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Anticoagulant

October 15, 2023

Anticoagulants, commonly known as blood thinners, are chemical substances that prevent or reduce coagulation of blood, prolonging the clotting time.[1] Some of them occur naturally in blood-eating animals such as leeches and mosquitoes, where they help keep the bite area unclotted long enough for the animal to obtain some blood.[2][3] As a class of medications, anticoagulants are used in therapy for thrombotic disorders.[4] Oral anticoagulants (OACs) are taken by many people in pill or tablet form, and various intravenous anticoagulant dosage forms are used in hospitals.[5][6] Some anticoagulants are used in medical equipment, such as sample tubes, blood transfusion bags, heart–lung machines, and dialysis equipment.[7][8] One of the first anticoagulants, warfarin, was initially approved as a rodenticide.[9]

Antithrombotic agents
Drug class
Coagulation cascade and major classes of anticoagulants
Class identifiers
ATC codeB01
External links
MeSHD00534-class
Legal status
In Wikidata

Anticoagulants are closely related to antiplatelet drugs and thrombolytic drugs by manipulating the various pathways of blood coagulation.[10] Specifically, antiplatelet drugs inhibit platelet aggregation (clumping together), whereas anticoagulants inhibit specific pathways of the coagulation cascade, which happens after the initial platelet aggregation but before the formation of fibrin and stable aggregated platelet products.[11][12]

Common anticoagulants include warfarin and heparin.[13]

Medical uses Edit

The use of anticoagulants is a decision based upon the risks and benefits of anticoagulation.[14] The biggest risk of anticoagulation therapy is the increased risk of bleeding.[15] In otherwise healthy people, the increased risk of bleeding is minimal, but those who have had recent surgery, cerebral aneurysms, and other conditions may have too great a risk of bleeding.[16][17] Generally, the benefit of anticoagulation is prevention of or reduction of progression of a thromboembolic disease.[18] Some indications for anticoagulant therapy that are known to have benefit from therapy include:

In these cases, anticoagulation therapy can prevent formation of dangerous clots or prevent growth of clots.[30]

The decision to begin therapeutic anticoagulation often involves the use of multiple bleeding risk predictable outcome tools as non-invasive pre-test stratifications due to the potential for bleeds while on blood thinning agents.[15] Among these tools are HAS-BLED,[31] ATRIA,[32] HEMORR2HAGES,[33] and CHA2DS2-VASc.[34] The risk of bleeding using the aforementioned risk assessment tools must then be weighed against thrombotic risk in order to formally determine patient's overall benefit in starting anticoagulation therapy.[35]

There is no evidence to indicate that adding anticoagulant therapy to standard treatment has a benefit for people with cerebral small vessel disease but not dementia and there is an increased risk of a person with this disease experiencing a bleed with this approach.[36]

Adverse effects Edit

The most serious and common adverse side effect associated with anticoagulant are increased risk of bleeding, both nonmajor and major bleeding events.[37] Risk of bleeding is dependent on the class of anticoagulant agent used, patient's age, and pre-existing health conditions. Warfarin has an estimated incidence of bleeding of 15-20% per year and life-threatening bleeding rate of 1-3% per year.[38] Newer non-vitamin K antagonist oral anticoagulants appear to have fewer life-threatening bleeding events compared to warfarin.[39][40] Additionally, patients aged 80 years or more may be especially susceptible to bleeding complications, with a rate of 13 bleeds per 100 person-years.[41] Bleeding risk is especially important to consider in patients with renal impairment and NOAC therapy due to the fact that all NOACs, to some extent, are excreted by the kidneys.[42] Thus, patients with renal impairment may be at higher risk of increased bleeding.[43]

In people with cancer, a systematic review has found warfarin had no effect on death rate or the risk of blood clots.[44] However it did increase the risk of major bleeding in 107 more people per 1000 population and minor bleeding in 167 more people in 1000 population.[44] Apixaban had no effect on mortality, recurrence of blood clots in blood vessels or major bleeding or minor bleeding, however this finding comes only from one study.[44]

Nonhemorrhagic adverse events are less common than hemorrhagic adverse events but should still be monitored closely.[39] Nonhemorrhagic adverse events of warfarin include skin necrosis, limb gangrene, and purple toe syndrome.[45] Skin necrosis and limb gangrene are most commonly observed on the third to eighth day of therapy.[46][47] The exact pathogenesis of skin necrosis and limb gangrene are not completely understood but are believed to be associated with warfarin's effect on inhibiting production of protein C and protein S.[48][49] Purple toe syndrome typically develops three to eight weeks after initiation of warfarin therapy.[50][51] Other adverse effects of warfarin are associated with depletion of vitamin K, which can lead to inhibition of G1a proteins and growth arrest-specific gene 6, which can lead to increased risk of arterial calcification and heart valve, especially if too much Vitamin D is present.[52][53] Warfarin's interference of G1a proteins have also been linked to abnormalities in fetal bone development in mothers who were treated with warfarin during pregnancy.[54][55] Long-term warfarin and heparin usage have also been linked to osteoporosis.[56][45]

Another potentially serious complication associated with heparin use is called heparin-induced thrombocytopenia (HIT).[57] There are two distinct types of HIT 1) immune-mediated and 2) non-immune mediated.[57] Immune-mediated HIT most commonly arises five to ten days after exposure to heparin.[58] Pathogenesis of immune-mediated HIT is believed to be caused by heparin-dependent immunoglobulin antibodies binding to platelet factor 4/heparin complexes on platelets, leading to wide spread platelet activation.[59]

Interactions Edit

Foods and food supplements with blood-thinning effects include nattokinase, lumbrokinase, beer, bilberry, celery, cranberries, fish oil, garlic, ginger, ginkgo, ginseng, green tea, horse chestnut, licorice, niacin, onion, papaya, pomegranate, red clover, soybean, St. John's wort, turmeric, wheatgrass, and willow bark.[60][61][62] Many herbal supplements have blood-thinning properties, such as danshen and feverfew.[63] Multivitamins that do not interact with clotting are available for patients on anticoagulants.[64]

However, some foods and supplements encourage clotting.[65] These include alfalfa, avocado, cat's claw, coenzyme Q10, and dark leafy greens such as spinach.[66][67] Excessive intake of aforementioned food should be avoided whilst taking anticoagulants or, if coagulability is being monitored, their intake should be kept approximately constant so that anticoagulant dosage can be maintained at a level high enough to counteract this effect without fluctuations in coagulability.[68][69]

Grapefruit interferes with some anticoagulant drugs, increasing the amount of time it takes for them to be metabolized out of the body, and so should be eaten with caution when on anticoagulant drugs.[70]

Anticoagulants are often used to treat acute deep vein thrombosis.[71][72] People using anticoagulants to treat this condition should avoid using bed rest as a complementary treatment because there are clinical benefits to continuing to walk and remaining mobile while using anticoagulants in this way.[73] Bed rest while using anticoagulants can harm patients in circumstances in which it is not medically necessary.[73]

Types Edit

A number of anticoagulants are available. Warfarin, other coumarins, and heparins have long been used.[74] Since the 2000s, a number of agents have been introduced that are collectively referred to as direct oral anticoagulants (DOACs), previously named novel oral anticoagulants (NOACs) or non-vitamin K antagonist oral anticoagulants.[75][76][77][78] These agents include direct thrombin inhibitor (dabigatran) and factor Xa inhibitor (rivaroxaban, apixaban, betrixaban and edoxaban) and they have been shown to be as good or possibly better than the coumarins with less serious side effects.[79] The newer anticoagulants (NOACs/DOACs), are more expensive than the traditional ones and should be used with care in patients with kidney problems.[80]

Coumarins (vitamin K antagonists) Edit

Further information: Vitamin K antagonist

These oral anticoagulants are derived from coumarin, which is found in many plants. A prominent member of this class, warfarin (Coumadin), was found to be the anticoagulant most prescribed in a large multispecialty practice.[81] It takes at least 48 to 72 hours for the anticoagulant effect to develop. Where an immediate effect is required, heparin is given concomitantly. These anticoagulants are used to treat patients with deep-vein thrombosis (DVT), pulmonary embolism (PE) and to prevent emboli in patients with atrial fibrillation (AF), and mechanical prosthetic heart valves. Other examples are acenocoumarol, phenprocoumon, atromentin, and phenindione.[citation needed]

The coumarins brodifacoum and difenacoum are used as mammalicides (particularly as rodenticides), but are not used medically.[citation needed]

Heparin and derivative substances Edit

Heparin is the most widely used intravenous clinical anticoagulant worldwide.[82] Heparin is a naturally occurring glycosaminoglycan. There are three major categories of heparin: unfractionated heparin (UFH), low molecular weight heparin (LMWH), and ultra-low-molecular weight heparin (ULMWH).[83] Unfractionated heparin is usually derived from pig intestines and bovine lungs.[84] UFH binds to the enzyme inhibitor antithrombin III (AT), causing a conformational change that results in its activation.[85] The activated AT then inactivates factor Xa, thrombin, and other coagulation factors.[86] Heparin can be used in vivo (by injection), and also in vitro to prevent blood or plasma clotting in or on medical devices. In venipuncture, Vacutainer brand blood collecting tubes containing heparin usually have a green cap.[citation needed]

Low molecular weight heparin (LMWH) Edit

Low molecular weight heparin (LMWH), is produced through a controlled depolymerization of unfractionated heparin.[83] LMWH exhibits higher anti-Xa/anti-IIa activity ratio and is useful as it does not require monitoring of the APTT coagulation parameter and has fewer side effects.[83]

Synthetic pentasaccharide inhibitors of factor Xa Edit

  • Fondaparinux is a synthetic sugar composed of the five sugars (pentasaccharide) in heparin that bind to antithrombin. It is a smaller molecule than low molecular weight heparin.
  • Idraparinux
  • Idrabiotaparinux

Direct oral Edit

The direct oral anticoagulants (DOACs) were introduced in and after 2008.[87] There are five DOACs currently on the market: dabigatran, rivaroxaban, apixaban, edoxaban and betrixaban.[88] They were also previously referred to as "new/novel" and "non-vitamin K antagonist" oral anticoagulants (NOACs).[89]

Compared to warfarin, DOACs have a rapid onset action and relatively short half-lives; hence, they carry out their function more rapidly and effectively and allow for drugs to quickly reduce their anticoagulation effects.[90] Routine monitoring and dose adjustments of DOACs is less important than for warfarin, as they have better predictable anticoagulation activity.[91] DOAC monitoring, including laboratory monitoring and a complete medication review, should generally be conducted before initiation of a DOAC, 1–3 months after initiation, and then every 6–12 months afterwards.[92]

Both DOACs and warfarin are equivalently effective but compared to warfarin, DOACs have fewer drug interactions, no known dietary interactions, wider therapeutic index, and have conventional dosing that does not require dose adjustments with constant monitoring.[93][91] However, there is presently no countermeasure for most DOACs, unlike for warfarin; nonetheless, the short half-lives of DOACs will allow their effects to swiftly recede. A reversal agent for dabigatran, idarucizumab, is currently available and approved for use by the FDA. Rates of adherence to DOACs are only modestly higher than adherence to warfarin among patients prescribed these drugs, and thus adherence to anticoagulation is often poor, despite hopes that DOACs would lead to higher adherence rates.[94]

DOACs are significantly more expensive than warfarin, but the patients on DOACs may experience reduced lab costs, as they do not need to monitor their INR.[92]

Direct factor Xa inhibitors Edit

Main article: Direct Xa inhibitor

Drugs such as rivaroxaban, apixaban and edoxaban work by inhibiting factor Xa directly (unlike the heparins and fondaparinux, which work via antithrombin activation). Also included in this category are betrixaban from Portola Pharmaceuticals, the discontinued darexaban (YM150) from Astellas, and, more recently, the discontinued letaxaban (TAK-442) from Takeda and eribaxaban (PD0348292) from Pfizer. Betrixaban is significant as it was, in 2018, the only oral factor Xa inhibitor approved by the FDA for use in acutely medically ill patients.[95] Darexaban development was discontinued in September 2011; in a trial for prevention of recurrences of myocardial infarction in addition to dual antiplatelet therapy (DAPT), the drug did not demonstrate effectiveness, and the risk of bleeding was increased by approximately 300%.[96] The development of letaxaban was discontinued for acute coronary syndrome in May 2011, following negative results from a Phase II study.[97]

Direct thrombin inhibitors Edit

Main article: Direct thrombin inhibitor

Another type of anticoagulant is the direct thrombin inhibitor.[98] Current members of this class include the bivalent drugs hirudin, lepirudin, and bivalirudin; and the monovalent drugs argatroban and dabigatran. An oral direct thrombin inhibitor, ximelagatran (Exanta) was denied approval by the Food and Drug Administration (FDA) in September 2004[99] and was pulled from the market entirely in February 2006 after reports of severe liver damage and heart attacks.[100] In November 2010, dabigatran etexilate was approved by the FDA to prevent thrombosis in atrial fibrillation.

Relevance to dental treatments Edit

As in any invasive procedures, patients on anticoagulation therapy have increased risk for bleeding and caution should be used along with local hemostatic methods to minimize bleeding risk during the operation as well as post-operatively.[101] However, with regards to DOACs and invasive dental treatments, there has not been enough clinical evidence and experience to prove any reliable adverse effects, relevance or interaction between these two.[102] Further clinical prospective studies on DOACs are required to investigate the bleeding risk and haemostasis associated to surgical dental procedures.[103]

Recommendations of modifications to usage/dosage of DOACs prior to dental treatments are made based on the balance of the bleeding risk of each procedure and also the individual's bleeding own bleeding risks and renal functionality.[104] With low-bleeding-risk dental procedures, it is recommended that DOACs be continued by the patient, so as to avoid any increase in the risk of a thromboembolic event.[105][106] For dental procedures with a higher risk of bleeding complications (i.e. complex extractions, adjacent extractions leading to a large wound, or more than three extractions), the recommended practice is for the patient to miss or delay a dose of their DOAC before such procedures so as to minimize the effect on bleeding risk.[107]

Antithrombin protein therapeutics Edit

The antithrombin protein itself is used as a protein therapeutic that can be purified from human plasma[108] or produced recombinantly (for example, Atryn, which is produced in the milk of genetically modified goats).[109][110]

Antithrombin is approved by the FDA as an anticoagulant for the prevention of clots before, during, or after surgery or birthing in patients with hereditary antithrombin deficiency.[108][110]

Other Edit

Many other anticoagulants exist, for use in research and development, diagnostics, or as drug candidates.


Reversal agents Edit

With the growing number of patients taking oral anticoagulation therapy, studies into reversal agents are gaining increasing interest due to major bleeding events and need for urgent anticoagulant reversal therapy.[111] Reversal agents for warfarin are more widely studied and established guidelines for reversal exist, due to longer history of use of warfarin and the ability to get a more accurate measurement of anticoagulation effect in a patient via measuring the INR (International Normalized Ratio).[112] In general, vitamin K is most commonly used in order to reverse the effect of warfarin in non-urgent settings.[113] However, in urgent settings, or in settings with extremely high INR (INR >20), hemostatic reversal agents such as fresh frozen plasma (FFP), recombinant factor VIIa, and prothrombin complex concentrate (PCC) have been utilized with proven efficacy.[114] Specifically with warfarin, four factor PCC (4F-PCC) has been shown to have superior safety and mortality benefits compared to FPP in lowering INR levels.[111]

Although specific antidotes and reversal agents for DOACs are not as widely studied, idarucizumab (for dabigatran) and andexanet alfa (for factor Xa inhibitor) have been used in clinical settings with varying efficacy.[89] Idarucizumab is a monoclonal antibody, approved by the US FDA in 2015, that reverses effect of dabigatran by binding to both free and thrombin-bound dabigatran.[115][116] Andexanet alfa is a recombinant modified human factor Xa decoy that reverses the effect of factor Xa inhibitors by binding at the active sites of factor Xa inhibitor and making it catalytically inactive.[117][118] Andexanet alfa was approved by US FDA in 2018.[119] Another drug called ciraparantag, a potential reversal agent for direct factor Xa inhibitors, is still under investigation.[120] Additionally, hemostatic reversal agents have also been used with varying efficacy to reverse effects of DOACs.[121][122]

Coagulation inhibitor measurement Edit

A Bethesda unit (BU) is a measure of blood coagulation inhibitor activity. It is the amount of inhibitor that will inactivate half of a coagulant during the incubation period.[123] It is the standard measure used in the United States, and is so named because it was adopted as a standard at a conference in Bethesda, Maryland.[124]

Laboratory use Edit

Laboratory instruments, blood transfusion bags, and medical and surgical equipment will get clogged up and become non-operational if blood is allowed to clot. In addition, test tubes used for laboratory blood tests will have chemicals added to stop blood clotting. Apart from heparin, most of these chemicals work by binding calcium ions, preventing the coagulation proteins from using them.

  • Ethylenediaminetetraacetic acid (EDTA) strongly and irreversibly chelates (binds) calcium ions, preventing blood from clotting.
  • Citrate is in liquid form in the tube and is used for coagulation tests, as well as in blood transfusion bags. It binds the calcium, but not as strongly as EDTA. Correct proportion of this anticoagulant to blood is crucial because of the dilution, and it can be reversed with the addition of calcium. Formulations include plain sodium citrate, acid-citrate-dextrose, and more.
  • Oxalate has a mechanism similar to that of citrate. It is the anticoagulant used in fluoride/oxalate tubes used to determine glucose and lactate levels. The fluoride serves to inhibit glycolysis, which can throw off blood sugar measurements. In fact, citrate/fluoride/EDTA tubes work better in this regard.[125]

Dental considerations for long-term users Edit

Dental practitioners play an important role in the early detection of anticoagulant overdose through oral manifestations as the patient does not show any symptoms. Dental treatment of patients taking anticoagulant or antiplatelet medication raises safety concerns in terms of the potential risk of bleeding complications following invasive dental procedures. Therefore, there comes the need for certain guidelines for the dental care of patients taking these drugs.

Detecting overdose

An overdose in anticoagulants usually occurs in people who have heart problems and need to take anticoagulants in a long term, in order to reduce the risk of stroke from their high blood pressure.

An International Normalised Ratio (INR) test would be recommended, to confirm the overdose so that the dosage can be adjusted to an acceptable standard. The INR test measures the time taken for a clot to form in a blood sample, relative to a standard.

An INR value of 1 indicates a level of coagulation equivalent to that of an average patient not taking warfarin and values greater than 1 indicate a longer clotting time and thus a longer bleeding time.

Assessing bleeding risk

There are 2 main parts to the assessment of bleeding risk:

  • Assessment of the likely risk of bleeding associated with the required dental procedure
  • Assessment of the patient's individual level bleeding risk

Managing bleeding risk

A patient who is on anticoagulants or antiplatelet medications may undergo dental treatments which are unlikely to cause bleeding such as local anaesthesia injection, basic gum charting, removal of plaque, calculus and stain above the gum level, direct or indirect fillings which are above the gingiva, root canal treatment, taking impression for denture or crown and fitting or adjustment of orthodontic appliances.  For all these procedures, it is recommended for the dentist to treat the patient following the normal standard procedure and taking care to avoid any bleeding.

For a patient who needs to undergo dental treatments which is more likely to cause bleeding such as simple tooth extractions (1-3 teeth with small wound size), drainage of swelling inside the mouth, periodontal charting, root planing,  direct or indirect filling which extends below the gingiva, complex filling, flap raising procedure, gingival recontouring and biopsies, the dentist needs to take extra precautions apart from the standard procedure. The recommendations[126] are as follows:

  • if the patient has another medical condition or taking other medication that may increase bleeding risk, consult the patient's general medical practitioner or specialist
  • if the patient is on a short course anticoagulant or antiplatelet therapy, delay non-urgent, invasive procedure, until the medication has been discontinued
  • plan treatment for early in the day and week, where possible, to allow time for the management of prolonged bleeding or re-bleeding, if it occurs
  • perform the procedure as atraumatically as possible, use appropriate local measures and only discharge patient once haemostasis has been confirmed
  • if travel time to emergency care is a concern, place particular emphasis at the time of the initial treatment on the use of measures to avoid complications
  • advise the patient to take paracetamol, unless contraindicated, for pain relief rather than NSAIDs such as aspirin, ibuprofen, diclofenac or naproxen
  • provide the patient with written post-treatment advice and emergency contact details
  • follow the specific recommendations and advice given for the management of patients taking the different anticoagulants or antiplatelet drugs

There is general agreement that in most cases, treatment regimens with older anticoagulants (e.g., warfarin) and antiplatelet agents (e.g., clopidogrel, ticlopidine, prasugrel, ticagrelor, and/or aspirin) should not be altered before dental procedures. The risks of stopping or reducing these medication regimens (i.e., thromboembolism, stroke, myocardial infarction) far outweigh the consequences of prolonged bleeding, which can be controlled with local measures. In patients with other existing medical conditions that can increase the risk of prolonged bleeding after dental treatment or who are receiving other therapy that can increase bleeding risk, dental practitioners may wish to consult the patient's physician to determine whether care can safely be delivered in a primary care office. Any suggested modification to the medication regimen prior to dental surgery should be done in consultation and on advice of the patient's physician.

On the basis of limited evidence, general consensus appears to be that in most patients who are receiving the newer direct-acting oral anticoagulants (i.e., dabigatran, rivaroxaban, apixaban, or edoxaban) and undergoing dental treatment (in conjunction with usual local measures to control bleeding), no change to the anticoagulant regimen is required. In patients deemed to be at higher risk of bleeding (e.g., patients with other medical conditions or undergoing more extensive procedures associated with higher bleeding risk), consideration may be given, in consultation with and on advice of the patient's physician, to postponing the timing of the daily dose of the anticoagulant until after the procedure; timing the dental intervention as late as possible after last dose of anticoagulant; or temporarily interrupting drug therapy for 24 to 48 hours.

Research Edit

A substantial number of compounds is being investigated for use as anticoagulants. The most promising ones act on the contact activation system (factor XIIa and factor XIa); it is anticipated that this may provide agents that prevent thrombosis without conferring a risk of bleeding.[127]

As of November 2021, the direct factor XIa inhibitor milvexian is in Phase II clinical trials for the prevention of embolism after surgery.[128]

See also Edit

References Edit

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External links Edit

  • Staying Active and Healthy with Blood Thinners by the Agency for Healthcare Research and Quality
  • New oral anticoagulants for stroke prevention in atrial fibrillation

October 15, 2023
anticoagulant, commonly, known, blood, thinners, chemical, substances, that, prevent, reduce, coagulation, blood, prolonging, clotting, time, some, them, occur, naturally, blood, eating, animals, such, leeches, mosquitoes, where, they, help, keep, bite, area, . Anticoagulants commonly known as blood thinners are chemical substances that prevent or reduce coagulation of blood prolonging the clotting time 1 Some of them occur naturally in blood eating animals such as leeches and mosquitoes where they help keep the bite area unclotted long enough for the animal to obtain some blood 2 3 As a class of medications anticoagulants are used in therapy for thrombotic disorders 4 Oral anticoagulants OACs are taken by many people in pill or tablet form and various intravenous anticoagulant dosage forms are used in hospitals 5 6 Some anticoagulants are used in medical equipment such as sample tubes blood transfusion bags heart lung machines and dialysis equipment 7 8 One of the first anticoagulants warfarin was initially approved as a rodenticide 9 Antithrombotic agentsDrug classCoagulation cascade and major classes of anticoagulantsClass identifiersATC codeB01External linksMeSHD00534 classLegal statusIn WikidataAnticoagulants are closely related to antiplatelet drugs and thrombolytic drugs by manipulating the various pathways of blood coagulation 10 Specifically antiplatelet drugs inhibit platelet aggregation clumping together whereas anticoagulants inhibit specific pathways of the coagulation cascade which happens after the initial platelet aggregation but before the formation of fibrin and stable aggregated platelet products 11 12 Common anticoagulants include warfarin and heparin 13 Contents 1 Medical uses 2 Adverse effects 3 Interactions 4 Types 4 1 Coumarins vitamin K antagonists 4 2 Heparin and derivative substances 4 2 1 Low molecular weight heparin LMWH 4 3 Synthetic pentasaccharide inhibitors of factor Xa 4 4 Direct oral 4 4 1 Direct factor Xa inhibitors 4 4 2 Direct thrombin inhibitors 4 4 3 Relevance to dental treatments 4 5 Antithrombin protein therapeutics 4 6 Other 5 Reversal agents 6 Coagulation inhibitor measurement 7 Laboratory use 8 Dental considerations for long term users 9 Research 10 See also 11 References 12 External linksMedical uses EditThe use of anticoagulants is a decision based upon the risks and benefits of anticoagulation 14 The biggest risk of anticoagulation therapy is the increased risk of bleeding 15 In otherwise healthy people the increased risk of bleeding is minimal but those who have had recent surgery cerebral aneurysms and other conditions may have too great a risk of bleeding 16 17 Generally the benefit of anticoagulation is prevention of or reduction of progression of a thromboembolic disease 18 Some indications for anticoagulant therapy that are known to have benefit from therapy include Atrial fibrillation commonly forms an atrial appendage clot 19 Coronary artery disease 20 Deep vein thrombosis can lead to pulmonary embolism 21 Ischemic stroke 22 Hypercoagulable states e g Factor V Leiden can lead to deep vein thrombosis 23 Mechanical heart valves 24 Myocardial infarction 25 Pulmonary embolism 26 Restenosis from stents 27 Cardiopulmonary bypass or any other surgeries requiring temporary aortic occlusion 28 Heart failure 29 In these cases anticoagulation therapy can prevent formation of dangerous clots or prevent growth of clots 30 The decision to begin therapeutic anticoagulation often involves the use of multiple bleeding risk predictable outcome tools as non invasive pre test stratifications due to the potential for bleeds while on blood thinning agents 15 Among these tools are HAS BLED 31 ATRIA 32 HEMORR2HAGES 33 and CHA2DS2 VASc 34 The risk of bleeding using the aforementioned risk assessment tools must then be weighed against thrombotic risk in order to formally determine patient s overall benefit in starting anticoagulation therapy 35 There is no evidence to indicate that adding anticoagulant therapy to standard treatment has a benefit for people with cerebral small vessel disease but not dementia and there is an increased risk of a person with this disease experiencing a bleed with this approach 36 Adverse effects EditThe most serious and common adverse side effect associated with anticoagulant are increased risk of bleeding both nonmajor and major bleeding events 37 Risk of bleeding is dependent on the class of anticoagulant agent used patient s age and pre existing health conditions Warfarin has an estimated incidence of bleeding of 15 20 per year and life threatening bleeding rate of 1 3 per year 38 Newer non vitamin K antagonist oral anticoagulants appear to have fewer life threatening bleeding events compared to warfarin 39 40 Additionally patients aged 80 years or more may be especially susceptible to bleeding complications with a rate of 13 bleeds per 100 person years 41 Bleeding risk is especially important to consider in patients with renal impairment and NOAC therapy due to the fact that all NOACs to some extent are excreted by the kidneys 42 Thus patients with renal impairment may be at higher risk of increased bleeding 43 In people with cancer a systematic review has found warfarin had no effect on death rate or the risk of blood clots 44 However it did increase the risk of major bleeding in 107 more people per 1000 population and minor bleeding in 167 more people in 1000 population 44 Apixaban had no effect on mortality recurrence of blood clots in blood vessels or major bleeding or minor bleeding however this finding comes only from one study 44 Nonhemorrhagic adverse events are less common than hemorrhagic adverse events but should still be monitored closely 39 Nonhemorrhagic adverse events of warfarin include skin necrosis limb gangrene and purple toe syndrome 45 Skin necrosis and limb gangrene are most commonly observed on the third to eighth day of therapy 46 47 The exact pathogenesis of skin necrosis and limb gangrene are not completely understood but are believed to be associated with warfarin s effect on inhibiting production of protein C and protein S 48 49 Purple toe syndrome typically develops three to eight weeks after initiation of warfarin therapy 50 51 Other adverse effects of warfarin are associated with depletion of vitamin K which can lead to inhibition of G1a proteins and growth arrest specific gene 6 which can lead to increased risk of arterial calcification and heart valve especially if too much Vitamin D is present 52 53 Warfarin s interference of G1a proteins have also been linked to abnormalities in fetal bone development in mothers who were treated with warfarin during pregnancy 54 55 Long term warfarin and heparin usage have also been linked to osteoporosis 56 45 Another potentially serious complication associated with heparin use is called heparin induced thrombocytopenia HIT 57 There are two distinct types of HIT 1 immune mediated and 2 non immune mediated 57 Immune mediated HIT most commonly arises five to ten days after exposure to heparin 58 Pathogenesis of immune mediated HIT is believed to be caused by heparin dependent immunoglobulin antibodies binding to platelet factor 4 heparin complexes on platelets leading to wide spread platelet activation 59 Interactions EditFoods and food supplements with blood thinning effects include nattokinase lumbrokinase beer bilberry celery cranberries fish oil garlic ginger ginkgo ginseng green tea horse chestnut licorice niacin onion papaya pomegranate red clover soybean St John s wort turmeric wheatgrass and willow bark 60 61 62 Many herbal supplements have blood thinning properties such as danshen and feverfew 63 Multivitamins that do not interact with clotting are available for patients on anticoagulants 64 However some foods and supplements encourage clotting 65 These include alfalfa avocado cat s claw coenzyme Q10 and dark leafy greens such as spinach 66 67 Excessive intake of aforementioned food should be avoided whilst taking anticoagulants or if coagulability is being monitored their intake should be kept approximately constant so that anticoagulant dosage can be maintained at a level high enough to counteract this effect without fluctuations in coagulability 68 69 Grapefruit interferes with some anticoagulant drugs increasing the amount of time it takes for them to be metabolized out of the body and so should be eaten with caution when on anticoagulant drugs 70 Anticoagulants are often used to treat acute deep vein thrombosis 71 72 People using anticoagulants to treat this condition should avoid using bed rest as a complementary treatment because there are clinical benefits to continuing to walk and remaining mobile while using anticoagulants in this way 73 Bed rest while using anticoagulants can harm patients in circumstances in which it is not medically necessary 73 Types EditA number of anticoagulants are available Warfarin other coumarins and heparins have long been used 74 Since the 2000s a number of agents have been introduced that are collectively referred to as direct oral anticoagulants DOACs previously named novel oral anticoagulants NOACs or non vitamin K antagonist oral anticoagulants 75 76 77 78 These agents include direct thrombin inhibitor dabigatran and factor Xa inhibitor rivaroxaban apixaban betrixaban and edoxaban and they have been shown to be as good or possibly better than the coumarins with less serious side effects 79 The newer anticoagulants NOACs DOACs are more expensive than the traditional ones and should be used with care in patients with kidney problems 80 Coumarins vitamin K antagonists Edit Further information Vitamin K antagonist These oral anticoagulants are derived from coumarin which is found in many plants A prominent member of this class warfarin Coumadin was found to be the anticoagulant most prescribed in a large multispecialty practice 81 It takes at least 48 to 72 hours for the anticoagulant effect to develop Where an immediate effect is required heparin is given concomitantly These anticoagulants are used to treat patients with deep vein thrombosis DVT pulmonary embolism PE and to prevent emboli in patients with atrial fibrillation AF and mechanical prosthetic heart valves Other examples are acenocoumarol phenprocoumon atromentin and phenindione citation needed The coumarins brodifacoum and difenacoum are used as mammalicides particularly as rodenticides but are not used medically citation needed Heparin and derivative substances Edit Heparin is the most widely used intravenous clinical anticoagulant worldwide 82 Heparin is a naturally occurring glycosaminoglycan There are three major categories of heparin unfractionated heparin UFH low molecular weight heparin LMWH and ultra low molecular weight heparin ULMWH 83 Unfractionated heparin is usually derived from pig intestines and bovine lungs 84 UFH binds to the enzyme inhibitor antithrombin III AT causing a conformational change that results in its activation 85 The activated AT then inactivates factor Xa thrombin and other coagulation factors 86 Heparin can be used in vivo by injection and also in vitro to prevent blood or plasma clotting in or on medical devices In venipuncture Vacutainer brand blood collecting tubes containing heparin usually have a green cap citation needed Low molecular weight heparin LMWH Edit Low molecular weight heparin LMWH is produced through a controlled depolymerization of unfractionated heparin 83 LMWH exhibits higher anti Xa anti IIa activity ratio and is useful as it does not require monitoring of the APTT coagulation parameter and has fewer side effects 83 Synthetic pentasaccharide inhibitors of factor Xa Edit Fondaparinux is a synthetic sugar composed of the five sugars pentasaccharide in heparin that bind to antithrombin It is a smaller molecule than low molecular weight heparin Idraparinux IdrabiotaparinuxDirect oral Edit The direct oral anticoagulants DOACs were introduced in and after 2008 87 There are five DOACs currently on the market dabigatran rivaroxaban apixaban edoxaban and betrixaban 88 They were also previously referred to as new novel and non vitamin K antagonist oral anticoagulants NOACs 89 Compared to warfarin DOACs have a rapid onset action and relatively short half lives hence they carry out their function more rapidly and effectively and allow for drugs to quickly reduce their anticoagulation effects 90 Routine monitoring and dose adjustments of DOACs is less important than for warfarin as they have better predictable anticoagulation activity 91 DOAC monitoring including laboratory monitoring and a complete medication review should generally be conducted before initiation of a DOAC 1 3 months after initiation and then every 6 12 months afterwards 92 Both DOACs and warfarin are equivalently effective but compared to warfarin DOACs have fewer drug interactions no known dietary interactions wider therapeutic index and have conventional dosing that does not require dose adjustments with constant monitoring 93 91 However there is presently no countermeasure for most DOACs unlike for warfarin nonetheless the short half lives of DOACs will allow their effects to swiftly recede A reversal agent for dabigatran idarucizumab is currently available and approved for use by the FDA Rates of adherence to DOACs are only modestly higher than adherence to warfarin among patients prescribed these drugs and thus adherence to anticoagulation is often poor despite hopes that DOACs would lead to higher adherence rates 94 DOACs are significantly more expensive than warfarin but the patients on DOACs may experience reduced lab costs as they do not need to monitor their INR 92 Direct factor Xa inhibitors Edit Main article Direct Xa inhibitor Drugs such as rivaroxaban apixaban and edoxaban work by inhibiting factor Xa directly unlike the heparins and fondaparinux which work via antithrombin activation Also included in this category are betrixaban from Portola Pharmaceuticals the discontinued darexaban YM150 from Astellas and more recently the discontinued letaxaban TAK 442 from Takeda and eribaxaban PD0348292 from Pfizer Betrixaban is significant as it was in 2018 the only oral factor Xa inhibitor approved by the FDA for use in acutely medically ill patients 95 Darexaban development was discontinued in September 2011 in a trial for prevention of recurrences of myocardial infarction in addition to dual antiplatelet therapy DAPT the drug did not demonstrate effectiveness and the risk of bleeding was increased by approximately 300 96 The development of letaxaban was discontinued for acute coronary syndrome in May 2011 following negative results from a Phase II study 97 Direct thrombin inhibitors Edit Main article Direct thrombin inhibitor Another type of anticoagulant is the direct thrombin inhibitor 98 Current members of this class include the bivalent drugs hirudin lepirudin and bivalirudin and the monovalent drugs argatroban and dabigatran An oral direct thrombin inhibitor ximelagatran Exanta was denied approval by the Food and Drug Administration FDA in September 2004 99 and was pulled from the market entirely in February 2006 after reports of severe liver damage and heart attacks 100 In November 2010 dabigatran etexilate was approved by the FDA to prevent thrombosis in atrial fibrillation Relevance to dental treatments Edit As in any invasive procedures patients on anticoagulation therapy have increased risk for bleeding and caution should be used along with local hemostatic methods to minimize bleeding risk during the operation as well as post operatively 101 However with regards to DOACs and invasive dental treatments there has not been enough clinical evidence and experience to prove any reliable adverse effects relevance or interaction between these two 102 Further clinical prospective studies on DOACs are required to investigate the bleeding risk and haemostasis associated to surgical dental procedures 103 Recommendations of modifications to usage dosage of DOACs prior to dental treatments are made based on the balance of the bleeding risk of each procedure and also the individual s bleeding own bleeding risks and renal functionality 104 With low bleeding risk dental procedures it is recommended that DOACs be continued by the patient so as to avoid any increase in the risk of a thromboembolic event 105 106 For dental procedures with a higher risk of bleeding complications i e complex extractions adjacent extractions leading to a large wound or more than three extractions the recommended practice is for the patient to miss or delay a dose of their DOAC before such procedures so as to minimize the effect on bleeding risk 107 Antithrombin protein therapeutics Edit The antithrombin protein itself is used as a protein therapeutic that can be purified from human plasma 108 or produced recombinantly for example Atryn which is produced in the milk of genetically modified goats 109 110 Antithrombin is approved by the FDA as an anticoagulant for the prevention of clots before during or after surgery or birthing in patients with hereditary antithrombin deficiency 108 110 Other Edit Many other anticoagulants exist for use in research and development diagnostics or as drug candidates Batroxobin a toxin from a snake venom clots platelet rich plasma without affecting platelet functions cleaves fibrinogen Hementin is an anticoagulant protease from the salivary glands of the giant Amazon leech Haementeria ghilianii Vitamin E Alcoholic beverageReversal agents EditWith the growing number of patients taking oral anticoagulation therapy studies into reversal agents are gaining increasing interest due to major bleeding events and need for urgent anticoagulant reversal therapy 111 Reversal agents for warfarin are more widely studied and established guidelines for reversal exist due to longer history of use of warfarin and the ability to get a more accurate measurement of anticoagulation effect in a patient via measuring the INR International Normalized Ratio 112 In general vitamin K is most commonly used in order to reverse the effect of warfarin in non urgent settings 113 However in urgent settings or in settings with extremely high INR INR gt 20 hemostatic reversal agents such as fresh frozen plasma FFP recombinant factor VIIa and prothrombin complex concentrate PCC have been utilized with proven efficacy 114 Specifically with warfarin four factor PCC 4F PCC has been shown to have superior safety and mortality benefits compared to FPP in lowering INR levels 111 Although specific antidotes and reversal agents for DOACs are not as widely studied idarucizumab for dabigatran and andexanet alfa for factor Xa inhibitor have been used in clinical settings with varying efficacy 89 Idarucizumab is a monoclonal antibody approved by the US FDA in 2015 that reverses effect of dabigatran by binding to both free and thrombin bound dabigatran 115 116 Andexanet alfa is a recombinant modified human factor Xa decoy that reverses the effect of factor Xa inhibitors by binding at the active sites of factor Xa inhibitor and making it catalytically inactive 117 118 Andexanet alfa was approved by US FDA in 2018 119 Another drug called ciraparantag a potential reversal agent for direct factor Xa inhibitors is still under investigation 120 Additionally hemostatic reversal agents have also been used with varying efficacy to reverse effects of DOACs 121 122 Coagulation inhibitor measurement EditA Bethesda unit BU is a measure of blood coagulation inhibitor activity It is the amount of inhibitor that will inactivate half of a coagulant during the incubation period 123 It is the standard measure used in the United States and is so named because it was adopted as a standard at a conference in Bethesda Maryland 124 Laboratory use EditLaboratory instruments blood transfusion bags and medical and surgical equipment will get clogged up and become non operational if blood is allowed to clot In addition test tubes used for laboratory blood tests will have chemicals added to stop blood clotting Apart from heparin most of these chemicals work by binding calcium ions preventing the coagulation proteins from using them Ethylenediaminetetraacetic acid EDTA strongly and irreversibly chelates binds calcium ions preventing blood from clotting Citrate is in liquid form in the tube and is used for coagulation tests as well as in blood transfusion bags It binds the calcium but not as strongly as EDTA Correct proportion of this anticoagulant to blood is crucial because of the dilution and it can be reversed with the addition of calcium Formulations include plain sodium citrate acid citrate dextrose and more Oxalate has a mechanism similar to that of citrate It is the anticoagulant used in fluoride oxalate tubes used to determine glucose and lactate levels The fluoride serves to inhibit glycolysis which can throw off blood sugar measurements In fact citrate fluoride EDTA tubes work better in this regard 125 Dental considerations for long term users EditDental practitioners play an important role in the early detection of anticoagulant overdose through oral manifestations as the patient does not show any symptoms Dental treatment of patients taking anticoagulant or antiplatelet medication raises safety concerns in terms of the potential risk of bleeding complications following invasive dental procedures Therefore there comes the need for certain guidelines for the dental care of patients taking these drugs Detecting overdoseAn overdose in anticoagulants usually occurs in people who have heart problems and need to take anticoagulants in a long term in order to reduce the risk of stroke from their high blood pressure An International Normalised Ratio INR test would be recommended to confirm the overdose so that the dosage can be adjusted to an acceptable standard The INR test measures the time taken for a clot to form in a blood sample relative to a standard An INR value of 1 indicates a level of coagulation equivalent to that of an average patient not taking warfarin and values greater than 1 indicate a longer clotting time and thus a longer bleeding time Assessing bleeding riskThere are 2 main parts to the assessment of bleeding risk Assessment of the likely risk of bleeding associated with the required dental procedure Assessment of the patient s individual level bleeding riskManaging bleeding riskA patient who is on anticoagulants or antiplatelet medications may undergo dental treatments which are unlikely to cause bleeding such as local anaesthesia injection basic gum charting removal of plaque calculus and stain above the gum level direct or indirect fillings which are above the gingiva root canal treatment taking impression for denture or crown and fitting or adjustment of orthodontic appliances For all these procedures it is recommended for the dentist to treat the patient following the normal standard procedure and taking care to avoid any bleeding For a patient who needs to undergo dental treatments which is more likely to cause bleeding such as simple tooth extractions 1 3 teeth with small wound size drainage of swelling inside the mouth periodontal charting root planing direct or indirect filling which extends below the gingiva complex filling flap raising procedure gingival recontouring and biopsies the dentist needs to take extra precautions apart from the standard procedure The recommendations 126 are as follows if the patient has another medical condition or taking other medication that may increase bleeding risk consult the patient s general medical practitioner or specialist if the patient is on a short course anticoagulant or antiplatelet therapy delay non urgent invasive procedure until the medication has been discontinued plan treatment for early in the day and week where possible to allow time for the management of prolonged bleeding or re bleeding if it occurs perform the procedure as atraumatically as possible use appropriate local measures and only discharge patient once haemostasis has been confirmed if travel time to emergency care is a concern place particular emphasis at the time of the initial treatment on the use of measures to avoid complications advise the patient to take paracetamol unless contraindicated for pain relief rather than NSAIDs such as aspirin ibuprofen diclofenac or naproxen provide the patient with written post treatment advice and emergency contact details follow the specific recommendations and advice given for the management of patients taking the different anticoagulants or antiplatelet drugsThere is general agreement that in most cases treatment regimens with older anticoagulants e g warfarin and antiplatelet agents e g clopidogrel ticlopidine prasugrel ticagrelor and or aspirin should not be altered before dental procedures The risks of stopping or reducing these medication regimens i e thromboembolism stroke myocardial infarction far outweigh the consequences of prolonged bleeding which can be controlled with local measures In patients with other existing medical conditions that can increase the risk of prolonged bleeding after dental treatment or who are receiving other therapy that can increase bleeding risk dental practitioners may wish to consult the patient s physician to determine whether care can safely be delivered in a primary care office Any suggested modification to the medication regimen prior to dental surgery should be done in consultation and on advice of the patient s physician On the basis of limited evidence general consensus appears to be that in most patients who are receiving the newer direct acting oral anticoagulants i e dabigatran rivaroxaban apixaban or edoxaban and undergoing dental treatment in conjunction with usual local measures to control bleeding no change to the anticoagulant regimen is required In patients deemed to be at higher risk of bleeding e g patients with other medical conditions or undergoing more extensive procedures associated with higher bleeding risk consideration may be given in consultation with and on advice of the patient s physician to postponing the timing of the daily dose of the anticoagulant until after the procedure timing the dental intervention as late as possible after last dose of anticoagulant or temporarily interrupting drug therapy for 24 to 48 hours Research EditA substantial number of compounds is being investigated for use as anticoagulants The most promising ones act on the contact activation system factor XIIa and factor XIa it is anticipated that this may provide agents that prevent thrombosis without conferring a risk of bleeding 127 As of November 2021 update the direct factor XIa inhibitor milvexian is in Phase II clinical trials for the prevention of embolism after surgery 128 See also EditHypercoagulability in pregnancy CHADS2 scoreReferences Edit Overview Anticoagulant medicines Health A to Z NHS 26 July 2021 Retrieved 2 June 2023 Azzopardi EA Whitaker IS Rozen WM Naderi N Kon M October 2011 Chemical and mechanical alternatives to leech therapy a systematic review and critical appraisal Journal of Reconstructive Microsurgery Thieme Medical Publishers 27 8 481 6 doi 10 1055 s 0031 1284233 eISSN 0743 684X PMID 21780018 S2CID 260192613 Ha YR Oh SR Seo ES Kim BH Lee DK Lee SJ April 2014 Detection of heparin in the salivary gland and midgut of Aedes togoi The Korean Journal of Parasitology The Korean Society for Parasitology and Tropical Medicine 52 2 183 8 doi 10 3347 kjp 2014 52 2 183 eISSN 2982 6799 PMC 4028456 PMID 24850962 Yoo HH Nunes Nogueira VS Boas PJ 7 February 2020 Anticoagulant treatment for subsegmental pulmonary embolism The Cochrane Database of Systematic Reviews 2020 2 CD010222 doi 10 1002 14651858 CD010222 pub4 ISSN 1469 493X PMC 7004894 PMID 32030721 Cohen AT Hamilton M Mitchell SA Phatak H Liu X Bird A et al 2015 12 30 ten Cate H ed Comparison of the Novel Oral Anticoagulants Apixaban Dabigatran Edoxaban and Rivaroxaban in the Initial and Long Term Treatment and Prevention of Venous Thromboembolism Systematic Review and Network Meta Analysis PLOS One 10 12 e0144856 Bibcode 2015PLoSO 1044856C doi 10 1371 journal pone 0144856 PMC 4696796 PMID 26716830 Almutairi AR Zhou L Gellad WF Lee JK Slack MK Martin JR Lo Ciganic WH July 2017 Effectiveness and Safety of Non vitamin K Antagonist Oral Anticoagulants for Atrial Fibrillation and Venous Thromboembolism A Systematic Review and Meta analyses Clinical Therapeutics 39 7 1456 1478 e36 doi 10 1016 j clinthera 2017 05 358 PMID 28668628 Banfi G Salvagno GL Lippi G 2007 01 01 The role of ethylenediamine tetraacetic acid EDTA as in vitro anticoagulant for diagnostic purposes Clinical Chemistry and Laboratory Medicine 45 5 565 76 doi 10 1515 CCLM 2007 110 PMID 17484616 S2CID 23824484 Dobrovolskaia MA McNeil SE May 2015 Safe anticoagulation when heart and lungs are on vacation Annals of Translational Medicine 3 Suppl 1 S11 doi 10 3978 j issn 2305 5839 2015 02 03 PMC 4437941 PMID 26046056 Pirmohamed M November 2006 Warfarin almost 60 years old and still causing problems British Journal of Clinical Pharmacology 62 5 509 11 doi 10 1111 j 1365 2125 2006 02806 x PMC 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Jones Ian May 2014 The shift from fluoride oxalate to acid citrate fluoride blood collection tubes for glucose testing The impact upon patient results Clinical Biochemistry 47 7 8 683 685 doi 10 1016 j clinbiochem 2014 01 011 PMID 24463230 Management of Dental Patients Taking Anticoagulants or Antiplatelet Drugs New guidance from SDCEP Scottish Dental 15 September 2015 Retrieved 2020 02 20 Fredenburgh James C Weitz Jeffrey I 12 October 2020 New Anticoagulants Moving Beyond the Direct Oral Anticoagulants Journal of Thrombosis and Haemostasis 19 1 20 29 doi 10 1111 jth 15126 PMID 33047462 S2CID 222320654 Weitz JI Strony J Ageno W Gailani D Hylek EM Lassen MR et al November 2021 Milvexian for the Prevention of Venous Thromboembolism The New England Journal of Medicine 385 23 2161 2172 doi 10 1056 NEJMoa2113194 PMC 9540352 PMID 34780683 S2CID 244132392 External links EditStaying Active and Healthy with Blood Thinners by the Agency for Healthcare Research and Quality New oral anticoagulants for stroke prevention in atrial fibrillation Retrieved from https en wikipedia org w index php title Anticoagulant amp oldid 1177804084, wikipedia, wiki, book, books, library,

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