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NCT02501161 Clinical Trial

A 104 Week Clinical Trial Comparing Long Term Glycaemic Control of Insulin Degludec/Liraglutide (IDegLira) Versus Insulin Glargine Therapy in Subjects With Type 2 Diabetes Mellitus

Diabetes Mellitus, Type 2 Clinical Trial

DUAL™ VIII

Official title:
A Clinical Trial Comparing Long Term Glycaemic Control of Insulin Degludec/Liraglutide (IDegLira) Versus Insulin Glargine Therapy in Subjects With Type 2 Diabetes Mellitus

Clinical Trial Details — Status: Completed

Administrative data
NCT number NCT02501161
Other study ID # NN9068-4228
Secondary ID 2014-005639-15U1
Status Completed
Phase Phase 3
First received
Last updated
Start date January 31, 2016
Est. completion date October 3, 2018

Study information
Verified date November 2019
Source Novo Nordisk A/S
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This trial is conducted in Africa, Asia, Europe, North America and South America. The purpose is to compare long-term glycaemic control of insulin degludec/liraglutide (IDegLira) versus insulin glargine (IGlar) in insulin naïve subjects with type 2 diabetes mellitus inadequately controlled with oral anti diabetics.

Recruitment information / eligibility
Status Completed
Enrollment 1012
Est. completion date October 3, 2018
Est. primary completion date October 3, 2018
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria:

- Male or female, age greater than or equal to 18 years at the time of signing informed consent

- Subjects diagnosed with type 2 diabetes mellitus

- HbA1c 7.0-11.0% (both inclusive) (53-97 mmol/mol) by central laboratory analysis

- Body mass index greater than or equal to 20 kg/m^2

- Insulin naïve subjects; however short term insulin treatment for a maximum of 14 days prior to the day of screening is allowed, as is prior insulin treatment for gestational diabetes

- Stable daily dose(s) including any of the following antidiabetic drug(s)/regimens within 90 days prior to the day of screening: a) Biguanides (metformin greater than or equal to 1500 mg or maximum tolerated dose documented in the subject medical record), b) Other OAD(s) allowed: sulphonylurea, glinides, pioglitazone, and DPP4-inhibitors (greater than or equal to half of the maximum approved dose according to local label or maximum tolerated dose as documented in subjects medical record)

Exclusion Criteria:

- Screening calcitonin greater than or equal to 50 ng/L

- Renal impairment estimated Glomerular Filtration Rate (eGFR) less than 60 ml/min/1.73 m2 as per CKD-EPI value to be defined as listed in the classification CKD-EPI using IDMS for serum creatinine measurement on the day of screening

- Impaired liver function, defined as ALAT or ASAT greater than or equal to 2.5 times upper limit of normal

- Family or personal history of Multiple Endocrine Neoplasia Type 2 or Medullary Thyroid Carcinoma

- History of pancreatitis (acute or chronic)

- Treatment with any medication for the indication of diabetes or obesity other than stated in the inclusion criteria in a period of 90 days before the day of screening

- Anticipated initiation or change in concomitant medications for more than 14 consecutive days or on a frequent basis known to affect weight or glucose metabolism (e.g. orlistat, thyroid hormones, corticosteroids)

Study Design

Related Conditions & MeSH terms

Intervention

Drug:
insulin degludec/liraglutide
Injected subcutaneously (under the skin) once daily for 104 weeks. Dose individually adjusted.
insulin glargine
Injected subcutaneously (under the skin) once daily for 104 weeks. Dose individually adjusted.

Locations
Country Name City State
Argentina Novo Nordisk Investigational Site Buenos Aires
Argentina Novo Nordisk Investigational Site Caba
Argentina Novo Nordisk Investigational Site Capital Federal
Argentina Novo Nordisk Investigational Site Mendoza
Brazil Novo Nordisk Investigational Site Porto Alegre
Brazil Novo Nordisk Investigational Site São Paulo Sao Paulo
Czechia Novo Nordisk Investigational Site Plzen
Czechia Novo Nordisk Investigational Site Plzen
Czechia Novo Nordisk Investigational Site Prague 1
Czechia Novo Nordisk Investigational Site Praha 4
Hungary Novo Nordisk Investigational Site Budapest
Hungary Novo Nordisk Investigational Site Budapest
Hungary Novo Nordisk Investigational Site Dunaujvaros
Hungary Novo Nordisk Investigational Site Kaposvár
Hungary Novo Nordisk Investigational Site Pecs
India Novo Nordisk Investigational Site Bangalore Karnataka
India Novo Nordisk Investigational Site Coimbatore Tamil Nadu
India Novo Nordisk Investigational Site Delhi New Delhi
India Novo Nordisk Investigational Site Jaipur Rajasthan
India Novo Nordisk Investigational Site Kolkata West Bengal
India Novo Nordisk Investigational Site Kolkata West Bengal
India Novo Nordisk Investigational Site Mumbai Maharashtra
India Novo Nordisk Investigational Site Nagpur Maharashtra
India Novo Nordisk Investigational Site Pune Maharashtra
India Novo Nordisk Investigational Site Pune Maharashtra
India Novo Nordisk Investigational Site Rohtak Haryana
India Novo Nordisk Investigational Site Secunderabad Andhra Pradesh
India Novo Nordisk Investigational Site Visakhapatnam Andhra Pradesh
Israel Novo Nordisk Investigational Site Haifa
Israel Novo Nordisk Investigational Site Haifa
Israel Novo Nordisk Investigational Site Nahariya
Israel Novo Nordisk Investigational Site Rishon Le Zion
Israel Novo Nordisk Investigational Site Tel Aviv
Israel Novo Nordisk Investigational Site Tel Hashomer
Israel Novo Nordisk Investigational Site Tel-Aviv
Israel Novo Nordisk Investigational Site Zerifin
Italy Novo Nordisk Investigational Site Bologna
Italy Novo Nordisk Investigational Site Catanzaro
Italy Novo Nordisk Investigational Site Cittadella (PD)
Italy Novo Nordisk Investigational Site Negrar (VR)
Italy Novo Nordisk Investigational Site Palermo
Italy Novo Nordisk Investigational Site Pavia
Italy Novo Nordisk Investigational Site Verona
Mexico Novo Nordisk Investigational Site Ciudad Madero Tamaulipas
Mexico Novo Nordisk Investigational Site Cuernavaca Morelos
Mexico Novo Nordisk Investigational Site Durango
Mexico Novo Nordisk Investigational Site Guadalajara Jalisco
Norway Novo Nordisk Investigational Site Bodø
Norway Novo Nordisk Investigational Site Hamar
Norway Novo Nordisk Investigational Site Hoenefoss
Norway Novo Nordisk Investigational Site Kløfta
Norway Novo Nordisk Investigational Site Lierskogen
Norway Novo Nordisk Investigational Site Oslo
Norway Novo Nordisk Investigational Site Stavanger
Norway Novo Nordisk Investigational Site Tananger
Poland Novo Nordisk Investigational Site Bialystok
Poland Novo Nordisk Investigational Site Gdansk
Poland Novo Nordisk Investigational Site Zabrze
Russian Federation Novo Nordisk Investigational Site Moscow
Russian Federation Novo Nordisk Investigational Site Moscow
Russian Federation Novo Nordisk Investigational Site Novosibirsk
Russian Federation Novo Nordisk Investigational Site Penza
Russian Federation Novo Nordisk Investigational Site Saint-Petersburg
Russian Federation Novo Nordisk Investigational Site Saint-Petersburg
Russian Federation Novo Nordisk Investigational Site St. Petersburg
Russian Federation Novo Nordisk Investigational Site Stavropol
Slovakia Novo Nordisk Investigational Site Prievidza
Slovakia Novo Nordisk Investigational Site Sabinov
Slovakia Novo Nordisk Investigational Site Trebisov
Slovakia Novo Nordisk Investigational Site Trencin
Slovakia Novo Nordisk Investigational Site Trnava
South Africa Novo Nordisk Investigational Site Alberton
South Africa Novo Nordisk Investigational Site Brits North West
South Africa Novo Nordisk Investigational Site Cape Town Western Cape
South Africa Novo Nordisk Investigational Site Cosmo City Gauteng
South Africa Novo Nordisk Investigational Site Durban KwaZulu-Natal
South Africa Novo Nordisk Investigational Site Durban KwaZulu-Natal
South Africa Novo Nordisk Investigational Site Johannesburg Gauteng
South Africa Novo Nordisk Investigational Site Pretoria Gauteng
South Africa Novo Nordisk Investigational Site Pretoria Gauteng
South Africa Novo Nordisk Investigational Site Pretoria Gauteng
South Africa Novo Nordisk Investigational Site Umkomaas KwaZulu-Natal
Turkey Novo Nordisk Investigational Site Ankara
Turkey Novo Nordisk Investigational Site Bursa
Turkey Novo Nordisk Investigational Site Istanbul
Turkey Novo Nordisk Investigational Site Istanbul
Turkey Novo Nordisk Investigational Site Istanbul
Turkey Novo Nordisk Investigational Site Istanbul
Turkey Novo Nordisk Investigational Site Rize
Turkey Novo Nordisk Investigational Site Samsun
United Kingdom Novo Nordisk Investigational Site Angus
United Kingdom Novo Nordisk Investigational Site Coventry
United Kingdom Novo Nordisk Investigational Site Dudley
United Kingdom Novo Nordisk Investigational Site Dundee
United Kingdom Novo Nordisk Investigational Site Fife
United Kingdom Novo Nordisk Investigational Site Hull
United Kingdom Novo Nordisk Investigational Site Rotherham
United Kingdom Novo Nordisk Investigational Site Torquay
United Kingdom Novo Nordisk Investigational Site Wolverhampton
United States Novo Nordisk Investigational Site Albuquerque New Mexico
United States Novo Nordisk Investigational Site Avon Indiana
United States Novo Nordisk Investigational Site Beaver Pennsylvania
United States Novo Nordisk Investigational Site Bermuda Dunes California
United States Novo Nordisk Investigational Site Billings Montana
United States Novo Nordisk Investigational Site Blackfoot Idaho
United States Novo Nordisk Investigational Site Boynton Beach Florida
United States Novo Nordisk Investigational Site Buckley Michigan
United States Novo Nordisk Investigational Site Colorado Springs Colorado
United States Novo Nordisk Investigational Site Dallas Texas
United States Novo Nordisk Investigational Site Fresno California
United States Novo Nordisk Investigational Site Glendale Arizona
United States Novo Nordisk Investigational Site Glendale Arizona
United States Novo Nordisk Investigational Site Greer South Carolina
United States Novo Nordisk Investigational Site Houston Texas
United States Novo Nordisk Investigational Site Humboldt Tennessee
United States Novo Nordisk Investigational Site Hyattsville Maryland
United States Novo Nordisk Investigational Site Indianapolis Indiana
United States Novo Nordisk Investigational Site Irving Texas
United States Novo Nordisk Investigational Site Katy Texas
United States Novo Nordisk Investigational Site Kenosha Wisconsin
United States Novo Nordisk Investigational Site Kenosha Wisconsin
United States Novo Nordisk Investigational Site Lake Worth Florida
United States Novo Nordisk Investigational Site Lancaster California
United States Novo Nordisk Investigational Site Mason Ohio
United States Novo Nordisk Investigational Site Maumee Ohio
United States Novo Nordisk Investigational Site Metairie Louisiana
United States Novo Nordisk Investigational Site Miami Florida
United States Novo Nordisk Investigational Site Midlothian Virginia
United States Novo Nordisk Investigational Site Monterey California
United States Novo Nordisk Investigational Site Muscle Shoals Alabama
United States Novo Nordisk Investigational Site Nashua New Hampshire
United States Novo Nordisk Investigational Site New Windsor New York
United States Novo Nordisk Investigational Site Phoenix Arizona
United States Novo Nordisk Investigational Site Phoenix Arizona
United States Novo Nordisk Investigational Site Phoenix Arizona
United States Novo Nordisk Investigational Site Rockville Maryland
United States Novo Nordisk Investigational Site Sacramento California
United States Novo Nordisk Investigational Site San Antonio Texas
United States Novo Nordisk Investigational Site Spring Valley California
United States Novo Nordisk Investigational Site Tuscumbia Alabama
United States Novo Nordisk Investigational Site Ventura California
United States Novo Nordisk Investigational Site Walnut Creek California
United States Novo Nordisk Investigational Site Waltham Massachusetts

Sponsors (1)
Lead Sponsor Collaborator
Novo Nordisk A/S

Countries where clinical trial is conducted

United States,  Argentina,  Brazil,  Czechia,  Hungary,  India,  Israel,  Italy,  Mexico,  Norway,  Poland,  Russian Federation,  Slovakia,  South Africa,  Turkey,  United Kingdom, 

References & Publications (1)

Aroda VR, González-Galvez G, Grøn R, Halladin N, Haluzík M, Jermendy G, Kok A, Orsy P, Sabbah M, Sesti G, Silver R. Durability of insulin degludec plus liraglutide versus insulin glargine U100 as initial injectable therapy in type 2 diabetes (DUAL VIII): — View Citation

Outcome
Type Measure Description Time frame Safety issue
Primary Time From Randomisation to Inadequate Glycaemic Control and Need for Treatment Intensification Inadequate glycaemic control and need for treatment intensification was defined as a glycosylated haemoglobin (HbA1c) of 7.0% or greater at 2 consecutive visits from week 26, including week 26 if HbA1c was greater than or equal to 7% at week 12. Time from randomisation to inadequate glycaemic control and need for treatment intensification was analysed using a stratified log-rank test where treatment, baseline HbA1c group and previous OAD treatment were included as strata in the model. The variable "baseline HbA1c group" was a dichotomised baseline HbA1c variable with 2 categories: HbA1c < 8.5% or HbA1c = 8.5% and the variable "previous OAD treatment" was a categorical variable with 2 categories: SU ± OAD(s) (SU users) or OAD(s) (Non-SU users). 25%, median (50%) and 75% percentiles for the cumulative distribution function were obtained from the Kaplan-Meier survival function. Weeks 0-104 + 7 days follow-up-1 + 30 days follow-up-2
Secondary Time From Randomisation to HbA1c >6.5% at 2 Consecutive Visits Time to HbA1c > 6.5% at 2 consecutive visits is defined as time from randomization to HbA1c > 6.5% at 2 consecutive planned scheduled visits from week 26 (including week 26 if HbA1c was > 6.5% at week 12). Time from randomisation to HbA1c >6.5% at 2 consecutive visits was analysed using a stratified log-rank test where treatment, baseline HbA1c group and previous OAD treatment were included as strata in the model. The variable "baseline HbA1c group" was a dichotomised baseline HbA1c variable with 2 categories: HbA1c < 8.5% or HbA1c = 8.5% and the variable "previous OAD treatment" was a categorical variable with 2 categories: SU ± OAD(s) (SU users) or OAD(s) (Non-SU users). 25%, median (50%) and 75% percentiles for the cumulative distribution function were obtained from the Kaplan-Meier survival function. Weeks 0-104 + 7 days follow-up-1 + 30 days follow-up-2
Secondary Change in HbA1c Change in HbA1c from baseline (week 0) to week 26 is presented. Week 0, week 26
Secondary Change in Body Weight Change in body weight from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Insulin Dose Insulin dose after 26 and 104 weeks of treatment is presented. Week 26, week 104
Secondary Participants Who Achieved (Yes/no): HbA1c <7.0% Percentage of participants who achieved (yes/no) HbA1c <7.0% at week 26 and week 104 is presented. Week 26, week 104
Secondary Participants Who Achieved (Yes/no): HbA1c <7.0% Without Weight Gain Percentage of participants who achieved (yes/no) HbA1c <7.0% without weight gain at week 26 and week 104 is presented. Week 26, week 104
Secondary Participants Who Achieved (Yes/no): HbA1c <7.0% Without Treatment-emergent Severe or Blood Glucose (BG) Confirmed Symptomatic Hypoglycaemic Episodes Severe or BG confirmed symptomatic hypoglycaemia was defined as an episode that was severe according to the American Diabetes Association (ADA) classification or BG confirmed by a plasma glucose value <3.1 mmol/L (56 mg/dL) with symptoms consistent with hypoglycaemia. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Percentage of participants who achieved (yes/no) HbA1c <7.0% without treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes at week 26 and week 104 is presented. Week 26, week 104
Secondary Participants Who Achieved (Yes/no): HbA1c < 7.0% Without Treatment-emergent Severe or BG Confirmed Symptomatic Hypoglycaemic Episodes and Without Weight Gain Severe or BG confirmed symptomatic hypoglycaemia was defined as an episode that was severe according to the ADA classification or BG confirmed by a plasma glucose value <3.1 mmol/L (56 mg/dL) with symptoms consistent with hypoglycaemia. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Percentage of participants who achieved (yes/no) HbA1c <7.0% without treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes and without weight gain at week 26 and week 104 is presented. Week 26, week 104
Secondary Participants Who Achieved (Yes/no): HbA1c =6.5% Percentage of participants who achieved (yes/no) HbA1c =6.5% at week 26 and week 104 is presented. Week 26, week 104
Secondary Participants Who Achieved (Yes/no): HbA1c =6.5% Without Weight Gain Percentage of participants who achieved (yes/no) HbA1c =6.5% without weight gain at week 26 and week 104 is presented. Week 26, week 104
Secondary Participants Who Achieved (Yes/no): HbA1c =6.5% Without Treatment-emergent Severe or BG Confirmed Symptomatic Hypoglycaemic Episodes Severe or BG confirmed symptomatic hypoglycaemia is defined as an episode that is severe according to the ADA classification or BG confirmed by a plasma glucose value <3.1 mmol/L (56 mg/dL) with symptoms consistent with hypoglycaemia. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Percentage of participants who achieved (yes/no) HbA1c =6.5% without treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes at week 26 and week 104 is presented. Week 26, week 104
Secondary Participants Who Achieved (Yes/no): HbA1c =6.5% Without Treatment-emergent Severe or BG Confirmed Symptomatic Hypoglycaemic Episodes and Without Weight Gain Severe or BG confirmed symptomatic hypoglycaemia is defined as an episode that is severe according to the ADA classification or BG confirmed by a plasma glucose value <3.1 mmol/L (56 mg/dL) with symptoms consistent with hypoglycaemia. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Percentage of participants who achieved (yes/no) HbA1c =6.5% without treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes and without weight gain at week 26 and week 104 is presented. Week 26, week 104
Secondary Change in FPG Change in fasting plasma glucose (FPG) from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary SMPG-9-point Profile (Individual Points in the Profile) Participants measured plasma glucose values using the blood glucose meter at 9 time points: before breakfast, 90 min after start of breakfast, before lunch, 90 minutes after start of lunch, before dinner, 90 min after start of dinner, bedtime, at 4:00 am and before breakfast the following day. Self-measured plasma glucose (SMPG)-9-point profile (individual points in the profile) at week 26 and week 104 is presented. Week 26, week 104
Secondary Change in SMPG-mean 9-point Profile Participants measured plasma glucose values using the blood glucose meter at 9 time points: before breakfast, 90 min after start of breakfast, before lunch, 90 minutes after start of lunch, before dinner, 90 min after start of dinner, bedtime, at 4:00 am and before breakfast the following day. Change in SMPG-mean 9-point profile from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in SMPG-mean Postprandial Increment Over All Meals Participants measured plasma glucose values using the blood glucose meter at 9 time points: before breakfast, 90 min after start of breakfast, before lunch, 90 minutes after start of lunch, before dinner, 90 min after start of dinner, bedtime, at 4:00 am and before breakfast the following day. Change in SMPG-mean postprandial increment over all meals from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Blood Pressure (Systolic and Diastolic) Change in blood pressure (systolic and diastolic) from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Fasting C-peptide Change in fasting C-peptide (measured in nanomoles per liter [nmol/L]) from baseline (week 0) to week 26 and week 104 is presented as ratio to baseline. Week 0, week 26, week 104
Secondary Change in Fasting Human Insulin Change in fasting human insulin (measured in picomoles per liter [pmol/L]) from baseline (week 0) to week 26 and week 104 is presented as ratio to baseline. Week 0, week 26, week 104
Secondary Change in Fasting Total Cholesterol Change in fasting total cholesterol (measured in mmol/L) from baseline (week 0) to week 26 and week 104 is presented as ratio to baseline. Week 0, week 26, week 104
Secondary Change in Fasting LDL-cholesterol Change in fasting low density lipoprotein (LDL)-cholesterol (measured in mmol/L) from baseline (week 0) to week 26 and week 104 is presented as ratio to baseline. Week 0, week 26, week 104
Secondary Change in Fasting HDL-cholesterol Change in fasting high density lipoprotein (HDL)- cholesterol (measured in mmol/L) from baseline (week 0) to week 26 and week 104 is presented as ratio to baseline. Week 0, week 26, week 104
Secondary Change in Fasting VLDL-cholesterol Change in fasting very low density lipoprotein (VLDL)-cholesterol (measured in mmol/L) from baseline (week 0) to week 26 and week 104 is presented as ratio to baseline. Week 0, week 26, week 104
Secondary Change in Fasting Triglycerides Change in fasting triglycerides (measured as mmol/L) from baseline (week 0) to week 26 and week 104 is presented as ratio to baseline. Week 0, week 26, week 104
Secondary Change in Fasting Free Fatty Acids Change in fasting free fatty acids (measured as mmol/L) from baseline (week 0) to week 26 and week 104 is presented as ratio to baseline. Week 0, week 26, week 104
Secondary Number of Treatment-emergent Severe or BG Confirmed Symptomatic Hypoglycaemic Episodes During 26 Weeks of Treatment Severe or BG confirmed symptomatic hypoglycaemia is defined as an episode that is severe according to the ADA classification or BG confirmed by a plasma glucose value <3.1 mmol/L (56 mg/dL) with symptoms consistent with hypoglycaemia. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Number of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes during 26 weeks of treatment is presented. Weeks 0-26
Secondary Number of Treatment-emergent Severe or BG Confirmed Symptomatic Hypoglycaemic Episodes During 104 Weeks of Treatment Severe or BG confirmed symptomatic hypoglycaemia is defined as an episode that is severe according to the ADA classification or BG confirmed by a plasma glucose value <3.1 mmol/L (56 mg/dL) with symptoms consistent with hypoglycaemia. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Number of treatment-emergent severe or BG confirmed symptomatic hypoglycaemic episodes during 104 weeks of treatment is presented. Weeks 0-104
Secondary Number of Treatment Emergent Hypoglycaemic Episodes During 26 Weeks of Treatment Hypoglycaemic episodes (SMPG value =3.9 mmol/L (70 mg/dL)) were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Number of treatment-emergent hypoglycaemic episodes according to ADA during 26 weeks of treatment is presented. Weeks 0-26
Secondary Number of Treatment Emergent Hypoglycaemic Episodes During 104 Weeks of Treatment Hypoglycaemic episodes (SMPG value =3.9 mmol/L (70 mg/dL)) were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Number of treatment emergent hypoglycaemic episodes according to ADA during 104 weeks of treatment is presented. Weeks 0-104
Secondary Number of Treatment-emergent Nocturnal Severe or BG Confirmed Symptomatic Hypoglycaemic Episodes During 26 Weeks of Treatment Severe or BG confirmed symptomatic hypoglycaemia is defined as an episode that is severe according to the ADA classification or BG confirmed by a plasma glucose value <3.1 mmol/L (56 mg/dL) with symptoms consistent with hypoglycaemia. Nocturnal hypoglycaemic episodes were episodes occurring between 00:01 and 05.59 both inclusive. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Number of treatment-emergent nocturnal severe or BG confirmed symptomatic hypoglycaemic episodes during 26 weeks of treatment is presented. Weeks 0-26
Secondary Number of Treatment-emergent Nocturnal Severe or BG Confirmed Symptomatic Hypoglycaemic Episodes During 104 Weeks of Treatment Severe or BG confirmed symptomatic hypoglycaemia is defined as an episode that is severe according to the ADA classification or BG confirmed by a plasma glucose value <3.1 mmol/L (56 mg/dL) with symptoms consistent with hypoglycaemia. Nocturnal hypoglycaemic episodes were episodes occurring between 00:01 and 05.59 both inclusive. Hypoglycaemic episodes were defined as treatment-emergent if the onset of the episode occurred on or after the first day of trial product administration, and no later than 7 calendar days after the last day on trial product. Number of treatment-emergent nocturnal severe or BG confirmed symptomatic hypoglycaemic episodes during 104 weeks of treatment is presented. Weeks 0-104
Secondary Number of TEAEs During 26 Weeks of Treatment An adverse event is any untoward medical occurrence in a participant administered a product, and which does not necessarily have a causal relationship with this treatment. A treatment emergent adverse event (TEAE) was defined as an adverse event that had onset date on or after the first day of exposure to trial product and no later than 7 days after the last day of trial product. If the event had onset date before the first day of exposure on trial product and increased in severity during the treatment period and until 7 days after the last drug date, then this event was also considered as a TEAE. Number of TEAEs during 26 weeks of treatment is presented. Weeks 0-26
Secondary Number of TEAEs During 104 Weeks of Treatment An adverse event is any untoward medical occurrence in a participant administered a product, and which does not necessarily have a causal relationship with this treatment. A TEAE was defined as an adverse event that had onset date on or after the first day of exposure to trial product and no later than 7 days after the last day of trial product. If the event had onset date before the first day of exposure on trial product and increased in severity during the treatment period and until 7 days after the last drug date, then this event was also considered as a TEAE. Number of TEAEs during 104 weeks of treatment is presented. Week 0 to week 104
Secondary Eye Examination Category Fundus photography or a dilated fundoscopy was performed at baseline (within 12 weeks prior to week 0) and week 104. The investigator interpreted each eye's (left and right) results and categorised them as: normal, abnormal not clinically significant (NCS) or abnormal clinically significant (CS). Number of participants in each category at baseline and week 104 were presented. Baseline (within 12 weeks prior to week 0), week 104
Secondary ECG Evaluation The electrocardiogram (ECG) was assessed at baseline (within 2 weeks prior to week 0) and week 104. The investigator interpreted the results and categorised them as: normal, abnormal NCS or abnormal CS. Number of participants in each ECG category at baseline and week 104 are presented. Baseline (within 2 weeks prior to week 0), week 104
Secondary Change in Urine Albumin/Creatinine Ratio Change in urine albumin/creatinine ratio from baseline (week 0) to week 104 is presented. Week 0, week 104
Secondary Change in Pulse Rate Change in pulse rate from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Biochemistry Parameter- Creatinine, Total Bilirubin Change in biochemistry parameter- creatinine, total bilirubin from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Biochemistry Parameter- Albumin Change in biochemistry parameter- albumin from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Biochemistry Parameters- ALP, ALT, AST, Lipase and Amylase Change in biochemistry parameters- alkaline phosphatase (ALP), alanine aminotransferase (ALT), aspartate aminotransferase (AST), lipase and amylase from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Biochemistry Parameter- Sodium, Potassium and Calcium Change in sodium, potassium and calcium from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Haemoglobin Change in haemoglobin from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Haematocrit Change in haematocrit from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Erythrocytes Change in erythrocytes from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Thrombocytes and Leukocytes Change in thrombocytes and leukocytes from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Eosinophils Change in eosinophils from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Neutrophils Change in neutrophils from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Basophils Change in basophils from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Monocytes Change in monocytes from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Haematological Parameter- Lymphocytes Change in lymphocytes from baseline (week 0) to week 26 and week 104 is presented. Week 0, week 26, week 104
Secondary Change in Calcitonin The number of participants who reported low, normal and high levels of calcitonin in relation to reference ranges at baseline (week 0), week 26 and week 104 are presented. Week 0, week 26, week 104
Secondary Change in Short Form Health Survey Version 2.0 (SF-36v2™, Acute Version) Health Survey: Scores From the 8 Domains and Summaries of the Physical Component Score (PCS) and the Mental Component Score (MCS) SF-36 is a 36-item patient-reported survey of patient health that measures the participant's overall health-related quality of life (HRQoL). SF-36v2™ (acute version) questionnaire measured eight domains of functional health and well-being as well as two component summary scores (physical component summary (PCS) and mental component summary (MCS)). The scores 0-100 (where higher scores indicated a better HRQoL) from the SF-36 were converted to norm-based scores to enable a direct interpretation in relation to the distribution of the scores in the 2009 U.S. general population. A norm-based score of 50 corresponds to the mean score and 10 corresponds to the standard deviation of the 2009 U.S. general population. Change from baseline in the sub-domain scores and component summary (PCS and MCS) scores are presented. A positive change score indicates an improvement since baseline. Week 0, week 26, week 104
Secondary Change in TRIM-D Treatment related impact measures-diabetes (TRIM-D) was developed according to the FDA guidance from 2009 on development of new PRO measures. The questionnaire consists of 5 sub-domains, which are scored according to a 1-5 point scale with a higher score indicating a better health state (less negative impact). Sub-domain scores are calculated by summing across items in the same sub-domain, and the total score is calculated by summing scores from all the sub-domains. The highest possible summed score within a sub-domain ranges from 20 (compliance sub-domain) to 40 (psychological health sub-domain) points and the highest possible total score is 140 points. Change in TRIM-D total score from baseline (week 0) to week 26 and week 104 is presented. A positive change score indicates an improvement since baseline. Week 0, week 26, week 104
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