Pulmonary embolism

Question 1

Fibrinolytic drugs

Common indications

Answer 1

1. Acute ischaemic stroke- alteplase increases the chance of living independently if it is given within 4.5hrs of the onset of stroke
2. Acute ST-elevation MI- alteplase and streptokinase can reduce mortality when they are given within 12hrs of the onset of symptoms in combination with antiplatelet agents and anti-coagulants. However, primary PCI (where available) has largely superseded fibrinolytic in the context
3. For massive pulmonary embolism with haemodynamic instability fibrinolytic drugs reduce clot size and pulmonary artery pressures, but there is no clear evidence that they improve mortality

Question 2

Fibrinolytic drugs

MOA

Answer 2

• Fibrinolytic drugs, also known as thrombolytic drugs, catalyse the conversion of plasminogen to plasmin, which acts to dissolve fibrinous clots and re-canalise occluded vessels
• This allows reperfusion of affected tissue, preventing or limiting tissue infarction and cell death and improving patient outcomes

Question 3

Fibrinolytic drugs

Adverse effects

Answer 3

• Common adverse effects include nausea and vomiting, bruising around the injection site and hypotension.
• Adverse effects that require treatment to be stopped include serious bleeding, allergic reaction, cardiogenic shock and cardiac arrest.
• Serious bleeding may require treatment with coagulation factors and antifibrinolytic drugs, e.g. tranexamic acid, but this is usually avoidable as fibrinolytic agents have a very short half-life.
• Reperfusion of infarcted brain or heart tissue can lead to cerebral oedema and arrhythmias, respectively.

Question 4

Fibrinolytic drugs

Warnings

Answer 4

• There are many contraindications to thrombolysis, which are mostly factors that predispose to bleeding including recent haemorrhage; recent trauma or surgery; bleeding disorders; severe hypertension; and peptic ulcers.
• In acute stroke, intracranial haemorrhage must be excluded with a CT scan before treatment.
• Previous streptokinase treatment is a contraindication to repeat dosing (although other fibrinolytic can be used), as the development of anti-streptokinase antibodies can block its effect.

Question 5

Fibrinolytic drugs

Interactions

Answer 5

• The risk of haemorrhage is increased in patients taking anticoagulants and platelet agents
• ACEI appear to increase the risk of anaphylactoid reactions

Question 6

Heparins and fondaparinux

Common indications

Answer 6

1. VTE - LMWH is the first choice agent for pharmacological VTE prophylaxis in hospital inpatients, and for initial treatment of DVT and PE
2. ACS- LMWH and fondaparinux are part of first-line therapy to improve revascularization and prevent intracoronary thrombus progression

Question 7

Heparins and fondaparinux

MOA

Answer 7

• Thrombin and Factor Xa are components of final common coagulation pathway that leads to the formation of a fibrin clot
• By inhibiting their function, heparins and fondaparinux prevent the formation and propagation of blood clots
• Unfractionated heparin (UFH) activates antithrombin that, in turn, inactivates clotting factor Xa and thrombin
• LMWH have similar MOA but preferentially inhibit factor Xa
• Fondaparinux is similar to heparin but only inhibits Xa

Question 8

Heparins and fondaparinux

Adverse effects

Answer 8

• The main adverse effect of heparins and fondaparinux is bleeding. This risk may be lower with fondaparinux than with LMWH or UFH.
• As with many injectables, these drugs may cause injection site reactions.
• Rarely, heparins may cause a dangerous syndrome characterised by low platelet count and thrombosis (heparin-induced thrombocytopenia).
• This immune reaction is less likely with LMWH and fondaparinux than UFH.

Question 9

Heparin and fondaparinux

Warnings

Answer 9

• Anticoagulants should be used with caution in patients at increased risk of bleeding, including those with clotting disorders, severe uncontrolled hypertension, or recent surgery or trauma.
• Heparins should be avoided around the time of invasive procedures, particularly lumbar puncture and spinal anaesthesia.
• In patients with renal impairment, LMWH and fondaparinux may accumulate and should be used at a lower dose, or unfractionated heparin used instead.

Question 10

Heparin and fondaparinux

Interactions

Answer 10

• Combining antithrombotic drugs increases the risk of bleeding.
• This should usually be avoided unless there is a special reason for combined therapy, such as in the use of LMWH while initiating warfarin, or the use of antiplatelet drugs (e.g. aspirin, clopidogrel) with fondaparinux/LMWH in ACS.
• In major bleeding associated with heparin therapy, protamine can be given to reverse anticoagulation.
• This is effective for UFH but much less so for LMWH. It is ineffective against fondaparinux.

Question 11

Warfarin

Common indications

Answer 11

1. DVT and PE
2. Embolic complications in AF
3. Embolic complications after heart valve replacement

Question 12

Warfarin

MOA

Answer 12

• Warfarin inhibits hepatic production of vitamin K dependent coagulation factors and co-factors
• Vitamin K must be in its reduced form for the synthesis of coagulation factors
• It is then oxidised during the synthetic process
• An enzyme called it K epoxide reductase reactivates oxidised vit K
• Warfarin inhibits vit K epoxide reductase, preventing reactivation of it K and coagulation factor synthesis

Question 13

Warfarin

Adverse effects

Answer 13

• The main effect of warfarin is bleeding
• A slight excess of warfarin increases the risk of bleeding from existing abnormalities such as peptic ulcers or following minor trauma
• A large excess of warfarin can trigger spontaneous haemorrhage such as epistaxis (Nose bleed) or retroperitoneal haemorrhage

Question 14

Warfarin

Adverse effects

Answer 14

• As there is a fine line between thrombosis and haemorrhage in patients taking warfarin, potential risks and benefits must be carefully balanced.
• Warfarin is contraindicated in patients at immediate risk of haemorrhage, including after trauma and in patients requiring surgery.
• Patients with liver disease who are less able to metabolise the drug are at risk of over-anticoagulation/bleeding. In pregnancy, warfarin should not be used in the first trimester as it causes fetal malformations, including cardiac and cranial abnormalities.
• It should not be used towards term, when it may cause maternal haemorrhage at delivery.

Question 15

Warfarin

Interactions

Answer 15

• The plasma concentration of warfarin required to prevent clotting is very close to the concentration that causes bleeding (low therapeutic index).
• Small changes in hepatic warfarin metabolism by cytochrome P450 enzymes can cause clinically significant changes in anticoagulation.
• Cytochrome P450 inhibitors (e.g. fluconazole, macrolides, protease inhibitors) decrease warfarin metabolism and increase bleeding risk.
• Cytochrome P450 inducers (e.g. phenytoin, carbamazepine, rifampicin) increase warfarin metabolism and risk of clots.
• Many antibiotics can increase anticoagulation in patients on warfarin by killing gut flora which synthesises vitamin K.

Question 16

Warfarin

Communication and Monitoring

Answer 16

• Anti-coagulation book (Yellow Book)
• Need regular INR test usually between 2-3