Magnus F. Grøndahl scite author profile

ObjectiveSodium-glucose co-transporter 2 inhibitors (SGLT2-i) are a novel drug class for the treatment of diabetes. We aimed at describing the maximal benefits and risks associated with SGLT2-i for patients with type 2 diabetes.DesignSystematic review and meta-analysis.Data Sources and Study SelectionWe included double-blinded, randomised controlled trials (RCTs) evaluating SGLT2-i administered in the highest approved therapeutic doses (canagliflozin 300 mg/day, dapagliflozin 10 mg/day, and empagliflozin 25 mg/day) for ≥12 weeks. Comparison groups could receive placebo or oral antidiabetic drugs (OAD) including metformin, sulphonylureas (SU), or dipeptidyl peptidase 4 inhibitors (DPP-4-i). Trials were identified through electronic databases and extensive manual searches. Primary outcomes were glycated haemoglobin A1c (HbA1c) levels, serious adverse events, death, severe hypoglycaemia, ketoacidosis and CVD. Secondary outcomes were fasting plasma glucose, body weight, blood pressure, heart rate, lipids, liver function tests, creatinine and adverse events including infections. The quality of the evidence was assessed using GRADE.ResultsMeta-analysis of 34 RCTs with 9,154 patients showed that SGLT2-i reduced HbA1c compared with placebo (mean difference -0.69%, 95% confidence interval -0.75 to -0.62%). We downgraded the evidence to ‘low quality’ due to variability and evidence of publication bias (P = 0.015). Canagliflozin was associated with the largest reduction in HbA1c (-0.85%, -0.99% to -0.71%). There were no differences between SGLT2-i and placebo for serious adverse events. SGLT2-i increased the risk of urinary and genital tract infections and increased serum creatinine, and exerted beneficial effects on bodyweight, blood pressure, lipids and alanine aminotransferase (moderate to low quality evidence). Analysis of 12 RCTs found a beneficial effect of SGLT2-i on HbA1c compared with OAD (-0.20%, -0.28 to -0.13%; moderate quality evidence).ConclusionThis review includes a large number of patients with type 2 diabetes and found that SGLT2-i reduces HbA1c with a notable increased risk in non-serious adverse events. The analyses may overestimate the intervention benefit due bias.

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Evidence of Extrapancreatic Glucagon Secretion in Man

Lund

et al. 2015

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Glucagon is believed to be a pancreas-specific hormone, and hyperglucagonemia has been shown to contribute significantly to the hyperglycemic state of patients with diabetes. This hyperglucagonemia has been thought to arise from a-cell insensitivity to suppressive effects of glucose and insulin combined with reduced insulin secretion. We hypothesized that postabsorptive hyperglucagonemia represents a gut-dependent phenomenon and subjected 10 totally pancreatectomized patients and 10 healthy control subjects to a 75-g oral glucose tolerance test and a corresponding isoglycemic intravenous glucose infusion. We applied novel analytical methods of plasma glucagon (sandwich ELISA and mass spectrometry-based proteomics) and show that 29-amino acid glucagon circulates in patients without a pancreas and that glucose stimulation of the gastrointestinal tract elicits significant hyperglucagonemia in these patients. These findings emphasize the existence of extrapancreatic glucagon (perhaps originating from the gut) in man and suggest that it may play a role in diabetes secondary to total pancreatectomy.Patients with diabetes are characterized not only by compromised insulin secretion and action but also by elevated plasma concentrations of the 29-amino acid peptide hormone glucagon, which hitherto has been considered a pancreas-derived hormone in humans (produced in and secreted from a-cells in the islet of Langerhans) (1). In patients with diabetes, plasma concentrations of glucagon are elevated in the fasting state and fail to decrease appropriately or even increase in response to an oral glucose tolerance test (OGTT) and show exaggerated increases in response to ingestion of a mixed meal (1,2). The elevated glucagon concentrations increase the hepatic glucose production and thereby contribute significantly to the fasting and postprandial hyperglycemia characterizing patients with diabetes. The etiology behind diabetic hyperglucagonemia is still controversial. Whereas oral intake of glucose elicits a hyperglucagonemic response, intravenous glucose administration causes suppression of plasma glucagon levels (3,4). A "lighter version" of this phenomenon has also been observed in healthy individuals after ingestion of larger oral glucose loads (4). Together, these findings led us to speculate that postprandial hyperglucagonemia could be gut derived and independent of the endocrine pancreas.The notion of extrapancreatic glucagon secretion in man has been debated for years, and several studies looking at glucagon responses after total pancreatectomy in animals (5-10) and man (11-24) have been published. Overall, these investigations have reported very conflicting

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Current Therapies That Modify Glucagon Secretion: What Is the Therapeutic Effect of Such Modifications?

et al. 2017

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Several older as well as recent investigations have evaluated the effect of antidiabetic agents on glucagon secretion to understand how glucagon may be involved in the drugs' efficacy and safety profiles. Based on these findings, modulation of glucagon secretion seems to play a hitherto underestimated role in the efficacy and safety of several glucose-lowering drugs. Numerous drugs currently available to diabetologists are capable of altering glucagon secretion: metformin, sulfonylurea compounds, insulin, glucagon-like peptide-1 receptor agonists, dipeptidyl peptidase-4 inhibitors, sodium-glucose cotransporter 2 inhibitors and amylin mimetics. Their diverse effects on glucagon secretion are of importance for their individual efficacy and safety profiles. Understanding how these drugs interact with glucagon secretion may help to optimize treatment.

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