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Am Fam Physician. 2007;75(7):1031-1042

A more recent article on anticoagulation is available.

Author disclosure: Nothing to disclose.

The Seventh American College of Chest Physicians (ACCP) Conference on Antithrombotic and Thrombolytic Therapy provides guidelines for outpatient management of anticoagulation therapy. The ACCP guidelines recommend short-term warfarin therapy, with the goal of maintaining an International Normalized Ratio (INR) of 2.5 ± 0.5, after major orthopedic surgery. Therapy for venous thromboembolism includes an INR of 2.5 ± 0.5, with the length of therapy determined by associated conditions. For patients with atrial fibrillation, the INR is maintained at 2.5 ± 0.5 indefinitely; for most patients with mechanical valves, the recommended INR is 3.0 ± 0.5 indefinitely. Use of outpatient low-molecular-weight heparin (LMWH) is as safe and effective as inpatient unfractionated heparin for treatment of venous thromboembolism. The ACCP recommends starting warfarin with unfractionated heparin or LMWH for at least five days and continuing until a therapeutic INR is achieved. Because patients with venous thromboembolism and cancer who have been treated with LMWH have a survival advantage that extends beyond their venous thromboembolism treatment, the ACCP recommends beginning their therapy with three to six months of LMWH. When invasive procedures require the interruption of oral anticoagulation therapy, recommendations for bridge therapy are determined by balancing the risk of bleeding against the risk of thromboembolism. Patients at higher risk of thromboembolization should stop warfarin therapy four to five days before surgery and start LMWH or unfractionated heparin two to three days before surgery.

Warfarin (Coumadin), unfractionated heparin, and low-molecular-weight heparins (LMWHs) are used for the treatment of venous thromboembolism (VTE), the prevention of systemic embolism associated with atrial fibrillation or the use of prosthetic heart valves, and the prevention of stroke and recurrent myocardial infarction in select patients.1 The LMWHs have changed the course of outpatient anticoagulation therapy because patients no longer need to remain hospitalized for the initiation of oral therapy in acute VTE or for bridge therapy when undergoing invasive procedures that require temporary discontinuation of warfarin.

Clinical recommendationEvidence ratingReferences
Warfarin (Coumadin) therapy should be initiated using validated 5-mg and 10-mg nomograms.B14
Outpatient LMWH is as safe and effective as inpatient unfractionated heparin for treatment of venous thromboembolism in most patients.A2
For treatment of acute deep venous thrombosis and pulmonary embolism, warfarin should be started with unfractionated heparin or LMWH for at least five days and until a therapeutic International Normalized Ratio (2.5 ± 0.5) is achieved.A3
For patients at higher risk of thromboembolism, invasive procedures requiring the interruption of anticoagulation therapy can be managed on an outpatient basis with LMWH.C1,23
When determining whether to use bridge therapy, the risk of bleeding should be balanced against the risk of thromboembolism.C1,2226
Before invasive procedures, patients at high risk for thromboembolization should stop warfarin therapy four to five days preoperatively and start LMWH or unfractionated heparin two to three days before surgery. Warfarin and heparin are restarted postoperatively once hemostasis has been achieved.C1,22,23

This article focuses on indications for warfarin and LMWH therapy, how to initiate therapy, therapeutic goals, troubleshooting common issues, and duration of therapy. Many of the recommendations are derived from a recent evidence-based practice guideline from the Seventh American College of Chest Physicians (ACCP) Conference on Antithrombotic and Thrombolytic Therapy.19

Warfarin

MECHANISM OF ACTION

Warfarin interferes with the cyclic interconversion of vitamin K and vitamin K epoxide and subsequent modulation of the gamma carboxylation of the terminal regions of vitamin K proteins. This results in the reduction of clotting factors II, VII, IX, and X.1 Carboxylation of the regulatory anticoagulant proteins C and S also is inhibited, potentially contributing to a procoagulant effect early in therapy.

Reduction of the clotting factors II, VII, and X is measured using the prothrombin time.1 Because of interlaboratory variability in the thromboplastins used to measure the prothrombin time, use of the International Normalized Ratio (INR) has become the standard of practice, making values obtained from various laboratories comparable.

DRUG, FOOD, AND DISEASE-STATE INTERACTIONS

Medications, foods, and disease states can potentiate or inhibit the effects of warfarin (Table 11,10). Some of these interactions, such as those observed with metronidazole (Flagyl) and trimethoprim/sulfamethoxazole (Bactrim, Septra), occur via inhibition of warfarin metabolism. Amiodarone (Cordarone) potentiates the effects of warfarin and, because of the long half-life (i.e., 61 days) of its active metabolite, requires close monitoring of INR whenever this agent is added to or deleted from a warfarin regimen.

Other interactions, such as those observed with barbiturates, carbamazepine (Tegretol), and rifampin (Rifadin), occur when warfarin's hepatic metabolism is induced, resulting in less free, active warfarin and potentially increasing the required dosage. Alternatively, thyroid replacement medications such as levothyroxine may increase the metabolism of coagulation factors, reducing the amount of warfarin required.1 The interaction observed with salicylates and nonsteroidal anti-inflammatory drugs is that of increased warfarin-associated bleeding via their inhibition of platelet activity and contribution to gastric erosion.

Most foods that affect the anticoagulant effect of warfarin are high in vitamin K. It is important that patients know they do not need to avoid these foods; rather, they may eat them in moderation, avoiding large fluctuations in intake that will lead to marked variation in INR results. A number of herbal medications, most commonly ginkgo, also affect the stability of warfarin therapy and may reduce the required dosage (Table 11,10).

Increase potency of warfarinDecrease potency of warfarin
Drugs
  • Acetaminophen

  • Alcohol (if concomitant liver disease)

  • Amiodarone (Cordarone)

  • Anabolic steroids

  • Cimetidine (Tagamet)

  • Ciprofloxacin (Cipro)

  • Disulfiram (Antabuse)

  • Erythromycin

  • Fluconazole (Diflucan)

  • Influenza vaccine

  • Isoniazid (Nydrazid)

  • Itraconazole (Sporanox)

  • Lovastatin (Mevacor)

  • Metronidazole (Flagyl)

  • Miconazole (Monistat)

  • Nonsteroidal anti-inflammatory drugs

  • Norfloxacin (Noroxin)

  • Ofloxacin (Floxin)

  • Omeprazole (Prilosec)

  • Phenytoin (Dilantin)

  • Propafenone (Rythmol)

  • Propranolol (Inderal)

  • Propoxyphene (Darvon)

  • Quinidine

  • Salicylates

  • Tamoxifen (Nolvadex)

  • Tetracycline

  • Thyroxine

  • Trimethoprim/sulfamethoxazole (Bactrim, Septra)

Herbal products
  • Danshen

  • Devil's claw

  • Dong quai

  • Garlic

  • Ginkgo

  • Papain

  • Vitamin E

Drugs
  • Azathioprine (Imuran)

  • Barbiturates

  • Carbamazepine (Tegretol)

  • Cholestyramine (Questran)

  • Cyclosporine (Sandimmune)

  • Dicloxacillin (Dynapen)

  • Griseofulvin (Grisactin)

  • Nafcillin

  • Rifampin (Rifadin)

  • Sucralfate (Carafate)

  • Trazodone (Desyrel)

Foods
  • Avocados (large amounts)

  • Enteral feeds with high vitamin K content

  • Foods with high vitamin K content, such as broccoli, brussel sprouts, cabbage, collard greens, raw endive, kale, bib leaf and red leaf lettuce, mayonnaise, mustard greens, parsley, spinach, raw swiss chard, raw turnip greens, watercress

  • Green tea

Herbal products
  • Coenzyme Q10

  • Ginseng

  • St. John's wort

Certain types of cancer, worsening or acute heart failure, hyper- and hypothyroidism, and liver disease may impact the expected therapeutic outcomes of warfarin. Hepatic congestion can reduce the metabolism of warfarin, resulting in higher levels of free, active warfarin. Hyperthyroidism increases the metabolism of coagulation factors, enhancing the effects of warfarin.1

INDICATIONS, GOALS, AND DURATION OF THERAPY

A variety of indications, therapeutic goals, and recommended durations of therapy exist for the use of warfarin. The ACCP publication addresses these issues in detail, and they are summarized in Table 2.2,3,5,7,8

Indication for therapyTherapeutic INR goal* (recommendation grade if noted)Duration of therapy (recommendation grade if noted)
Prevention of venous thromboembolism3
Orthopedic surgery
Elective total hip replacement2.5 (1A)28 to 35 days (1A)
Elective total knee arthroplasty2.5 (1A)At least 10 days (1A)
Hip fracture surgery2.5 (2B)28 to 35 days (1C+)
Venous thromboembolic disease and pulmonary embolism2
Deep venous thrombosis of the leg or pulmonary embolism2.5 (1A)First episode secondary to reversible risk factor(s): three months (1A)
First episode idiopathic: six to 12 months (1A); consider indefinite use (2A)
In patients with cancer: LMWH for three to six months, then warfarin indefinitely (1C)
In patients with antiphospholipid antibody or who have two or more thrombophilic conditions: 12 months (1C+); indefinite (2C)
In patients with a deficiency of antithrombin or proteins C or S, gene mutation for factor V Leiden or prothrombin 2010, homocystinemia, or high factor VIII levels: six to 12 months (1A); indefinite (2C)
Two episodes of objectively documented events: indefinite (1A)
Atrial fibrillation8
High risk of stroke2.5 (1A)Indefinite
Persistent or paroxysmal atrial fibrillation§2.5 (1A)Indefinite
Atrial flutter2.5 (1A)Indefinite
Elective cardioversion2.5 (1A)Three weeks before; four weeks after conversion (1C+)
Valvular heart disease7
Rheumatic mitral valve disease with atrial fibrillation or a history of systemic embolism2.5 (1C+)Long-term (1C+)
Patients undergoing mitral valvuloplasty2.5 (2C)Three weeks before and four weeks after (2C)
Mechanical prosthetic heart valves
St. Jude Medical bileaflet in aortic position2.5 (1A)Long-term
Valve in mitral position3.0 (1C+)Long-term
Carbomedics bileaflet or Medtronic Hall tilting disk mechanical valves in the aortic position2.5 (1C+)Long-term
Ball/cage3.0 with aspirin (2A)Long-term
Mechanical valvesplus an additional risk factor such as atrial fibrillation, myocardial infarction, left atrial enlargement, low ejection fraction3.0 (1C+)Long-term
Bioprosthetic valves2.5Three months (1C+)
Coronary heart disease5
Patients with access to meticulous and routinely accessible INR monitoring2.5 with aspirin (2B), 3.5 without aspirin (2B)Long-term (up to four years)
High-risk patients with myocardial infarction2.0 to 3.0 with aspirin (2A)Three months (2A)

DOSING

Two recent studies compared nomograms that initiate warfarin therapy with 5 or 10 mg.11,12 In one study, the 5-mg initial dose helped patients more rapidly achieve a therapeutic level,11 whereas the other study showed the 10-mg initial dose to be superior.12 Because of differences between these studies, such as age and inpatient versus outpatient management,13 either nomogram may be appropriate depending on the situation. In the older patient with atrial fibrillation, it may be appropriate to initiate warfarin in a dosage of 5 mg daily. However, for a younger patient being treated with LMWH for VTE, initiating warfarin at a dosage of 10 mg daily may be preferred. An article in AFP presented these nomograms in a form easily applied in the primary care setting.14

INR monitoring does not occur until after the initial two or three doses of warfarin.1 Although the ACCP recommendations are not specific about the frequency of monitoring, it is generally acceptable for patients to be monitored initially twice per week, then weekly, then every two to three weeks, and then monthly. The decision to extend future visits from, for example, weekly to every two weeks, is made when the patient's dosage and INR remain stable and therapeutic. Even when stable for long periods, the INR should continue to be monitored at least monthly.1

When the INR is not within the therapeutic range, attempts should be made to determine the cause. Adjustments to the dosage are typically a 5 to 20 percent increase or decrease in total weekly dosage. To improve patient adherence, the weekly regimen is kept as simple as possible. Supratherapeutic INRs may require that the dosage be withheld temporarily and, occasionally, that vitamin K be administered. A Point-of-Care Guide from AFP provides a tool to help physicians systematically monitor the INR and adjust warfarin dosages.15

Heparin

PHARMACOLOGY AND DOSING OF UNFRACTIONATED HEPARIN

Unfractionated heparin is a heterogeneous mixture of glycosaminoglycans with molecular weights ranging from 3,000 to 30,000 daltons with a mean molecular weight of 15,000 daltons.6 It binds to antithrombin III in plasma by way of a pentasaccharide, and this catalyzes the inactivation of thrombin and other clotting factors.6

Use of unfractionated heparin requires careful monitoring because of its unpredictable anticoagulant effect.6 Peak plasma activity occurs two to three hours after parenteral administration, and protocols for dosing and monitoring recommend testing every six hours to maintain the activated partial thromboplastin time (aPTT) in a range of 1.5 to 2.5 times normal.6 Because of variability in the reagents used to check the aPTT, the ACCP recommends performing site-specific validation of the therapeutic range of aPTTs to monitor heparin dosing.6 Dosing information is provided in Table 3.16

AnticoagulantProphylactic dosageTherapeutic dosageFDA-approved prophylactic conditionsFDA-approved therapeutic conditionsCost*
Warfarin (Coumadin)Usual maintenance: 2 to 10 mg dailyUsual maintenance: 2 to 10 mg dailySee Table 2See Table 2$1
Unfractionated heparin5,000 U every eight to 12 hoursFor DVT, start with 80 U per kg bolus, then 18 U per kg per hour infusionProphylaxis for patients at risk of developing DVT and PE
Prophylaxis of peripheral artery embolization
Treatment of DVT and PE
Atrial fibrillation with embolism
Prevention of clotting during arterial and cardiac surgery
Treatment of peripheral artery embolization
Treatment of consumptive coagulopathies
9
Low-molecular-weight heparin Dalteparin (Fragmin)5,000 IU daily100 IU per kg every 12 hoursor 200 IU per kg every 24 hoursUnstable angina and non–Q wave MI with ASA
Conditions that predispose to DVT: joint replacement surgery, abdominal surgery, immobilized medical patients
None117
Enoxaparin (Lovenox)40 mg daily1 mg per kg every 12 hoursor 1.5 mg per kg every 24 hoursUnstable angina and non–Q wave MI with ASA
Conditions that predispose to DVT: joint replacement surgery, abdominal surgery, immobilized medical patients
Inpatient treatment of DVT with and without PE with warfarin
Outpatient DVT without PE with warfarin
111
Nadroparin (not available in United States)38 IU per kg daily87 IU per kg every 12 hoursNoneNone
Tinzaparin (Innohep)3,500 IU daily175 IU per kg per 24 hoursNoneTreatment of DVT and PE with warfarin71
Bivalirudin (Angiomax)1 mg per kg IV bolusNoneDuring PTCA for unstable angina2,204 for one four-hour treatment
2.5 mg per kg per hour for four hours; with ASA 325 mg
May continue with 0.2 mg per kg for up to 20 hours
Desirudin (Ipravask)15 mg every 12 hoursDVT prophylaxis after hip replacementNone
Lepirudin (Refludan)0.4 mg per kg bolus (maximum: 45 mg)or 0.15 mg per kg per hour (maximum: 16.5 mg) for two to 10 daysProphylaxis of venous thromboembolism in patients with HITTreatment of thrombosis in patients with HIT1,248
Argatroban (Acova)2 mcg per kg per minuteProphylaxis of venous thromboembolism in patients with HITTreatment of thrombosis in patients with HIT1,260
Ximelagatran (not available in United States)24 to 36 mg twice daily20 to 60 mg twice dailyNoneNone
Fondaparinux (Arixtra)2.5 mg daily5 mg for a patient less than 50 kgDVT prophylaxis after hip or knee replacement or abdominal surgeryBridge DVT or PE to warfarin108
7.5 mg for 50 to 100 kg
10 mg for more than 100 kg

The adverse effects of unfractionated heparin include heparin-induced thrombocytopenia, a syndrome characterized by low platelet counts and a paradoxically hypercoagulable state. With long-term use, osteopenia may occur.6 The anticoagulation effects of unfractionated heparin are reversed rapidly with protamine. The usual dose for heparin reversal is 1 mg of protamine to 100 U of unfractionated heparin.6

PHARMACOLOGY AND DOSING OF LMWH

LMWHs are heparin fragments with a mean molecular weights of 4,000 to 5,000 daltons (range: 2,000 to 9,000 daltons).6 These smaller fragments do not bind well to plasma proteins, leading to a more predictable anticoagulant effect.6 They also bind less effectively to macrophages and endothelial cells and, therefore, have a longer plasma half-life6; their peak plasma activity occurs three to five hours after subcutaneous injection.6 Because LMWHs are cleared renally, their half-life is lengthened in patients with renal failure.6 With the exception of severely obese patients (i.e., those whose total body weight is more than 330 lb [149.7 kg]) and those with renal failure, most patients receiving LMWHs do not require laboratory monitoring.6 When monitoring is necessary, anti-factor Xa levels are measured four hours after injection.6

If the anticoagulation effects of LMWH urgently need to be reversed, protamine is given in a dose of 1 mg per 100 anti-factor Xa units (1 mg enoxaparin [Lovenox] equals 100 anti-factor Xa units).6 However, protamine does not effect a complete reversal.

TREATMENT OF DEEP VENOUS THROMBOSIS AND NONMASSIVE PULMONARY EMBOLISM USING LMWH

The use of outpatient LMWH is as safe and effective as inpatient unfractionated heparin for treatment of acute VTE.2,17 Its use decreases the need for patient hospitalization. In one meta-analysis, LMWH decreased overall mortality compared with unfractionated heparin, mainly because of reduced mortality in patients with cancer.17 The likelihood of recurrent VTE, pulmonary embolism, major bleeding, minor bleeding, and thrombocytopenia was similar between LMWH and unfractionated heparin.17 Once- versus twice-daily dosing of LMWH were compared with each other and with unfractionated heparin; no differences in clinical outcomes were noted among the three groups.17 The ACCP recommends the use of LMWH once or twice daily with consideration of twice-daily dosing in patients with cancer.2 A comparison of five LMWHs also failed to identify any significant differences.17 Table 3 describes available LMWHs and appropriate therapeutic and prophylactic dosing.16

Treatment of VTE (Table 42,14 ) is initiated with LMWH and warfarin, and patients who are stable are discharged directly from the emergency department or primary care setting (if adequate teaching and follow-up can be organized immediately) or after a 24-hour stay in the hospital. The ACCP recommends that treatment with unfractionated heparin or LMWH continue for at least five days and until a stable therapeutic INR is achieved.2 Patients should be followed closely over the next seven to 10 days to ensure that they get appropriate laboratory tests, take their medications as prescribed, and achieve a therapeutic INR in as close to five days as possible. Outpatient treatment with LMWH is significantly less expensive than inpatient treatment with unfractionated heparin,18 but its effectiveness mandates that: (1) the patient understands treatment and keeps frequent follow-up appointments, (2) consistent protocols ensure expeditious and safe transfer from injectable to oral anticoagulation, and (3) staff closely monitor patients. As noted earlier, validated protocols have been established to initiate warfarin in patients receiving LMWH and for warfarin maintenance.

Initiate warfarin (Coumadin) and LMWH (or unfractionated heparin) on day 1; consider outpatient therapy if patient is stable, able to articipate in care, and careful monitoring can be achieved as outpatient
Use 5-mg or 10-mg nomogram to initiate warfarin therapy and monitor INR per nomogram protocol to target of 2.0 to 3.0
Stop LMWH or unfractionated heparin after no less than five days and when INR is stable at 2.0 or more for two days
Use elastic compression stockings to prevent postthrombotic syndrome
Ambulate as tolerated

Bed rest traditionally has been recommended for patients with VTE to prevent migration of clot to the lungs with ambulation. According to a large observational study, however, there is no evidence that bed rest improves outcomes.19 In addition, several studies favor the use of support hose, particularly as a way to prevent postthrombotic syndrome.20

LMWH FOR PATIENTS WITH CANCER

Patients with cancer and VTE who are treated with LMWHs have an unexpected survival advantage that extends beyond the effect of treating their thrombotic diseases.17 In recent double-blind, prospective studies, survival advantages were noted in patients who had solid tumors with advanced local disease or metastatic disease and were treated with LMWH.21 These studies suggest that coagulation cascade activation may be involved in tumor growth, angiogenesis, and metastatic spread.21 The ACCP recommends that patients with cancer and VTE be treated for the first three to six months with LMWH, rather than just five days, followed up by oral anticoagulation.2

Bridge Therapy

Temporary use of intravenous unfractionated heparin or LMWH for a patient on long-term anticoagulation who is about to undergo a surgical procedure is called bridge therapy. This type of therapy also has been simplified by the use of LMWHs. When determining whether to use bridge therapy, the risk of thromboembolism (Table 51,22) needs to be balanced with the risk of bleeding (Table 61,2226 ). The introduction of bridge therapy with LMWH has led to significant lowering of perioperative health care costs.27 Recommendations for a bridge therapy protocol are summarized in Table 7.1,22,23

Low
Atrial fibrillation without major risk factors for stroke
VTE more than three months earlier and no high-risk features
Intermediate
Atrial fibrillation and age older than 65 years, diabetes mellitus, coronary artery disease, or hypertension
Newer (second-generation) mechanical aortic valve in sinus rhythm without heart failure or previous thromboembolism
High
Atrial fibrillation with history of stroke or multiple risk factors for stroke
Older (first-generation) ball/cage aortic valves
Aortic mechanical valve with previous thromboembolism, atrial fibrillation, or congestive heart failure
Mitral mechanical valves
VTE less than three months earlier
VTE more than three months earlier with high-risk factors (active malignancy, multiple episodes of VTE, known thrombophilic state)

Some procedures have a minimal risk of bleeding complications.1,22,24,25 For these procedures, warfarin does not need to be interrupted, but the INR should be checked the day of or the day before the procedure to ensure that it is not supratherapeutic. All other patients on anticoagulation therapy should discontinue warfarin for four to five days before the procedure and restart in the evening on the day of the procedure. No other therapy is necessary for patients at low risk of thromboembolism.1,22,24,25

Recommendations for patients with intermediate risk of thromboembolism are less clear. Recent trials have shown that the incidence of perioperative arterial thromboembolism is higher than would be expected based on calculations using annual risks of thromboembolism.23 The trials also showed that the risk of major bleeding was low for minor surgical and invasive procedures but was significant for major surgery.23 The increased risks of stroke and bleeding should be considered; therefore, the patient's preferred therapy should be taken into account when bridging patients with intermediate risk of thromboembolism, with an emphasis on no bridging before or after the procedure.23 When the choice is to use perioperative anticoagulation, patients at intermediate risk of thromboembolism should be started on low-dose unfractionated heparin or prophylactic-dose LMWH two to three days before surgery. All anticoagulation is then held 12 to 24 hours preoperatively, with reinstitution of no or low-dose unfractionated heparin or LMWH following surgery.1,22,23

Bleeding risk categoryInvasive procedureRecommendationsGrade
HighCardiac surgery, abdominal aortic aneurysm repair, neurosurgery, most cancer surgery, bilateral knee replacement, TURP, kidney biopsyLow-risk thromboembolism
  • Stop warfarin (Coumadin) four to five days before surgery and allow INR to return to near normal

  • Restart warfarin after surgery

  • Use prophylactic LMWH or unfractionated heparin if procedure predisposes to thrombosis

2C
Intermediate-risk thromboembolism
  • Stop warfarin four to five days before surgery

  • Consider no bridge therapy versus starting prophylactic LMWH or unfractionated heparin two to three days before surgery*

  • After surgery, start warfarin and prophylactic LMWH or unfractionated heparin

  • Alternatively follow bridge therapy protocol using prophylactic LMWH or unfractionated heparin after surgery

2C
High-risk thromboembolism
  • Follow bridge therapy protocol

  • After surgery, await hemostasis before restarting LMWH or consider prophylactic dosages of LMWH or unfractionated heparin

2C
Intermediate (surgical)Abdominal surgery, hemorrhoidal surgery, axillary node dissection, dilatation and curettage, hydrocele repair, orthopedic surgery, pacemaker insertion, internal cardiac defibrillator insertion, endarterectomy or carotid bypass surgery, noncataract eye surgery (complex lid, lacrimal, orbital), extensive dental surgery (multiple tooth extractions)Low-risk thromboembolism
  • Stop warfarin four to five days before surgery and allow INR to return to near normal

  • Restart warfarin after surgery

  • Use prophylactic LMWH or unfractionated heparin if procedure predisposes to thrombosis

2C
Intermediate-risk thromboembolism
  • Stop warfarin four to five days before surgery

  • Consider no bridging versus starting prophylactic LMWH or unfractionated heparin two to three days before surgery*

  • After surgery, restart warfarin and prophylactic LMWH or unfractionated heparin

  • Alternatively follow bridge therapy protocol

2C
High-risk thromboembolism
  • Follow bridge therapy protocol

  • Await hemostasis before restarting LMWH and consider using therapeutic dosages of LMWH or unfractionated heparin

2C
Intermediate to low (nonsurgical)Coronary angiography with or without percutaneous coronary intervention, noncoronary angiography, upper endoscopy with endosphincterotomy, colonoscopy with polypectomy, bronchoscopy with or without biopsy, biopsy (prostate, bladder, thyroid, breast, lymph node, pancreas)Low-risk thromboembolism
  • Stop warfarin four to five days before surgery and allow INR to return to near normal

  • Restart warfarin after surgery

  • Use prophylactic dosages of LMWH or unfractionated heparin if procedure predisposes to thrombosis

2C
Intermediate-risk thromboembolism
  • Stop warfarin therapy four to five days before surgery

  • Consider no bridging versus starting prophylactic LMWH or unfractionated heparin two to three days before surgery*

  • After surgery, restart warfarin and prophylactic LMWH or unfractionated heparin

  • Alternatively follow bridge protocol

2C
High-risk thromboembolism
  • Follow bridge therapy protocol

  • Await hemostasis before restarting LMWH and consider using therapeutic dosages of LMWH or unfractionated heparin

2C
Low to minimalArthrocentesis, general dental treatment (hygiene, restorations, endodontics, prosthetics, minor periodontal therapy, and uncomplicated extractions), ophthalmic procedures (cataract, trabeculectomy, vitreoretinal), TURP with laser surgery, upper and lower gastrointestinal endoscopy with or without mucosal biopsyAll risks of thromboembolism
  • Continue warfarin therapy

  • Check INR the day of or the day before surgery to be sure not supratherapeutic

2C

Patients at high risk of thromboembolism should start with full-dose unfractionated heparin or LMWH two to three days preoperatively. Unfractionated heparin is stopped five hours before surgery, and LMWH is stopped 12 to 24 hours before surgery. Prophylactic or full-dose unfractionated heparin or LMWH with warfarin therapy may be restarted postoperatively once hemostasis has been achieved.23,25 If therapeutic unfractionated heparin or LMWH is used after major surgery, the patient must be monitored closely for bleeding.23 Consider giving prophylactic-dose unfractionated heparin or LMWH for one to two days postoperatively before instituting therapeutic-dose unfractionated heparin or LMWH.23

No prospective, double-blind, randomized controlled studies have been performed to evaluate these bridge therapies. Recent trials suggest that the bleeding risk using perioperative unfractionated heparin or LMWH may lead to more bleeding complications than previously thought.23 For these reasons, bridging anticoagulation should be approached more cautiously, using patient input once risks and benefits have been discussed. This means less bridging for intermediate-risk patients and more use of prophylactic-dose unfractionated heparin or LMWH postoperatively except when a patient is at very high risk of thromboembolism such as a mitral valve replacement.23 The recommendations inTable 7 are based on the available literature.1,22,23 There is room for interpretation by the physician managing anticoagulation and the surgeon or interventionalist.

DayRecommendation
−7Stop aspirin therapy and check INR
−5 or −4Stop warfarin (Coumadin) therapy and check INR
−3 or −2Start LMWH once or twice daily
−1Last dose of LMWH 12 to 24 hours before procedure
Check INR; if 1.5 or higher, give vitamin K (1 mg orally)
0 (day of surgery)No LMWH
Assess hemostasis
Start regular warfarin dosage in evening
1Continue regular warfarin dosage
Restart LMWH therapeutic dosage (procedures with low risk of bleeding and/or patients or procedures with high risk of thrombosis)
or
LMWH prophylactic dosage (procedures with high risk of bleeding)
2Check INR
4 to 10Check INR
Stop LMWH when INR is 2.0 or higher

New Anticoagulants

Several new anticoagulants have been developed to target specific sites on the coagulation cascade. These anticoagulants can be divided into direct thrombin inhibitors or factor Xa inhibitors. Hirudin, lepirudin (Refludan), bivalirudin (Angiomax), desirudin (Ipravask), argatroban (Acova), and ximelagatran (Exanta; not available in United States) are all direct thrombin inhibitors, whereas fondaparinux (Arixtra) is a factor Xa inhibitor.28 Table 3 lists dosages and indications for their use.16

Hirudin, lepirudin, bivalirudin, and desirudin are cleared renally and are monitored by measuring the aPTT.28 Because hirudins are derived from peptides foreign to humans, allergies and antibodies can develop, even on first use.28

Argatroban is derived froml-arginine and is indicated for the treatment of heparin-induced thrombocytopenia.28 It is cleared hepatically and is monitored using the aPTT.28 Absorption of ximelagatran, an oral anticoagulant, is not affected by foods and does not appear to require monitoring.9 Ximelagatran was studied extensively for prophylaxis in patients undergoing knee or hip arthroplasty; in the initial treatment and prevention of recurrent VTE; and in patients with atrial fibrillation, myocardial infarction, and acute coronary syndromes.9 However, it failed to gain approval from the U.S. Food and Drug Administration in 2004 because of unexpected cardiovascular adverse effects and continued concerns with liver toxicity.

Fondaparinux, a synthetic analogue of heparin,9 is effective for prophylaxis in orthopedic patients as well as in general medical and surgical patients. The safety of fondaparinux appears to be similar to that of LMWH for the treatment of acute VTE, and it is a viable option for patients with a history of heparin-induced thrombocytopenia.9 Fondaparinux is cleared renally. The main limitation to its use is its lack of reversibility with protamine.9

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