Glucose sensor signal stability analysis
First Claim
1. A method comprising:
- obtaining a series of samples of at least one sensor signal that is responsive to a blood glucose level of a patient wherein the at least one sensor signal is generated by a glucose sensor during a time that the glucose sensor is in contact with the patient;
determining, using the series of samples and using one or more processors, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time;
assessing a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend and using the one or more processors; and
in response to the assessing the reliability of the at least one sensor signal, altering an infusion treatment for the patient, or transmitting notification to the patient or a healthcare provider indicative of the reliability of the at least one sensor signal,wherein the assessing the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold,wherein the at least one sensor signal is assessed to not be drifting or the at least one sensor is assessed to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold,wherein the at least one sensor signal is assessed to be drifting or the at least one sensor is assessed to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds,wherein the at least one sensor is assessed to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, andwherein the determining of the at least one metric assessing the underlying trend comprises determining the at least one metric using a slope of a linear regression that is derived at least partly from the series of samples of the at least one sensor signal.
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Abstract
Disclosed are methods, apparatuses, etc. for glucose sensor signal stability analysis. In certain example embodiments, a series of samples of at least one sensor signal that is responsive to a blood glucose level of a patient may be obtained. Based at least partly on the series of samples, at least one metric may be determined to assess an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time. A reliability of the at least one sensor signal to respond to the blood glucose level of the patient may be assessed based at least partly on the at least one metric assessing the underlying trend. Other example embodiments are disclosed herein.
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Citations
10 Claims
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1. A method comprising:
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obtaining a series of samples of at least one sensor signal that is responsive to a blood glucose level of a patient wherein the at least one sensor signal is generated by a glucose sensor during a time that the glucose sensor is in contact with the patient; determining, using the series of samples and using one or more processors, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assessing a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend and using the one or more processors; and in response to the assessing the reliability of the at least one sensor signal, altering an infusion treatment for the patient, or transmitting notification to the patient or a healthcare provider indicative of the reliability of the at least one sensor signal, wherein the assessing the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold, wherein the at least one sensor signal is assessed to not be drifting or the at least one sensor is assessed to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the at least one sensor signal is assessed to be drifting or the at least one sensor is assessed to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the at least one sensor is assessed to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the determining of the at least one metric assessing the underlying trend comprises determining the at least one metric using a slope of a linear regression that is derived at least partly from the series of samples of the at least one sensor signal.
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2. A method comprising:
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obtaining a series of samples of at least one sensor signal that is responsive to a blood glucose level of a patient wherein the at least one sensor signal is generated by a glucose sensor during a time that the glucose sensor is in contact with the patient; transforming the series of samples of the at least one sensor signal to derive a monotonic curve; determining, using the series of samples and using one or more processors, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assessing a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend and using the one or more processors; and in response to the assessing the reliability of the at least one sensor signal, altering an infusion treatment for the patient, or transmitting notification to the patient or a healthcare provider indicative of the reliability of the at least one sensor signal, wherein the assessing the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold, wherein the at least one sensor signal is assessed to not be drifting or the at least one sensor is assessed to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the at least one sensor signal is assessed to be drifting or the at least one sensor is assessed to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the at least one sensor is assessed to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the determining of the at least one metric assessing the underlying trend comprises determining the at least one metric using a slope of a linear regression that is derived at least partly from the monotonic curve.
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3. A method comprising:
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obtaining a series of samples of at least one sensor signal that is responsive to a blood glucose level of a patient wherein the at least one sensor signal is generated by a glucose sensor during a time that the glucose sensor is in contact with the patient; determining, using the series of samples and using one or more processors, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assessing a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend and using the one or more processors; and in response to the assessing the reliability of the at least one sensor signal, altering an infusion treatment for the patient, or transmitting notification to the patient or a healthcare provider indicative of the reliability of the at least one sensor signal, wherein the assessing the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold, wherein the at least one sensor signal is assessed to not be drifting or the at least one sensor is assessed to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the at least one sensor signal is assessed to be drifting or the at least one sensor is assessed to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the at least one sensor is assessed to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the determining of the at least one metric assessing the underlying trend comprises determining the at least one metric by iteratively updating a trend estimation at multiple samples of the series of samples of the at least one sensor signal based at least partly on a trend estimation at a previous sample and a growth term.
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4. A method comprising:
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obtaining a series of samples of at least one sensor signal that is responsive to a blood glucose level of a patient wherein the at least one sensor signal is generated by a glucose sensor during a time that the glucose sensor is in contact with the patient; determining, using the series of samples and using one or more processors, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assessing a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend and using the one or more processors; and in response to the assessing the reliability of the at least one sensor signal, altering an infusion treatment for the patient, or transmitting notification to the patient or a healthcare provider indicative of the reliability of the at least one sensor signal, wherein the assessing the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold, wherein the at least one sensor signal is assessed to not be drifting or the at least one sensor is assessed to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the at least one sensor signal is assessed to be drifting or the at least one sensor is assessed to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the at least one sensor is assessed to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the determining of the at least one metric assessing the underlying trend comprises determining the at least one metric by; decomposing the at least one sensor signal as represented by the series of samples using at least one empirical mode decomposition and one or more spline functions to derive a monotonic curve; and calculating the slope of a linear regression, the linear regression being derived at least partly from the monotonic curve.
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5. A method comprising:
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obtaining a series of samples of at least one sensor signal that is responsive to a blood glucose level of a patient wherein the at least one sensor signal is generated by a glucose sensor during a time that the glucose sensor is in contact with the patient; determining, using the series of samples and using one or more processors, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assessing a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend and using the one or more processors; and in response to the assessing the reliability of the at least one sensor signal, altering an infusion treatment for the patient, or transmitting notification to the patient or a healthcare provider indicative of the reliability of the at least one sensor signal, wherein the assessing the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold, wherein the at least one sensor signal is assessed to not be drifting or the at least one sensor is assessed to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the at least one sensor signal is assessed to be drifting or the at least one sensor is assessed to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the at least one sensor is assessed to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the determining of the at least one metric assessing the underlying trend comprises determining the at least one metric by; decomposing the at least one sensor signal as represented by the series of samples using at least one discrete wavelet transform; and reconstructing a smoothed signal from one or more approximation coefficients resulting from the at least one discrete wavelet transform.
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6. An apparatus for use with a healthcare provider and with at least one sensor configured to generate at least one sensor signal that is responsive to a blood glucose level of a patient, the apparatus comprising:
a controller to obtain a series of samples of the at least one sensor signal, the controller comprising one or more processors to; determine, using the series of samples, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assess a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend, wherein the assessing of the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold; and in response to the assessing the reliability of the at least one sensor signal, alter an infusion treatment for the patient, or transmit notification to the patient or the healthcare provider indicative of the reliability of the at least one sensor signal, wherein the one or more processors are further to assess the at least one sensor signal to not be drifting or to assess the at least one sensor to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the one or more processors are further to assess the at least one sensor signal to be drifting or to assess the at least one sensor to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the one or more processors are further to assess the at least one sensor to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the one or more processors are further to determine the at least one metric assessing the underlying trend by using a slope of a linear regression that is derived at least partly from the series of samples of the at least one sensor signal.
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7. An apparatus for use with a healthcare provider and with at least one sensor configured to generate at least one sensor signal that is responsive to a blood glucose level of a patient, the apparatus comprising:
a controller to obtain a series of samples of the at least one sensor signal, the controller comprising one or more processors to; transform the series of samples of the at least one sensor signal to derive a monotonic curve; determine, using the series of samples, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assess a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend, wherein the assessing of the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold; and in response to the assessing the reliability of the at least one sensor signal, alter an infusion treatment for the patient, or transmit notification to the patient or the healthcare provider indicative of the reliability of the at least one sensor signal, wherein the one or more processors are further to assess the at least one sensor signal to not be drifting or to assess the at least one sensor to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the one or more processors are further to assess the at least one sensor signal to be drifting or to assess the at least one sensor to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the one or more processors are further to assess the at least one sensor to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the one or more processors are further to determine the at least one metric assessing the underlying trend by using a slope of a linear regression that is derived at least partly from the monotonic curve.
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8. An apparatus for use with a healthcare provider and with at least one sensor configured to generate at least one sensor signal that is responsive to a blood glucose level of a patient, the apparatus comprising:
a controller to obtain a series of samples of the at least one sensor signal, the controller comprising one or more processors to; determine, using the series of samples, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assess a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend, wherein the assessing of the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold; and in response to the assessing the reliability of the at least one sensor signal, alter an infusion treatment for the patient, or transmit notification to the patient or the healthcare provider indicative of the reliability of the at least one sensor signal, wherein the one or more processors are further to assess the at least one sensor signal to not be drifting or to assess the at least one sensor to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the one or more processors are further to assess the at least one sensor signal to be drifting or to assess the at least one sensor to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the one or more processors are further to assess the at least one sensor to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the one or more processors are further to determine the at least one metric assessing the underlying trend by iteratively updating a trend estimation at multiple samples of the series of samples of the at least one sensor signal based at least partly on a trend estimation at a previous sample and a growth term.
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9. An apparatus for use with a healthcare provider and with at least one sensor configured to generate at least one sensor signal that is responsive to a blood glucose level of a patient, the apparatus comprising:
a controller to obtain a series of samples of the at least one sensor signal, the controller comprising one or more processors to; determine, using the series of samples, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assess a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend, wherein the assessing of the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold; and in response to the assessing the reliability of the at least one sensor signal, alter an infusion treatment for the patient, or transmit notification to the patient or the healthcare provider indicative of the reliability of the at least one sensor signal, wherein the one or more processors are further to assess the at least one sensor signal to not be drifting or to assess the at least one sensor to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the one or more processors are further to assess the at least one sensor signal to be drifting or to assess the at least one sensor to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the one or more processors are further to assess the at least one sensor to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the one or more processors are further to determine the at least one metric assessing the underlying trend by; decomposing the at least one sensor signal as represented by the series of samples using at least one empirical mode decomposition and one or more spline functions to derive a monotonic curve; and calculating the slope of a linear regression, the linear regression being derived at least partly from the monotonic curve.
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10. An apparatus for use with a healthcare provider and with at least one sensor configured to generate at least one sensor signal that is responsive to a blood glucose level of a patient, the apparatus comprising:
a controller to obtain a series of samples of the at least one sensor signal, the controller comprising one or more processors to; determine, using the series of samples, at least one metric assessing an underlying trend of a change in responsiveness of the at least one sensor signal to the blood glucose level of the patient over time; assess a reliability of the at least one sensor signal to respond to the blood glucose level of the patient using the at least one metric assessing the underlying trend, wherein the assessing of the reliability of the at least one sensor signal comprises comparing the at least one metric with at least a first predetermined threshold and a second predetermined threshold; and in response to the assessing the reliability of the at least one sensor signal, alter an infusion treatment for the patient, or transmit notification to the patient or the healthcare provider indicative of the reliability of the at least one sensor signal, wherein the one or more processors are further to assess the at least one sensor signal to not be drifting or to assess the at least one sensor to be stable, or both, if an absolute value of the underlying trend is less than the first predetermined threshold, wherein the one or more processors are further to assess the at least one sensor signal to be drifting or to assess the at least one sensor to be unstable, or both, if the absolute value of the underlying trend is between the first and second predetermined thresholds, wherein the one or more processors are further to assess the at least one sensor to be dying, if the absolute value of the underlying trend is greater than the second predetermined threshold, and wherein the one or more processors are further to determine the at least one metric assessing the underlying trend by; decomposing the at least one sensor signal as represented by the series of samples using at least one discrete wavelet transform; and reconstructing a smoothed signal from one or more approximation coefficients resulting from the at least one discrete wavelet transform.
Specification