Thrombosis may be due to:

• Endothelial injury.
• Altered blood flow E.g. abnormal stasis.
• Hypercoagulability.

Often associated with other disease processes for example Disseminated intravascular coagulation.

Commonly see posterior paralysis of cats with cardiomyopathy.

Spontaneous venous thrombosis is rare. Seen in cattle with traumatic reticulo-peritonitis in the caudal vena cava.

Description

Thrombosis is a localized or generalized intravascular clot formation. Thrombi form as the result of trauma or pathological processes affecting the blood vessel endothelium or disturbances to blood flow and/or blood composition. Some diseases such as infective endocarditis and heart worm increase the risk of thrombi formation.

Diagnosis

History & Clinical Signs

• Signs depend on the area affected and the size of the blocked vessel.

• Poor perfusion below affected area.

• Malfunction and necrosis of affected organs

Laboratory Findings

Abnormalities associated with lack of blood perfusion and/or pathological conditions.

Ultrasonography

• Blood stasis

• Visualization of a thrombus

Angiography

• May show lack of opacity in affected region

Treatment

-Treat underlying problem

-IV Fluids

-Anticoagulant (Heparin for short term treatment, Aspirin for long term treatment)

Prognosis

-Depends on underlying condition

From general pathology

Introduction

• A thrombus is a solid blood clot that forms within the vessels or heart during life.
  • The process of thrombus formation is known as thrombosis.
  • Thrombii may occur anywhere within the cardiovascular system.

Thrombosis

• The process usually begins with platelets becoming sticky.
  • Adhere to each other and to the endothelium.
• This increased "stickiness" is induced by contact with:
  • Collagen
  • Basement membrane
  • Damaged endothelial cells
  • Bacteria

Appearance of a Thrombus

• A thrombus is a layered mass which is attached to the vessel wall.
• The composition of a thrombus consists of red blood cells, [[Neutrophils - WikiBlood|neutrophils]] and platelets bound together by fibrin.
• Thrombi take different appareance depending on whether they are arterial or venous.
  • Arterial thrombi
    • Tend to be pale and have a tail in the direction of blood flow.
      • The high rate of blood flow sweeps red cells away - the thrombus is composed of mainly white cells, platelets and fibrin which are left behind.
  • Venous thrombi
    • Tend to be a darker red.
      • The slow blood flow allows the clot to form quicker.
    • Loosely arranged.
    • Contains many red blood cells.

Causes of Thrombosis

• Thrombosis is caused by any condition that allows platelets to adhere to the endothelial wall.

Damage to the Vessel Wall

• When there is damage of the overlying endothelium, collagen is exposed and platelets will attach to this.
  • The blood clotting process will occur, giving formation of an intraluminal blood clot.
    • The process of formation occurs in phases giving a cross section of the clot a laminated appearance.
• Vessel walls may be damaged in several ways:
  • Trauma
  • Localisation by colonies of bacteria
  • Viral infection of endothelial cells
  • Migration of parasites.
• Repeated puncture of the jugular vein is a common cause of serious or fatal thrombosis.

Changes in Normal Blood Flow

Stasis

• Stasis prevents coaglation factors being cleared by the liver and reticuloendothelial system.
• Coagulation factors build up, leading to clot formation.
• When stasis occurs in a vein, the thrombus forms behind the valve cusps.
  • Quickly enlarges to fill the lumen.

Turbulence

• Turbulence disrupts the laminar flow.
  • Platelets are brought into contact with the endothelial wall and may even damage the endothelium.
• Thrombi tend to form at arterial branches and venous junctions where there are eddy currents and local stasis.

Changes in Blood Composition

• An increase in the number and adhesiveness of platelets, or in plasma fibrin and clotting factors results in a hypercoagulateable state
• There may also be a decrease in the activity of the fibrinolyltic system.
• This may be caused by surgical or traumatic shock, or inflammation with toxaemia.

Types of Thrombosis

Arterial Thrombosis

• Although this is common in man, it is uncommon in domestic animals.
  • A major problem in man associated with atherosclerotic vascular disease.
• When they do occur in animals, arterial thrombi are usually small lesions.
  • However, these may be sited strategically, thereby causing problems.

Arteriosclerosis

• Seen in aged dogs and horses.
• Affect the coronary artery and other major arteries.

Verminous arteritis

• May occur with or without aneurysm.
• Seen in horses as a result of Strongylus vulgaris infestation.
  • Affects the root of cranial mesenteric artery, renal artery and aorta.
  • Results from larval migration in vessel walls.

Iliac thrombosis

• Seen in cats in the UK.
• Often referred to as "saddle embolus".
• Associated with cardio-myopathy and atrial thrombosis.

Cardiac Thrombosis

• Cardiac thrombosis is usually valvular, but can occasionally be mural.

Farm Species

• In farm animals, and rarely in the horse, infective/ inflammatory thrombosis occurs.
  • Known as endocarditis.

Dogs and Horse

• Cardiac thrombosis is generally of degenerative/ non-infectious cause.
  • Endocarditis may occur, though uncommonly.
• There are important effects of cardiac thrombosis.
  1. Distortion of valve cusps leads to mechanical effects.
     • Ineffective closeure gives leakage (incompetence).
     • Distortion and enlargement of the valves by the thrombus mas fuves narrowing of the valve outflow (stenosis).
     • These effects lead to progressive inefficiency of cardiac pumping.
       • Causes general venous congestion, oedema and circulatory failure.
  2. Emboli are disseminated from the thrombus mass.
     • If the lesion is on the left side of the heart, emboli are disseminated systemically.
       • Become trapped in the capilarry beds, e.g. of the kidney and spleen.
         • Blockage leads to local ischaemic necrosis.
     • If the lesion is on the right side of the heart, there is pulmonary dissemination.

Atrial Thrombosis

• Uncommon.
  • Seen rarely in cats and dogs.
• Results from stasis in atrial appendages.

Venous Thrombosis

• Venous thrombosis is a fairly common type of thrombus in the veterinary species.
  • This is because:
    1. Veins are relatively thin-walled.
       • Are therefore more susceptible to distortion, inflammatory damage and iatrogenic vene puncture damage.
    2. Veins have relatively slower blood flow rates.
       • Cell aggregates tend to persist more readily.
• Most venous thrombosis in domestic animals results from :
  • Extension of inflammatory reactions.
  • Erosion/disruption caused by malignant tumours.
  • Pressure from adjacent space-occupying masses.
  • Vene puncture damage.

Capillary Thrombosis

• These are microthrombi.
  • Only appreciable histologically.
• Formation may be:
  • Localised
    • Associated with acute local inflammation.
    • Not very significant unless strategically sited.
  • Generalised
    • May be seen in terminal disease as a reflection of vascular failure.
    • Often associated with shock syndromes as part of disseminated intravascular coagulation.
    • Clinically very significant.

Evolution of a Thrombus

• If the animal survives the immediate effects of a thrombus, the thrombus may evolve in one of the following ways:

1. The thrombus may gradually enlarge and eventually cause total obstruction of a vessel.
2. The thrombus may be completely removed by fibrinolytic activity.
   • Fibrinolysis is a very active process - clots are usually removed within a few days of formation.
   • Blood flow is crucial to the process of fibrinolysis.
     • An occlusive thrombus may prevent the necessary enzymes from reaching the clot.
   • To overcome occlusion, contraction of fresh clots under the influence of thrombasthenin (released by platelets) forms a slit-like channel beside the thrombus.
     • The blood that then flows past may completely dissolve the clot.
3. Organisation
   • A thrombus acts as a foreign body, causing an inflammatory response in the underlying blood vessel or heart wall.
   • The external surface of the thrombus quickly becomes covered by endothelium.
     • Is excluded from the clotting mechanism.
   • Neutrophils invade the mass and may digest the centre.
     • Occasionally, subsequent invasion by bacteria may lead to to purulent inflammation.
     • Normally, fibroblasts and capillary buds follow the neutrophils into the thrombus and a fibrous vascularised connective tissue forms.
       • Capillaries channels anastomose to produce vessels that traverse the thrombus and re-establish blood flow.
         • This is known as canalisation of a thrombus.
       • Fibrous tissue matures and contracts, eventually causing the thrombus to become incorporated into the vessel wall as a fibrous lump.
4. A piece of the thrombus may break off and form an embolus.