US2017316153A1PendingUtilityA1
Method for determining risk of diabetes
Est. expiryOct 29, 2029(~3.3 yrs left)· nominal 20-yr term from priority
G06F 19/24G06F 19/18G16B 40/00G16B 20/20G16B 40/30G16H 50/30G16H 50/20G16B 20/00
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Claims
Abstract
A method of determining risk of diabetes is provided. In one embodiment, the method comprises: a) measuring the levels of a plurality of biomarkers in a blood samples obtained from a patient, wherein the plurality of biomarkers comprises at least five of the following biomarkers: glucose, adiponectin, CRP, IL2RA, ferritin, insulin and HbA1c; b) calculating a diabetes risk score for the patients using the levels and, optionally, patient age and/or gender. Results obtained from performing the assay on a reference population are similar or identical to those obtained using Formula I.
Claims
exact text as granted — not AI-modified1 - 14 . (canceled)
15 . A method of preventing development of diabetes in a subject, comprising:
a) measuring levels of a plurality of biomarkers in a blood sample obtained from the human subject, wherein said plurality of biomarkers comprises at least five of the following biomarkers: glucose, adiponectin, CRP, IL2RA, ferritin, insulin and HbA1c; b) calculating a diabetes risk score for said subject as a function of said measured levels and optionally, the subject's age and/or gender; and c) applying the function of measured biomarker levels and optional age and/or gender of the subject to measured biomarker levels and optional age and/or gender of a human reference population to generate a risk profile associated with the reference population, the risk profile has a 95% confidence interval of a Spearman rank correlation coefficient squared (R 2 ) that is entirely above or includes a correlation value of 0.5 with a comparative risk profile associated with the reference population.
16 . The method of claim 15 , wherein said human reference population comprises at least 25 subjects.
17 . The method of claim 15 , wherein the subjects of said human reference population are randomly chosen from a larger population of human subjects.
18 . The method of claim 15 , wherein a step of initiating a therapeutic intervention or a treatment regimen to delay, reduce or prevent the human subject's conversion to a diabetes disease state is performed if the calculated diabetes risk score indicates a risk that the subject has a high risk of developing diabetes.
19 . A method of preventing a human subject from developing diabetes if a categorical risk assessment associated with the human subject falls within a high risk mutually exclusive ordered risk category or a moderate risk mutually exclusive ordered risk category from among a plurality of mutually exclusive ordered risk categories consisting of high risk, moderate risk and low risk, comprising:
a) measuring levels of a plurality of biomarkers in a sample obtained from the human subject, wherein said plurality of biomarkers comprises at least five of the following biomarkers: glucose, adiponectin, CRP, IL2RA, ferritin, insulin and HbA1c; and b) generating a categorical risk assessment associated with the human subject generated as a function of a diabetes risk score (D) using said measured levels and optionally, the subject's age and/or gender, wherein when a plurality of categorized risk assessments from a plurality of human subjects is compared to a plurality of comparative categorized risk assessments from a human reference population each generated as a function of levels of at least five of: glucose, adiponectin, CRP, IL2RA, ferritin, insulin and HbA1c associated with each human reference population subject, and optionally each human reference population subject's age and/or gender, the plurality of comparative categorized risk assessments from the human reference population:
is not independent with 95% confidence, using a chi-squared test, from the categorical risk assessments, and
each mutually exclusive ordered risk category includes a range of diabetes risk scores (D) selected such that each individual mutually exclusive ordered risk category includes an identical number of human subjects as a number of human reference population subjects included in a corresponding mutually exclusive ordered risk category generated as a function of the levels of at least five of: glucose, adiponectin, CRP, IL2RA, ferritin, insulin and HbA1c associated with each human reference population subject, and optionally each human reference population subject's age and/or gender.
20 . The method of claim 19 , wherein said subject is categorized into one of said risk categories using at least the levels of glucose, adiponectin, CRP and HbA1c in the blood of said subject, and subject age.
21 . The method of claim 19 , wherein said human reference population comprises at least 25 subjects.
22 . The method of claim 19 , wherein the subjects of said human reference population are randomly chosen from a larger population of human subjects.
23 . A method of preventing development of diabetes in a subject, comprising:
administering a therapeutic intervention or a treatment regimen to delay, reduce or prevent the subject's conversion to a diabetes disease state wherein the subject has been determined to have a high risk of developing diabetes by a method comprising: a) calculating a diabetes risk score for the subject as a function of measured levels of a plurality of biomarkers comprising at least five of: glucose, adiponectin, CRP, IL2RA, ferritin, insulin and HbA1c from a blood sample obtained from the subject, and optionally, the subject's age and/or gender; and b) applying the function of measured biomarker levels and optional age and/or gender of the subject to measured biomarker levels and optional age and/or gender of a human reference population to generate a risk profile associated with the reference population, the risk profile has a 95% confidence interval of a Spearman rank correlation coefficient squared (R 2 )that is entirely above or includes a correlation value of 0.5 with a comparative risk profile associated with the reference population generated from the formula:
D=X+ 0.062*Age−0.64*Gender+1.62*GLUCOSE−3.37*ADIPOQ+0.60*CRP+0.70*FTH1+1.35*IL2RA+0.49*INSULIN+0.26*HBA1C,
wherein:
0.062*Age is subject age in years multiplied by 0.062;
0.64*Gender is subject gender, wherein female=0 and male=1, multiplied by 0.64;
1.62*GLUCOSE is the square root of the level of subject blood glucose in mg/dL, multiplied by 1.62;
3.37*ADIPOQ is the log10 of the level of subject blood adiponectin in μg/mL, multiplied by 3.37;
0.60*CRP is the log10 of level of subject blood CRP in mg/L, multiplied by 0.60;
0.70*FTH1 is the log10 of the level of subject blood level ferritin in ng/mL, multiplied by 0.70;
1.35*IL2RA is the log10 of the level of subject blood IL2RA in U/mL, multiplied by 1.35;
0.49*INSULIN is the log10 of the level of subject blood insulin in ulU/mL, multiplied by 0.49;
0.26*HBA1C is the level of subject blood Hb1Ac measured in as a percentage of total hemoglobin in blood multiplied by 0.26; and
X is any number.
24 . The method of claim 23 , wherein said human reference population comprises at least 25 subjects.
25 . The method of claim 23 , wherein the subjects of said human reference population are randomly chosen from a larger population of human subjects.Cited by (0)
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