Pharmacokinetics and mass balance of vericiguat in rats and dogs and distribution in rats.

Vericiguat is a soluble guanylate cyclase stimulator. The pharmacokinetics, absorption, metabolism, and excretion properties of vericiguat in rats and dogs and the distribution in rats are reported. [14C]-labelled vericiguat was studied in intact and bile duct-cannulated rats (oral and intravenous administration), and dogs (oral administration).Vericiguat reached maximum plasma concentrations at 1-3 h after oral administration. Absolute bioavailability was moderate in rats and high in dogs. Vericiguat was the most abundant component in plasma of rats and dogs.After oral administration to rats, radioactivity was widely distributed. Penetration into the brain was minimal. Elimination was rapid from most tissues in rats. Most of the radioactivity was excreted in faeces (rat: 81%, dog: 89%), while low amounts were excreted in urine (rat: 11%, dog: 4%). Clearance routes in both species were unchanged excretion and metabolism via glucuronidation and oxidative reactions. After intravenous administration to bile duct-cannulated rats, a relevant proportion of the dose (30%) underwent direct excretion into the gastrointestinal tract as unchanged vericiguat.

Hemostatic therapy in experimental intracerebral hemorrhage associated with rivaroxaban.

BACKGROUND AND PURPOSE: Rivaroxaban has recently been approved for stroke prevention in atrial fibrillation. However, lack of an effective antidote represents a major concern in the event of intracerebral hemorrhage (ICH). The aims of the present study were to establish a murine model of ICH associated with rivaroxaban, and to examine the effectiveness of different hemostatic factors in preventing excess hematoma expansion. METHODS: In C57BL/6 mice receiving 10 or 30 mg/kg rivaroxaban by gastric gavage, plasma concentration, prothrombin time, and coagulation factor activities were measured repeatedly. Thirty minutes after inducing ICH by intrastriatal collagenase-injection, mice received an intravenous injection of either saline, prothrombin complex concentrate (100 U/kg), murine fresh frozen plasma (200 µL), or recombinant human Factor VIIa (1 mg/kg). ICH volume was quantified on brain cryosections and using hemoglobin spectrophotometry 24 hours later. RESULTS: Rivaroxaban in 30 mg/kg dose substantially increased the hematoma volume in ICH induced by 0.060 U collagenase. Prothrombin complex concentrate, fresh frozen plasma, or Factor VIIa prevented excess hematoma expansion caused by anticoagulation. Prevention of hematoma expansion by prothrombin complex concentrate was dose-dependent. None of the 3 agents completely corrected the prolonged prothrombin time, although they restored the activities of deficient FII and X. CONCLUSIONS: Prothrombin complex concentrate, Factor VIIa, and fresh frozen plasma prevent excess intracerebral hematoma expansion in a murine ICH model associated with rivaroxaban. The efficacy and safety of this reversal strategy must be further evaluated in clinical studies.