section of the home page. 29. The user interface of claim 26, wherein the display is a self-orientating display. 30. The user interface of claim 29, wherein the orientation of the display is automatically adjusted based on the one of the plurality of alert screens displayed. 31. The user interface of claim 26, further comprising a fourth section, wherein the fourth section of the home screen displays a plurality of icons representing respective components of the personal medical device, and wherein the fourth section is simultaneously displayed with the first section of the home screen, the second section of the home screen, and the third section of the home screen. 32. The user interface of claim 26, wherein a first alert screen having a first hierarchical order is displayed in the third section of the home screen or the second section of the home screen, and wherein a second alert screen having a second hierarchical order is displayed in one of the first section of the home screen or the second section of the home screen. 33. The user interface of claim 26, wherein the plurality of buttons are configured to affect the further output of the device when the alert screen is displayed. 34. A method, comprising: receiving a plurality of analyte levels including a most recent analyte level and at least one historical analyte level;defining a plurality of threshold values with respect to the most recent analyte level;displaying the most recent analyte level in a first panel and the at least one historical analyte level in a second panel;retrospectively comparing the at least one historical analyte level to at least one of the plurality of threshold values to determine whether the at least one historical analyte level exceeds the at least one of the plurality of threshold values; andoutputting an alert notification when the at least one historical analyte level exceeds the at least one of the plurality of threshold values, wherein the output of the alert notification replaces the first panel or the second panel with an alert screen. 35. The method of claim 34, further comprising determining whether the at least one historical analyte level was received within a predetermined window and retrospectively comparing the at least one historical analyte level to the at least one of the plurality of threshold values when it is determined that the at least one historic analyte level was received within the predetermined window. 36. The method of claim 35, wherein the predetermined window is defined by a minimum time duration with respect to the most recent analyte level and a maximum time duration with respect to the most recent analyte level information. 37. The method of claim 34, wherein the at least one of the plurality of threshold values corresponds to a maximum rate of change of the historical analyte value over a predetermined time period. 38. The method of claim 34, wherein when the alert notification is output, further output of the historical analyte level and the most recent analyte level is affected. 39. An apparatus, comprising: one or more processors; anda memory for storing instructions for access by the one or more processors which when executed, receives a plurality of analyte levels including a most recent analyte level and at least one historical analyte level, defines a plurality of threshold values with respect to the most recent analyte level, displays the most recent analyte level in a first panel and the at least one historical analyte level in a second panel, retrospectively compares the at least one historical analyte level to at least one of the plurality of threshold values to determine whether the at least one historical analyte level exceeds the at least one of the plurality of threshold values, and outputs an alert notification when the at least one historical analyte level exceeds the at least one of the plurality of threshold values, wherein the output of the alert notification replaces the first panel or the second panel with an alert screen. 40. The apparatus of claim 39, wherein the memory for storing instructions for access by the one or more processors, which when executed, determines whether the at least one historical analyte level was received within a predetermined window and retrospectively compares the at least one historical analyte level to the at least one of the plurality of threshold values when it is determined that the at least one historic analyte level was received within the predetermined window. 41. The apparatus of claim 40, wherein the predetermined window is defined by a minimum time duration with respect to the most recent analyte level and a maximum time duration with respect to the most recent analyte level information. 42. The apparatus of claim 39, wherein the at least one of the plurality of threshold values corresponds to a maximum rate of change of the historical analyte value over a predetermined time period. 43. The apparatus of claim 39, wherein when the alert notification is output, further output of the historical analyte level and the most recent analyte level is affected. 44. An analyte monitoring device comprising: a housing;a display disposed in the housing, wherein the display is configured to output a plurality of distinct display areas, wherein at least one of the distinct display areas is configured to output data corresponding to measured analyte levels received from a transcutaneously positioned sensor and at least a second one of the distinct display areas is configured to output data corresponding to the analyte monitoring device, when an alarm condition is detected, the display is configured to replace at least one of the distinct display areas with an alert screen;a plurality of actuators disposed in the housing wherein at least one of the plurality of actuators is configured to interact with at least one of the distinct display areas; andan illumination assembly disposed in the housing, wherein the illumination assembly is configured to transfer light from a first area of the housing to a second area of the housing. 45. The analyte monitoring device of claim 44, wherein the illumination assembly includes at least one light source and at least one light pipe. 46. The analyte monitoring device of claim 44, further including a test strip port configured to receive a test strip. 47. The analyte monitoring device of claim 46, wherein the illumination assembly is configured to illuminate at least a portion of the test strip port. 48. The analyte monitoring device of claim 46, wherein at least a portion of the test strip port comprises at least a portion of the illumination assembly. 49. The analyte monitoring device of claim 46, wherein the illumination assembly is automatically activated in response to the test strip being inserted into the test strip port. 50. The analyte monitoring device of claim 44, wherein the illumination assembly is configured to simultaneously direct light to the first area of the housing and the second area of the housing.
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Goode, Jr., Paul V.; Brauker, James H.; Kamath, Apurv U.; Thrower, James Patrick; Carr-Brendel, Victoria, Systems and methods for replacing signal artifacts in a glucose sensor data stream.
Surwit Richard S. ; Allen ; III Lyle M. ; Cummings Sandra E., Systems, methods and computer program products for monitoring, diagnosing and treating medical conditions of remotely located patients.
Mann, Alfred E.; Purvis, Richard E.; Mastrototaro, John J.; Causey, James D.; Henke, James; Hong, Peter; Livingston, John H.; Hague, Clifford W.; Hite, Brad T., Telemetered characteristic monitor system and method of using the same.
Brister, Mark; Neale, Paul V.; Saint, Sean; Thrower, James Patrick; McGee, Thomas F.; Codd, Daniel Shawn; Petersen, David Michael; Kline, Daniel S., Transcutaneous analyte sensor.
Cheney ; II Paul S. (Beverly Hills CA) Mastrototaro John J. (Los Angeles CA) Schnabel Nannette M. (Valencia CA) Lord Peter C. (Valencia CA) Van Antwerp William P. (Los Angeles CA) Clark Raymond D. (V, Transcutaneous sensor insertion set.
Lord Peter C. (Santa Clarita CA) Van Antwerp William P. (Brentwood CA) Mastrototaro John J. (Los Angeles CA) Cheney ; II Paul S. (Beverly Hills CA) Schnabel Nannette M. (Valencia CA), Transcutaneous sensor insertion set.
Goertz Hans-Helmut (Ludwigshafen DEX) Marcinowski Stefan (Ludwigshafen DEX) Sanner Axel (Frankenthal DEX), Water-insoluble protein material, its preparation and its use.
Hafezi, Hooman; O'Reilly, David; Johnson, Patricia; Hatamkhany, Zahedeh; Robertson, Timothy; Zdeblick, Mark, Communication system incorporated in a container.
Bernstein, Daniel M.; Hayter, Gary A.; Dunn, Timothy C.; Gopal, Mani; Davis, Eric; Bradrick, Brittany K.; Winkler, Todd, Data synchronization between two or more analyte detecting devices in a database.
Taub, Marc Barry; Karan, Jai; Tan, Annie C.; Dunn, Timothy Christian; Goldsmith, Joel; Neuhaus, Christine M.; Rossi, Stephen A.; Jangam, Sujit R., Devices, systems, and methods associated with analyte monitoring devices and devices incorporating the same.
Ahmad, Lubna M.; Smith, Zachary; Satterfield, Brent C.; Martineau, Rhett L.; Ahmad, Salman A., Method and apparatus for rapid quantification of an analyte in breath.
Zdeblick, Mark; Stoll, Arna Ionescu; McAllister, William; Au-Yeung, Kit Yee, Mobile device and system for detection and communication of information received from an ingestible device.
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