Article
Heparins for venous thromboembolism prophylaxis - safety issues
- Jocelyn S Lowinger, David J Maxwell
- Aust Prescr 2009;32:108-12
- 1 August 2009
- DOI: 10.18773/austprescr.2009.051
ISSUE 4 AUGUST
Summary
Heparins are commonly used to prevent venous thromboembolism. Although they are effective anticoagulants, heparins have a high risk of adverse effects if used inappropriately. Safer heparin prescribing is achieved through careful patient selection by assessing the risk of venous thromboembolism. Consider the drugs' contraindications and precautions including renal function, concomitant medication use and spinal needle insertion. Comparative drug information needs to be considered when choosing the optimal heparin for an individual patient. The timing of perioperative heparin administration depends on the choice of heparin, type of surgery and type of anaesthesia. Patients should be carefully monitored during prophylaxis.
Introduction
Heparins are effective anticoagulants and can be used to prevent venous thromboembolism in hospitalised medical and surgical patients. In Australia it has been estimated that the overall prevalence of venous thromboembolism in all hospitalised patients is 2–3 per 1000 admissions.1 There is therefore growing Australian and international encouragement for prophylaxis, so increased numbers of inpatients will be prescribed a heparin.
'Heparin' or 'heparins' refers to the following medications available in Australia:
- unfractionated heparin
- low molecular weight heparins – dalteparin, enoxaparin
- synthetic selective inhibitor of activated factor X – fondaparinux
- heparinoid – danaparoid.
Although the benefits of using heparin in venous thromboembolism prophylaxis generally outweigh the risks, harm from low-dose heparin can be severe and the risks should not be ignored. While adverse effects are less common with low-dose heparin than with therapeutic doses of heparin, bleeding can still occur if other risk factors for bleeding are present, such as renal impairment or interaction with other drugs. Also, bleeding events can be expected to increase in frequency as the number of patients prescribed heparin for venous thromboembolism prophylaxis continues to increase. For example, a program of mandatory venous thromboembolism prophylaxis with low molecular weight heparin alone or in combination with warfarin has resulted in increased bleeding rates after hip and knee arthroplasty.2 Incidents with anticoagulants including heparins (at all doses) continue to be commonly reported to incident reporting systems in Australia and the USA3,4 Clinicians must consider the patient's safety when prescribing heparin as part of a strategy for venous thromboembolism prophylaxis as discussed in publications such as 'Safe prescribing of heparins for venous thromboembolism prophylaxis: a position statement of the NSW Therapeutic Advisory Group'.5
Patients requiring venous thromboembolism prophylaxis
The risk of venous thromboembolism should be assessed in all adult patients before or on admission to hospital. Currently available guidelines differ regarding which patients require venous thromboembolism prophylaxis.6,12 An Australian guideline for venous thromboembolism prophylaxis is currently under development.13 Table 1 shows the current recommendations in the USA.11
Table 1 Recommendations for thromboembolism prophylaxis11*
| Indications | Procedure/condition |
| Surgical procedures generally requiring venous thromboembolism prophylaxis |
Acute spinal cord injury Major trauma Major surgery including: - general cancer or non-cancer surgery - hip and knee arthroplasty - open gynaecological surgery - open urological surgery - prolonged surgery† |
| Surgical procedures generally not requiring venous thromboembolism prophylaxis when no additional risk factors are present |
Elective spine surgery Knee arthroscopy Isolated lower extremity injuries Laparoscopic surgery Transurethral surgery Vascular surgery |
| Medical conditions generally requiring venous thromboembolism prophylaxis |
Congestive heart failure Severe respiratory disease Immobility plus: - cancer - previous venous thromboembolism - sepsis - acute neurological disease - inflammatory bowel disease |
Mechanical methods of prophylaxis, such as stockings, are recommended in patients at high risk of bleeding.
* These recommendations are based on guidelines from the USA, pending the publication of new Australian guidelines
† Prolonged surgery may increase the risk of venous thromboembolism in patients who are over 40 or who have other risk factors
Contraindications and precautions
All patients should be assessed for contraindications and the precautions needed before starting prophylaxis. Absolute contraindications to heparin include known hypersensitivity, past or present heparin-induced thrombocytopenia and active bleeding.
Caution is required when prescribing heparin to patients with conditions that may increase the risk of bleeding (see box). In these patients, the decision to prescribe heparin should be made on an individual basis balancing the relative benefit and harm. Tests for coagulation, such as prothrombin time, are not routinely required.5
Box Examples of problems that may increase risks with heparin
Bleeding disorders, e.g. haemophilia
Concomitant use of certain medications, e.g. clopidogrel
Conditions where bleeding would be catastrophic, e.g. focal lesions, haemorrhagic stroke
Creatinine clearance <30 mL/min
High risk of uncontrolled haemorrhage, e.g. acute ulcerative gastrointestinal conditions, anaemia of unknown cause
Recent surgery on eye, brain or spinal cord
Severe thrombocytopenia (platelets <50 x 109 /L)
Severe liver disease with coagulopathy and/or oesophageal varices
Spinal or epidural needle insertion (spinal tap or spinal anaesthesia)
Renal function
Patients with moderate to severe renal dysfunction have a higher risk of bleeding with some heparins. Assessment of renal function using creatinine clearance is important before prescribing low molecular weight heparins or fondaparinux. In patients with a creatinine clearance less than 30 mL/min enoxaparin dosage should be reduced to 20 mg daily and fondaparinux is contraindicated. For danaparoid, dose reductions should be considered when creatinine clearance is under 20 mL/min. Unfractionated heparin can be prescribed without dose alteration.5
Interactions
Heparin should be prescribed cautiously in patients taking drugs that can increase bleeding, for example antiplatelets, non-steroidal anti-inflammatory drugs (NSAIDs) and thrombolytics. The decision to co-prescribe heparin with these drugs should be made on an individual patient basis in consultation with senior staff and taking into account patient preference. Careful clinical review and monitoring of the patient is recommended. Low-dose aspirin required for prevention or treatment of cardiovascular disease may be continued.
Unfractionated heparin can raise potassium concentrations. This may lead to hyperkalaemia when co-prescribed with other drugs that increase potassium, for example angiotensin converting enzyme inhibitors, angiotensin II receptor antagonists, potassium sparing diuretics, potassium supplements, NSAIDs or trimethoprim. Patients receiving unfractionated heparin for more than three days who are at risk of developing hyperkalaemia should have their potassium monitored at least every four days.14
Spinal needle insertion
When heparins are prescribed for patients undergoing spinal needle insertion the risk of an epidural or spinal haematoma is increased. Insertion and removal of needles and catheters should occur when the anticoagulant effect is lowest, generally just before the next dose is due. If bleeding occurs during needle placement, the subsequent dose of heparin should be delayed for 24 hours and the patient should have neurological observations.15
Choice of heparin
Different heparins have different harm:benefit ratios, although each carries a similar bleeding risk. There are usually options available for each clinical indication, but heparins are not clinically interchangeable (unit for unit) (Table 2). When choosing a heparin consider the clinical indication, patient factors (for example renal impairment), type of surgery and anaesthesia, dosing schedule, risk of heparin-induced thrombocytopenia, reversibility and cost.5 Unfractionated heparin is not recommended for prophylaxis in hip or knee arthroplasty or trauma patients.11
Table 2 Differences between heparins when used for venous thromboembolism prophylaxis5
|
|
|||||
| Unfractionated heparin | Enoxaparin | Dalteparin | Danaparoid | Fondaparinux | |
|
Elimination |
Liver and reticuloendothelial system |
Primarily renal |
Primarily renal |
Renal |
Renal |
|
Dosing in renal impairment |
No dosage adjustment required |
Reduce dose if CrCl <30 mL/min |
Unknown |
Consider dose reductions if CrCl <20 mL/min |
Do not use if CrCl <30 mL/min Use cautiously if CrCl = 30–50 mL/min |
|
Renal function testing |
Not required |
At baseline |
At baseline |
Not required |
At baseline and periodically. Discontinue in patients who develop labile renal function or severe renal impairment |
|
Incidence of HIT |
Highest incidence |
Lower incidence |
Lower incidence |
Can be used to treat HIT |
Unknown |
|
Platelet count monitoring at baseline17 |
Yes. Repeat after 24 hours in patients administered UFH in past 100 days |
Yes. Repeat after 24 hours in patients administered UFH in past 100 days |
Yes. Repeat after 24 hours in patients administered UFH in past 100 days |
Not required |
Yes |
|
Ongoing platelet count monitoring17 |
Every 2–4 days in postoperative and medical patients up to 14 days or until heparin is stopped (whichever is earlier) |
Every week in postoperative patients up to 14 days or until heparin is stopped (whichever is earlier) Not required in medical or obstetric patients |
Every week in postoperative patients up to 14 days or until heparin is stopped (whichever is earlier) Not required in medical or obstetric patients |
Not required |
When treatment ceased |
|
Other monitoring17 |
Activated partial thromboplastin time testing is not required for prophylactic dosing Assess for bleeding |
Assess for bleeding |
Assess for bleeding |
Functional anti-factor Xa (patients with renal impairment, or those weighing more than 90 kg) Assess for bleeding |
Assess for bleeding |
|
Approved indication for VTE prophylaxis |
Prevention of VTE in surgical and high risk medical patients |
Prevention of VTE in surgical patients and in medical patients bedridden due to acute illness |
Prevention of VTE in surgical patients |
Prevention of VTE in patients undergoing general or orthopaedic surgery |
Prevention of VTE in high-risk orthopaedic surgery (hip fracture, knee or hip replacement) and abdominal surgery |
|
Subcutaneous dose in VTE prophylaxis |
5000 units 2–3 times daily depending on risk of VTE |
20–40 mg once daily depending on risk of VTE |
2500–5000 units once daily depending on risk of VTE |
750 anti-factor Xa units twice daily |
2.5 mg once daily Use with caution in patients who weigh <50 kg |
|
Reversibility with protamine sulfate |
Complete |
Incomplete, 60% reversible |
Incomplete, 60–75% reversible |
Non-reversible |
Non-reversible |
|
Daily cost compared to twice-daily UFH |
~1.5–2 x cost |
~2 x cost |
~15 x cost |
~4 x cost |
|
| Refer to guidelines for the preferred heparin for each clinical indication11 | ||
| VTE venous thromboembolism CrCl creatinine clearance |
UFH unfractionated heparin HIT heparin-induced thrombocytopenia |
|
Timing and duration of heparin administration
Care should be taken to determine the optimal time for giving perioperative heparin.5 The timing depends on the type and dosing schedule of the heparin chosen and the type of procedure and anaesthesia planned. There is no advantage in starting venous thromboembolism prophylaxis preoperatively rather than postoperatively.11 In patients undergoing neurosurgery, heparin, if indicated, should never be started preoperatively. After trauma, patients should not be started on heparin until primary haemostasis is established.11
Heparin should be continued while patients remain at increased risk of developing venous thromboembolism – up to 35 days postoperatively in some orthopaedic patients.11
Patient monitoring
While routine clotting studies are not required during prophylaxis, patients need to be assessed for bleeding. Unless they are taking danaparoid, patients will need platelet counts every few days.
Bleeding
Easy bruising and petechial haemorrhages may precede frank bleeding. Nose bleeds, haematuria or melaena may be the first sign of bleeding, so check for these signs.5 Bleeding can often be controlled by stopping the heparin. In some patients protamine sulfate may be considered for heparin reversal, however it does not reverse the effects of danaparoid and fondaparinux (Table 2). Patients with bleeding should undergo fluid management and resuscitation as required.
Thrombocytopenia
Unfractionated heparin, and to a lesser extent low molecular weight heparins, may cause heparin-induced thrombocytopenia. A diagnosis of heparin-induced thrombocytopenia requires the presence of antibodies (heparin-dependent platelet antibodies) and one of the following events:17
- unexplained platelet count fall of 30–50% from baseline
- venous or arterial thrombosis
- skin lesions at heparin injection sites
- systemic anaphylactoid reactions.
Heparin-induced thrombocytopenia usually occurs 4–10 days (sometimes weeks) after starting heparin (earlier in patients exposed to heparin in the previous three months). Management requires cessation of heparin and alternative anticoagulation (danaparoid or lepirudin). Low molecular weight heparins should not be used in patients who have a history of heparin-induced thrombocytopenia with unfractionated heparin.
A milder, reversible thrombocytopenia may also develop. In these cases antibodies are not present. If the platelet count remains greater than 100 x 109 /L, heparin may be continued.17
Platelet counts should be measured intermittently in patients prescribed unfractionated heparin or low molecular weight heparins, and at baseline in patients prescribed fondaparinux, but are not required in patients prescribed danaparoid.17 Recommendations for platelet count monitoring vary depending on the type of patient and the choice of heparin (Table 2).16,17
Future directions
The forthcoming Australian guidelines will clarify the indications for thromboembolism prophylaxis,13 however practice may soon have to change. Dabigatran and rivaroxaban have recently been approved for use in Australia. As these anticoagulants can be given orally, they may supersede heparins in some indications.
Conclusion
Heparin is an effective but high-risk drug that can cause bleeding even in low doses. Safer heparin prescribing can be achieved through careful patient selection taking into consideration the clinical indication for venous thromboembolism prophylaxis, contraindications and precautions. Heparin choice should be matched to the individual patient's requirements. Patients should be monitored for bleeding while heparin administration is continued.
References
- Trends in venous thromboembolism in Western Australia 1989\u20132001. School of Population Health, Unit of Clinical Epidemiology, University of Western Australia. Melbourne: National Institute of Clinical Studies; 2005.
- Novicoff WM, Brown TE, Cui Q, Mihalko WM, Slone HS, Saleh KJ. Mandated venous thromboembolism prophylaxis: possible adverse outcomes. J Arthroplasty 2008;23(6 Suppl 1):15-9.
- Patient safety clinical incident management in NSW. Analysis of first year of IIMS data. Annual Report 2005-2006. Sydney: Clinical Excellence Commission; 2006. http:// www.cec.health.nsw.gov.au/pdf/iims_data_AnnualReport.pdf [cited 2009 Jul 14]
- Preventing errors relating to commonly used anticoagulants. The Joint Commission. Sentinel event alert 2008;41.http:// www.jointcommission.org/SentinelEvents/SentinelEventAlert/sea_41.htm [cited 2009 Jul 14]
- Safe prescribing of heparins for venous thromboembolism prophylaxis. Position statement. NSW Therapeutic Advisory Group. 2008. http:// www.ciap.health.nsw.gov.au/nswtag/publications/posstats/HeparinSafety0808.pdf [cited 2009 Jul 14]
- Prophylaxis of venous thromboembolism. Scottish Intercollegiate Guidelines Network; 2002. Publication no. 62. http:// www.sign.ac.uk/guidelines/fulltext/62/index.html [cited 2009 Jul 14]
- Venous thromboembolism. Reducing the risk of venous thromboembolism (deep vein thrombosis and pulmonary embolism) in inpatients undergoing surgery. National Institute for Health and Clinical Excellence clinical guideline 46. NICE; 2007. http://guidance.nice.org.uk/cg46 [cited 2009 Jul 14]
- Report of the independent expert working group on the prevention of venous thromboembolism in hospitalised patients. A report to Sir Liam Donaldson, Chief Medical Officer. London: Department of Health; 2007. http:// www.dh.gov.uk/en/Publicationsandstatistics/Publications/PublicationsPolicyAndGuidance/DH_073944 [cited 2009 Jul 14]
- Prevention and treatment of venous thromboembolism. International Consensus Statement (guidelines according to scientific evidence). Int Angiol 2006;25:101-61.
- Baglin T, Barrowcliffe TW, Cohen A, Greaves M; British committee for standards in haematology. Guidelines on the use and monitoring of heparin. Br J Haematol 2006;133:19-34.
- Geerts WH, Bergqvist D, Pineo GF, Heit JA, Samama CM, Lassen MR, et al; American College of Chest Physicians. Prevention of venous thromboembolism: American College of Chest Physicians evidence-based clinical practice guidelines (8th edition). Chest 2008;133(6 Suppl):381S-453S.
- Millar JA. Rational thromboprophylaxis in medical inpatients: not quite there yet. Med J Aust 2008;189:504-6.
- Clinical practice guideline for the prevention of venous thrombosis (deep vein thrombosis and pulmonary embolism) in patients admitted to Australian hospitals. Draft for public consultation. National Health and Medical Research Council. 2009. http:// www.nhmrc.gov.au/nics/programs/vtp/consultation.htm [cited 2009 Jul 14]
- Oster JR, Singer I, Fishman LM. Heparin-induced aldosterone suppression and hyperkalemia. Am J Med 1995;98:575-86.
- Horlocker TT, Wedel DJ, Benzon H, Brown DL, Enneking FK, Heit JA, et al. Regional anesthesia in the anticoagulated patient: defining the risks (the second ASRA Consensus Conference on Neuraxial Anesthesia and Anticoagulation). Reg Anesth Pain Med 2003;28:172-97.
- Medication safety self assessment for antithrombotic therapy in Australian hospitals (MSSA-AT). NSW Therapeutic Advisory Group, Clinical Excellence Commission. 2007.
- Warkentin TE, Greinacher A, Koster A, Lincoff AM; American College of Chest Physicians. Treatment and prevention of heparin-induced thrombocytopenia: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines (8th edition). Chest 2008;133(6 Suppl):340S-80S.
Jocelyn S Lowinger
NSW Therapeutic Advisory Group, Sydney
David J Maxwell
NSW Therapeutic Advisory Group, Sydney
