Difference between revisions of "Endocarditis"
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==Introduction== | ==Introduction== | ||
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*Pigs: [[Erysipelothrix_rhusiopathiae|''Erysipelothrix spp.'']] | *Pigs: [[Erysipelothrix_rhusiopathiae|''Erysipelothrix spp.'']] | ||
*Sheep: [[:Category:Streptococcus species|''Streptococci'']] | *Sheep: [[:Category:Streptococcus species|''Streptococci'']] | ||
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==Pathophysiology== | ==Pathophysiology== | ||
===Vegetative Endocarditis=== | ===Vegetative Endocarditis=== | ||
[[Image:vegetative endocarditis.jpg|right|thumb|200px|<small><center>'''Vegetative endocarditis (dog)'''. Courtesy of T. Scase</center></small>]] | [[Image:vegetative endocarditis.jpg|right|thumb|200px|<small><center>'''Vegetative endocarditis (dog)'''. Courtesy of T. Scase</center></small>]] | ||
− | It is predisposed by valvular damage as thrombi occur on the surface of the valves exposed to blood flow | + | It is predisposed by valvular damage as thrombi occur on the surface of the valves exposed to blood flow. Bacteremia is essential for the development of endocarditis. Once bacteria colonize the valvular endocardium, vegetative lesions composed of platelets and fibrin are formed on the valves. Progression to rupture of the ''chordae tendinae'' is possible, along with spread of the infection to the adjacent mural endocardium. Valves may become stenotic, incompetent or both. Death usually results from either embolisation of the vegetative material or congestive heart failure due to significant valvular damage. |
===Ulcerative Endocarditis=== | ===Ulcerative Endocarditis=== | ||
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==Signalment== | ==Signalment== | ||
− | Endocarditis is rare in dogs but males and large breeds (e.g. German Shepherds) are most affected | + | Endocarditis is rare in dogs but males and large breeds (e.g. German Shepherds) are most affected. It is very rare in cats. |
The disease mainly affects adult cattle and young pigs. In horses, males are more commonly affected than females. | The disease mainly affects adult cattle and young pigs. In horses, males are more commonly affected than females. | ||
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==Diagnosis== | ==Diagnosis== | ||
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===Laboratory findings=== | ===Laboratory findings=== | ||
'''Blood profiles''': Not all cases will have altered blood changes. Possible changes include: | '''Blood profiles''': Not all cases will have altered blood changes. Possible changes include: | ||
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Radiography is often unremarkable. There may be evidence of cardiomegaly or congestive heart failure if valvular damage is chronic or severe. Evidence of a focus of infection such as discospondylitis may be visible. | Radiography is often unremarkable. There may be evidence of cardiomegaly or congestive heart failure if valvular damage is chronic or severe. Evidence of a focus of infection such as discospondylitis may be visible. | ||
− | === | + | ===Electrogcardiogram (ECG)=== |
ECG may be normal. Arrhythmias detectected are often ventricular in origin (e.g. ventricular premature complexes) and represent extension of the inflammatory focus to involve the myocardium. 3rd degree heart block may be present if the AV node is affected. | ECG may be normal. Arrhythmias detectected are often ventricular in origin (e.g. ventricular premature complexes) and represent extension of the inflammatory focus to involve the myocardium. 3rd degree heart block may be present if the AV node is affected. | ||
==Treatment== | ==Treatment== | ||
Antibiotic treatment with either a broad spectrum antibiotic or an appropriate antibiotic based on culture and sensitivity results. Antibiotics should be administered intravenously for the first 5 days of therapy followed by a prolonged course (>4 weeks) of oral medication. | Antibiotic treatment with either a broad spectrum antibiotic or an appropriate antibiotic based on culture and sensitivity results. Antibiotics should be administered intravenously for the first 5 days of therapy followed by a prolonged course (>4 weeks) of oral medication. | ||
− | <br>Common Protocols use [[Penicillins|Ampicillin]] in combination with a [[Fluoroquinolones|Fluoroquinolone]] such as Enrofloxacin | + | <br>Common Protocols use [[Penicillins|Ampicillin]] in combination with a [[Fluoroquinolones|Fluoroquinolone]] such as Enrofloxacin. |
− | <br>Secondary problems such as septic shock, D.I.C., congestive heart failure and embolisation need to be managed | + | <br>Secondary problems such as septic shock, D.I.C., congestive heart failure and embolisation need to be managed. |
==Prognosis== | ==Prognosis== | ||
Long term prognosis is guarded to poor. Possible complications include septic shock, disseminated intravascular coagulation, congestive heart failure and embolisation to other organs. | Long term prognosis is guarded to poor. Possible complications include septic shock, disseminated intravascular coagulation, congestive heart failure and embolisation to other organs. | ||
− | + | ==Literature Search== | |
− | | | + | [[File:CABI logo.jpg|left|90px]] |
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+ | Use these links to find recent scientific publications via CAB Abstracts (log in required unless accessing from a subscribing organisation). | ||
+ | <br><br><br> | ||
+ | [http://www.cabdirect.org/search.html?q=title:(%22endocarditis%22)&fq=sc:%22ve%22 Endocarditis publications] | ||
[http://www.cabdirect.org/search.html?q=title:(%22endocarditis%22)+AND+od:(cattle)&fq=sc:%22ve%22 Endocarditis in cattle publications] | [http://www.cabdirect.org/search.html?q=title:(%22endocarditis%22)+AND+od:(cattle)&fq=sc:%22ve%22 Endocarditis in cattle publications] | ||
[http://www.cabdirect.org/search.html?q=title:(%22endocarditis%22)+NOT+od:(cattle)&fq=sc:%22ve%22 Endocarditis in other veterinary species publications] | [http://www.cabdirect.org/search.html?q=title:(%22endocarditis%22)+NOT+od:(cattle)&fq=sc:%22ve%22 Endocarditis in other veterinary species publications] | ||
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==References== | ==References== | ||
− | Merck & Co (2008) '''The Merck Veterinary Manual (Eighth Edition)''' ''Merial'' | + | * Merck & Co (2008) '''The Merck Veterinary Manual (Eighth Edition)''' ''Merial'' |
+ | * Nelson, R.W. and Couto, C.G. (2009) '''Small Animal Internal Medicine (Fourth Edition)''' ''Mosby Elsevier''. | ||
+ | * Tilley,L.P., Smith, F.W.K, Oyama, M., Sleeper, M. (2007) '''Manual of Canine and Feline Cardiology''' ''Saunders''. | ||
+ | * Elwood, C.M., Cobb, M.A., Stepien, R.L., (1993) Clinical and echocardiographic findings in 10 dogs with vegetative bacteria endcarditis. '''Journal of small animal practice'''. 34, pp420-427. | ||
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− | [[Category:Endocardial_Pathology]][[Category:Cardiovascular_System_-_Inflammatory_Pathology]][[Category: | + | [[Category:Endocardial_Pathology]][[Category:Cardiovascular_System_-_Inflammatory_Pathology]][[Category:Cattle]][[Category:Pig]][[Category:Sheep]] |
− | [[Category:Expert_Review | + | [[Category:Expert_Review]][[Category:Cardiac Diseases - Dog]][[Category:Cardiac Diseases - Horse]] |
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Revision as of 13:45, 7 January 2011
This article has been peer reviewed but is awaiting expert review. If you would like to help with this, please see more information about expert reviewing. |
Introduction
Endocarditis is defined as an inflammation of the cardiac endocardium. The infection can affect the valves (valvular endocarditis) and then spread to the heart wall (mural endocarditis). It is usually a result of a bacteraemia or pyaemia, spread from adjacent myocardium is rare. It occurs in all species and is more common in cattle, pigs and sheep than dogs and cats.
Organisms commonly isolated include:
- Cattle: Actinomyces pyogenes
- Pigs: Erysipelothrix spp.
- Sheep: Streptococci
Pathophysiology
Vegetative Endocarditis
It is predisposed by valvular damage as thrombi occur on the surface of the valves exposed to blood flow. Bacteremia is essential for the development of endocarditis. Once bacteria colonize the valvular endocardium, vegetative lesions composed of platelets and fibrin are formed on the valves. Progression to rupture of the chordae tendinae is possible, along with spread of the infection to the adjacent mural endocardium. Valves may become stenotic, incompetent or both. Death usually results from either embolisation of the vegetative material or congestive heart failure due to significant valvular damage.
Ulcerative Endocarditis
Commonly seen along with renal failure in dogs. Uraemia irritates and damages the endocarium, particularly in the left atrium. Oedema is seen in the subendocardial tissue with deposition of glycosaminoglycans. This may progress to a necrotising endocarditis and, in extreme cases, left atrial rupture. If renal sufficiency is re-established then healing of the endocardial lesion is possible.
Species differences
Cattle: the disease predominantly affects the tricuspid valve, perhaps due to bacteria arising in the GI tract and liver. Common underlying causes include liver abscesses, traumatic reticulitis, metritis, mastitis, navel abscesses and 'joint ill'. Congestive right sided failure is manifested as ascites (including bottle jaw) and embolisation to the lungs. Anaemia is often present as the red blood cells are damaged as they pass through the vegetation.
Horse: Lesions occur mainly on the mitral valve. The site of sepsis is often not identified but may be a sequale to septic jugular thrombophlembitis.
Pig and Dog: Lesions occur particularly on the mitral valve (71% of cases in dogs), perhaps due to the higher pressure blood flow on the left side of the heart leading to more valvular damage. Left sided heart failure and pulmonary oedema are seen clinically, as are emboli in various organs, particularly the kidney.
Signalment
Endocarditis is rare in dogs but males and large breeds (e.g. German Shepherds) are most affected. It is very rare in cats. The disease mainly affects adult cattle and young pigs. In horses, males are more commonly affected than females.
History & Clinical Signs
Clinical signs are often vague and rarely referable to congestive heart failure. The following clinical signs are seen related to sepsis:
- Pyrexia
- Lameness
- Neck Pain
- Lethargy/Anorexia
- Weight loss
- Epistaxis
Signs of embolisation to other organs may also be seen and those of congestive heart failure (dyspnoea, poor pulses, pale mucous membranes, tacchycardia, pulmonary crackles)
Physical examination
A variable murmur depending upon the valve affected. It may be noted that murmur has recently arisen or changed. Other clinical examination findings include joint effusions, lymphadenopathy, pyrexia and in advanced cases signs associated with disseminated intravascular coagulopathy (D.I.C) such as bleeding diathesis and petechiation.
Diagnosis
Laboratory findings
Blood profiles: Not all cases will have altered blood changes. Possible changes include:
- Haematology - Neutrophilia, left shift, monocytosis, thrombocytopaenia and prolonged clotting times if developing D.I.C.
- Biochemistry - Hypoalbuminaemia and hypoglycaemia.
Urinalysis : may have proteinuria, casts, pyuria. A urinary tract infection may be present with the same organism as is responsible for the endocarditis.
Blood cultures : Requires 3-4 sterile samples collected from the jugular vein at least 1 hour apart over a 24 hour period. Negative cultures do not rule out the possibility of bacterial endocarditis.
Echocardiography
Structural abnormalities and vegetations may be visible on the valves although it is difficult to differentiate from endocardiosis.
Radiography
Radiography is often unremarkable. There may be evidence of cardiomegaly or congestive heart failure if valvular damage is chronic or severe. Evidence of a focus of infection such as discospondylitis may be visible.
Electrogcardiogram (ECG)
ECG may be normal. Arrhythmias detectected are often ventricular in origin (e.g. ventricular premature complexes) and represent extension of the inflammatory focus to involve the myocardium. 3rd degree heart block may be present if the AV node is affected.
Treatment
Antibiotic treatment with either a broad spectrum antibiotic or an appropriate antibiotic based on culture and sensitivity results. Antibiotics should be administered intravenously for the first 5 days of therapy followed by a prolonged course (>4 weeks) of oral medication.
Common Protocols use Ampicillin in combination with a Fluoroquinolone such as Enrofloxacin.
Secondary problems such as septic shock, D.I.C., congestive heart failure and embolisation need to be managed.
Prognosis
Long term prognosis is guarded to poor. Possible complications include septic shock, disseminated intravascular coagulation, congestive heart failure and embolisation to other organs.
Literature Search
Use these links to find recent scientific publications via CAB Abstracts (log in required unless accessing from a subscribing organisation).
Endocarditis publications
Endocarditis in cattle publications
Endocarditis in other veterinary species publications
References
- Merck & Co (2008) The Merck Veterinary Manual (Eighth Edition) Merial
- Nelson, R.W. and Couto, C.G. (2009) Small Animal Internal Medicine (Fourth Edition) Mosby Elsevier.
- Tilley,L.P., Smith, F.W.K, Oyama, M., Sleeper, M. (2007) Manual of Canine and Feline Cardiology Saunders.
- Elwood, C.M., Cobb, M.A., Stepien, R.L., (1993) Clinical and echocardiographic findings in 10 dogs with vegetative bacteria endcarditis. Journal of small animal practice. 34, pp420-427.