Background Tissue factor pathway inhibitor (TFPI) is a protease inhibitor of the tissue factor-activated factor VII complex and activated FX. PF-06741086 is a mAb that targets TFPI to increase clotting activity. Objectives This study was a randomized, double-blind, sponsor-open, placebo-controlled, single intravenous or subcutaneous dose escalation study to evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of PF-06741086. Patients/Methods Volunteers who provided written informed consent were assigned to cohorts with escalating dose levels. Safety endpoints included treatment-emergent adverse events (TEAEs), infusion/injection site reactions, vital signs, electrocardiogram, and coagulation and hematology laboratory parameters. Pharmacokinetic (PK) and pharmacodynamic (PD) endpoints included exposures of PF-06741086 in plasma and measures of PF-06741086 pharmacology, respectively. Results Forty-one male volunteers were recruited overall. Thirty-two were dosed with PF-06741086 from 30 mg subcutaneously to 440 mg intravenously. All doses were safe and well tolerated. TEAEs were mild or moderate in severity, laboratory abnormalities were transient, there were no serious adverse events, there were no infusion/injection site reactions, and no dose escalation stopping criteria were met. Plasma exposures of PF-06741086 increased greater than proportionally with dose under the same dosing route. Coagulation pharmacology was demonstrated via total TFPI, dilute prothrombin time, D-dimer, prothrombin fragment 1 + 2 and thrombin generation assay parameters. Conclusions Single doses of PF-06741086 at multiple dose levels were safe and well tolerated in a healthy adult male population. The safety, PK and PD data from this study support progression to a multiple-dose study in hemophilic patients.
More effective and better-tolerated therapies are needed for chronic hepatitis C virus (HCV) infection. Among the direct-acting anti-HCV agents in development is the nonstructural 5B protein (NS5B polymerase) non-nucleoside inhibitor filibuvir. We investigated the antiviral activity, pharmacokinetics, safety, and tolerability of multiple doses of filibuvir in treatment-naive and treatment-experienced patients who were chronically infected with HCV genotype 1 in two phase 1b clinical studies (study 1 was a randomized, placebo-controlled dose escalation study and study 2 was a nonrandomized, open-label study). The filibuvir doses evaluated ranged from 200-1400 mg daily, and the duration of dosing ranged from 3-10 days. Genotypic changes in the NS5B nucleotide sequence following short-term filibuvir therapy were also assessed. Filibuvir potently inhibited viral replication in a dose-dependent manner. Mean maximum HCV RNA change from baseline ranged from 20.97 log 10 IU/mL with filibuvir given at 100 mg twice daily to 22.30 log 10 IU/mL with filibuvir given at 700 mg twice daily in treatment-naive patients. In treatmentexperienced patients, an HCV RNA reduction of 2.20 log 10 IU/mL was achieved with filibuvir given at 450 mg twice daily. Filibuvir was well tolerated in both studies. Adverse events were mild or moderate in severity. No discontinuations, serious adverse events, or deaths were reported. NS5B sequencing identified residue 423 as the predominant site of mutation after filibuvir dosing. Conclusion: Filibuvir administration resulted in significant reductions in HCV RNA concentrations at doses that were well tolerated in patients infected with HCV genotype 1. Filibuvir is currently being evaluated in combination with pegylated interferon alfa 2a plus ribavirin in treatment-naive patients. (HEPATOLOGY 2011;54:50-59) H epatitis C virus (HCV) infection affects approximately 180 million people worldwide 1 and is a leading cause of chronic liver disease. 2 The current standard of care for chronic HCV infection is a combination of pegylated interferon alfa (pegIFN) and ribavirin (RBV). 3 In treatment-naive patients who are infected with HCV genotype 1, administration of pegIFN and RBV results in a sustained virological response (SVR; defined as undetectable HCV RNA in the plasma 24 weeks after completion of therapy) in only 40%-50% of patients following 48 weeks of therapy. [4][5][6] In patients with genotype 1 infection who failed to achieve SVR with a prior pegIFN/RBV regimen, retreatment with pegIFN and RBV for 48 weeks resulted in SVR rates ranging from 4% in nonresponders (did not achieve undetectable HCV RNA levels at any time during therapy) to 23% in relapsers (HCV RNA undetectable at end of treatment but returned following discontinuation of treatment). 7 PegIFN and RBV therapy is also associated with substantial side effects, including fatigue,
Crizotinib (Xalkori®) is an orally administered, selective, small-molecule, ATP-competitive inhibitor of the anaplastic lymphoma kinase (ALK) and mesenchymal epithelial transition factor/hepatocyte growth factor receptor tyrosine kinases, and has recently been approved for the treatment of ALK-positive non-small cell lung cancer. The absolute bioavailability of crizotinib, effect of a high-fat meal on crizotinib pharmacokinetics (PK), and bioequivalence of several oral formulations (powder in capsule [PIC], immediate-release tablet [IRT], and commercial formulated capsule [FC]) were evaluated in two phase I clinical studies involving healthy volunteers who received single doses of crizotinib. PK parameters for crizotinib and its metabolite, PF-06260182, were determined using non-compartmental methods. The absolute oral bioavailability of crizotinib was approximately 43%, with a slight decrease in crizotinib exposures (area under the plasma concentration-time profile and maximum plasma concentration) following a high-fat meal that was not considered clinically meaningful. The FC was bioequivalent to the clinical development IRT and PIC formulations. No serious adverse events were observed during either study and the majority of adverse events were mild, the most common being diarrhea. Single-dose crizotinib could be safely administered to healthy subjects.
γ-Secretase modulators (GSMs) represent a promising therapy for Alzheimer's disease by reducing pathogenic amyloid-β (Aβ) peptide production. Three phase I studies (NCT02316756, NCT02407353, and NCT02440100) investigated the safety/tolerability, pharmacokinetics (PKs), and pharmacodynamics (PDs) of the oral GSM, PF-06648671. A PK/PD indirect-response model was developed (using biomarker data) to simultaneously characterize differential effects of PF-06648671 on multiple Aβ species in cerebrospinal fluid (CSF). Healthy subjects (n = 120) received single doses or multiple-ascending doses of PF-06648671/placebo for 14 days. No serious adverse events occurred; severe adverse events were deemed not drug related. PF-06648671 decreased Aβ42 and Aβ40 concentrations in CSF, with greater effects on Aβ42, and increased Aβ37 and Aβ38 levels, particularly Aβ37. No significant change in total Aβ was observed. The PK/PD model well described the tendency of observed CSF Aβ data and the steady-state effects of PF-06648671, supporting its use for predicting central Aβ effects and optimal dose selection for GSMs in future trials.Dementia is a progressive, neurodegenerative disorder affecting ~ 50 million people worldwide, 1 of which Alzheimer's disease (AD) is most common. 1 Treatments including cholinesterase inhibitors and N-methyl-d-aspartate receptor antagonists help with AD symptoms. 2 However, a medical need exists for agents capable of modifying and slowing AD progression. AD pathology in the brain is characterized by senile, amyloid plaques comprising a core of amyloid-β (Aβ) peptide fibrils, 3,4 and neurofibrillary tangles of primarily hyperphosphorylated tau protein. 4,5 Amyloid precursor protein (APP) is a transmembrane protein that is cleaved during processing by γ-secretase to generate Aβ peptides of various lengths, including Aβ37,38,40, and 42. 6,7 Aβ42 has a higher aggregation
Background FXa (PF-05230907) is a zymogen-like variant of activated factor X (FXa). It shows enhanced resistance to inactivation by endogenous inhibitors as compared with wild-type FXa, and restores hemostatic activity in non-clinical models of various bleeding conditions. Objectives To evaluate the safety, pharmacokinetics and pharmacodynamics of FXa by performing a phase 1, first-in-human, dose-escalation clinical trial in healthy adult volunteers. Methods Participants were assigned to one of six ascending single-dose cohorts (0.1, 0.3, 1, 2, 3 or 5 μg kg ), each planned to comprise six volunteers treated with FXa and two treated with placebo. Assessments included safety monitoring, pharmacokinetic and pharmacodynamic (PD) analyses, and immunogenicity testing. Results The trial enrolled 49 male volunteers. Administration of a single intravenous bolus dose of FXa was safe and tolerated at all dose levels tested, with no dose-limiting toxicity or serious adverse events. FXa plasma levels appeared to increase dose-proportionally, with a half-life of ~ 4 min. Treatment-related PD changes were observed for activated partial thromboplastin time, thrombin generation assay, thrombin-antithrombin complexes, prothrombin fragment 1 + 2, and D-dimer. One volunteer had a weak and transient non-neutralizing antidrug antibody response, which did not cross-react with native FX or native FXa. Conclusions FXa was safe and tolerated, and showed a pharmacologic effect in healthy adults when administered at doses up to 5 μg kg . The safety profile, pharmacokinetics and pharmacodynamics observed in this clinical trial support the further development of FXa for hemostatic treatment in individuals with acute hemorrhagic conditions.
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