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| Name | Class |
|---|---|
| Boehringer Ingelheim | INDUSTRY |
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Patients with type 2 diabetes mellitus are exposed to an excessive heart failure risk secondary to left ventricular hypertrophy and impaired diastolic filling, a condition not addressed by currently available treatments. The abnormality results from obesity-induced volume overload, increased blood pressure, and myocardial fat accumulation. By improving metabolism, body weight, and blood pressure, Empagliflozin addresses the root causes of type 2 diabetes-associated myocardial disease. We will assess left ventricular mass, function, and lipid content in patients with type 2 diabetes mellitus using cardiac magnetic resonance imaging and spectroscopy as well as echocardiography before and after empagliflozin or glimepiride treatment. We expect to observe improvements in left ventricular mass, function, and fat content with empagliflozin. The results of the study will help to position empagliflozin as an antidiabetic agent with the added value of protecting the heart.
Overview of Medical Indication Type 2 diabetes mellitus is associated with increased heart failure risk. The increased risk results in part from poor glycemic control and obesity, but concomitant arterial hypertension may also contribute. In the Framingham Heart Study, heart failure risk increased by 5% in men and by 7% in women with each 1 kg/m2 increment in body mass index (BMI). Compared with normal weight subjects, obese subjects had a doubling of heart failure risk. Given the rapid increase in the prevalence of obesity and type 2 diabetes mellitus, the number of heart failure patients is likely to increase sharply.
Evidence Heart failure in obesity is explained by increased left ventricular mass and impaired left ventricular diastolic filling rather than systolic dysfunction. Obesity is associated with volume expansion and increased cardiac output. Arterial blood pressure also increases with increasing obesity. In addition, type 2 diabetes mellitus may directly elicit abnormalities in myocardial metabolism and function through intramyocardial triglyceride deposition and lipotoxicity. In a study from our group, obese women with insulin resistance showed increased myocardial lipid accumulation compared with obese insulin-sensitive women, and intramyocardial lipids were reduced by dietary weight loss. Finally, intramyocardial lipids are associated with impaired diastolic function in patients with type 2 diabetes mellitus. Myocardial insulin resistance may also contribute to heart failure, because genetic deletion of cardiac insulin receptors in mice worsens catecholamine-mediated myocardial injury. Heart failure risk may be further exacerbated through obesity-induced neurohumoral activation and systemic inflammation. Inflammatory cytokines are elevated in heart failure and modulate cardiac remodelling through various mechanisms including myocardial hypertrophy, fibrosis, and apoptosis.
Sodium-glucose cotransporter 2 (SGLT2) inhibitors are a new drug class for the treatment of type 2 diabetes mellitus. SGLT2 inhibitors may be particularly suitable in improving cardiac structure and function because they substantially improve systemic glucose metabolism, lower blood pressure, and reduce body weight. These effects reduce sympathetic vasomotor tone, and renin-angiotensin-system activity. Thus, SGLT2 inhibitors including empagliflozin ameliorate metabolic and hemodynamic risk factors tightly linked with left ventricular hypertrophy and heart failure risk. Recently published outcome data suggest a beneficial effect of empagliflozin on heart failure hospitalisation rates and on overall cardiovascular mortality in patients with type 2 diabetes and previously diagnosed cardiovascular disease.
Study Rationale Patients with type 2 diabetes mellitus are exposed to an excessive heart failure risk secondary to left ventricular hypertrophy and impaired diastolic filling, a condition not addressed by currently available treatments. The abnormality results from obesity-induced volume overload, increased blood pressure, and myocardial fat accumulation. By improving metabolism, body weight, and blood pressure, empagliflozin addresses the root causes of myocardial disease associated with type 2 diabetes-. We will assess left ventricular mass, function, and lipid content in patients with type 2 diabetes mellitus before and after 24 weeks treatment with metformin plus empagliflozin or glimepiride. We expect to observe improvements in left ventricular mass, function, and fat content with empagliflozin. The results of the study will help to understand the mechanisms of cardioprotective effects of empagliflozin that have been revealed recently.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Empagliflozin | Experimental | 25 mg/d empagliflozin + matching glimepiride placebo for 24 weeks. |
|
| Glimepiride | Active Comparator | 2 or 4 mg/d glimepiride+ matching empagliflozin placebo for 24 weeks. |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Empagliflozin | Drug | Treatment with empagliflozin vs. glimepiride to understand whether empagliflozin may reduce left ventricular mass in patients with type 2 Diabetes mellitus. |
|
| Measure | Description | Time Frame |
|---|---|---|
| change in left ventricular mass | change in left ventricular mass determined by cardiac MRI as the difference between 24 weeks and baseline | baseline and 24 weeks |
| Measure | Description | Time Frame |
|---|---|---|
| change in left ventricular end-systolic volume | change in left ventricular end-systolic volume (cMRI, 24 weeks - baseline) | baseline and 24 weeks |
| change in left ventricular function | change in left ventricular function (cMRI, 24 weeks - baseline) |
| Measure | Description | Time Frame |
|---|---|---|
| change in cardiac fibrosis | change in cardiac fibrosis (cMRI, 24 weeks - baseline) | baseline and 24 weeks |
| change in global long strain | change in global long strain (echocardiography, 24 weeks - baseline) |
Inclusion Criteria:
women and men ≥40 and <80 years of age
patients with type 2 diabetes mellitus on stable anti-diabetic treatment for the last 3 months; at screening the following treatment conditions are allowed:
waist circumference ≥80 cm in women or ≥94 cm in men
office blood pressure ≤150/95 mm Hg with a stable dose of a maximum of 4 antihypertensive medications for the last 3 months (24h ambulatory blood pressure measurement (ABPM) is allowed to check accuracy of office values; inclusion with 24h mean blood pressure ≤145/90 mm Hg is possible)
women without childbearing potential defined by:
women of childbearing potential with a negative serum pregnancy test at screening who agree to meet one of the following criteria from the time of screening, during the study and for a period of 4 days following the last administration of study medication:
signed written informed consent and willingness to comply with treatment and follow-up
capability of understanding the investigational nature, potential risks and benefits of the clinical trial
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Jens Jordan, Prof. Dr. | Hannover Medical School | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Hannover Medical School | Hanover | 30625 | Germany |
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| ID | Term |
|---|---|
| D003924 | Diabetes Mellitus, Type 2 |
| ID | Term |
|---|---|
| D003920 | Diabetes Mellitus |
| D044882 | Glucose Metabolism Disorders |
| D008659 | Metabolic Diseases |
| D009750 | Nutritional and Metabolic Diseases |
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| ID | Term |
|---|---|
| C570240 | empagliflozin |
| C057619 | glimepiride |
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| Glimepiride | Drug | Treatment with empagliflozin vs. glimepiride to understand whether empagliflozin may reduce left ventricular mass in patients with type 2 Diabetes mellitus. |
|
|
| baseline and 24 weeks |
| change in intramyocardial lipid content | change in intramyocardial lipid content (cMR spectroscopy, 24 weeks - baseline) | baseline and 24 weeks |
| change in diastolic function | change in diastolic function (echocardiography, 24 weeks - baseline) | baseline and 24 weeks |
| change in HbA1c | change in HbA1c (24 weeks - baseline) | baseline and 24 weeks |
| change in fasting plasma glucose concentration | change in fasting plasma glucose concentration (24 weeks - baseline) | baseline and 24 weeks |
| change in body weight | change in body weight (24 weeks - baseline) | baseline and 24 weeks |
| change ambulatory blood pressure | change in ambulatory blood pressure (24 weeks - baseline) | baseline and 24 weeks |
| change in left ventricular end-diastolic volume | change in left ventricular end-diastolic volume (cMRI, 24 weeks - baseline) | baseline and 24 weeks |
| change in fasting serum insulin concentration | change in fasting serum insulin concentration (24 weeks - baseline) | baseline and 24 weeks |
| change in waist circumference | change in waist circumference (24 weeks - baseline) | baseline and 24 weeks |
| change in body fat mass | change in body fat mass (24 weeks - baseline) | baseline and 24 weeks |
| baseline and 24 weeks |
| number of participants with abnormal laboratory values in the blood | To determine this number, blood electrolytes, blood count, hematocrit, liver function tests, blood urea and creatinine will be measured at baseline and every 4 weeks thereafter. | baseline and 4, 8, 12, 16, 20, 24 weeks |
| number of participants with abnormal laboratory values in the urine | To determine this number, dip stick urine analysis will be performed at baseline and every 4 weeks thereafter (glucose will be measured but not reported to investigators to ensure blinding). | baseline and 4, 8, 12, 16, 20, 24 weeks |
| number of participants with lower urinary tract infections or genital fungal infections | To determine this number, signs and symptoms of lower urinary tract infections or genital fungal infections will be recorded at baseline and every 4 weeks thereafter. | baseline and 24 weeks |
| D004700 | Endocrine System Diseases |