초록 ▼

The present invention relates to methods of formulating analyte data databases, the databases themselves, and methods of manipulating the same. In one aspect the present invention includes the formulation of analyte data points, derived data, and data attributes databases comprising data points coll

The present invention relates to methods of formulating analyte data databases, the databases themselves, and methods of manipulating the same. In one aspect the present invention includes the formulation of analyte data points, derived data, and data attributes databases comprising data points collected using an analyte monitoring device capable of frequent monitoring of analyte concentrations or amounts. Such data points may comprise acquired data (e.g., values corresponding to analyte concentrations or amounts as measured by said analyte monitoring device). These data points are then associated with one or more relevant data attributes. The resulting databases may be manipulated to determine relationships among the components of the database.

대표청구항 ▼

1. A method of formulating one or more analyte data database, said method comprising:collecting analyte measurement values from one or more subject using an analyte monitoring device for each subject, said analyte monitoring device (i) providing frequent analyte measurement values, wherein said anal

1. A method of formulating one or more analyte data database, said method comprising:collecting analyte measurement values from one or more subject using an analyte monitoring device for each subject, said analyte monitoring device (i) providing frequent analyte measurement values, wherein said analyte measurement values comprise acquired data points that are specifically related to analyte amount or concentration in the subject, and (ii) providing one or more error messages related to skipped analyte measurement values; and formulating said one or more analyte data databases by associating each of said data points and each of said one or more error messages related to skipped analyte measurement value with one or more data attributes. 2. The method of claim 1, wherein said data points further comprise derived data determined from one or more acquired data points and the derived data are associated with the data points from which they are derived.3. The method of claim 2, wherein each of said derived data are associated with one or more data attributes.4. The method of claim 2, wherein said analyte is glucose and said derived data comprises glucose amount or concentration.5. The method of claim 4, wherein said analyte monitoring device is a glucose monitoring device, said glucose monitoring device comprising a sensing device, a display, and means to provide an audible alert when glucose levels in a subject being monitored are outside of a predetermined range.6. The method of claim 1, wherein said analyte measurement values are collected from a single individual.7. The method of claim 1, wherein said analyte measurement values are collected from more than one individual.8. The method of claim 7, wherein said formulating further comprises compiling multiple databases from each database where the data points are collected from a single individual and the data points for each single individual are associated with one or more relevant data attributes.9. The method of claim 1, wherein said analyte is a biological analyte.10. The method of claim 9, wherein said biological analyte is glucose.11. The method of claim 1, wherein said acquired data points comprise electrochemical signals.12. The method of claim 4, wherein said data attributes are selected from the group consisting of: chronological information, user perspiration levels, device operating temperature, missed measurements; skipped measurements, user body temperature, user skin conductance, environmental variables, alarm events, activity codes, total excursion, mean value, statistical function, subject code, demographic information, physical characteristics, and disease-associated characteristics.13. The method of claim 1, wherein said analyte monitoring device is capable of measuring more than one analyte.14. The method of claim 13, wherein one of said analytes is glucose.15. The method of claim 1, wherein one or more of said analyte measurement values, one or more of said error messages, and one or more of said data attributes are transferred to a server via a network.16. The method of claim 15, wherein said formulating is carried out on said server.17. The method of claim 15, wherein said server communicates with said analyte monitoring device.18. One or more analyte data database, comprisingdata points collected using an analyte monitoring device, wherein (i) said analyte monitoring device provides frequent analyte measurement values, and (ii) said analyte measurement values comprise data points that are specifically related to analyte amount or concentration; and one or more error messages related to skipped analyte measurement values, wherein the data points and each of said one or more error messages related to skipped analyte measurement values are associated with one or more relevant data attributes. 19. The one or more databases of claim 18, wherein said data points further comprise derived data determined from one or more acquired data points and the derived data are associated with the data points from which they are derived.20. The one or more databases of claim 19, wherein each of said derived data are associated with one or more data attributes.21. The one or more databases of claim 19, wherein said analyte is glucose and said derived data comprises glucose amount or concentration.22. The one or more databases of claim 18, wherein said analyte measurement values are collected from a single individual.23. The one or more databases of claim 18, wherein said analyte measurement values are collected from more than one individual.24. The one or more databses of claim 18, wherein said analyte is a biological analyte.25. The one or more databases of claim 25, wherein said biological analyte is glucose.26. The one or more databases of claim 18, wherein said acquired data points comprise electrochemical signals.27. The one or more databases of claim 26, wherein said data attributes are selected from the group consisting of: chronological information, user perspiration levels, device operating temperature, missed measurements; skipped measurements, user body temperature, user skin conductance, environmental variables, alarm events, activity codes, total excursion, mean value, statistical function, subject code, demographic information, physical characteristics, and disease-associated characteristics.28. The one or more databases of claim 18, wherein said analyte measurement values comprise analyte measurement values for more than one analyte.29. The one or more databases of claim 28, wherein one of said analytes is glucose.30. A method of manipulating one or more analyte data databases, comprisingproviding the one or more analyte data databases of claim 18 and manipulating said data points via said attributes associated with said data points to determine relationships between said data points and said attributes. 31. The method of claim 30, wherein said one or more analyte databases are located on a network database server.32. The method of claim 31, wherein said manipulating is carried out on said network database server.33. A method of manipulating one or more analyte data databases, comprisingproviding the one or more analyte data databases of claim 18; and manipulating said attributes via said data points associated with said attributes to determine relationships between said attributes and said data points. 34. The method of claim 33, wherein said one or more analyte databases are located on a network database server.35. The method of claim 34, wherein said manipulating is carried out on said network database server.