ESRD Clinical Trial
Official title:
Apixaban in End-stage Kidney Disease : A Pharmacokinetics Study
Apixaban is a novel oral direct factor Xa inhibitor; In patients with atrial fibrillation,
apixaban was superior to warfarin in preventing stroke or systemic embolism, caused less
bleeding, and resulted in lower mortality (the ARISTOTLE trial). Given its favorable outcome
profile compared to oral vitamin K antagonists in patients with normal kidney function and in
patients with mild to moderate kidney disease and given the potential serious side-effects of
oral vitamin K antagonists in end-stage kidney disease, apixaban may be an attractive
alternative for systemic anticoagulation in dialysis patients. The pharmacokinetics of
apixaban in end-stage renal disease is not well characterized.
The aim of the current study is to perform single dose pharmacokinetics / pharmacodynamics
studies in patients treated with end-stage renal disease. The primary aim is to determine
inter-dialytic pharmacokinetics of Apixaban, secondary aims are intra-dialytic
pharmacokinetics and dose finding. Two doses of drugs will be studies (2.5 mg and 5 mg).
Study drug will be administered at the end of a dialysis session (part A) and at the
beginning of a dialysis session (Part B). Six (n=6) patients are scheduled to be included for
each part and each dose.
Anti-Xa activity values (IIU/mL) will be converted to apixaban concentration data (ng/mL).
Apixaban concentration-time profiles will be generated and observed values for the
descriptive PK parameters Cmax (peak plasma concentration) and time to Cmax (Tmax) will be
determined directly from these profiles. PK profiles will be further analyzed with
non-compartmental analysis (NCA).
RATIONALE
Chronic Kidney Disease (CKD) is one of the epidemics of modern times. In the recent National
Health and Nutrition Examination Survey (NHANES), the overall prevalence of CKD (stages 1 to
4) increased from 10.0% in 1988-1994 to 13.1% in 1999-2004 (1). Mounting data point to the
lethal synergy between chronic kidney disease (CKD) and cardiovascular disease (CVD) (2,3,4)
Atrial fibrillation (AF) is an important co-morbid condition in patients with CKD. While
prevalence differs from region to region, it is estimated that between 5 and 10% of dialysis
patients have AF (5). Analyses of the US renal data system (USRDS) demonstrate that the
prevalence of AF in patients with hemodialysis continues to rise (6). Prevalent AF is
positively associated with all-cause mortality and stroke, similar to that of the general
population (5).
The choice of the optimal anticoagulation regimen for hemodialysis patients with AF is
hampered by lack of randomized controlled trials. Observational data support the use of the
CHADS2-score for risk stratification of AF in HD (5). Cost-utility analyses suggest that
warfarin appears to be the optimal therapy to prevent thromboembolic stroke in hemodialysis
patients with AF (7). These analyses however extrapolate the decrease in risk of stroke
observed in randomized trials of oral vitamin K antagonist therapy in the general population
(7). Both retrospective and prospective observational data however observe an increased risk
for stroke in HD patients receiving oral vitamin K antagonist therapy for AF (8,5).
Recent findings shed a worrisome light on the pleiotropic effects of oral vitamin K
antagonist therapy in patients with advanced chronic kidney disease. Besides promoting
undercarboxylation of the pro- and anticoagulant factors (II, VII, IX, X, protein S, protein
C) several other glutamine-domain containing proteins remain undercarboxylated. Matrix-Gla
protein is a powerful calcification inhibitor. Nonphosphorylated matrix-Gla protein has been
associated with overall mortality and cardiovascular mortality in HD patients (9).
Observational data suggest that patients treated with oral vitamin K antagonists demonstrate
higher valvular and coronary calcium (10). Prospective trials currently investigate the
effects of vitamin K supplementation on the evolution of vascular calcification in patients
with end-stage kidney disease and on aortic valve calcifications.
Apixaban is a novel oral direct factor Xa inhibitor; In patients with atrial fibrillation,
apixaban was superior to warfarin in preventing stroke or systemic embolism, caused less
bleeding, and resulted in lower mortality (the ARISTOTLE trial) (11). An important benefit of
apixaban as compared to other recent NOACs, e.g. dabigatran and rivaroxaban, is that the
elimination is less dependent on kidney function as only 25% is excreted renally and 75% is
excreted through the hepatobiliary system, with a mean elimination half-life of 8-15 hours in
healthy adults.
Given its favorable outcome profile compared to oral vitamin K antagonists in patients with
normal kidney function and in patients with mild to moderate kidney disease and given the
potential serious side-effects of oral vitamin K antagonists in end-stage kidney disease,
apixaban may be an attractive alternative for systemic anticoagulation in dialysis patients.
The pharmacokinetics of apixaban in end-stage renal disease is not well characterized.
HYPOTHESIS The pharmacokinetics profile of apixaban allows safe use in patients with
end-stage renal disease
STUDY DESIGN Open label non-randomized phase II pharmacokinetics study.
STUDY AIMS
Primary:
To determine inter-dialytic pharmacokinetics of Apixaban
Secondary:
- To determine intra-dialytic pharmacokinetics of Apixaban
- Dose finding of apixaban in patients treated with hemodialysis
DOSING AND TIMING Part A - interdialytic kinetics Dose titration
1. single dose 2.5 mg post-dialysis
2. single dose 5 mg post-dialysis As study drug is administered immediately following
dialysis, part A will provide inter-dialytic PK data (primary aim)
Part B - intra- plus interdialytic pharmacokinetics Dose titration
1. single dose 2.5 mg 30 minutes pre-dialysis
2. single dose 5 mg 30 minutes pre-dialysis As study drug is administered 30 minutes
pre-dialysis, part B will provide intra-dialytic kinetic PK data (secondary aim). As we
expect that study drug effect is not completely lost at the end of the dialysis session,
we will continue sampling blood at fixed time-points after end of dialysis. These data
may contribute to interdialytic PK (primary study aim).
NUMBER OF STUDY PARTICIPANTS
We aim to include 6 patients for each part and dosage:
Part A - Interdialytic kinetics 2.5 mg N = 6 5 mg N = 6
Part B - Intra- plus interdialytic kinetics 2.5 mg N = 6 5 mg N = 6
Based on previous publications on single dose pharmacokinetics of apixaban in healthy
volunteers (12), we expect that 6 patients per part will provide sufficient data to generate
PK profiles.
SCHEDULED BLOOD SAMPLING
Part A - Interdialytic kinetics (post-dialysis dosing)
- Sampling at start of first dialysis (pre)
- Sampling at end of dialysis (post, t = 0)
- Sampling for pharmacokinetics (t =0.5, 1, 2, 4, 8, 24 hours post dialysis)
- Sampling at start of second dialysis (t = 44 hours)
- Sampling at end of second dialysis (t = 48 hours)
Part B - Intradialytic kinetics (pre-dialysis dosing)
- Sampling at start of first dialysis (pre)
- Sampling for pharmacokinetics ( t=0.25, 0.5, 1, 1.5,2, 3,4 hours after dialysis start)
- Sampling at end of dialysis (post, t = 0)
- Sampling for pharmacokinetics (t =0.5, 1, 2, 4, 24 hours post dialysis)
- Sampling at start of second dialysis (t = 44 hours)
- Sampling at end of second dialysis (t = 48 hours)
ANALYTICAL TECHNIQUES
Apixaban concentrations (ng/mL) will be determined based on a calibration curve with Apixaban
(Apixaban Calibrator and controls, Hyphen).
Conventional anticoagulation used for hemodialysis is by heparin or low molecular weight
heparins (LMWH). This will lead to significant interference with the proposed chromogenic
anti-Xa activity assays. To exclude interference of anticoagulation for hemodialysis during
the study period, the routine anticoagulation will be switched to regional citrate
anticoagulation according to local protocol during the study period. The following will be
applied.
- One week wash-out period of (low molecular weight) heparin, during which hemodialysis
anticoagulation is according to the local regional citrate anticoagulation protocol (no
use of (low molecular weight) heparins).
- During the study period hemodialysis anticoagulation is according to the local regional
citrate anticoagulation protocol (no use of (low molecular weight) heparins).
PHARMACOKINETICS ANALYSES
Anti-Xa activity values (IIU/mL) will be converted to apixaban concentration data (ng/mL)
based on the previously demonstrated linear relationship (e.g. Frost et al., 2014 - PMID:
24697979). Apixaban concentration-time profiles will be generated and observed values for the
descriptive PK parameters Cmax (peak plasma concentration) and time to Cmax (Tmax) will be
determined directly from these profiles. PK profiles will be further analyzed with
non-compartmental analysis (NCA). Briefly, the slope (λ) of the terminal phase of the
concentration-time profile will be determined by log-linear regression on the appropriate
number (typically at least 3) of data points. The terminal (elimination) half-life (t1/2, λ)
will be calculated from Ln(2)/λ. The area under the curve (AUC) between administration (time
0) and the last measurable data point (AUC0-T) will be calculated with the 'Lin up/Log down'
trapezoidal method. The AUCT-∞ will be obtained from the last measureable concentration
divided by λ, and will be summed with AUC0-T to obtain AUC0-∞ (total exposure). Similarly,
after plotting plasma concentration-time products as a function of time, Area under the first
Moment Curve (AUMC) values will be calculated. The mean residence time (MRT, h) will be
obtained from AUMC/AUC. Mean half-life (t1/2) will be calculated as Ln(2)×MRT. Oral
('apparent') clearance (Cl/F) values will be obtained by dividing dose by AUC. The volume of
distribution at steady (Vdss/F) will be obtained as MRT x Cl/F. As alternative to NCA, the
feasibility of analyzing the data with a 1-compartmental model with first order absorption
will be explored as well. Summary statistics will be tabulated for all relevant PK
parameters: (i) the descriptive parameters Cmax, Tmax and AUC0-∞ (total exposure), (ii) MRT
and mean t1/2, (iii) the primary (fundamental) PK parameters Cl/F and Vd/F. Reported
parameters will enable appropriate comparison with previously published data on apixaban PK
in various populations. For the purpose of dose finding, AUC0-∞ (total exposure) represents
the key parameter.
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