Diabetes Mellitus, Type 2 Clinical Trial
Official title:
A 26 Week, Multicenter, Randomized, Placebo-Controlled, Double-Blind, Parallel Group, Phase 3 Trial With a 26 Week Safety Extension Period Evaluating the Safety and Efficacy of Dapagliflozin 5 and 10 mg, and Saxagliptin 2.5 and 5 mg in Pediatric Patients With Type 2 Diabetes Mellitus Who Are Between 10 and Below 18 Years of Age
| Verified date | March 2024 |
| Source | AstraZeneca |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
The primary objective of this study is to determine if there will be a greater mean reduction from baseline in glycated hemoglobin (HbA1c) achieved after 26 weeks of oral double-blind add-on therapy of dapagliflozin or saxagliptin compared to placebo in paediatric T2DM patients with HbA1c levels of 6.5 to 10.5% on diet and exercise and metformin, insulin, or metformin plus insulin.
| Status | Completed |
| Enrollment | 256 |
| Est. completion date | January 3, 2024 |
| Est. primary completion date | February 1, 2023 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 10 Years to 18 Years |
| Eligibility | Inclusion Criteria: - Signed Written Informed Consent - Target Population - Previously diagnosed with Type 2 Diabetes Mellitus by World Health Organization/ADA criteria - HbA1c between 6.5% and 10.5% obtained at screening. - Currently on diet and exercise and stable dose of at least 1000 mg metformin (IR or XR) for a minimum of 8 weeks, or stable dose of insulin for a minimum of 8 weeks, or a stable combination of at least 1000 mg metformin (IR or XR) and insulin for a minimum of 8 weeks prior to randomization. For those children on insulin, investigators will confirm that attempts at removing insulin from the subject's therapeutic regimen had been previously made but had not been successful. - Age and Reproductive Status - Male and female patients eligible if 10 years of age, up to but not including 18 years of age at the time of enrollment/screening. At least 30% of total subjects will be between the ages of 10 and 14 years and at least one third, but no more than two thirds, female subjects. - Women of childbearing potential must have a negative pregnancy test within 24 hours prior to the start of study drug. - Women must not be breastfeeding. - Women of childbearing potential must agree to follow instructions for method(s) of contraception for the duration of treatment with study drugs: saxagliptin, and dapagliflozin, plus 5 half-lives of study drugs or 30 days (whichever is longer), plus 30 days (duration of ovulatory cycle) for a total of 60 days post treatment completion. Exclusion Criteria: - Target Disease Exceptions - Presence of Type 1 diabetes, as demonstrated by Preexisting diagnosis of Type 1 diabetes, - Previous diagnosis of monogenic etiology of Type 2 diabetes - Diabetes ketoacidosis (DKA) within 6 months of screening - Current use of the following medications for the treatment of diabetes, or use within the specified timeframe prior to screening for the main study: - Eight weeks: sulfonylureas, alpha glucosidase inhibitors, metiglinide, oral or injectable incretins or incretin mimetics, other antidiabetes medications not otherwise specified. - Sixteen weeks: thiazolidinediones, DPP-4 inhibitors (with no reported medication related AEs related to DPP-4 inhibitors), sodium glucose cotransporter-2 (SGLT-2) inhibitors (with no reported medication related AEs related to SGLT-2 inhibitors) - Initiation or discontinuation of prescription or non-prescription weight loss drugs within 8 weeks of screening. Use of prescription or non-prescription weight loss drugs must be stable during the study. - Medical History and Concurrent Diseases - Pregnant, positive serum pregnancy test, planning to become pregnant during the clinical trials, or breastfeeding - History of unstable or rapidly progressive renal disease - History of unresolved vesico-ureteral reflux - History of or current, acute or chronic pancreatitis - History of hemoglobinopathy, with the exception of sickle cell trait or thalassemia minor; or chronic or recurrent hemolysis - Malignancy within 5 years of the screening visit (with the exception of treated basal cell or treated squamous cell carcinoma) - Replacement or chronic systemic corticosteroid therapy, defined as any dose of systemic corticosteroid taken for > 4 weeks within 3 months prior to the Day 1 visit - Physical and Laboratory Test Findings - Abnormal renal function, - An abnormal thyroid-stimulating hormone (TSH) value at enrollment will be further evaluated for free T4. Subjects with abnormal free T4 values will be excluded. - Hematuria (confirmed by microscopy at screening) with no explanation as judged by the Investigator up to randomization. - Aspartate aminotransferase (AST) or alanine aminotransferase (ALT) > 2× upper limit of normal (ULN), or clinically significant hepatic disease. - Serum total bilirubin (TB) > 2x ULN unless exclusively caused by Gilbert's syndrome - Positive serologic evidence of current infectious liver disease including anti hepatitis A virus (HAV) (IgM), hepatitis B surface antigen (HBsAg), or anti hepatitis C virus (HCV). Patients who have isolated positive anti-hepatitis B surface antibodies may be included. - Anemia of any etiology - Volume-depleted subjects. - Allergies and Adverse Drug Reaction - Known allergy, sensitivity or contraindication to any study drug or its excipient/vehicle - Other Exclusion Criteria - Subject is currently abusing alcohol or other drugs or has done so within the last 6 months prior to the screening visit. - Prisoners or subjects who are involuntarily incarcerated. (Note: under certain specific circumstances a person who has been imprisoned may be included or permitted to continue as a subject. Strict conditions apply and Sponsor/designee approval is required.) - Subjects who are compulsorily detained for treatment of either a psychiatric or physical (e.g., infectious disease) illness. - Psychiatric or cognitive disorder that will, in the opinion of investigators, limit the subject's ability to comply with the study medications and monitoring. - Subjects who have contraindications to therapy as outlined in the saxagliptin and dapagliflozin Investigator Brochure or local package inserts. - Participation and receiving IP in another clinical study during the prior 3 months |
| Country | Name | City | State |
|---|---|---|---|
| Argentina | Research Site | Buenos Aires | |
| Argentina | Research Site | Buenos Aires | |
| Argentina | Research Site | Caba | |
| Argentina | Research Site | Ciudad de Buenos Aires | |
| Argentina | Research Site | San Miguel de Tucuman | |
| Argentina | Research Site | San Miguel de Tucumán | |
| Argentina | Research Site | San Miguel de Tucumán | |
| Australia | Research Site | Blacktown | |
| Brazil | Research Site | Brasilia | |
| Brazil | Research Site | Curitiba | |
| Brazil | Research Site | Fortaleza | |
| Brazil | Research Site | Fortaleza | |
| Brazil | Research Site | Passo Fundo | |
| Brazil | Research Site | Porto Alegre | |
| Brazil | Research Site | Porto Alegre | |
| Brazil | Research Site | Ribeirão Preto | |
| Brazil | Research Site | Santa Maria | |
| Brazil | Research Site | Sao Paulo | |
| Brazil | Research Site | Sao Paulo | |
| Canada | Research Site | Montreal | Quebec |
| Chile | Research Site | Santiago | |
| Colombia | Research Site | Armenia | |
| Colombia | Research Site | Barranquilla | |
| Finland | Research Site | Tampere | |
| India | Research Site | Ahmedabad | |
| India | Research Site | Aurangabad | |
| India | Research Site | Bangalore | |
| India | Research Site | Bikaner | |
| India | Research Site | Chandigarh | |
| India | Research Site | Coimbatore | |
| India | Research Site | Hyderabad | |
| India | Research Site | Kolkata | |
| India | Research Site | Kozhikode | |
| India | Research Site | Nashik | |
| India | Research Site | Pune | |
| India | Research Site | Visakhapatnam | |
| Israel | Research Site | Haifa | |
| Italy | Research Site | Ancona | |
| Italy | Research Site | Napoli | |
| Italy | Research Site | Roma | |
| Korea, Republic of | Research Site | Daejeon-si | |
| Korea, Republic of | Research Site | Incheon | |
| Korea, Republic of | Research Site | Wonju-si | |
| Malaysia | Research Site | George Town | |
| Malaysia | Research Site | Ipoh | |
| Malaysia | Research Site | Johor Bahru | |
| Malaysia | Research Site | Klang | |
| Malaysia | Research Site | Kota Kinabalu | |
| Malaysia | Research Site | Kuala Lumpur | |
| Malaysia | Research Site | Kuching | |
| Malaysia | Research Site | Melaka | |
| Malaysia | Research Site | Putrajaya | |
| Malaysia | Research Site | Seremban | |
| Malaysia | Research Site | Seri Manjung | |
| Malaysia | Research Site | Taiping | |
| Mexico | Research Site | Boca del Rio | |
| Mexico | Research Site | Celaya | |
| Mexico | Research Site | Ciudad Madero | |
| Mexico | Research Site | Cuernavaca | |
| Mexico | Research Site | Cuernavaca | |
| Mexico | Research Site | Culiacán | |
| Mexico | Research Site | Durango | |
| Mexico | Research Site | Guadalajara | |
| Mexico | Research Site | Juriquilla | |
| Mexico | Research Site | Merida | |
| Mexico | Research Site | Mexico | |
| Mexico | Research Site | México, D.F. | |
| Mexico | Research Site | Monterrey | |
| Mexico | Research Site | Monterrey | |
| Mexico | Research Site | San Juan del Rio | |
| Mexico | Research Site | Veracruz | |
| Mexico | Research Site | Zapopan | |
| New Zealand | Research Site | Grafton | |
| New Zealand | Research Site | Tauranga | |
| New Zealand | Research Site | Wellington | |
| Philippines | Research Site | Quezon City | |
| Philippines | Research Site | Quezon City | |
| Philippines | Research Site | San Fernando City | |
| Poland | Research Site | Warszawa | |
| Russian Federation | Research Site | Izhevsk | |
| Russian Federation | Research Site | Moscow | |
| Russian Federation | Research Site | Ufa | |
| Taiwan | Research Site | Tainan City | |
| Taiwan | Research Site | Taipei | |
| Thailand | Research Site | Bangkok | |
| Thailand | Research Site | Hat Yai | |
| Turkey | Research Site | Aydin | |
| Turkey | Research Site | Bursa | |
| Turkey | Research Site | Eskisehir | |
| Turkey | Research Site | Istanbul | |
| Turkey | Research Site | Izmir | |
| Turkey | Research Site | Izmir | |
| Turkey | Research Site | Kocaeli | |
| Turkey | Research Site | Kurupelit | |
| Turkey | Research Site | Manisa | |
| Ukraine | Research Site | Dnipro | |
| Ukraine | Research Site | Kyiv | |
| Ukraine | Research Site | Vinnytsia | |
| United Kingdom | Research Site | Birmingham | |
| United Kingdom | Research Site | London | |
| United Kingdom | Research Site | London | |
| United Kingdom | Research Site | Middlesborough | |
| United Kingdom | Research Site | Nottingham | |
| United States | Research Site | Atlanta | Georgia |
| United States | Research Site | Atlanta | Georgia |
| United States | Research Site | Charlottesville | Virginia |
| United States | Research Site | Edinburg | Texas |
| United States | Research Site | Harlingen | Texas |
| United States | Research Site | Hialeah | Florida |
| United States | Research Site | Hialeah | Florida |
| United States | Research Site | Hollywood | Florida |
| United States | Research Site | Idaho Falls | Idaho |
| United States | Research Site | McAllen | Texas |
| United States | Research Site | Memphis | Tennessee |
| United States | Research Site | Memphis | Tennessee |
| United States | Research Site | Miami | Florida |
| United States | Research Site | Miami | Florida |
| United States | Research Site | Miami | Florida |
| United States | Research Site | Miami Springs | Florida |
| United States | Research Site | Neptune | New Jersey |
| United States | Research Site | New Haven | Connecticut |
| United States | Research Site | Sacramento | California |
| United States | Research Site | San Antonio | Texas |
| Lead Sponsor | Collaborator |
|---|---|
| AstraZeneca |
United States, Argentina, Australia, Brazil, Canada, Chile, Colombia, Finland, India, Israel, Italy, Korea, Republic of, Malaysia, Mexico, New Zealand, Philippines, Poland, Russian Federation, Taiwan, Thailand, Turkey, Ukraine, United Kingdom,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Dapagliflozin Versus Placebo: Adjusted Mean Change From Baseline in HbA1c at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline HbA1c as covariate. Missing Week 26 data was handled based on multiple imputation washout (MI-WO) within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 | |
| Primary | Saxagliptin Versus Placebo: Adjusted Mean Change From Baseline in HbA1c at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline HbA1c as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 | |
| Secondary | Dapagliflozin Low-dose/High-dose Versus Placebo (Weighted): Adjusted Mean Change From Baseline in HbA1c at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline HbA1c as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Dapagliflozin participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 0; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 2; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Saxagliptin Low-dose/High-dose Versus Placebo (Weighted): Adjusted Mean Change From Baseline in HbA1c at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline HbA1c as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Saxagliptin participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 0; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 2; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Dapagliflozin Low-dose Versus Placebo (Weighted): Adjusted Mean Change From Baseline in HbA1c at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline HbA1c as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Dapagliflozin participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 2; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 0; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Saxagliptin Low-dose Versus Placebo (Weighted): Adjusted Mean Change From Baseline in HbA1c at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline HbA1c as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Saxagliptin participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 2; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 0; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Dapagliflozin Versus Placebo: Adjusted Mean Change From Baseline in Fasting Plasma Glucose (FPG) at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline FPG as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 | |
| Secondary | Saxagliptin Versus Placebo: Adjusted Mean Change From Baseline in FPG at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline FPG as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 | |
| Secondary | Dapagliflozin Low-dose/High-dose Versus Placebo (Weighted): Adjusted Mean Change From Baseline in FPG at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline FPG as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Dapagliflozin participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 0; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 2; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Saxagliptin Low-dose/High-dose Versus Placebo (Weighted): Adjusted Mean Change From Baseline in FPG at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline FPG as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Saxagliptin participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 0; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 2; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Dapagliflozin Low-dose Versus Placebo (Weighted): Adjusted Mean Change From Baseline in FPG at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline FPG as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Dapagliflozin participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 2; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 0; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Saxagliptin Low-dose Versus Placebo (Weighted): Adjusted Mean Change From Baseline in FPG at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline FPG as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Saxagliptin participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 2; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 0; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Percentage of Participants With Baseline HbA1c = 7% Who Achieved HbA1c < 7% at Week 26 | A logistic regression model adjusting for sex, age group, background antidiabetes medication and Baseline HbA1c was used. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 | |
| Secondary | Low-dose/High-dose Versus Placebo (Weighted): Percentage of Participants With Baseline HbA1c = 7% Who Achieved HbA1c < 7% at Week 26 | A weighted logistic regression model adjusting for sex, age group, background antidiabetes medication and Baseline HbA1c was used. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 0; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 2; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Low-dose Versus Placebo (Weighted): Percentage of Participants With Baseline HbA1c = 7% Who Achieved HbA1c < 7% at Week 26 | A weighted logistic regression model adjusting for sex, age group, background antidiabetes medication and Baseline HbA1c was used. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. Participants were weighted as follows: participants who had HbA1c < 7% at Week 12 and remained on low-dose were assigned a weight of 1; participants who had HbA1c >= 7% at Week 12 and continued on the low-dose were assigned a weight of 2; participants who had HbA1c >= 7% at Week 12 and received the high-dose were assigned a weight of 0; all participants who do not undergo second randomisation were assigned a weight of 1. Placebo participants were assigned a weight of 1. |
Baseline and Week 26 | |
| Secondary | Low-dose Versus Uptitration to the High Dose: Adjusted Mean Change From Baseline in HbA1c at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline HbA1c as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 | |
| Secondary | Low-dose Versus Uptitration to the High Dose: Adjusted Mean Change From Baseline in FPG at Week 26 | Data was analysed with an ANCOVA model with treatment, sex, age group and background antidiabetes medication as factors and Baseline FPG as covariate. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 | |
| Secondary | Dapagliflozin Low-dose Versus Uptitration to the High Dose: Percentage of Participants With Baseline HbA1c = 7% Who Achieved HbA1c < 7% at Week 26 | A Fisher's exact test was used and unadjusted difference in percentage of participants and Clopper-Pearson CIs presented using imputed data. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 | |
| Secondary | Saxagliptin Low-dose Versus Uptitration to the High Dose: Percentage of Participants With Baseline HbA1c = 7% Who Achieved HbA1c < 7% at Week 26 | A Fisher's exact test was used and unadjusted difference in percentage of participants and Clopper-Pearson CIs presented using imputed data. Missing Week 26 data was handled based on MI-WO within each arm using the data from placebo participants with Week 26 data. | Baseline and Week 26 |
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