Danielle Armas scite author profile

Cabozantinib is a small molecule tyrosine kinase inhibitor that has been approved for the treatment of patients with progressive, metastatic medullary thyroid cancer. Cabozantinib exhibits a pH-dependent solubility profile in vitro. Two phase 1 clinical pharmacology studies were conducted in healthy subjects to evaluate whether factors that may affect cabozantinib solubility and gastric pH could alter cabozantinib bioavailability: a food effect study (study 1) and a drug-drug interaction (DDI) study with the proton pump inhibitor (PPI) esomeprazole (study 2). Following a high-fat meal (study 1), cabozantinib Cmax and AUC were increased (40.5% and 57%, respectively), and the median tmax was delayed by 2 hours. Cabozantinib should thus not be taken with food (patients should not eat for at least 2 hours before and at least 1 hour after administration). In the DDI study (study 2), the 90% confidence intervals (CIs) around the ratio of least-squares means of cabozantinib with esomeprazole versus cabozantinib alone for AUC0-inf were within the 80%-125% limits; the upper 90%CI for Cmax was 125.1%. Because of the low apparent risk of a DDI, concomitant use of PPIs or weaker gastric pH-altering agents with cabozantinib is not contraindicated.

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Atogepant Has No Clinically Relevant Effects on the Pharmacokinetics of an Ethinyl Estradiol/Levonorgestrel Oral Contraceptive in Healthy Female Participants

Ankrom

Vallee

et al. 2020

The Journal of Clinical Pharma

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The incidence of migraine is higher among women than men and peaks during the reproductive years, when contraceptive medication use is common. Atogepant, a potent, selective antagonist of the calcitonin gene‒related peptide receptor—in development for migraine prevention—is thus likely to be used by women taking oral contraceptives. This phase 1, open‐label, single‐center, 2‐period, fixed‐sequence study examined the effect of multiple‐dose atogepant 60 mg once daily on the single‐dose pharmacokinetics of a combination oral contraceptive, ethinyl estradiol 0.03 mg and levonorgestrel 0.15 mg (EE/LNG), in healthy postmenopausal or oophorectomized women. For participants in period 1, a single dose of EE/LNG was followed by a 7‐day washout. In period 2, atogepant was given once daily on days 1‐17; an oral dose of EE/LNG was coadministered with atogepant on day 14. Plasma pharmacokinetic parameters for EE and LNG were assessed following administration with and without atogepant. Twenty‐six participants aged 45‐64 years enrolled; 22 completed the study in accordance with the protocol. The area under the concentration‐time curve extrapolated to infinity (AUC 0‐∞ ) of LNG was increased by 19% when administered with atogepant. Coadministration of atogepant and a single dose of EE/LNG did not substantially alter the pharmacokinetics of EE; the ∼19% increase in plasma AUC 0‐∞ of LNG is not anticipated to be clinically significant. Overall, atogepant alone and in combination with EE/LNG was generally well tolerated, with no new safety signals identified.

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Pharmacokinetic Drug–Drug Interaction of Apalutamide, Part 1: Clinical Studies in Healthy Men and Patients with Castration-Resistant Prostate Cancer

Durán

Carles

Bulat³

et al. 2020

Clin Pharmacokinet

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Pharmacokinetics and pharmacodynamics of single and multiple doses of the glucagon receptor antagonist LGD‐6972 in healthy subjects and subjects with type 2 diabetes mellitus

Vajda

Logan

Lasseter

et al. 2016

Diabetes Obesity Metabolism

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AimTo evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of single and multiple doses of a novel, oral glucagon receptor antagonist, LGD‐6972, in healthy subjects and subjects with type 2 diabetes (T2DM).MethodsIn the single ascending dose study, LGD‐6972 (2‐480 mg) was administered to healthy subjects (n = 48) and T2DM subjects (n = 8). In the multiple ascending dose study, healthy subjects (n = 12) received a dose of 15 mg LGD‐6972 and T2DM subjects (n = 36) received doses of 5, 10 or 15 mg of LGD‐6972 daily for 14 days.Results LGD‐6972 had linear plasma pharmacokinetics consistent with once‐daily dosing that was comparable in healthy and T2DM subjects. Dose‐dependent decreases in fasting plasma glucose were observed in all groups with a maximum of 3.15 mmol/L (56.8 mg/dL) on day 14 in T2DM subjects. LGD‐6972 also reduced plasma glucose in the postprandial state. Dose‐dependent increases in fasting plasma glucagon were observed, but glucagon levels decreased and insulin levels increased after an oral glucose load in T2DM subjects. LGD‐6972 was well tolerated at the doses tested without dose‐related or clinically meaningful changes in clinical laboratory parameters. No subject experienced hypoglycaemia.ConclusionInhibition of glucagon action by LGD‐6972 was associated with decreases in glucose in both healthy and T2DM subjects, the magnitude of which was sufficient to predict improvement in glycaemic control with longer treatment duration in T2DM patients. The safety and pharmacological profile of LGD‐6972 after 14 days of dosing supports continued clinical development.

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Danielle Armas

Evaluation of the effect of food and gastric pH on the single‐dose pharmacokinetics of cabozantinib in healthy adult subjects

Atogepant Has No Clinically Relevant Effects on the Pharmacokinetics of an Ethinyl Estradiol/Levonorgestrel Oral Contraceptive in Healthy Female Participants

Pharmacokinetic Drug–Drug Interaction of Apalutamide, Part 1: Clinical Studies in Healthy Men and Patients with Castration-Resistant Prostate Cancer

Pharmacokinetics and pharmacodynamics of single and multiple doses of the glucagon receptor antagonist LGD‐6972 in healthy subjects and subjects with type 2 diabetes mellitus

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