Roman Brooks scite author profile

Because of the unsatisfactory options available for safe and effective antithrombotic therapy, recent, intense research and development efforts have focused on direct, or site-directed, thrombin inhibitors. Argatroban is a small-molecule, reversible, direct thrombin inhibitor selective for the catalytic site of the thrombin molecule. Argatroban's molecular properties (small molecule; fast, selective, and reversible inhibition of the thrombin catalytic site; and similar in vitro potency for inhibiting both clot-bound and soluble thrombin) offer the potential for significant antithrombotic efficacy with minimal systemic anticoagulant effects. Its clinical pharmacologic properties offer the potential for minimal risk of bleeding, very rapid achievement of therapeutic antithrombotic efficacy, predictable dose response, and rapid restoration of the hemostatic systems to baseline on termination of intravenous infusion. The intravenous agent Novastan (brand of argatroban) is currently approved for clinical use in Japan for the treatment of peripheral arterial occlusive disease. Novastan is in advanced clinical development in North and South America for several indications, including (1) anticoagulant/antithrombotic therapy in heparin-induced thrombocytopenia (HIT) and heparin-induced thrombocytopenia, and thrombosis syndrome (HITTS); and (2) adjunctive therapy to thrombolytic agents in acute myocardial infarction. Results from these trials are projected to be available by early 1997.

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State-of-the-Art Review: The Preclinical and Clinical Pharmacology of Novastan (Argatroban): A Small-Molecule, Direct Thrombin Inhibitor

Schwarz¹,

Becker²,

Brooks³

et al. 1997

Clin Appl Thromb Hemost

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Because of the unsatisfactory options available for safe and effective antithrombotic therapy, recent, intense research and development efforts have been focused on direct thrombin inhibitors, also known as site-directed thrombin inhibitors. The intravenous agent Novastan (argatroban) is a small-molecule, reversible, direct thrombin inhibitor that is selective for the catalytic site of the thrombin molecule. Argatroban's molecular properties (small molecule; fast, selective, and reversible inhibition of the thrombin catalytic site; and similar in vitro potency for inhibiting both clot-bound and soluble thrombin) offer the potential for significant antithrombotic efficacy with minimal systemic anticoagulant ef fects. Its clinical pharmacologic properties offer the potential for minimal risk of bleeding, very rapid achievement of therapeutic antithrombotic efficacy, predictable dose-response, and rapid restoration of the hemostatic systems to normal upon termination of intravenous infusion. Argatroban is currently approved for clinical use in Japan for the treatment of peripheral arterial occlusive disease. It is in advanced clinical development in North America, South America, and Western Europe for several clinical indications, including (1) adjunctive therapy to thrombolytic agents in the treatment of acute myocardial infarction and (2) antithrombotic therapy for patients with heparin-induced thrombocytopenia and heparin-induced thrombocytopenia and thrombosis syndrome. Key Words: Molecular properties—Novastan (argatroban)—Pharmacology—Thrombin inhibitor.

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The double‐stranded RNA‐binding domains of Xenopus laevis ADAR1 exhibit different RNA‐binding behaviors

1998

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We have cloned cDNAs encoding two versions of Xenopus double-stranded RNA adenosine deaminase (ADAR1). Like ADAR1 proteins from other species Xenopus ADAR1 contains three double-stranded RNA-binding domains (dsRBDs) which are most likely required for substrate binding and recognition of this RNA-editing enzyme. Analysis of mammalian ADAR1 identified the third dsRBD in this enzyme as most important for RNA binding. Here we analyzed the three dsRBDs of Xenopus ADAR1 for their in vitro RNA-binding behavior using two different assays. Northwestern assays identified the second dsRBD in the Xenopus protein as most important for RNA binding while in-solution assays demonstrated the importance of the third dsRBD for RNA binding. The differences between these two assays are discussed and we suggest that both the second and third dsRBD of Xenopus ADAR1 are important for RNA binding in vivo. We show further that all three dsRBDs can contribute to a cooperative binding effect.z 1998 Federation of European Biochemical Societies.

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Use of Direct-Acting Oral Anticoagulants in Nonagenarians: A Call for More Data

et al. 2016

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The prevalence and embolic risk of atrial fibrillation (AF) increase with age. Vitamin K antagonists (VKAs) or direct-acting oral anticoagulants (DOACs) reduce the risk of stroke or embolism. The aim of this review was to summarize the paucity of information regarding the safety and efficacy of DOACs in AF patients aged 90 years or older. The maximum age of included patients is not listed in any of the available DOAC investigating trials and registries, thus it is unclear if nonagenarians were included. Additionally, we could not find any subgroup analysis addressing this issue. There is an urgent need to collect more information on the safety and efficacy of oral anticoagulants in nonagenarians, especially regarding the role of DOACs, which are increasingly prescribed to this group of patients despite the lack of data. The best solution to this problem would be a prospective, randomized trial in this group of patients, however that would require a large investment of time, effort, and funds. In the meantime, we suggest subgroup analyses addressing the effects and safety of VKAs versus DOACs in nonagenarians, in case they have been included in previously completed or ongoing trials or registries. This could be feasible and would be desirable in view of the large amount of data already accumulated. Irrespective of age, anemia in patients receiving DOACs should be carefully investigated to rule out occult blood loss. With their known interaction profile and the possibility of monitoring these drugs, VKAs should be favored over DOACs in nonagenarians until more data are available regarding the safety of DOACs.

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Acorns and Ideas

Brooks

1968

Naval Engineers Journal

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Roman Brooks

Novastan^®(Brand of Argatroban): A Small-Molecule, Direct Thrombin Inhibitor

State-of-the-Art Review: The Preclinical and Clinical Pharmacology of Novastan (Argatroban): A Small-Molecule, Direct Thrombin Inhibitor

The double‐stranded RNA‐binding domains of Xenopus laevis ADAR1 exhibit different RNA‐binding behaviors

Use of Direct-Acting Oral Anticoagulants in Nonagenarians: A Call for More Data

Acorns and Ideas

Contact Info

Product

Resources

About

Roman Brooks

Novastan®(Brand of Argatroban): A Small-Molecule, Direct Thrombin Inhibitor

State-of-the-Art Review: The Preclinical and Clinical Pharmacology of Novastan (Argatroban): A Small-Molecule, Direct Thrombin Inhibitor

The double‐stranded RNA‐binding domains of Xenopus laevis ADAR1 exhibit different RNA‐binding behaviors

Use of Direct-Acting Oral Anticoagulants in Nonagenarians: A Call for More Data

Acorns and Ideas

Contact Info

Product

Resources

About

Novastan^®(Brand of Argatroban): A Small-Molecule, Direct Thrombin Inhibitor