Closed-loop control of glucose according to a predicted blood glucose trajectory
First Claim
1. A method comprising:
- predicting a trajectory of a blood glucose level of a patient based, at least in part, on past observations of said blood glucose level;
determining a cost expression based, at least in part, on said predicted trajectory,wherein said cost expression is based, at least in part, on a first duration of time that said trajectory is predicted to be under a lower bound blood glucose limit of a target blood glucose concentration range, and is also based, at least in part, on a second duration of time that said trajectory is predicted to be above an upper bound blood glucose limit of said target blood glucose concentration range, the first duration of time corresponding to a predicted hypoglycemic time period, and the second duration of time corresponding to a predicted hyperglycemic time period,wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range under the lower bound blood glucose limit during said first duration of time, andwherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range above the upper bound blood glucose limit during said second duration of time; and
affecting at least one future command to at least one infusion pump so as to shorten the predicted hypoglycemic time period and to shorten the predicted hyperglycemic time period according to said cost expression.
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Abstract
Presented here are techniques for controlling glucose levels of a patient based on predicted time to a target glucose level. One methodology predicts a trajectory of the blood glucose level based on past observations of the blood glucose level, determines a cost expression based on the trajectory, and affects a future command to an infusion pump to affect a cost value according to the cost expression. Another methodology defines a target blood glucose concentration level for the patient, observes a current blood glucose concentration for the patient based on signals received from a blood-glucose sensor, and predicts a duration of time for the patient'"'"'s blood glucose concentration to reach the target blood glucose concentration level based on the observed current blood glucose concentration.
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Citations
10 Claims
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1. A method comprising:
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predicting a trajectory of a blood glucose level of a patient based, at least in part, on past observations of said blood glucose level; determining a cost expression based, at least in part, on said predicted trajectory, wherein said cost expression is based, at least in part, on a first duration of time that said trajectory is predicted to be under a lower bound blood glucose limit of a target blood glucose concentration range, and is also based, at least in part, on a second duration of time that said trajectory is predicted to be above an upper bound blood glucose limit of said target blood glucose concentration range, the first duration of time corresponding to a predicted hypoglycemic time period, and the second duration of time corresponding to a predicted hyperglycemic time period, wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range under the lower bound blood glucose limit during said first duration of time, and wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range above the upper bound blood glucose limit during said second duration of time; and affecting at least one future command to at least one infusion pump so as to shorten the predicted hypoglycemic time period and to shorten the predicted hyperglycemic time period according to said cost expression. - View Dependent Claims (2, 3, 4, 5)
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6. An apparatus comprising:
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one or more infusion pumps to infuse a substance into a body in response to commands; and a controller to; predict a trajectory of a blood glucose level of said body based, at least in part, on past observations of said blood glucose level; determine a cost expression based, at least in part, on said predicted trajectory, wherein said cost expression is based, at least in part, on a first duration of time that said trajectory is predicted to be under a lower bound blood glucose limit of a target blood glucose concentration range, and is also based, at least in part, on a second duration of time that said trajectory is predicted to be above an upper bound blood glucose limit of said target blood glucose concentration range, the first duration of time corresponding to a predicted hypoglycemic time period, and the second duration of time corresponding to a predicted hyperglycemic time period, wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range under said lower bound blood glucose limit during said first duration of time, and wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range above said upper bound blood glucose limit during said second duration of time; and affect at least one future command to said one or more infusion pumps so as to shorten the predicted hypoglycemic time period and to shorten the predicted hyperglycemic time period wherein the at least one future command controls the system operation according to said cost expression. - View Dependent Claims (7, 8)
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9. An article comprising:
a non-transitory storage medium comprising machine-readable instructions executable by a special purpose computing apparatus to; predict a trajectory of a blood glucose level of the body based, at least in part, on past observations of said blood glucose level; determine a cost expression based, at least in part, on said predicted trajectory, wherein said cost expression is based, at least in part, on a first duration of time that said trajectory is predicted to be under a lower bound blood glucose limit of a target blood glucose concentration range, and is also based, at least in part, on a second duration of time that said trajectory is predicted to be above an upper bound blood glucose limit of said target blood glucose concentration range, the first duration of time corresponding to a predicted hypoglycemic time period, and the second duration of time corresponding to a predicted hyperglycemic time period, wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range under said lower bound blood glucose limit during said first duration of time, and wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range above said upper bound blood glucose limit during said second duration of time; and affect at least one future command to one or more infusion pumps so as to shorten the predicted hypoglycemic time period and to shorten the predicted hyperglycemic time period according to said cost expression.
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10. An apparatus comprising:
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a means for predicting a trajectory of a blood glucose level of a patient based, at least in part, on past observations of said blood glucose level; a means for determining a cost expression based, at least in part, on said predicted trajectory, wherein said cost expression is based, at least in part, on a first duration of time that said trajectory is predicted to be under a lower bound blood glucose limit of a target blood glucose concentration range, and is also based, at least in part, on a second duration of time that said trajectory is predicted to be above an upper bound blood glucose limit of said target blood glucose concentration range, the first duration of time corresponding to a predicted hypoglycemic time period, and the second duration of time corresponding to a predicted hyperglycemic time period, wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range under said lower bound blood glucose limit during said first duration of time, and wherein said cost expression is further based, at least in part, on a degree or extent to which said predicted blood glucose level is to extend outside of the target blood glucose concentration range above said upper bound blood glucose limit during said second duration of time; and a means for affecting at least one future command to at least one infusion pump to infuse a substance into the patient, and so as to shorten the predicted hypoglycemic time period and to shorten the predicted hyperglycemic time period according to said cost expression.
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Specification