Abstract
Objectives
Aspirin, or acetylsalicylic acid (ASA), can lead to gastrointestinal mucosal injury through disruption of its protective phospholipid bilayer, underscoring the need for ASA formulations with a more favorable safety profile while maintaining an effective pharmacologic profile. A liquid formulation using a novel pharmaceutical lipid aspirin complex (PL-ASA) has been designed to prevent the disruption of the protective mucosal bilayer. We sought to determine the pharmacokinetic (PK)/pharmacodynamic (PD) characteristics of PL-ASA compared with traditional, immediate release aspirin (IR-ASA).
Methods
In this active-control crossover study, 16 healthy volunteers were randomized to receive a single dose of either IR-ASA 325 mg or PL-ASA 325 mg in a sequential fashion with a 2-week washout period between treatment assignments. The primary objectives of the study were to assess PK (i.e., plasma salicylic acid levels) and PD (i.e., serum thromboxane B2 levels) bioequivalence over a 24–hour period after drug administration, of PL-ASA and IR-ASA using established criteria.
Results
The PK parameter values were similar for PL-ASA and IR-ASA, with median AUC 0-t and Cmax values nominally higher for PL-ASA. Log-transformed PK parameters meeting FDA-criteria for bioequivalence (80% to 125%) are provided in the Table. Serum thromboxane B2 levels were similar for PL-ASA and IR-ASA, with Cmin values below 3.1 ng/mL (cut-off associated with decreased cardiovascular events) for both drugs. Both drugs also showed >99% inhibition of serum thromboxane B2 levels (≥95% inhibition represents the cut-off to define aspirin responders). Several secondary PK/PD parameters showed similarities between the two drugs (data not shown). Overall, these findings support functional and clinical equivalence between PL-ASA and IR-ASA.
PK Results Parameter Ratio (PL-ASA/IR-ASA) 90% Confidence Interval AUC0-t 96.51 89.24, 104.37 Cmax 103.73 92.06, 116.89
Conclusions
PL-ASA's novel liquid formulation has similar PK and PD performance compared with IR-ASA. The improved endoscopic safety profile of PL-ASA coupled with its pharmacologic efficacy equivalent to IR-ASA may result in an improved benefit-risk performance, warranting evaluation in future trials.
Acknowledgement/Funding
PLx Pharma, Inc.
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