Correspondence between traditional models of functional analysis and a functional analysis of manding behavior.

Functional analysis procedures have been effectively used to determine the maintaining variables for challenging behavior and subsequently develop effective interventions. However, fear of evoking dangerous topographies of maladaptive behavior and concerns for reinforcing infrequent maladaptive behavior present challenges for people working in applied settings. The present investigation sought to evaluate the utility of an adjunctive functional analysis model that involved the reinforcement of mands rather than problem behavior and compared the results to traditional functional analyses.

Administration of a small molecule tissue factor/factor VIIa inhibitor in a non-human primate thrombosis model of venous thrombosis: effects on thrombus formation and bleeding time.

Introduction: Pharmacological treatment of deep vein thrombosis (DVT) in the future may target inhibitors of specific procoagulant proteins. This study used a non-human primate model to test the effect of PHA-798, a specific inhibitor of the tissue factor/Factor VIIa complex (TF/VIIa), on venous thrombus formation.

Materials And Methods: PHA inhibits the TF/VIIa complex with an IC(50) of 13.

Assessment of bleeding propensity in non-human primates by combination of selective tissue factor/VIIa inhibition and aspirin compared to warfarin and aspirin treatment.

This study in non-human primates was designed to evaluate the bleeding propensity of a selective, small molecule inhibitor of tissue factor (TF)/VIIa in combination with acetylsalicylic acid (ASA) in comparison to the combination of ASA and warfarin. Bleeding time was increased by ASA but was not prolonged further by the addition of the TF/VIIa inhibitor, PHA-927, at doses that elevated the prothrombin time to 8-fold. In contrast, bleeding time was prolonged by warfarin alone and further exacerbated by the presence of ASA.

Pharmacological interruption of acute thrombus formation with minimal hemorrhagic complications by a small molecule tissue factor/factor VIIa inhibitor: comparison to factor Xa and thrombin inhibition in a nonhuman primate thrombosis model.

This study was designed to evaluate the antithrombotic efficacy and bleeding propensity of a selective, small-molecule inhibitor of tissue factor/factor VIIa (TF/VIIa) in comparison to small-molecule, selective inhibitors of factor Xa and thrombin in a nonhuman primate model of thrombosis. Acute, spontaneous thrombus formation was induced by electrolytic injury to the intimal surface of a femoral blood vessel, which results in thrombus propagation at the injured site. The TF/FVIIa inhibitor 3-amino-5-[1-[2-([4-[amino(imino)methyl]benzyl]amino)-2-oxoethyl]-3-chloro-5-(isopropylamino)-6-oxo-1,6-dihydropyrazin-2-yl]benzoic acid dihydrochloride (PHA-927F) was fully effective in prevention of thrombosis-induced vessel occlusion at a dose of 400 microg/kg/min, i.

Pharmacological intervention at disparate sites in the coagulation cascade: comparison of anti-thrombotic efficacy vs bleeding propensity in a rat model of acute arterial thrombosis.

The Tissue Factor/Factor VIIa (TF/FVIIa) complex is an attractive target for pharmacological interruption of thrombin generation and hence blood coagulation, as this complex is the initiation point of the extrinsic pathway of coagulation. TF is a cell membrane-associated protein that interacts with soluble FVIIa to activate factors IX and X resulting in a cascade of events that leads to thrombin generation and eventual fibrin deposition. The goal of this non-randomized study was to evaluate XK1, a specific protein inhibitor of TF/FVIIa, and compare antithrombotic efficacy and bleeding propensity to a previously described Factor Xa (FXa) inhibitor (SC-83157/SN429) and a direct-acting thrombin inhibitor (SC-79407/L-374087) in an acute rat model of arterial thrombosis.