These results indicate that (1) glucose lowering efficacy of alogliptin is closely linked to atherogenic lipids. (2) alogliptin can down-regulate atherogenic lipids. (3) glycemic efficacy of alogliptin appears to be determined by the balance of its capacity in modulating insulin resistance and beta-cell function.
These results suggest that ipragliflozin has good glycemic efficacy as an initial therapy in subjects with T2DM, although certain adverse events or tolerability issues are concerned. It improves insulin sensitivity and may restore the impaired beta-cell function. However body weight reduction with ipragliflozin is not associated with its glycemic efficacy.
These results implicate that the effects on diabetic parameters and the glucose-lowering mechanisms of these two drugs might be different in those who have good response with these drugs. Accordingly, the choice of these drugs may be dependent on the characteristics of the patients.
BackgroundSodium-glucose co-transporter 2 inhibitors have been shown to reduce body weight. However, little is known about whether a reduction in body weight affects glycemic and non-glycemic parameters.ObjectivesThe aim of this study was to investigate the link between the changes in body weight and those in metabolic parameters in drug-naïve subjects with type 2 diabetes mellitus (T2DM) receiving ipragliflozin monotherapy.MethodsSubjects received ipragliflozin monotherapy 25–50 mg/day for 3 months (n = 33). They were then divided into two groups: group L (‘lost’; n = 17) comprised patients who lost weight (change [Δ] in body mass index [BMI] ≤ −0.75, p < 0.00001), and group N (‘neutral’; n = 16) comprised patients who did not lose weight (ΔBMI > −0.75, not significant [NS]).ResultsIn these two groups, similar reductions were observed in glycated hemoglobin (HbA1c) levels (group L: 9.76–8.02%, p < 0.00001; group N: 10.07–8.36%, p < 0.0005). Homeostasis model assessment (HOMA)-B levels increased in both groups, with inter-group differences (p < 0.05; +38.91 vs. +96.83% in group L and N, respectively). However, some parameters showed distinct regulatory patterns. For instance, in group L, reductions were observed in HOMA-R (−20.18%, p < 0.04) and uric acid (UA; −8.91%, p < 0.02) levels. Correlations were seen between the change in HOMA-R and those in fasting blood glucose (FBG) levels (R = 0.557, p < 0.02). Non-significant increases in free fatty acid (FFA) levels and decreases in non-high-density lipoprotein cholesterol (non-HDL-C) or low-density lipoprotein cholesterol (LDL-C) levels were also noted. In group N, reductions in FFA levels (−17.07%, p < 0.05) were observed, and negative correlations were seen between ΔHOMA-B and ΔFBG (R = −0.4781, p < 0.05) and between Δ FFA and Δ HOMA-B levels (R = −0.4305, p < 0.05). Non-significant increases in non-HDL-C and LDL-C levels were also noted. Inter-group differences existed between group L and group N in the changes in non-HDL-C and LDL-C levels (both p < 0.05).ConclusionsThese results indicate that ipragliflozin may possess distinct dual glucose-lowering mechanisms depending on body weight changes. Degrees of insulin resistance decrease in subjects who lose weight. Conversely, ipragliflozin reduces lipotoxicity (FFA levels), thereby activating beta-cell function, in subjects who do not lose weight. Similar glycemic efficacies were observed in both cases. In patients who lost weight, ipragliflozin was associated with improvements in the levels of metabolic parameters related to cardiovascular risk factors, including UA and atherogenic lipid levels (non-HDL-C and LDL-C) compared with those who did not lose weight.
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