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Pharmacokinetics of Asciminib in Individuals With Hepatic or Renal Impairment.
Hoch, M, Sato, M, Zack, J, Quinlan, M, Sengupta, T, Allepuz, A, Aimone, P, Hourcade-Potelleret, F
Journal of clinical pharmacology. 2021;(11):1454-1465
Abstract
Asciminib is an investigational, first-in-class, specifically targeting the ABL myristoyl pocket (STAMP) inhibitor of BCR-ABL1 with a new mechanism of action compared with approved ATP-competitive tyrosine kinase inhibitors. This report describes the findings from 2 phase 1 studies assessing the pharmacokinetic (PK) profile of a single dose of asciminib (40 mg) in individuals with impaired renal function (based on absolute glomerular filtration rate; NCT03605277) or impaired hepatic function (based on Child-Pugh classification; NCT02857868). Individuals with severe renal impairment exhibited 49%-56% higher exposure (area under the curve [AUC]), with similar maximum plasma concentration (Cmax ), than matched healthy controls. Based on these findings, as per the protocol, the PK of asciminib in individuals with mild or moderate renal impairment was not assessed. In individuals with mild and severe hepatic impairment, asciminib AUC was 21%-22% and 55%-66% higher, respectively, and Cmax was 26% and 29% higher, respectively, compared with individuals with normal hepatic function. Individuals with moderate hepatic impairment had similar asciminib AUC and Cmax than matched healthy controls. The increase in asciminib AUC and Cmax in the mild hepatic impairment cohort was mainly driven by 1 participant with particularly high exposure. Asciminib was generally well tolerated, and the safety data were consistent with its known safety profile. In summary, these findings indicate that renal or hepatic impairment has no clinically meaningful effect on the exposure or safety profile of asciminib, and support its use in patients with varying degrees of renal or hepatic dysfunction.
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Efficacy and safety of trelagliptin in Japanese patients with type 2 diabetes with severe renal impairment or end-stage renal disease: Results from a randomized, phase 3 study.
Kaku, K, Ishida, K, Shimizu, K, Achira, M, Umeda, Y
Journal of diabetes investigation. 2020;(2):373-381
Abstract
INTRODUCTION To investigate the efficacy and safety of trelagliptin 25 mg in patients with type 2 diabetes mellitus with severe renal impairment or end-stage renal disease. MATERIALS AND METHODS This multicenter, randomized, phase 3 study comprised a 12-week double-blind phase followed by a 40-week open-label phase. Patients had type 2 diabetes mellitus with severe renal impairment (creatinine clearance <30 mL/min) or end-stage renal disease (undergoing hemodialysis), and were receiving diet and/or exercise therapy with/without one antidiabetic drug. RESULTS Patients were randomized to trelagliptin (A/A, n = 55) or placebo (P/A, n = 52; double-blind phase). Both groups received trelagliptin in the open-label phase. The least square mean change (95% confidence interval [CI]) from baseline in hemoglobin A1c at the end of the double-blind phase was -0.71% (95% CI -0.885, -0.542) and 0.01% (95% CI -0.170, 0.183) in the A/A and P/A groups, respectively (intergroup least square means difference -0.72%, 95% CI -0.966, -0.473; P < 0.0001). Mean hemoglobin A1c decreased after trelagliptin treatment in the P/A group to similar levels observed in the A/A group and remained comparable in both groups versus baseline up to week 52. In the double-blind phase, the incidence of treatment-emergent adverse events (TEAEs) was 72.7% and 61.5% in the A/A and P/A group, respectively; most TEAEs were mild-to-moderate, except in one patient (P/A group), who experienced two severe TEAEs. The incidence of serious TEAEs was 7.3% and 3.8% in the A/A and P/A group, respectively. CONCLUSIONS Once-weekly trelagliptin 25 mg was efficacious, with no major safety concerns, and represents a meaningful treatment option in this patient population.
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Minimal Physiologically Based Pharmacokinetic and Drug-Drug-Disease Interaction Model of Rivaroxaban and Verapamil in Healthy and Renally Impaired Subjects.
Ismail, M, Lee, VH, Chow, CR, Rubino, CM
Journal of clinical pharmacology. 2018;(4):541-548
Abstract
Current dosing recommendations for rivaroxaban advocate dosage reduction in patients with moderate to severe renal impairment and avoidance of concomitant strong inhibitors of CYP3A or P-glycoprotein. However, rivaroxaban dosing in patients with mild renal impairment taking concomitant moderate inhibitors of CYP3A and P-glycoprotein is not addressed. To quantify the impacts of concomitant verapamil administration and renal impairment on rivaroxaban pharmacokinetics, a minimal physiologically based pharmacokinetic model system was developed and used to evaluate potential increases in rivaroxaban exposure and the consequent increase in risk of major bleeding. Data from a phase 1, drug-drug interaction study were used to qualify the minimal physiologically based pharmacokinetic model system. Model-based simulations indicate that coadministration of rivaroxaban with verapamil substantially increases rivaroxaban exposure across all renal function categories, resulting in an exponential increase in bleeding risk. Reduction of the daily rivaroxaban dose to 10 to 15 mg reduces the major bleeding risk below the designated 4.5% threshold in the majority of patients with normal or mildly impaired renal function. A reduction to 10 mg daily in patients with moderate to severe renal impairment provides additional risk reduction so that 90% of those patients fall below the 4.5% threshold. A risk threshold of 4.5% was selected because it is the median predicted risk in patients treated concomitantly with ketoconazole, which is contraindicated for use with rivaroxaban. Patients taking both rivaroxaban and verapamil should take a reduced daily dose of rivaroxaban to minimize bleeding risk.
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4.
The Effect of Renal Impairment on the Pharmacokinetics and Pharmacodynamics of Ertugliflozin in Subjects With Type 2 Diabetes Mellitus.
Sahasrabudhe, V, Terra, SG, Hickman, A, Saur, D, Shi, H, O'Gorman, M, Zhou, Z, Cutler, DL
Journal of clinical pharmacology. 2017;(11):1432-1443
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Abstract
Ertugliflozin is a highly selective and potent inhibitor of the sodium-glucose cotransporter 2 in development for the treatment of type 2 diabetes mellitus. The glycemic efficacy of sodium-glucose cotransporter 2 inhibitors such as ertugliflozin depends on glucose filtration through the kidney. This phase 1, open-label study evaluated the effect of renal impairment on the pharmacokinetics, pharmacodynamics, and tolerability of ertugliflozin (15 mg) in type 2 diabetes mellitus and healthy subjects with normal renal function (estimated glomerular filtration rate not normalized for body surface area ≥90 mL/min) and type 2 diabetes mellitus subjects with mild (60-89 mL/min), moderate (30-59 mL/min), or severe (<30 mL/min) renal impairment (n = 36). Blood and urine samples were collected predose and over 96 hours postdose for pharmacokinetic evaluation and measurement of urinary glucose excretion over 24 hours. Log-linear regression analyses indicated predicted mean area under the concentration-time curve values for mild, moderate, and severe renal function groups that were ≤70% higher relative to subjects with normal renal function. Generally consistent results were obtained with categorical analysis based on analysis of variance. The increase in ertugliflozin exposure in subjects with renal impairment is not expected to be clinically meaningful. Regression analysis of change from baseline in urinary glucose excretion over 24 hours vs estimated glomerular filtration rate showed a decrease in urinary glucose excretion with declining renal function. A single 15-mg dose of ertugliflozin was well tolerated in all groups.
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Pharmacokinetics and safety of letermovir, a novel anti-human cytomegalovirus drug, in patients with renal impairment.
Kropeit, D, Scheuenpflug, J, Erb-Zohar, K, Halabi, A, Stobernack, HP, Hulskotte, EGJ, van Schanke, A, Zimmermann, H, Rübsamen-Schaeff, H
British journal of clinical pharmacology. 2017;(9):1944-1953
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Abstract
AIMS: Human cytomegalovirus remains a significant issue for immunocompromised patients and existing viral polymerase targeting therapies are associated with significant toxicity. Accordingly, the viral terminase complex inhibitor, letermovir, is in development. We assessed letermovir pharmacokinetics in renal impairment. METHODS This was a Phase 1, open-label, nonrandomised trial. Estimated glomerular filtration rate based on the Modification of Diet Renal Disease equation was used to create three groups of eight subjects: healthy function (estimated glomerular filtration rate ≥ 90 ml min-1 1.73m-2 ), moderate (30-59 ml min-1 1.73m-2 ) and severe (<30 ml min-1 1.73m-2 ) impairment. Oral letermovir 120 mg was dosed once-daily for 8 days and blood collected for pharmacokinetic analyses. RESULTS All 24 subjects enrolled completed the trial. Moderate and severe renal impairment increased mean unbound letermovir fractions by 11% and 26%, respectively, vs. healthy subjects. Exposure (AUCτ,ss and Css,max ) was increased with renal impairment [least square mean ratios (90% confidence intervals) total letermovir vs. healthy subjects, AUCτ,ss 192% (143-258%) and 142% (83-243%) for moderate and severe impairment, respectively; Css,max 125% (87-182%) and 106% (75-151%), respectively]. Clearance was decreased vs. healthy subjects. Correlation analyses indicated a correlation between decreasing renal function and increased unbound letermovir concentration (R2 = 0.5076, P < 0.0001). Correlations were identified between decreased clearance with both decreased renal function (R2 = 0.0662, P = 0.2249 and R2 = 0.1861, P = 0.0353 total and unbound clearance, respectively) and increased age (R2 = 0.3548, P = 0.0021 and R2 = 0.3166, P = 0.0042 total and unbound clearance, respectively). Multiple-dose letermovir 120 mg was well tolerated across groups. CONCLUSIONS Renal impairment increased exposure to letermovir, although age was a confounding factor.
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Acetylator Status Impacts Amifampridine Phosphate (Firdapse™) Pharmacokinetics and Exposure to a Greater Extent Than Renal Function.
Haroldsen, PE, Sisic, Z, Datt, J, Musson, DG, Ingenito, G
Clinical therapeutics. 2017;(7):1360-1370
Abstract
PURPOSE The purpose of this study is to evaluate safety, tolerability, and pharmacokinetic (PK) properties of amifampridine phosphate (Firdapse™) and its major inactive 3-N-acetyl metabolite in renally impaired and healthy individuals with slow acetylator (SA) and rapid acetylator (RA) phenotypes. METHODS This was a Phase I, multicenter, open-label study of the PK properties and safety profile of amifampridine phosphate in individuals with normal, mild, moderate, or severely impaired renal function. Amifampridine phosphate was given as a single 10 mg (base equivalent) dose, and the plasma and urine PK properties of amifampridine and its 3-N-acetyl metabolite were determined. The safety profile was evaluated by monitoring adverse events (AEs), clinical laboratory tests, and physical examinations. FINDINGS Amifampridine clearance was predominantly metabolic through N-acetylation, regardless of renal function in both acetylator phenotypes. In individuals with normal renal function, mean renal clearance represented approximately 3% and 18% of the total clearance of amifampridine in RA and SA, respectively. Large differences in amifampridine exposure were observed between acetylation phenotypes across renal function levels. Mean amifampridine exposure values of AUC0-∞ and Cmax were up to 8.8-fold higher in the SA group compared with the RA group across renal function levels. By comparison, mean AUC0-∞ was less affected by renal function within an acetylator group, only 2- to 3-fold higher in individuals with severe renal impairment (RI) compared with those with normal renal function. Exposure to amifampridine in the SA group with normal renal function was higher (AUC0-∞, approximately 1.8-fold; Cmax, approximately 4.1-fold) than the RA group with severe RI. Exposure to the inactive 3-N-acetyl metabolite was higher than amifampridine in both acetylator groups, independent of renal function level. The metabolite is cleared by renal excretion, and exposure was clearly dependent on renal function with 4.0- to 6.8-fold increases in AUC0-∞ from normal to severe RI. No new tolerability findings were observed. IMPLICATIONS A single dose of 10 mg of amifampridine phosphate was well tolerated, independent of renal function and acetylator status. The results indicate that the PK profile of amifampridine is affected by metabolic acetylator phenotype to a greater extent than by renal function level, supporting Firdapse™ administration in individuals with RI in line with current labeling recommendations. Amifampridine should be dosed to effect per the individual patient need, altering administration frequency and dose in normal through severe RI. The therapeutic dose of amifampridine phosphate should be tailored to the individual patient needs by gradual dose titration up to the present maximum recommended dose (60-80 mg/day) or until dose-limiting AEs intervene to avoid overdosing and underdosing. EudraCT identifier: 2013-005349-35.
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Pharmacokinetics of initial full and subsequent reduced doses of S-1 in patients with locally advanced head and neck cancer-effect of renal insufficiency.
Yamazaki, T, Tahara, M, Enokida, T, Wakasugi, T, Arahira, S, Zenda, S, Motegi, A, Akimoto, T, Yoshisue, K
Japanese journal of clinical oncology. 2017;(5):407-412
Abstract
BACKGROUND S-1 is a combination of tegafur [metabolized to 5-fluorouracil (5-FU)] with the modulators gimeracil (5-chloro-2,4-dihydroxypyridine) and oteracil potassium. 5-Chloro-2,4-dihydroxypyridine maintains plasma 5-FU concentrations by inhibiting dihydropyrimidine dehydrogenase, a pyrimidine catabolism enzyme that degrades 5-FU. As 50% of 5-chloro-2,4-dihydroxypyridine is excreted in urine, renal insufficiency may increase its blood level, increasing 5-FU concentrations. We investigated whether special dose modification is needed in the presence of renal insufficiency. OBJECTIVE We compared steady state pharmacokinetics of 5-FU for the initial S-1 dose and reduced doses in patients with head and neck cancer requiring dose reduction due to renal and non-renal toxicities. METHODS Chemoradiotherapy with S-1 and cisplatin was administered every 5 weeks for two courses with a radiation dose totaling 70 Gy over 33-35 fractions. Two additional courses of adjuvant chemotherapy were administered in the case of an objective response. The S-1 and/or cisplatin dose was reduced in response to renal, hematologic or other toxicities. The primary endpoint was the change in area under the plasma concentration-versus-time curve from time 0-10 hours (5-FU AUCss 0-10) between the initial and reduced S-1 doses. RESULTS Although the mean 5-FU levels in patients with non-renal toxicities significantly decreased between the full and reduced dose, the full-dose and reduced-dose mean maximum 5-FU plasma concentrations at steady state (Css max) and AUCss 0-10 in patients with renal insufficiency were similar. CONCLUSIONS Standard S-1 dose reduction for renal toxicity did not result in a significant decrease in 5-FU levels at steady state. A greater reduction to lower plasma 5-chloro-2,4-dihydroxypyridine may be necessary in patients with renal insufficiency.
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Pharmacokinetics, safety, and efficacy of lenalidomide plus dexamethasone in patients with multiple myeloma and renal impairment.
Bridoux, F, Chen, N, Moreau, S, Arnulf, B, Moumas, E, Abraham, J, Desport, E, Jaccard, A, Fermand, JP
Cancer chemotherapy and pharmacology. 2016;(1):173-82
Abstract
PURPOSE Renal impairment (RI) is a common comorbidity in multiple myeloma (MM). Current dose adjustments recommended for renally excreted lenalidomide are based on data from noncancer patients. This study evaluated the pharmacokinetics, safety, efficacy, and exposure-response for lenalidomide plus dexamethasone in patients with relapsed/refractory MM and stable RI using the recommended dose adjustments. METHODS This phase 2 multicenter, open-label study stratified patients into 5 groups based on creatinine clearance (CrCl) calculated by Cockcroft-Gault equation: normal renal function (CrCl > 80 mL/min), mild RI (50 ≤ CrCl ≤ 80 mL/min), moderate RI (30 ≤ CrCl < 50 mL/min), severe RI (CrCl < 30 mL/min), and end-stage renal disease requiring hemodialysis. Dosing was based on the lenalidomide label. RESULTS Among 38 patients, the median age was 68 (range 62-74) years, and poorer renal function was associated with older age, more advanced disease, and more lines of prior therapy. Lenalidomide clearance declined with decreased CrCl. Mean lenalidomide area under plasma concentration-time curve (AUC) was within ±25 % of the target AUC in each group. Overall response was 76 %, and safety profiles were similar across groups, with no exposure-dependent trend in efficacy or toxicity. Estimated glomerular filtration rates calculated using the simplified Modification of Diet in Renal Disease equation highly correlated with lenalidomide clearance and, in 87 % of patients, would lead to assigning the same starting dose of lenalidomide as CrCl. CONCLUSIONS In patients with stable renal function, the recommended dose adjustments achieved proper plasma exposure and similar safety and efficacy across renal groups.
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Telaprevir enhances ribavirin-induced anaemia through renal function impairment.
Cotte, L, Barrail-Tran, A, Vincent, C, Valantin, MA, Fournier, I, Lacombe, K, Chevaliez, S, Aboulker, JP, Taburet, AM, Molina, JM, et al
Antiviral therapy. 2015;(5):479-86
Abstract
BACKGROUND Alterations in renal function have been described with telaprevir (TVR). We examined the relationship between ribavirin (RBV) trough concentration (C), estimated glomerular filtration rate (eGFR) and severe anaemia, before and after TVR introduction in HIV-HCV-coinfected patients included in ANRS HC26 TelapreVIH study. METHODS 69 HIV-HCV genotype-1 coinfected patients received 4 weeks of pegylated interferon (PEG-IFN)-α2a/RBV, followed by 12 weeks of TVR/PEG-IFN/RBV, then 32 to 56 weeks of PEG-IFN/RBV. RBV C was determined at week (W)4, W8 and W20/24. eGFR was estimated by the Modification of the Diet in Renal Disease (MDRD) equation. Severe anaemia was defined as haemoglobin <70 g/l, RBV dose reduction, prescription of erythropoietin or blood transfusion. RESULTS 67 patients were analysed. eGFR remained normal between baseline (97.9 ml/min) and W4 (103.4 ml/min), declined to 86.3 ml/min at W8 (P<0.0001), stabilized until W16 and increased back to baseline level at W20 (98.4 ml/min). RBV C increased from 1.88 mg/l at W4 to 2.88 mg/l at W8 (P<0.0001), then decreased to 2.73 mg/l at week 20/24 (P=0.015). An inverse correlation was observed between W8 eGFR and W8 RBV C (r2=0.429; P=0.0005). RBV C≥3 mg/l was observed in 12% of patients at W4, 45% at W8 (P<0.0001) and 38% at W20/24 (P=0.0005). Severe anaemia was observed in 23.9% of patients at W4 and 45.3% at W8. RBV C≥3 mg/l at W8 (OR 7.7 [95% CI 2.2, 27.4]) and baseline haemoglobin <150 g/l (OR 6.4 [1.7, 23.8]) were independently associated with W8 severe anaemia. CONCLUSIONS Association of TVR to PEG-IFN/RBV was associated with a decrease in eGFR and increase in RBV C, leading to severe anaemia in 45% of patients.
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Pharmacokinetics of single-dose morinidazole in patients with severe renal impairment.
Zhang, H, Huang, L, Huang, YY, Yi, B, Pei, Q, Tan, HY, Huang, J, Liu, JS, Yuan, H, Yang, GP
International journal of clinical pharmacology and therapeutics. 2014;(2):159-65
Abstract
OBJECTIVE To evaluate the pharmacokinetics of morinidazole in individuals with severe renal impairment (RI). METHODS This open-label Phase I study enrolled healthy volunteers and patients with severe RI aged 18 - 65 years. All subjects received a single infusion of sodium chloride injection with 500 mg morinidazole. Plasma and urine concentration of morinidazole and one of its metabolites (M4-1) were evaluated by using HPLC-UV and HPLC-MS/MS respectively. Pharmacokinetic parameters were calculated by Phoenix WinNonlin 6.0 software. RESULTS 22 individuals (healthy: n = 11, severe RI: n = 11) received morinidazole. In both groups, maximum plasma concentration of morinidazole was reached within 1 hour, while the tmax of M4-1 differed greatly. Both AUC0-t and AUC0-∞ of morinidazole were 1.4 times higher in patients with severe RI, while M4-1 were over 7 times higher than healthy groups. Renal excretion of unchanged morinidazole was decreased by 65% in patients with RI, and M4-1 was decreased by 72%. Apparent correlation between CLcr and CL, AUC, t1/2 and CLr were seen in two groups. CONCLUSIONS A single dose of 500 mg morinidazole is well tolerated. Changes in pharmacokinetic parameters of morinidazole and M4-1 are seen in patients with RI and may be clinically important.