Anticoagulation

The colloquial term blood thinners is misleading for both the anticoagulants and the platelet aggregation inhibitors, as these agents do not make the blood thinner in the sense of a lower viscosity , but rather reduce its coagulability. An actual blood thinning is the hemodilution , a method for the targeted reduction of the hematocrit , e.g. B. by infusing liquids.

Reasons for anticoagulation

Anticoagulation is necessary in diseases or conditions in which there is a tendency to form blood clots ( thrombi ). The administration of anticoagulants can prevent thromboses or embolisms in the arteries or veins . The second reason for anticoagulant treatment is to treat pre-existing thromboses or embolisms.

Preventive ( prophylactic indication )

Anticoagulants are often used before, during and after operations as well as when bedridden for other reasons to avoid thrombosis and pulmonary embolism . In cardiac catheter interventions and blood sampling for stem cell apheresis as well as (outside the human body) in tube systems ( dialysis , heart-lung machine ) or blood transport tubes, blood clotting is often required.

For treatment ( therapeutic indication )

Less common causes of anticoagulation can an advanced atherosclerosis (z. B. coronary heart disease , peripheral vascular disease or narrowing of the carotid artery ), a heart wall aneurysm or an atypical hemodynamics (eg. B. after palliative -OP in congenital heart defects ) to be.

Anticoagulant and risk of bleeding

The main risk of drug anticoagulation is the risk of bleeding. Patients on long-term anticoagulants bleed longer. They are prone to bruising and are at greater risk of bleeding from the genitourinary or gastrointestinal tract. Cerebral haemorrhage is particularly feared . Bleeding under anticoagulant therapy often occurs spontaneously after trauma . The more intensive the anticoagulant (high dose of anticoagulants or a combination of several anticoagulants), the greater the risk of bleeding. There are also patient-side factors that increase the risk of bleeding.

According to Danish registry data, the incidence of bleeding requiring hospital admission under newly started antithrombotic therapy in patients after myocardial infarction is 4.6% over 1.3 years. The risk with the various antithrombotics or their combinations varies:

If you add bleeding that does not require hospital treatment to these figures, then around one in five patients on oral anticoagulants should expect a bleeding complication every year. In the RE-LY study, in which the vitamin K antagonist warfarin was compared with two different doses of the thrombin inhibitor dabigatran for the indication of atrial fibrillation, annual bleeding rates (major and minor bleeding) of 13.6% (2 × 110 mg dabigatran), 16.4% (2 × 150 mg dabigatran) and 18.1% (warfarin) found. With regard to the probability of bleeding, there is therefore a clear correlation between the dose used and the quality of the INR setting for vitamin K antagonists .

Various risk scores are also used to assess the risk of bleeding, e.g. B. the HAS-BLED Score or the HEMORR ₂ HAGES Score .

Risk / benefit balance

When deciding on anticoagulant therapy, the risk of bleeding must be balanced by an appropriate therapeutic benefit. For example, oral anticoagulation in patients with atrial fibrillation reduces the risk of stroke by more than 60%. If a patient is at high risk of stroke, e.g. B. 6% per year (estimate using the CHA ₂ DS ₂ -VASc score , for example ), then the risk of significant bleeding during antithrombotic therapy can be significantly lower than the resulting benefit. Patients should therefore be aware of the potential benefit of the therapy as well as the risk. The treatment guidelines of the European Society for Cardiology (ESC) for atrial fibrillation therefore also recommend discussing all aspects of therapy with anticoagulants with the patient in order to then reach a participatory decision (shared decision-making) and informed consent . : informed consent) to come.

Medicines and essential properties

The drugs can be divided into direct and indirect anticoagulants according to the principle of action. A further division can be made according to the type of application into orally applicable and non-orally applicable anticoagulants.

Indirect anticoagulants

Indirect anticoagulants do not directly inhibit plasmatic coagulation.

Coumarins (vitamin K antagonists)

The so-called oral anticoagulation with coumarins (active ingredients: phenprocoumon , acenocumarol , warfarin ) works by depleting the vitamin K -dependent coagulation factors II, VII, IX and X (Eselsbrücke 1972 ). These are no longer sufficiently formed and the bleeding time increases. The effect can be measured using the bleeding times. Today based on a determination of the INR (formerly Quick value ). The degree of anticoagulation depends not only on the dose taken, but also on the diet and metabolism of the patient. Vitamin K-rich foods such as B. kale or broccoli can lead to a weakening of the coumarin effect. In addition, coumarins are extensively metabolized in the body. They are modified by a large number of enzymes both when they are absorbed into and when they are eliminated from the body. Due to the varying degrees of activity of these enzymes (slow, fast, ultrafast metabolizer), a patient's need for coumarin cannot be foreseen. Therapy is therefore started slowly, with constant INR controls. When the target INR is reached, a maintenance dose is set and recorded in a coagulation card. Some patients only need 2 tablets per week, others 8. Another disturbance is drug interactions . Many comedic drugs, including phytopharmaceuticals , directly and indirectly influence the effects of coumarins. The most important interactions are listed in the relevant technical information .

Oral anticoagulation with coumarins takes the form of regular tablet intake. The dose is determined by the treating physician. The higher the INR, the more intense the anticoagulation. Some indications require a less strong anticoagulant (eg INR 2–3, for non-valvular atrial fibrillation), others a much stronger one (eg INR 3.5–4 for certain artificial heart valves). The higher the INR, the higher the risk of bleeding and the more fluctuating the INR setting, the higher the risk of complications from the therapy (thrombosis, embolism and bleeding). In the case of reliable patients, INR monitoring should therefore be transferred to the patient in the form of coagulation self-management after appropriate training. The necessary test devices are paid for by the health insurance companies under certain conditions. This allows the patient to determine the correct dosage independently.

However, around a third of patients have problems with coumarin treatment. The INR fluctuates strongly, the intake is unreliable, the patients fall more frequently or have spontaneous bruises. This often leads to the fact that the therapy is stopped or not started at all for safety reasons, although the patients would have a great benefit. Another problem is that the effect of the coumarins lasts for several days, which can be very disadvantageous in the event of bleeding or surgery . In this case, vitamin K can be added. The coagulation then normalizes within several hours. The administration of vitamin K is not, however, a coumarin antidote in the classical sense . In an emergency, the missing coagulation factors (e.g. prothrombin complex ) can also be infused.

Heparins

Unfractionated heparin is administered subcutaneously 2–3 times a day or, then usually as a continuous infusion , intravenously. The half-life is 30 to 60 minutes. The effect of unfractionated heparin quickly wears off and can be quickly reversed by protamine .

Low molecular weight (= fractionated) heparins are obtained from unfractionated heparin. Representatives of this group Certoparin , dalteparin , enoxaparin , nadroparin , reviparin and tinzaparin . Depending on the indication and preparation, heparins are administered subcutaneously 1–2 times a day. Depending on the LMWH preparation used, the effect can be temporarily reversed by 50 to 85% by protamine.

Direct oral anticoagulants (DOAK or DOAKs)

Direct oral anticoagulants used to be referred to as new oral anticoagulants ( NOAC ). Now that they are used routinely, the name direct oral anticoagulants should be better used, as this nomenclature also explicitly emphasizes the mechanism of action that deviates from the group of coumarins. These drugs intervene directly in the coagulation cascade and directly inhibit individual coagulation factors. Direct inhibitors of the Stuart Prower factor (coagulation factor Xa) and thrombin (coagulation factor IIa) are currently on the market.

Factor Xa inhibitors

• Apixaban - trade name Eliquis
• Rivaroxaban - trade name Xarelto
• Edoxaban - trade name Lixiana

Factor IIa inhibitors

• Dabigatran etexilate - trade name Pradaxa
• Argatroban - trade name Argatra
• Ximelagatran was withdrawn from the market worldwide in February 2006 due to liver damage.

DOAC are increasingly replacing coumarins. They have the practical advantage that the coagulation values ​​do not have to be checked regularly. Patients take a fixed dose once (rivaroxaban, edoxaban) or twice daily (dabigatran, apixaban). Disadvantages are their significantly higher price (approx. 15 times higher than with phenprocoumon) and that the lack of information about the intensity of the antithrombotic therapy due to the unnecessary INR controls, so the therapy is more or less blind. The regular family doctor visits for INR control and the associated clinical controls are also eliminated.

Most studies have shown that DOAC can reduce strokes about as effectively as with coumarins with slightly fewer bleeding complications overall, especially cerebral haemorrhage. In these studies, however, a coumarin that is unusual in Germany and Austria was used (warfarin) and the quality of the INR setting was unsatisfactory (hardly any self-management). That could have skewed the result in favor of the DOAK. From the point of view of the Drugs Commission of the German Medical Association ( AkdÄ ), there is therefore no benefit from a therapy with a DOAC for patients with atrial fibrillation who can be treated well with a coumarin. DOAC are therefore a valuable option for specific contraindications to coumarins, if there is an increased risk of coumarin-specific drug interactions, strongly fluctuating INR values ​​or if regular monitoring of the INR value is difficult for understandable reasons.

When choosing the DOAK, medical aspects such as accompanying diseases, co-medication, potential interactions and kidney function should be decisive. In addition, the detailed results of the individual substances must be taken into account in the respective approval studies. The fact that there has so far only been an antidote for a single DOAC (dabigatran) should also be taken into account when selecting the drug. The DOAK must therefore by no means be viewed in the same way. A complicated differential indication is increasingly emerging and not all questions have been answered by a long way.

One problem with the DOAC is careless handling of these seemingly easily controllable anticoagulants. Der Arzneimittelbrief, for example, criticizes an increasingly flawed and too lax handling of the DOAC, which is likely to cancel out the low clinical advantages over vitamin K antagonists. Frequent avoidable errors that lead to serious side effects are a non-existent indication for anticoagulation ( over-therapy ), ignorance or disregard of drug interactions , treatment with an anticoagulant that is unsuitable for the patient or an incorrect dose, unreliable medication intake and a insufficient therapy monitoring. Other frequent problems in connection with the DOAK are training deficits among patients, insecurities from scandalous media reports, self-medication with non-prescription preparations with interaction potential, the downplaying marketing of the DOAK manufacturers, which understates the advantages and risks, and the loss of contact between general practitioners and patients due to the lack of INR controls.

• first check-up one month after the first prescription: query of thrombotic, embolic or bleeding events; of side effects and adherence to intake; Checking the comedication for interactions; Evaluation of the suitability of the selected DOAC and the dose; Determination of the next follow-up appointment and the necessary laboratory controls. Patient education.
• In addition, clinical follow-up visits approximately every 3 months (maximum 6 months), depending on patient factors such as age, kidney function and concomitant diseases. Contents of the visits as for the first check-up.

All patients with DOAC should receive a laboratory check at least once a year (kidney function, liver function, blood count). Patients ≥75 years of age (especially if they are receiving dabigatran) and frail patients more often, at least every 6 months. Renal insufficiency patients with creatinine clearance ≤ 60 ml / min should receive a blood test x-monthly, according to the formula: x = creatinine clearance / 10 (i.e. at 30 ml / min = 3-monthly). Laboratory controls are also recommended for all conditions that can impair kidney or liver function. Routine determinations of DOAC serum levels are not recommended.

In contrast to the coumarins, the DOAC have specific antidotes . Such an antidote has been approved for dabigatran since November 2015 under the name Idarucizumab (trade name Praxbind). It only works against dabigatran and completely eliminates its effects within a few minutes in the case of life-threatening bleeding. In May 2018, the recombinant Andexanet alfa (trade name AndexXa) was approved as an antidote for the factor Xa antagonists rivaroxaban and apixaban . It was approved in Europe in April 2019, subject to further clinical studies.

If intracranial bleeding occurred during therapy with dabigatran, apixaban or rivaroxaban , the following measures were recommended:

• Stopping (or pausing) the DOAK
• If you have taken dabigatran or rivaroxaban in the last two hours: give activated charcoal
• PPSB at a dosage of 30 U / kg body weight
• When taking rivaroxaban, the administration of activated prothrombin complex or recombinant factor VIIa can also be considered
• Keep systolic blood pressure below 140 mmHg.

Other active ingredients

• Fondaparinux - trade name Arixtra®, factor Xa inhibitor for subcutaneous use
• Danaparoid - trade name Orgaran®
• Hirudin , a thrombin inhibitor (used by leeches ), discovered in 1884 as the first anticoagulant principle.
• Lepirudin , recombinant hirudin (no longer commercially available)
• Bivalirudin , hirudin obtained from leeches
• Calcium complexing agents , for example citrate or EDTA , which bind the calcium ( chelate complex ) to prevent the blood from clotting. Citrate anticoagulation in particular is increasingly used in continuous kidney replacement procedures. The advantage is that the patient himself is excluded from the anticoagulation; anticoagulation only takes place in the extracorporeal circuit. This means that patients who cannot tolerate heparin (HIT II, ​​SHT) or who are septic can also be treated.
• Otamixaban , a factor Xa inhibitor, for intravenous administration

In the laboratory ( in vitro )

Blood thinning

The anticoagulants, known colloquially as blood thinners, are to be distinguished from active substances that actually thin the blood , the plasma expanders , since anticoagulants neither significantly reduce the viscosity of the blood nor the concentration of blood cells and total blood protein .

• Plasma expanders cannot be swallowed as tablets , they are infused .
• Plasma expanders also reduce the blood's ability to clot, which is an often unpleasant side effect here. This side effect is different depending on the substance class, depending on
  • whether it is caused solely by the reduction in the concentration of coagulation factors and blood platelets ( gelatine preparations )
  • or is pharmacologically caused ( starch preparations ).
• Plasma expanders have two main areas of application:
  • Increasing volume in circulation in massive blood loss .
  • Decrease in viscosity in recent strokes .

literature

• B. Pötzsch: Anticoagulation. In: Medical Clinic - Intensive Care Medicine and Emergency Medicine. 108, 2013, pp. 325–336, doi: 10.1007 / s00063-013-0243-1 .
• P. Schweikert-Wehner: Coagulation management Correct dosage of anticoagulants. Pharmaceutical Newspaper. 159th year, 4th edition, pp. 22–24, Eschborn, 2014
• P. Schweikert-Wehner: DOAK update interactions. Pharmaceutical Newspaper. 162nd year, 38th edition, p. 92, Eschborn, 2017
• P. Schweikert-Wehner: Oral anticoagulation for renal insufficiency , heart medicine, 1st edition, pp. 30-31, Mediengruppe Oberfranken-Fachverlag GmbH & Co KG, Kulmbach, 2018

Individual evidence

1. ↑ B. Pötzsch: Anticoagulation. In: Medical Clinic - Intensive Care Medicine and Emergency Medicine. 108, 2013, p. 326, doi: 10.1007 / s00063-013-0243-1 .
2. ↑ ^{a b} Sørensen R., et al .: Risk of bleeding in patients with acute myocardial infarction treated with different combinations of aspirin, clopidogrel, and vitamin K antagonists in Denmark: a retrospective analysis of nationwide registry data . In: Lancet . tape 374 , 2009, p. 1967–1974 , doi : 10.1016 / S0140-6736 (09) 61751-7 . 
3. ↑ Stuart J. Connolly, Michael D. Ezekowitz, Salim Yusuf, John Eikelboom, Jonas Oldgren: Dabigatran versus Warfarin in Patients with Atrial Fibrillation . In: New England Journal of Medicine . tape 361 , no. 12 , September 17, 2009, ISSN  0028-4793 , p. 1139–1151 , doi : 10.1056 / nejmoa0905561 ( nejm.org [accessed July 12, 2018]). 
4. ↑ Management of Atrial Fibrillation, ESC Clinical Practice Guidelines, European Society of Cardiology 2010 (PDF; 3.4 MB).
5. ↑ ^{a b} Oral anticoagulants: better medication management needed . In: Ludwig WD, Schuler J (ed.): The drug letter . tape 52 , no. 6 , 2018, ISSN  1611-2733 , p. 41–43 ( der-arzneimittelbrief.de ). 
6. ^ Robert G. Hart, Lesly A. Pearce, Maria I. Aguilar: Meta-analysis: antithrombotic therapy to prevent stroke in patients who have nonvalvular atrial fibrillation . In: Annals of Internal Medicine . tape 146 , no. 12 , June 19, 2007, p. 857-867 , PMID 17577005 . 
7. ↑ Vitamin K in foods. (PDF) German Heart Foundation, accessed on July 16, 2018 . 
8. ↑ ^{a b} B. Pötzsch: Anticoagulation. In: Medical Clinic - Intensive Care Medicine and Emergency Medicine. 108, 2013, p. 327, doi: 10.1007 / s00063-013-0243-1 .
9. ↑ Crowther MA et al .: Mechanisms responsible for the failure of protamine to inactivate low-molecular-weight heparin. In: Br J Haematol . 116, No. 1, January 2002, pp. 178-186, PMID 11841415 .
10. ↑ ^{a b} Oral anticoagulation for non-valvular atrial fibrillation. (PDF) Medicines Commission of the German Medical Association, September 2016, accessed on July 17, 2018 . 
11. ↑ New oral anticoagulants or vitamin K antagonists? A current meta-analysis. In: The medicament letter . Ludwig WD, Schuler J, pp. 41–43 , accessed on July 17, 2018 . 
12. ↑ Jan Steffel, Peter Verhamme, Tatjana S Potpara, Pierre Albaladejo, Matthias Antz: The 2018 European Heart Rhythm Association Practical Guide on the use of non-vitamin K antagonist oral anticoagulants in patients with atrial fibrillation . In: European Heart Journal . tape 39 , no. 16 , March 19, 2018, p. 1330-1393 . 
13. ^ European Commission Grants Conditional Marketing Authorization for Portola Pharmaceuticals' Ondexxya ™ (andexanet alfa). Accessed May 10, 2019 . 
14. ↑ Manio of Maravic: Neurological emergencies. In: Jörg Braun, Roland Preuss (Ed.): Clinic Guide Intensive Care Medicine. 9th edition. Elsevier, Munich 2016, ISBN 978-3-437-23763-8 , pp. 311-356, here: p. 318 ( Intracranial bleeding with new oral anticoagulants ).
15. ↑ Axel W. Bauer : Anticoagulant. In: Werner E. Gerabek , Bernhard D. Haage, Gundolf Keil , Wolfgang Wegner (eds.): Enzyklopädie Medizingeschichte. De Gruyter, Berlin / New York 2005, ISBN 3-11-015714-4 , p. 71 f.

Web links

• Antikoagulation-Aktuell.de - information platform from Prof. Dr. Jörg Braun on the subject of anticoagulation

This article is about a health issue. It is not used for self-diagnosis and does not replace a diagnosis by a doctor. Please note the information on health issues !