Tofogliflozin is a selective oral inhibitor of sodium-glucose co-transporter 2 for treatment of type 2 diabetes mellitus. The pharmacokinetics, pharmacodynamics, and safety of tofogliflozin were investigated in healthy male subjects. Three studies were conducted: single-ascending dose study (10-640 mg) in 56 Japanese and 24 Caucasian subjects; multiple-ascending dose study (2.5-80 mg once daily for 7 days) in 24 Japanese subjects; and food-effect study (20-40 mg) in 30 Japanese subjects. Tofogliflozin was absorbed rapidly and eliminated from the systemic circulation with a t of 5-6 h. Exposure increased dose-proportionally up to 320 mg. Body weight-corrected exposure was similar between Japanese and Caucasian subjects. Urinary excretion of tofogliflozin ranged from 17.1 to 27.4% of dose. Tofogliflozin did not accumulate with once daily administration. Food intake decreased C by approximately 30% but did not change AUC. Tofogliflozin caused dose-dependent daily urinary glucose excretion (UGE), but food intake condition at administration did not affect it. The exposure-response relationship between plasma average concentration of tofogliflozin (C) and UGE fitted E model well. There were no serious adverse events leading to discontinuation or episodes of hypoglycemia. Single and multiple administration of tofogliflozin were generally well tolerated. Exposure to tofogliflozin was dose-proportional up to 320 mg and did not accumulate with multiple once-a-day administration. The model suggests more than 100 ng/mL C corresponding to the dose of between 20 and 40 mg leads to almost maximum effect of tofogliflozin.
Neither the pharmacokinetics nor the pharmacodynamics of tofogliflozin was affected by any of the anti-T2DM drugs evaluated in this study, nor was the pharmacokinetics of any of the anti-T2DM drugs affected by tofogliflozin in healthy male volunteers.
This study was conducted to determine the effect of acarbose on serum concentrations of digoxin in healthy male volunteers. A randomized crossover design with three phases was used. In phase 1 participants received 0.5 mg of digoxin alone. In phase 2 they received 0.5 mg of digoxin 0.5 hours after a 200-mg dose of acarbose. In phase 3 they received 100 mg of acarbose 0.5 hours before each meal three times daily for 3 days. On the fourth day, they received 0.5 mg of digoxin 0.5 hours after a 100-mg dose of acarbose. Area under the concentration-time curve (AUC0-48) and mean maximum concentration (Cmax) were significantly lower and tmax significantly increased in phases 2 and 3 compared with phase 1. These results indicate that the absorption of digoxin is reduced by administration of acarbose, and that one of the major mechanisms of this interaction may be due to the pharmacodynamics of acarbose.
Single and multiple administrations of tofogliflozin were generally well tolerated in T2DM patients with various renal functions. As far as investigated here, these studies indicate no dose adjustment is required for patients with renal impairment.
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