Effect of Empagliflozin on Macrovascular and Microvascular Circulation and on Endothelium Function

Phase 3

Completed

• Conditions: Diabetes Mellitus Type 2
• Interventions: Drug: Placebo; Drug: Empagliflozin

• Registration Number: NCT02471963
• Lead Sponsor: University of Erlangen-Nürnberg Medical School

Brief Summary

Empagliflozin may lead to improved vascular and endothelial function in the macro- (pulse wave reflection) and microcirculation (retinal circulation) and improve cardiovascular risk factors, imparticular by effectively controlling hyperglycemia, arterial hypertension and obesity.

Detailed Description

Diabetes mellitus, considered as a metabolic disorder, mutates into a predominantly vascular disease, once its duration extends over several years and/or when additional cardiovascular risk factors coexists, in particular arterial hypertension. In accordance, patients with type 2 diabetes die because of microvascular and macrovascular complications, and only rarely because of hypoglycaemic or hyperglycaemic shock syndromes. As a consequence, treatment of type 2 diabetes should focus not only on metabolic control but also on improving the global vascular risk. Analyses that have compared the importance of the various cardiovascular risk factors concluded that reductions of blood pressure and lipid levels are significantly more important than reduction of hyperglycemia. Of course, a multidisciplinary approach is desirable and the STENO-2 study has clearly indicated that in mid-term microvascular complications and in long-term macrovascular complications can be prevented in type 2 diabetes.

Vascular changes occurring in the course of type 2 diabetes, arterial hypertension and elevated global cardiovascular risk can now reliably assessed non-invasively, and already at the very early stage of vascular remodeling processes. For example, the guidelines of the European Society of Hypertension recommend several vascular parameters to be assessed already at the diagnosis of the disease in order to analyze early organ damage of the arteries. The measurement of pulse wave velocity, pulse wave analysis, central (aortic) systolic pressure and pulse pressure are tools to detect early vascular changes in the large arteries related to a faster wave reflection in the arterial tree. Wall to lumen ratio of retinal arteries, retinal capillary flow and flow mediated vasodilation are tools to detect changes in the microvascular circulation. These parameters are only infrequently measured in studies with type 2 diabetes, mainly due to lack of awareness that the vascular changes are the key prognostic factor in type-2 diabetes that ultimately determine the fate of the patient.

Empagliflozin is a novel selective SLGT-2 inhibitor that has been shown to improve glycaemic control after 2, 12, and 24 weeks as well as after 1 and 2 years. Empagliflozin produced dose dependent increases in glucosuria and clinically meaningful changes of glycemic parameters in type 2 diabetes in addition to weight loss. Most striking, empagliflozin was also found to lower systolic blood pressure by 5 mmHg. This reduction in blood pressure might be related to weight loss or/and concomitant loss of total body sodium content. However, the precise mechanism of the blood pressure reduction needs to be elucidated. Loss of sodium would lead to a less reactive contraction of the small arteries in response to increased sympathetic activity, angiotensin II and catecholamines.

Moreover, the endothelium dependent vasodilation after reactive hyperemia is a new non-invasive tool to detect changes on the organ perfusion level. To further assess flow-mediated/Endothelium dependent vasodilation we can assess the EndoPAT Risk Score.

These parameters are only infrequently measured in studies with type 2 diabetes, mainly due to the lack of expertise required to assess these vascular parameters and lack of awareness that vascular changes are the key prognostic factor in type 2 diabetes (and not glycosylated hemoglobin).

In summary, empagliflozin exert beneficial effects on a variety of cardiovascular risk factors, such as hyperglycaemia, hypertension and obesity. These changes should lead (so the hypothesis) to improved vascular and endothelial function in the micro- and macrocirculation.

However, the latter is nothing more than hypothesis and requires clear proof by clinical studies in patients with type 2 diabetes.

Study Timeline

• Study Start: 2014-12
• Study First Submitted: 2015-06-05
• Study First Submitted QC: 2015-06-10
• Study First Posted: 2015-06-15
• Primary Completion: 2015-11
• Study Completion: 2016-06
• Status Verified: 2018-05
• Last Update Submitted: 2018-05-09
• Last Update Posted: 2018-05-15

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 74

Inclusion Criteria

• Type 2 diabetes mellitus defined by fasting glucose ≥ 126 mg/dl or HbA1c ≥ 6.5% or on blood glucose lowering medication
• Age of 18 - 75 years
• Male and Female patients (females of child bearing potential must be using adequate contraceptive precautions)
• Females of childbearing potential or within two years of the menopause must have a negative urine pregnancy test at screening visit
• Informed consent (§ 40 Abs. 1 Satz 3 Punkt 3 AMG) has to be given in written form.

Exclusion Criteria

• Any other form of diabetes mellitus than type 2 diabetes mellitus
• Use of insulin, glitazone, gliptine or SGLT-2 inhibitor within the past 3 months
• Patients with more than one oral blood glucose lowering medication
• Any other oral antidiabetic drug that cannot be discontinued for the study period
• HbA1c ≥ 10%
• Fasting plasma glucose > 240 mg/dl
• Any history of stroke, transient ischemic attack, instable angina pectoris, or myocardial infarction within the last 6 months prior to study inclusion
• UACR ≥ 300 mg/g (early morning spot urine)
• eGFR < 60 ml/min/1.73m²
• Uncontrolled arterial hypertension (RR ≥ 180/110 mmHg)
• Congestive heart failure (CHF) NYHA stage III and IV
• Severe disorders of the gastrointestinal tract or other diseases which interfere the pharmacodynamics and pharmakinetics of study drugs
• Significant laboratory abnormalities such as SGOT or SGPT levels more than 3 x above the upper limit of normal range
• Drug or alcohol abusus
• Pregnant or breast-feeding patients
• Use of loop diuretics
• History of repetitive urogenital infection per year
• Body mass index > 40 kg/m²
• Triglyceride levels > 1000 mg/dl
• HDL-cholesterol levels < 25 mg/dl
• Any patient currently receiving chronic (>30 consecutive days) treatment with an oral corticosteroid
• History of epilepsia or history of seizures
• Patients being treated for severe auto immune disease e.g. lupus
• Participation in another clinical study within 30 days prior to visit 1
• Individuals at risk for poor protocol or medication compliance
• Subject who do not give written consent, that pseudonymous data will be transferred in line with the duty of documentation and the duty of notification according to § 12 and § 13 GCP-V

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Placebo	Placebo	Placebo, oral administration, 6 weeks
Empagliflozin	Empagliflozin	Empagliflozin, 25 mg/day, oral administration, 6 weeks

Primary Outcome Measures

Name	Time	Method
Effect of empagliflozin after 6 weeks of treatment on macrocirculation	6 weeks	To analyse the effect of empagliflozin after 6 weeks of treatment on macrocirculation as assessed by the pulse wave reflection in the peripheral arterial tree with the composite parameters: central (aortic) systolic pressure, central (aortic) pulse pressure, augmentation pressure, forward wave amplitude, backward wave amplitude and the ratio of forward and backward (pulse wave velocity) compared to placebo.

Secondary Outcome Measures

Name	Time	Method
Effect of empagliflozin after 6 weeks of treatment on microcirculation	6 weeks	To analyse the effect of empagliflozin after 6 weeks of treatment on retinal capillary flow (as key measurement of vascular remodeling in the microcirculation) and retinal vascular structural components.
Endothelium Function	6 weeks	To analyse the effect of empagliflozin after 6 weeks of treatment on peripheral endothelial function by measuring endothelium-mediated changes in arterial tone using a reactive hyperemia procedure
Biomarkers	6 weeks	To analyse the effect of empagliflozin after 6 weeks of treatment on biomarkers for inflammation, metabolic disorders and albuminuria.

Trial Locations

Locations (1)

University of Erlangen-Nuremberg; 🇩🇪 Erlangen, Bavaria, Germany