While the preparation and storage of platelets have a detrimental effect on platelet adhesiveness, such procedures can positively influence the platelet procoagulant activity necessary to platelet hemostasis.
Pooled human immunoglobulins (IGs) are prepared from plasma obtained from healthy donors as a concentrated antibody-containing solution. In addition, high-titer IGs (hyperimmune) against a specific pathogen can be obtained from vaccinated or convalescing donors. Currently, IGs can be used for the treatment of a variety of infections for which no specific therapy exists or that remain difficult to treat. Moreover, the recent pathogen outbreaks for which there is no approved treatment have renewed attention to the role of convalescent plasma and IGs. Areas covered: In this review, a historical perspective of the use of sera and IGs in humans as anti-infective agents (any viral, bacterial, parasitic infection), excluding immunodeficient patients, is presented from early development to the latest clinical studies. A Medline search was conducted to examine the peer-reviewed literature, with no date limits. Expert commentary: Human pooled plasma-derived IG products benefit from the polyclonal response of every individual donor and from the interindividual variability in such response. The trend to increased availability of vaccines for infectious diseases also opens new potential applications of hyperimmune IGs for emerging or re-emerging infectious diseases (e.g.: Ebola, Zika, Dengue), for the prevention and treatment in the general population, healthcare personnel and caregivers.
Pharmacological strategies aimed at the prevention of thrombotic complications are in continuous development. Argatroban is a synthetic small molecule derived from l-arginine with specific antithrombotic activity. Argatroban is a direct thrombin inhibitor that binds avidly and reversibly to the catalytic site of thrombin and that does not require other cofactors to exert its antithrombotic action. Due to its selective inhibitory mechanism, argatroban blocks both circulating and clot-bound thrombin. A rapid onset of its anticoagulant action is achieved after intravenous administration. The short elimination half-life of argatroban (52+/-16 minutes) ensures a rapid restoration of hemostasis upon cessation of treatment. Argatroban produces a predictable dose response, and its anticoagulant actions can be monitored easily through the routine coagulation tests activated partial thromboplastin time (aPTT) and activated clotting time (ACT). The specific mechanism of action and favorable pharmacokinetic profile of argatroban suggest that it could be beneficial in all indications where other intravenous anticoagulants are used. Results from clinical studies performed to date show that, when administered to patients with heparin-induced thrombocytopenia (HIT) or HIT with thrombosis (HITTS) in two large-scale, nonrandomized, prospective trials, argatroban reduced a combined endpoint of morbidity and mortality when compared with historical controls. Argatroban was well tolerated in clinical trials of patients with HIT and caused no increase in bleeding risk compared with historical controls. Argatroban does not induce the formation of antibodies that can neutralize its anticoagulant effect, prolong its half-life or enhance its activity. The U.S. Food and Drug Administration has approved the use of this drug as an alternative antithrombotic treatment for patients with HIT as well as for patients with or at risk for HIT undergoing percutaneous coronary interventions. In 2004 (Sweden), 2005 (Germany, the Netherlands, Austria and Iceland) and 2006 (Denmark) argatroban was approved for anticoagulation in adult patients with heparin-induced thrombocytopenia type II who require parenteral antithrombotic therapy.
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