Medical device for predicting a user's future glycemic state
First Claim
1. A medical device for predicting a user'"'"'s future glycemic state comprising:
- a memory module;
a processor module; and
a user alert module,wherein the memory module is configured to receive and store a plurality of glucose concentrations as a function of time that were generated by a user'"'"'s use of a continuous glucose monitor, andwherein the processor module is configured to;
derive a first glucose prediction equation that is a fit to the plurality of glucose concentrations as a function of time stored in the memory module, the fit being based on a first mathematical model;
derive a second glucose prediction equation that is a fit to the plurality of glucose concentrations as a function of time, the fit being based on a second mathematical model;
calculate a first predicted glucose concentration g1(tf) at a predetermined future time using the first glucose prediction equation;
calculate a second predicted glucose concentration g2(tf) at the predetermined future time using the second glucose prediction equation;
calculate an average predicted glucose concentration and a merit index M based on the first and second predicted glucose calculations;
input the plurality of glucose concentrations as a function of time, the average predicted glucose concentration and the merit index into a trained model that outputs a set of glucose concentration probabilities for the predetermined future time,predict the user'"'"'s future glycemic state based on the set of glucose concentration probabilities;
wherein the user alert module is configured to alert the user in a manner dependent on the predicted user'"'"'s future glycemic state; and
wherein the processor module calculates the merit index using the following algorithms;
M=g2(tf)−
g1(tf)/g2(tf), if g2(tf)≧
g1(tf)
M=g1(tf)−
g2(tf)/g1(tf), if g2(tf)<
g1(tf).
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Accused Products
Abstract
A medical device for predicting a user'"'"'s future glycemic state includes a memory module, a processor module and a user alert module. The memory module is configured to receive and store a plurality of glucose concentrations as a function of time that were generated by a user'"'"'s use of a continuous glucose monitor. The processor module is configured to derive first and second glucose prediction equations that are fits to the plurality of glucose concentrations stored in the memory module with the fits being based on first and second mathematical models, respectively. The processor module is also configured to calculate first and second predicted glucose concentrations at a future time using the first and second glucose prediction equations, respectively, and to also calculate an average predicted glucose concentration and a merit index based on the first and second predicted glucose calculations. The processor module is further configured to input the plurality of glucose concentrations as a function of time, the average predicted glucose concentration and the merit index into a trained model (e.g., a Hidden Markov Model) that outputs a set of glucose concentration probabilities for the future time and to then predict the user'"'"'s future glycemic state based on the set of glucose concentration probabilities. The user alert module is configured to alert the user in a manner dependent on the predicted user'"'"'s future glycemic state.
157 Citations
7 Claims
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1. A medical device for predicting a user'"'"'s future glycemic state comprising:
-
a memory module; a processor module; and a user alert module, wherein the memory module is configured to receive and store a plurality of glucose concentrations as a function of time that were generated by a user'"'"'s use of a continuous glucose monitor, and wherein the processor module is configured to; derive a first glucose prediction equation that is a fit to the plurality of glucose concentrations as a function of time stored in the memory module, the fit being based on a first mathematical model; derive a second glucose prediction equation that is a fit to the plurality of glucose concentrations as a function of time, the fit being based on a second mathematical model; calculate a first predicted glucose concentration g1(tf) at a predetermined future time using the first glucose prediction equation; calculate a second predicted glucose concentration g2(tf) at the predetermined future time using the second glucose prediction equation; calculate an average predicted glucose concentration and a merit index M based on the first and second predicted glucose calculations; input the plurality of glucose concentrations as a function of time, the average predicted glucose concentration and the merit index into a trained model that outputs a set of glucose concentration probabilities for the predetermined future time, predict the user'"'"'s future glycemic state based on the set of glucose concentration probabilities; wherein the user alert module is configured to alert the user in a manner dependent on the predicted user'"'"'s future glycemic state; and wherein the processor module calculates the merit index using the following algorithms;
M=g2(tf)−
g1(tf)/g2(tf), if g2(tf)≧
g1(tf)
M=g1(tf)−
g2(tf)/g1(tf), if g2(tf)<
g1(tf). - View Dependent Claims (2, 5, 6, 7)
-
- 3. The medical device of 1 wherein the processor predicts the probability that the user will be in a hypoglycemic state at the predetermined future time based on the set of glucose concentration probabilities.
Specification