Effect of renal impairment on the pharmacokinetics and pharmacodynamics of desirudin

How to Ensure Patency of the Extracorporeal Circuit in Hemodialysis: Global Perspectives

An adequate knowledge of anticoagulants used to prevent clotting in the extracorporeal circuit is crucial to provide optimal hemodialysis. Drugs can potentially prevent extracorporeal circuit clotting, but administration, half-life, and potential side effects differ. However, there is a lack of concise recommendations to guide anticoagulation and to avoid side effects. Because of the development of newer anticoagulant agents, direct thrombin inhibitors, and heparinoids, some of the side effects related to heparin may be overcome, but a deeper knowledge of these newer drugs is necessary. Moreover, types of heparin used, routes of administration, and health care economics vary around the world. We performed an extensive review of the literature, and the present article focuses on available anticoagulant drugs, exploring doses, side effects, particular use in hemodialysis, mechanism of action, pharmacokinetic properties, and use in special situations. Classical anticoagulants are still the standard of anticoagulation, but many questions remain unanswered; for example, is there real superiority of one treatment over another in terms of efficacy, safety, and health care economics? Anticoagulant protocols for hemodialysis need to be standardized and further studies performed to answer all of these questions.

Management of antithrombotic agents in patients undergoing flexible bronchoscopy

Bleeding is one of the most feared complications of flexible bronchoscopy. Although infrequent, it can be catastrophic and result in fatal outcomes. Compared to other endoscopic procedures, the risk of morbidity and mortality from the bleeding is increased, as even a small amount of blood can fill the tracheobronchial tree and lead to respiratory failure. Patients using antithrombotic agents (ATAs) have higher bleeding risk. A thorough understanding of the different ATAs is critical to manage patients during the peri-procedural period. A decision to stop an ATA before bronchoscopy should take into account a variety of factors, including indication for its use and the type of procedure. This article serves as a detailed review on the different ATAs, their pharmacokinetics and the pre- and post-bronchoscopy management of patients receiving these medications.

Optimizing drug therapy in the surgical intensive care unit

This article provides a review of commonly prescribed medications in the surgical ICU, focusing on sedatives, antipsychotics, neuromuscular blocking agents, cardiovascular agents, anticoagulants, and antibiotics. A brief overview of pharmacology is followed by practical considerations to aid prescribers in selecting the best therapy within a given category of drugs to optimize patient outcomes.

Reversible crystallization of argatroban after subcutaneous application in pigs

Argatroban is a thrombin inhibitor used as anticoagulant in patients with heparin-induced thrombocytopenia. It is usually administered as an intravenous bolus followed by infusion. Nevertheless, its pharmacokinetics after subcutaneous administration is unknown. The aim of this study was to assess the pharmacokinetics of two different formulations of argatroban in pigs after subcutaneous administration. Antithrombotic activity in plasma was determined by ecarin chromogenic assay. To visualize the formation of crystals, argatroban was administered to rats into the subcutaneous tissue exposed after removing the skin, and the injection site was photographed at different times. After subcutaneous administration of a sorbitol/ethanol formulation of argatroban in pigs was observed a slow absorption phase was followed by long-lasting levels of this inhibitor. C(max) and AUC((0-24)) showed dose-dependent increases, while elimination half-life and t(max) value did not change significantly with dose. In contrast, saline-dissolved argatroban showed a faster absorption phase followed by a shorter elimination half-life. Argatroban dissolved in sorbitol/ethanol leads to long-lasting plasma levels due to the formation and permanent dissolution of a crystalline depot at the injection place. This represents a simple way to deliver argatroban continuously over an extended period which can be beneficial for prophylaxis or treatment of chronic coagulations disorders.

Impact of stage 3B chronic kidney disease on thrombosis and bleeding outcomes after orthopedic surgery in patients treated with desirudin or enoxaparin: insights from a randomized trial

BACKGROUND

Venous thromboembolism (VTE) remains a significant complication of major orthopedic surgery, and chronic kidney disease (CKD) is common among elderly patients undergoing total hip replacement (THR).

OBJECTIVES

The purpose of this study was to evaluate thrombosis and bleeding outcomes in patients with stage 3B CKD treated with either desirudin or enoxaparin after elective THR.

PATIENTS/METHODS

This was a post hoc subgroup analysis of a randomized, multicenter, double-blind study of desirudin vs. enoxaparin in patients undergoing elective THR.

RESULTS

Patients received either subcutaneous desirudin 15 mg twice daily or subcutaneous enoxaparin 40 mg once daily. Of the 2078 randomized patients who received study medication, 577 had stage 3B CKD or worse (27.8%), and the proportion of these patients who experienced a major VTE in the enoxaparin treatment group was found to be much higher than in the desirudin treatment group (11.1% vs. 3.4%, model-adjusted odds ratio 3.52, 95% confidence interval 1.48-8.40, P=0.004). There was no statistically significant difference between treatment groups in terms of rates of major bleeding, regardless of stage of renal function.

CONCLUSIONS

CKD has been reported previously to increase the risk of bleeding with anticoagulants, and these findings suggest that CKD may also increase the risk of major VTE for patients treated with enoxaparin, but not for patients treated with desirudin. Clinicians should consider the impact of CKD on the risk of VTE when choosing a prophylaxis agent.

Parenteral anticoagulants: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines

This article describes the pharmacology of approved parenteral anticoagulants. These include the indirect anticoagulants, unfractionated heparin (UFH), low-molecular-weight heparins (LMWHs), fondaparinux, and danaparoid, as well as the direct thrombin inhibitors hirudin, bivalirudin, and argatroban. UFH is a heterogeneous mixture of glycosaminoglycans that bind to antithrombin via a unique pentasaccharide sequence and catalyze the inactivation of thrombin, factor Xa, and other clotting enzymes. Heparin also binds to cells and plasma proteins other than antithrombin causing unpredictable pharmacokinetic and pharmacodynamic properties and triggering nonhemorrhagic side effects, such as heparin-induced thrombocytopenia (HIT) and osteoporosis. LMWHs have greater inhibitory activity against factor Xa than thrombin and exhibit less binding to cells and plasma proteins than heparin. Consequently, LMWH preparations have more predictable pharmacokinetic and pharmacodynamic properties, have a longer half-life than heparin, and are associated with a lower risk of nonhemorrhagic side effects. LMWHs can be administered once daily or bid by subcutaneous injection, without coagulation monitoring. Based on their greater convenience, LMWHs have replaced UFH for many clinical indications. Fondaparinux, a synthetic pentasaccharide, catalyzes the inhibition of factor Xa, but not thrombin, in an antithrombin-dependent fashion. Fondaparinux binds only to antithrombin. Therefore, fondaparinux-associated HIT or osteoporosis is unlikely to occur. Fondaparinux exhibits complete bioavailability when administered subcutaneously, has a longer half-life than LMWHs, and is given once daily by subcutaneous injection in fixed doses, without coagulation monitoring. Three additional parenteral direct thrombin inhibitors and danaparoid are approved as alternatives to heparin in patients with HIT.

Desirudin: a review of the pharmacology and clinical application for the prevention of deep vein thrombosis

Direct thrombin inhibitors (DTIs) are an emerging class of anticoagulants in routine clinical practice, although they have been under investigation for quite some time. Desirudin (Iprivask®, Canyon Pharmaceuticals™) is a recombinant hirudin derivative that directly inhibits free and fibrin-bound thrombin. Desirudin was the first DTI approved for deep vein thrombosis (DVT) prophylaxis in Europe (Revasc®) and is the newest injectable DTI commercially available in the USA. Desirudin is one of the few nonheparin subcutaneous drugs that has demonstrable efficacy for DVT prophylaxis. Subcutaneous desirudin has been shown to be more effective than both subcutaneous unfractionated heparin and enoxaparin, with comparable bleeding rates in the prevention of DVT in patients undergoing elective hip replacement. Desirudin also offers the advantage of a fixed dosing regimen while being less immunogenic than unfractionated heparin. However, owing to its pharmacokinetic properties, patients with renal dysfunction require dosing modifications. The favorable profile shown with desirudin thus far will allow its clinical use to grow and will promote further investigation into broadening its clinical applications.

Rationale and design of the PREVENT-HIT study: a randomized, open-label pilot study to compare desirudin and argatroban in patients with suspected heparin-induced thrombocytopenia with or without thrombosis

BACKGROUND

Desirudin, a bivalent direct thrombin inhibitor (DTI), is approved by the US Food and Drug Administration for the prevention of deep vein thrombosis, which may lead to pulmonary embolism, in patients undergoing elective hip replacement surgery. It became available in the United States in March 2010.

OBJECTIVE

The goal of the present article was to provide an overview of the rationale and design of the PREVENT-HIT study, a randomized, prospective, open-label, active drug-controlled, exploratory trial comparing the clinical and economic utility of desirudin versus argatroban in patients with suspected heparin-induced thrombocytopenia (HIT), with or without thrombosis.

SUMMARY

The PREVENT-HIT study was designed to enroll approximately 120 patients from 20 to 25 US centers. All eligible patients were required to be aged >or=18 years. Patients with suspected HIT with or without thrombosis were divided into 2 treatment arms and randomized to receive treatment with desirudin or argatroban in a 1:1 ratio using a block randomization method. Arm A comprised patients who were naive to DTI therapy; arm B included patients whose condition was previously stabilized with intravenous argatroban. Desirudin was administered as a fixed-dose injection (15 or 30 mg SC q12h in patients without or with thrombosis, respectively). Argatroban was administered by continuous intravenous infusion in accordance with approved prescribing information or institutional prescribing guidelines at each study site. The primary efficacy outcome measure included the occurrence of any of the following up to 30 days after study drug discontinuation: new-onset or worsening thrombosis requiring discontinuation of study drug; amputation; or all-cause mortality. Other outcomes that were assessed included platelet recovery, bleeding, and pharmacoeconomic parameters. In addition, adverse events and other safety parameters were evaluated. Study enrollment began in November 2008 and ended in December 2009 due to slow enrollment (N = 16). The study results will be published separately.

CONCLUSION

The results from the PREVENT-HIT study should enhance understanding of the comparative clinical and economic utility of desirudin and argatroban in patients with HIT with or without thrombosis. ClinicalTrials.gov identifier: NCT00787332.

Desirudin dosing and monitoring in moderate renal impairment

Desirudin is a renally eliminated direct thrombin inhibitor approved to prevent venous thromboembolism. Empiric dosage adjustment and activated partial thromboplastin time (aPTT) monitoring in patients with moderate renal impairment are recommended, but supportive data are lacking. The objective of this study was to evaluate appropriate desirudin dosing in moderate renal impairment and the effect of desirudin on aPTT in moderate renal impairment. Desirudin plasma concentration and aPTT data were extracted from 6 studies. Participants with normal renal function or moderate renal impairment (creatinine clearance [ClCr] 31-60 mL/min) were included. Pharmacokinetic and Monte Carlo simulations were done. After administration of desirudin 15 mg every 12 hours subcutaneously (SC) to steady state, peak desirudin concentrations were 35 and 47 nmol/L in the normal and moderate renal function groups, respectively. Monte Carlo simulations found median 2-hour C(max) concentrations of 51.7 nmol/L in normal renal function and 52.4 nmol/L in moderate renal impairment. Desirudin exhibits a linear relationship when the square root of desirudin concentration is plotted versus the aPTT ratio (r(2) = 0.76). These analyses support the dosing of desirudin at 15 mg every 12 hours SC without aPTT monitoring in patients with moderate renal impairment.

Regulation of Thrombin Activity—Pharmacologic and Structural Aspects

Thrombin is an essential serine protease for survival. Since the discovery of heparin in the early twentieth century, significant advances have been made in the understanding of thrombin structure and function in coagulation system. Endogenous anticoagulant proteins in blood tightly regulate thrombin generation, but additional anticoagulant agents may be necessary to suppress excessive thrombin formation or defective anticoagulant proteins. Despite the availability of an array of anticoagulant agents based on chemical and biological engineering technologies, anticoagulation therapy remains a challenge for clinicians in terms of balancing bleeding and thrombosis. The aim of this article is to review endogenous serine protease inhibitors and novel antithrombotic agents in relation to pharmacologic regulation of thrombin.

New Anti-thrombotic Agents: Emphasis on Hemorrhagic Complications and Their Management

Our advanced knowledge of coagulation has led to the synthesis of novel procoagulant substances, such as recombinant activated factor VII (rFVIIa; NovoSeven, Novo Nordisk, Bagsvaerd, Denmark). Similarly, in-depth understanding of the interaction between anticoagulant proteins and their natural inhibitors has led to the synthesis of various novel anticoagulants. Novel anticoagulants are characterized by highly specific coagulation-inhibiting activities and, frequently, a complete lack of effective antidotes. This lack of antidotes is particularly important in the case of novel inhibitors with extended half-lives; for example, idraparinux may produce effective anticoagulation for as long as one week after subcutaneous administration. As novel anticoagulants complete licensing evaluations and are used in clinical practice, the likelihood of anticoagulant-associated hemorrhage will increase. This will require physicians to have an understanding of the mechanism of action of these anticoagulants, and to have an advanced degree of knowledge of the potential specific and nonspecific inhibitors of these anticoagulant agents. This paper will briefly review the biochemistry of coagulation, focusing on the complexes inhibited by currently available and novel anticoagulants. Specific and nonspecific prohemostatic agents will be reviewed and discussed. The ability of nonspecific procoagulant agents (particularly rFVIIa) to reverse the effects of novel anticoagulants will also be reviewed.

New anticoagulants: a pediatric perspective

Unfractionated heparin and vitamin K antagonists such as warfarin have been used as the anticoagulants of choice for over five decades. Subsequently, low molecular weight heparins (LMWHs) became widely available and have provided several advantages, especially in infants and children. The field of anticoagulation, however, has undergone a major revolution with better understanding of the structure of coagulation proteins and the development of a host of new drugs with highly specific actions. Many of these drugs have undergone extensive clinical testing in adults and have been approved for specific indications in adults. Unfortunately, clinical data and the reported use of these drugs in children are extremely limited. A lack of familiarity with the actions and pharmacokinetic properties of these drugs could be a major contributing factor. This review focuses on several of the new anticoagulants, with a special emphasis on those that could be potentially beneficial in pediatric patients with thromboembolic disorders. The need for well-designed trials with large-scale participation by pediatric hematologists in order to improve the antithrombotic care of young infants and children is also emphasized.

Direct thrombin inhibitors: pharmacology and clinical relevance

Although heparin has been a cornerstone of treatment for the prevention of thrombosis, it is limited by its adverse effects and unpredictable bioavailability. Direct thrombin inhibitors are a novel class of drugs that have been developed as an effective alternative mode of anticoagulation in patients who suffer from heparin-induced thrombocytopaenia, and for the management of thromboembolic disorders and acute coronary syndromes. The main disadvantages of the direct thrombin inhibitors are the lack of an antidote or readily available clinical monitoring. The mechanism of action, the properties of direct thrombin inhibitors and their potential to replace currently available anticoagulants are reviewed.

Bleeding in Cardiac Surgery: Its Prevention and Treatment—an Evidence-Based Review

Expected and unexpected bleeding occur frequently in patients undergoing cardiac surgery. Bleeding after cardiac surgery can be broadly divided into two groups: surgical (unrecognized bleeding vessel, anastomosis, or other suture line) or nonsurgical bleeding (caused by coagulopathy). Factors influencing both surgical and nonsurgical bleeding can be further broken down into those occurring preoperatively and those that occur intraoperatively and postoperatively. A thorough understanding of these factors is necessary to reduce bleeding. This is a desirable clinical goal, because excessive bleeding is associated with adverse outcomes.

Anticoagulant use in patients with chronic renal impairment

Patients with renal failure have an increased risk of both thrombotic and bleeding complications. A number of antithrombotic drugs undergo renal clearance. Therefore, estimation of renal function is necessary when prescribing these drugs to patients with renal dysfunction. Pharmacokinetic and clinical data in patients with chronic renal impairment are limited for several anticoagulants, and adequate administration information is often absent. Dose adjustment of anticoagulants may be indicated when the creatinine clearance falls below 30 mL/min. Unfractionated heparin, argatroban, and vitamin K antagonists generally do not require dose adjustment with renal dysfunction. However, smaller doses of warfarin may be required to achieve a particular target international normalized ratio. Close monitoring of anticoagulation is recommended when argatroban or high doses of unfractionated heparin are administered in patients with severe chronic renal impairment. Low-molecular weight heparins, danaparoid sodium, hirudins, and bivalirudin all undergo renal clearance. Lower doses and closer anticoagulation monitoring may be advisable when these agents are used in patients with chronic renal failure. We recommend that fondaparinux sodium and ximelagatran (not yet licensed) be avoided in the presence of severe renal impairment and be used with caution in patients with moderate renal dysfunction. While acknowledging the lack of pharmacokinetic data, this review provides specific recommendations for the use of anticoagulants in patients with chronic renal impairment.

New anticoagulant drugs: the Seventh ACCP Conference on Antithrombotic and Thrombolytic Therapy

This article about new anticoagulant drugs is part of the seventh American College of Chest Physicians Conference on Antithrombotic and Thrombolytic Therapy: Evidence-Based Guidelines. The limitations of existing oral and parenteral anticoagulant agents have prompted a search for novel agents. Focusing on new anticoagulant drugs for the prevention and treatment of arterial and venous thrombosis, this article (1) reviews arterial and venous thrombogenesis, (2) discusses the regulation of coagulation, (3) describes the pathways for testing new anticoagulant agents, (4) describes new anticoagulant strategies focusing primarily on agents in phase II or III clinical testing, and (5) provides clinical perspective as to which of these new strategies is most likely to succeed.

New anticoagulants

Anticoagulants are pivotal agents for prevention and treatment of thromboembolic disorders. Limitations of existing anticoagulants, vitamin K antagonist and heparins, have led to the development of newer anticoagulant therapies. These anticoagulants have been designed to target specific coagulation enzymes or steps in the coagulation pathway. New anticoagulants that are under evaluation in clinical trials include: (1) inhibitors of the factor VIIa/tissue factor pathway; (2) factor Xa inhibitors, both indirect and direct; (3) activated protein C and soluble thrombomodulin; and (4) direct thrombin inhibitors. Although most of these are parenteral agents, several of the direct inhibitors of factor Xa and thrombin are orally active. Clinical development of these therapies often starts with studies in the prevention of venous thrombosis before evaluation for other indications, such as prevention of cardioembolism in patients with atrial fibrillation or prosthetic heart valves. At present, the greatest clinical need is for an oral anticoagulant to replace warfarin for long-term prevention and treatment of patients with venous and arterial thrombosis. Ximelagatran, an oral direct thrombin inhibitor, is the first of a series of promising new agents that might fulfill this need. Large phase 3 trials evaluating ximelagatran for the secondary prevention of venous thromboembolism and prevention of cardioembolic events in patients with atrial fibrillation have been completed.

The Role of Recombinant Hirudins in the Management of Thrombotic Disorders

Native hirudin is the most potent natural direct thrombin inhibitor currently known; it is capable of inhibiting not only fluid phase, but also clot-bound thrombin. Recombinant technology now allows production of recombinant hirudins (r-hirudins), which are available in sufficient purity and quantity with essentially unaltered thrombin-inhibitory potency. As thrombin is known to play a key role in a number of thrombotic disorders, numerous studies focused on the impact of r-hirudins on the clinical course in these diseases. R-hirudins provided significantly more stable anticoagulation than standard heparin, but demonstrated a relatively narrow therapeutic range with relevant bleeding risk even at clinically effective doses. In doses that are not associated with an increased bleeding risk, r-hirudins often failed to demonstrate significant superiority to heparin. To date, r-hirudins have a definite role in the treatment of heparin-induced thrombocytopenia, where they markedly reduce the high risk of thrombosis. For prophylaxis of deep vein thrombosis, r-hirudins have been shown to be superior to both unfractionated and low molecular weight heparin, but are not extensively used in this indication. In acute coronary syndromes, a definite role of r-hirudins has not yet been firmly established. When applied in an appropriate dose as adjunct to thrombolysis in patients with acute myocardial infarction, randomized, controlled trials did not show a consistent benefit of r-hirudins, especially in the long-term. In patients undergoing coronary balloon angioplasty for acute coronary syndromes, promising effects in the early postprocedural phase did not translate to an improved outcome after 6 months. In patients with unstable angina pectoris, efficacy and safety of r-hirudins as primary antithrombotic therapy are still under debate. In the future, r-hirudins are to be compared with alternative or additional potent antithrombotic agents or treatment strategies. This comparison will ultimately lead to their final placement in the management of thrombotic disorders.

Pharmacologic Agents in Stroke Prevention, Acute Stroke Therapy, and Interventional Procedures

Pharmaceutical agents have moved far beyond just the aspirin and heparin that were the mainstays of stroke and interventional therapy as recently as 10 to 15 years ago. Our understanding of the mechanisms of thrombus formation and vascular response to damage as well as our armamentarium has tremendously improved in the past decade. Direct thrombin inhibitors, powerful antiplatelet agents, new fibrinolytic agents, and statins now allow far greater manipulation of the intraprocedural and postprocedural clot cascade and atherogenesis. It is mandatory that current-day interventionists understand the correct and appropriate use of these agents to achieve the desired outcomes of therapy.

Prevention of Venous Thromboembolism Following Orthopaedic Surgery

Patients undergoing total hip or total knee replacement are at high risk of venous thromboembolism (VTE), and are therefore considered to be populations well suited for the evaluation and dose optimisation of new anticoagulants. Deep vein thrombosis may lead to life-threatening pulmonary embolism, disabling morbidity in the form of the post-thrombotic syndrome, and risk of recurrent thrombotic events. There is increasing evidence that anticoagulant treatment for the prevention of VTE should be extended from 1 to at least 4 weeks after surgery. Anticoagulation with vitamin K antagonists (such as warfarin), low molecular weight heparin or unfractionated heparin effectively lowers the risk of VTE, but these anticoagulants have limitations such as the need for coagulation monitoring and subsequent dose adjustment (vitamin K antagonists), difficulty of continuing prophylaxis out of hospital because of the requirement for parenteral administration, and risk of heparin-induced thrombocytopenia. The development of new anticoagulants has been pursued with the aim of finding more effective, safer and/or more convenient therapies. Thrombin is a central regulator in the coagulation and inflammation process and several direct thrombin inhibitors (DTIs) with distinct pharmacological profiles, as well as pharmacological differences from the conventional anticoagulants, are currently in clinical use for certain indications or are under development. Clinical experience with parenterally administered DTIs has accumulated since the mid 1990s, although only desirudin (a recombinant hirudin) is currently approved for use in patients undergoing orthopaedic surgery. Two oral DTIs, ximelagatran and dabigatran etexilate, are in clinical development. Dabigatran etexilate has recently been evaluated in phase II clinical trials in patients undergoing total hip replacement. Several large phase III trials have now demonstrated the efficacy and safety of ximelagatran in the prevention of VTE following total hip or knee replacement. Ximelagatran can be used with an oral fixed dose without the need for coagulation monitoring or dose adjustment. Hence, it offers significant potential to facilitate the management of anticoagulation in or out of hospital.

Elevated serum creatinine is associated with 1-year mortality after acute myocardial infarction

BACKGROUND

Cardiovascular mortality is high in individuals with end-stage renal disease. However, less is known about the prognostic importance of moderate renal insufficiency in patients with acute myocardial infarction.

METHODS

We studied all patients with acute myocardial infarction admitted through the emergency department to an urban, academic hospital over 1 year. Patients were classified as having elevated (>133 micromol/L [1.5 mg/dL]) or normal (< or =133 micromol/L) serum creatinine at presentation.

RESULTS

Of 483 patients, 22% had elevated creatinine and 78% had normal creatinine. By 1 year, 46% of patients with elevated creatinine and 15% of patients with normal creatinine had died (P <.001). The unadjusted hazard ratio for 1-year mortality was increased in patients with elevated creatinine compared with those with normal creatinine (hazard ratio 3.85, 95% CI 2.61-5.67). After adjustment for baseline characteristics and treatment, the multivariable-adjusted hazard ratio for 1-year mortality remained increased in patients with elevated creatinine compared with those with normal creatinine (hazard ratio 2.40, 95% CI 1.55-3.72). There was an important modification of the prognostic value of creatinine by the presence of congestive heart failure at presentation (P value for interaction =.04). The adjusted hazard ratio for 1-year death associated with elevated creatinine compared with normal creatinine was 3.89 (95% CI 1.87-8.07) in patients without congestive heart failure and 1.92 (95% CI 1.10-3.36) in patients with congestive heart failure.

CONCLUSIONS

Elevated serum creatinine at presentation is associated with 1-year mortality after acute myocardial infarction. Further study is needed to optimize treatment after myocardial infarction in this high-risk group.

Direct thrombin inhibitors

Thrombin plays a central role in thrombosis. Consequently, most current antithrombotic treatment strategies are aimed at blocking the activity of thrombin, or preventing its generation. Although heparin has been a cornerstone of treatment, it has limitations. Thus, the anticoagulant response to heparin is unpredictable, the heparin/antithrombin complex is unable to inhibit fibrin-bound thrombin, an important trigger of thrombus growth, and heparin is neutralized by platelet factor 4. Direct thrombin inhibitors were developed to overcome these limitations. Unlike heparin, direct thrombin inhibitors produce a predictable anticoagulant response that is unaffected by platelet factor 4, and they inhibit fibrin-bound thrombin. Three parenteral direct thrombin inhibitors--hirudin, bivalirudin and argatroban--are currently licensed for use in North America, and orally available direct thrombin inhibitors are under investigation. This review summarizes the clinical trial data with direct thrombin inhibitors and provides perspective on the role of direct thrombin inhibitors in the face of other new anticoagulants currently under development.

Treatment of heparin-induced thrombocytopenia

OBJECTIVE

To describe heparin-induced thrombocytopenia (HIT or HIT-2), an immune-mediated adverse reaction to heparin or low-molecular-weight heparin. Available treatment options and considerations in developing a therapy approach are discussed.

DATA SOURCES

A search of the National Library of Medicine (1992-June 2001) was done to identify pertinent literature. Additional references were reviewed from selected articles.

STUDY SELECTION

Articles related to laboratory recognition and treatment options of HIT, including the use of agents in selected clinical conditions, were reviewed and included.

CONCLUSIONS

HIT is a rare but potentially severe adverse reaction to heparin that was, until recently, poorly understood and had limited treatment options. Recent advances describing the recognition and clinical manifestations of immune-mediated HIT, including recently available antithrombotic treatment options, have dramatically changed outcomes for patients having this syndrome.

Use of recombinant hirudin in heparin-induced thrombocytopenia and thrombosis (HITT) and renal failure--a case report

Treatment of critically ill patients who have heparin-induced thrombocytopenia and thrombosis (HITT) and also renal failure is a challenge. Recombinant hirudin (Refludan, Hoechst Marion Roussel) is a direct thrombin inhibitor indicated for anticoagulation in HITT and approved by the United States Food and Drug Administration. Because this drug is renally cleared, a single dose of hirudin may induce prolonged (up to one week) unpredictable anticoagulation in patients with renal insufficiency. There are a few case reports of patients with renal failure and suspected heparin-induced thrombocytopenia (HIT) in which patients were anticoagulated with Refludan for catheter thrombosis. There is no literature on the therapeutic use of Refludan to treat HITT in patients with diffuse thrombosis and renal failure. The authors report the case of a 44-year-old female dialysis patient with HITT and extensive life-threatening thrombosis. The patient developed common iliac vein occlusion extending to the right atrium with progressive right internal jugular vein thrombus developing while on heparin. Her platelet count dropped to 60,000/microL. She was lethargic and hemodynamically unstable. Refludan was initially given as a bolus of 0.2 mg/kg (total, 12 mg) at a 50% dose reduction based on the patient's ideal body weight. This dose was based on the published pharmacokinetics of Refludan in patients with renal failure. Only 2 additional boluses of 6 mg and 3 mg were needed to extend the duration of therapeutic anticoagulation (measured by PTT) to 140 hours. The patient improved both clinically and radiographically after the treatment with Refludan. There were no additional thromboembolic events or bleeding complications. The platelets returned to normal within a few days. The patient was transitioned to coumadin and discharged from the hospital. She remains stable at 1-year follow-up.

The pharmacokinetics and pharmacodynamics of argatroban: effects of age, gender, and hepatic or renal dysfunction

STUDY OBJECTIVE

To determine the pharmacokinetics and pharmacodynamics of argatroban in healthy volunteers and patients with hepatic or renal dysfunction.

DESIGN

Prospective, open-label study (studies 1 and 3); prospective, open-label, parallel-group study (study 2).

SETTINGS

Two research centers and an inpatient clinic.

SUBJECTS

Study 1, healthy volunteers; study 2, healthy volunteers and volunteers with hepatic disease; study 3, volunteers with normal to severely impaired renal function assigned to one of four groups based on creatinine clearance.

INTERVENTION

Study 1, argatroban 125-microg/kg bolus followed by 4-hour continuous infusion of 2.5 microg/kg/minute; study 2, 4-hour infusion of 2.5 microg/kg/minute (1.25 microg/kg/minute in one patient with hepatic impairment); study 3, 5-microg/kg/minute continuous infusion over 4 hours.

MEASUREMENTS AND MAIN RESULTS

Blood samples were obtained to assess plasma argatroban concentration, plasma activated partial thromboplastin time (aPTT), and whole blood activated clotting time (ACT). Study 1: the pharmacokinetic profile was well described by a two-compartment model with first-order elimination; effect response and plasma argatroban concentrations were well correlated. Mean +/- SD clearance, steady-state volume of distribution, and half-life values (40 healthy volunteers) were 4.7 +/- 1.1 ml/minute/kg, 179.5 +/- 33.0 ml/kg, and 46.2 +/- 10.2 minutes, respectively. The only effect of age or gender was the approximately 20% lower clearance in elderly men versus elderly women, which did not translate to clinically or statistically significant differences in pharmacodynamic response. Study 2: in patients with hepatic impairment, area under the concentration versus time curve (AUC) from time zero (t0) to last measurable concentration, AUC from t0 to infinity, maximum concentration, and half-life of argatroban were increased approximately 2- to 3-fold; clearance was one-fourth that of healthy volunteers. For aPTT and ACT, AUC over time for mean effect and mean maximum effect was higher in these volunteers. Study 3: no significant differences were detected. All four groups had predictable response profiles over time.

CONCLUSION

Argatroban should be easy to monitor and control, with little potential for underdosing or overdosing, regardless of age, gender, or renal function. Dosing precautions are recommended, however, in patients with hepatic dysfunction.

Heparin induced thrombocytopenia: diagnosis and contemporary antithrombin management

Heparin-induced thrombocytopenia (HIT) may be complicated by severe thrombotic complications and death. Currently no specific laboratory test is available to make the diagnosis. When HIT is clinically suspected, heparin should be discontinued immediately. While no specific therapy for HIT exists, there is increasing evidence that acute antithrombin therapy may significantly reduce morbidity and mortality. Among several agents, the direct antithrombins, such as r-hirudin and argatroban, look the most promising for acute treatment.