Difference between revisions of "Protein Losing Enteropathy"

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== Introduction ==
 +
'''Protein-losing enteropathy (PLE)''' refers to the loss of plasma proteins into the gastro-intestinal (GI) tract, exceeding the absorptive capacity of the intestines. PLE can be caused by disruption to the intestinal wall due to [[Inflammation - Pathology|inflammation]] or infiltrative disease or by venous congestion of the GI tract and GI [[Haemorrhage|haemorrhage]].
  
 +
Hence, there are numerous causes of PLE in cats and dogs, including:
 +
*'''Inflammation'''
 +
*:[[Inflammatory Bowel Disease]] (including lymphocytic-plasmacytic enteritis, eosinophilic enteritis, granulomatous enteritis and histiocytic-ulcerative colitis)
 +
*[[Lymphoma]]
 +
*Infectious disease
 +
*:[[Giardiasis|''Giardia duodenalis'']]
 +
*:[[Uncinaria stenocephala|Hookworm]]
 +
*:[[Histoplasmosis]]
 +
*Chronic [[Intussusception|intussusception]] in juvenile animals
 +
*'''[[Lymphangiectasia]]'''
 +
*'''Infiltrative disease'''
 +
*:Alimentary lymphoma
 +
*'''Venous congestion'''
 +
*:Portal hypertension
 +
*:Posterior caval syndrome
 +
*[[Heart Failure - Pathophysiology|Right-sided congestive heart failure]]
 +
*'''GI haemorrhage'''
 +
*:This may occur with [[hypoadrenocorticism]] or with other causes of GI ulceration
  
==Description==
+
Rare causes of PLE include [[Antibiotic Responsive Diarrhoea|Small intestinal bacterial overgrowth (SIBO)]], [[hypoalbuminaemia]] causing intestinal mural oedema, increased activation of tissue plasminogen activator, [[Systemic Lupus Erythematosus|systemic lupus erythematosis (SLE)]] and chemotherapy or radiotherapy.
'''Protein-losing enteropathy (PLE)''' refers to the loss of plasma proteins into the gastro-intestinal (GI) tract, exceeding the absorptive capacity of the intestines.  PLE can be caused by:
 
*Disruption to the intestinal wall due to [[Inflammation - Pathology|inflammation]] or infiltrative disease
 
*Venous congestion of the GI tract
 
*GI [[Haemorrhage - Pathology|haemorrhage]]
 
  
Hence, there are numerous causes of PLE in cats and dogs , including:
+
Normally, dietary protein and protein from shed enterocytes is almost completely absorbed. In PLE there is excess loss of protein into the gut lumen of particularly non-selective albumin and globulin. This causes panhypoproteinaemia and hypocholesterolaemia. If this is severe, oedema and weight loss may result.
*Inflammation
 
**[[Inflammatory Bowel Disease]] (including lymphocytic-plasmacytic enteritis, eosinophilic enteritis, granulomatous enteritis and histiocytic-ulcerative colitis)
 
**Uraemic gastritis and colitis
 
**[[Lymphangiectasia]]
 
**Infectious disease
 
***Giardia duodenalis
 
***[[Uncinaria stenocephala|Hookworm]]
 
***[[Systemic Mycoses #Histoplasmosis|Histoplasmosis]]
 
**Chronic intussusception in juvenile animals
 
*Infiltrative disase
 
**Alimentary lymphoma
 
*Congestion
 
**Portal hypertension
 
**Posterior caval syndrome
 
**[[Heart Failure - Pathophysiology|Right-sided congestive heart failure]]
 
*GI haemorrhage
 
**e.g., hypoadrenocorticism, ischaemia
 
  
Inflammatory bowel disease and lymphoma are the most common causes of PLE in both cats and dogs, with lymphangiectasia occurring much more commonly in dogs than in cats. Chronic intussuscepta (usually occurring secondary to acute enteritis) and endoparasite infection are the most common causes of PLE in juvenile cats and dogs.  
+
== Signalment ==
 +
Inflammatory bowel disease and lymphoma are the most common causes of PLE in both cats and dogs but lymphangiectasia occurs much more commonly in dogs than in cats. Chronic intussusception (usually occurring secondary to acute enteritis) and endoparasite infection are the most common causes of PLE in juvenile cats and dogs.
 +
 +
'''Basenjis''', '''Norwegian Lundehunds''', '''Soft-coated Wheaten terriers''' (SCWT), '''Yorkshire terriers''' and '''Shar peis''' all show breed predispositions for PLE. related to secretory enteropathy. Basenjis develop PLE as a result of secretory enteropathy, a type of inflammatory bowel disease.  Soft-coated Wheaten Terriers often suffer from concurrent protein-losing nephropathy and most affected animals of this breed have a common ancestor who is thought to have lived in the USA.  Females of this breed are more commonly affected than males.
  
Rare causes of PLE include:
+
== Clinical Signs ==
** Small intestinal bacterial overgrowth
+
'''Weight loss''' is the most evident sign, with '''diarrhoea''' occurring due to the loss of protein into the GI tract and subsequent osmotic movement of fluid.  Melaena may occur with GI haemorrhage. [[Oedema|'''Oedema''']], '''ascites''' and '''pleural effusion''' due to reduced plasma oncotic pressure are notable clinical signs. The animal will also usually have [[vomiting]] and anorexia and will be depressed and lethargic. '''Thickened intestines''' may be detectable on abdominal palpation and this finding may be related to the primary pathological process. [[Thromboembolism|'''Thromboembolic]] disease''' due to the loss of plasma anticoagulants such as antithrombin III may also occur. '''Hypocalcaemic tetany''' due to a reduced ability to absorb calcium and the fat soluble vitamin D may also be a sign of the condition. Apparent hypocalcaemia may also develop as the protein-bound portion of the blood total calcium concentration is reduced.
** Hypoalbunimaemia causing intestinal mural oedema
 
** Increased activation of tissue plasminogen activator
 
** Systemic lupus erythematosis (SLE)
 
** Chemotherapy/radiotherapy
 
  
==Signalment==
+
== Diagnosis ==
The following breeds of dog may be afflicted:
+
===Laboratory Tests===
*Basenji
+
Changes consistent with possible differential diagnoses, such as hepatic and renal disease, should also be ruled out.
*Lundehund
 
*Soft-Coated Wheaten Terrier
 
**May have concurrent [[Protein Losing Nephropathy|protein-losing nephropathy]]
 
**Most affected animals have a common ancestor
 
**Females are more commonly affected than males
 
*Yorkshire Terrier
 
*Shar Pei
 
 
 
 
 
<gallery>
 
Image:Basenji.jpg|'''Basenji'''<p>WikiCommons
 
Image:Shar_pei.jpg|'''Shar Pei'''<p>WikiCommons
 
Image:Soft_coated_wheaten_terrier.jpg|'''Soft Coated Wheaten Terrier'''<p>WikiCommons
 
Image:Yorkshire_Terrier.jpg|'''Yorkshire Terrier'''<p>WikiCommons
 
</gallery>
 
  
==Diagnosis==
 
===Clinical Signs===
 
*'''Weight loss''' is the most evident sign.
 
*'''Diarrhoea''' occurs due to the loss of protein into the GI tract and subsequent osmotic movement of fluid.  Melaena may occur with GI haemorrhage.
 
*[[Oedema - Pathology|'''Oedema''']], '''ascites''' and '''pleural effusion''' due to reduced plasma oncotic pressure.
 
*'''Thickened intestines''' may be detectable on abdominal palpation and this may be related to the primary pathological process.
 
*[[Thromboembolism|'''Thromboembolic]] disease''' due to the loss of anticoagulants such as antithrombin III.
 
*'''Hypocalcaemic tetany''' due to a reduced ability to absorb the fat soluble [[Vitamin D|vitamin D]].
 
 
 
===Laboratory Tests===
 
 
====Haematology====
 
====Haematology====
*[[Changes in Inflammatory Cells Circulating in Blood - Pathology #Lymphopenia|'''Lymphopaenia]]''' occurs with lymphangiectasia due to the loss of lymph.
+
[[Lymphopenia|'''Lymphopaenia]]''' occurs with lymphangiectasia due to the loss of lymph.
  
 
====Biochemistry====
 
====Biochemistry====
*'''Panhypoproteinaemia'''
+
'''Panhypoproteinaemia''' is a pattern more suggestive of PLE since albumin is usually lost in excess of globulin in protein losing nephropathy. Hypoproteinaemia may also develop with haemorrhage, dermal protein loss (after severe burns of degloving injury) or if the rate of synthesis of albumin is reduced by a severe hepatic insult. Oedema and ascites typically develop when serum albumin concentration drops below 15 g/l.
**Hypoglobulinaemia with hypoalbuminaemia is a pattern more suggestive of PLE.
+
 
**Albumin is usually lost in excess of globulin in protein losing nephropathy.  
+
'''Hypocholesterolaemia''' may be present, especially in lymphangiectasia.
*'''Hypocholesterolaemia''', especially in lymphangiectasia.
 
*[[Hypocalcaemia - Small Animal|'''Hypocalcaemia''']]
 
**Ionised calcium concentration should be measured to determine the significance of this finding as serum calcium concentration is closely related to total protein level.
 
  
 +
'''Hypocalcaemia''' also may be present, but ionised calcium concentration should be measured to determine the significance of this finding as serum calcium concentration is closely related to total protein level.
 +
<br>
 
====Other Tests====
 
====Other Tests====
*Measurement of faecal alpha1-protease inhibitor
+
'''Measurement of faecal alpha1-protease inhibitor''' - This marker has a similar molecular weight to albumin and it is lost into the GI tract in PLE.  Its concentration can therefore be measured in faeces as it is not degraded by GI enzymes. (Faecal samples must be frozen on collection before submission to a laboratory in the USA.)
**This marker has a similar molecular weight to albumin and it is lost into the GI tract in PLE.  Its concentration can be measured in faeces as it is not degraded by GI enzymes. Faecal samples must be frozen on collection before submission to a laboratory in the USA.
+
<br>
 
+
'''Administration of 51-Chromium labelled albumin''' - A radioactive marker (51-Chromium) is attached to recombinant albumin molecules before injection into animal. Faecal samples are collected to determine whether the labelled albumin is being lost into the GI tract.  Although this test represents the 'gold standard' test, it is available only at a limited number of referral institutes.
*51-Chromium labelled albumin
+
<br>
**A radioactive marker (51-Chromium) is attached to recombinant albumin molecules before injection into animal. Faecal samples are collected to determine whether the labelled albumin is being lost into the GI tract.  Although this test represents the 'gold standard' test, it is available only at a limited number of referral institutes.
 
 
 
 
===Diagnostic Imaging===
 
===Diagnostic Imaging===
 
====Radiography====
 
====Radiography====
*Abdominal radiographs
+
The results of '''abdominal radiographs''' are usually unremarkable but discrete mass lesions or ascites may be evident. '''Thoracic radiographs''' may show the presence of [[Effusions|pleural effusion]], metastatic neoplasia or evidence of [[Histoplasmosis|histoplasmosis]]).
**The results are usually unremarkable but discrete mass lesions or ascites may be evident.  
+
<br>
*Thoracic radiographs
 
**These may show the presence of [[Effusions|pleural effusion]], metastatic neoplasia or eveidence of [[Systemic Mycoses #Histoplasmosis|histoplasmosis]]).
 
 
 
 
====Ultrasonography====
 
====Ultrasonography====
*This may reveal:
+
This may reveal changes to intestinal wall structure, including thickening without loss of normal layers (as with inflammatory bowel disease), thickening with loss of layers (as with infiltrative intestinal neoplasia) and 'tiger stripes', an unreliable indicator of lymphangiectasia. It may also show ascites or pleural effusion and mesenteric lymphadenopathy.
**Changes to intestinal wall structure, including:
+
<br>
***Thickening without loss of normal layers (as with inflammatory bowel disease)
 
***Thickening with loss of layers (as with intestinal neoplasia)
 
***'Tiger stripes', an unreliable indicator of lymphangiectasia
 
**Ascites or pleural effusion
 
**Mesenteric lymphadenopathy
 
 
 
 
===Histopathology===
 
===Histopathology===
Endoscopy can be used to visualise the proximal intestinal luminal surface and to obtain grab biopsies.  Surgical biopsies may be obtained for definitive diagnosis of lymphoma and [[Lymphangiectasia#Description|secondary lymphangiectasia]].  A small fatty meal could be given the night before biopsy to increase the chance of diagnosing [[Lymphangiectasia|lymphangiectasia]].
+
'''Endoscopy''' can be used to visualise the proximal intestinal luminal surface and to obtain grab biopsies.  Surgical biopsies may be obtained for definitive diagnosis of lymphoma and [[Lymphangiectasia#Description|secondary lymphangiectasia]].  A small fatty meal could be given the night before biopsy to increase the chance of diagnosing [[Lymphangiectasia|lymphangiectasia]].
Care should be taken with this procedure as animals with PLE have a greater risk of surgical wound dehiscence with the subsequent development of peritonitis.
+
Care should be taken with this procedure as animals with PLE have a greater risk of surgical wound dehiscence with the subsequent development of [[Peritonitis - Cats and Dogs|peritonitis]].
 +
<br>
 +
Lesions that may be observed on histopathological analysis of biopsy samples include: signs of inflammatory bowel disease, dilated lymphatics and lipogranulomatous lymphangitis (especially in Soft-coated Wheaten terriers).
  
Lesions that may be observed on histopathological analysis of biopsy samples include:
+
PLE may also be associated with protein losing nephropathy (PLN). PLN may be a chronic sequelae to the PLE. It follows immune complex deposition in the glomerulus, causing [[glomerulonephritis]] or glomerulosclerosis. PLN causes hypoalbuminaemia and hypercholesterolaemia.
** Signs of inflammatory bowel disease
+
Similar PLN and PLE lesions are seen in young Basenjis with immunoproliferative enteropathy and glomerulosclerosis.
** Dilated lymphatics
 
** Lipogranulomatous lymphangitis, especially in Soft-coated Wheaten terriers
 
*** Intestinal crypts dilated with mucus, sloughed epithelial cells with or without inflammatory cells.
 
* PLE may also be associated with protein losing nephropathy (PLN).
 
** PLN may be a chronic sequelae to the PLE.
 
** Follows immune complex deposition in the glomerulus, causing glomerulonephritis or glomerulosclerosis.
 
** PLN causes hypoalbunaemian and hypercholesterolaemia.
 
** Similar PLN and PLE lesions seen in young Besenjis with immunoproliferative enteropathy and glomerulosclerosis.
 
  
 
==Treatment==
 
==Treatment==
Treatment of the underlying cause of disease should be initiated, if possible.
+
Treatment of the underlying cause of disease should be initiated, if possible. In the case of severe respiratory embarrassment, treatment should be directed at draining any pleural effusion and providing support in case of a pulmonary [[Thromboembolism|thromboembolus]]. 
  
====Plasma transfusion====
+
===Plasma transfusion===
*This may be used to increase plasma volume.  However, much of the albumin is lost in the gut and a substantial amount fails to remain in the intravascular compartment.  Therefore, the extent of increase in serum albumin level is not great.
+
This may be used to increase plasma volume but, as much of the albumin is lost into the gut, there may be a disappointing increase in serum albumin concentration after transfusion. Large [[Colloids|colloids]] (such as hetastarch) may also be administered to try to maintain plasma oncotic pressure.
*Administration of [[Colloids|colloid]] may be more suitable if it is essential to increase the plasma oncotic pressure.
 
  
====[[The Effects of Diuretics on the Kidneys - Anatomy & Physiology|Diuretics]]====
+
===[[Diuretics Effects on Kidneys - Anatomy & Physiology|Diuretics]]===
*These can be used to reduce any ascites or pleural effusion.
+
These may be used to reduce any ascites or pleural effusion and it has been suggested that [[Heart Failure, Treatment#C. Pharmacological |spironolactone]] may be more effective than [[Heart Failure, Treatment#C. Pharmacological|frusemide]] for this purpose.
*[[Heart Failure, Treatment#C. Pharmacological |Spironolactone]] may be more effective than [[Heart Failure, Treatment#C. Pharmacological|frusemide]].
 
  
====Antithrombotic therapy====
+
===Antithrombotic therapy===
*Treatment may be initiated with low dose aspirin to prevent the development of thrombo-embolism.
+
Treatment may be initiated with low dose aspirin to prevent the development of thrombo-embolism.
  
====Dietary Supplementation with Calcium====
+
===Dietary Supplementation with Calcium===
*Calcium carbonate may be added to the diet if a low serum concentration of ionised calcium is documented.
+
Calcium carbonate may be added to the diet if a low serum concentration of ionised calcium is documented.
  
 
==Prognosis==
 
==Prognosis==
 
This depends on the underlying cause but Soft-coated Wheaten terriers are known to have a median survival time of five months after diagnosis of PLE and of two months if they suffer from concurrent protein-losing nephropathy.
 
This depends on the underlying cause but Soft-coated Wheaten terriers are known to have a median survival time of five months after diagnosis of PLE and of two months if they suffer from concurrent protein-losing nephropathy.
  
=From Pathology=
+
{{Learning
 +
|Vetstream = [https://www.vetstream.com/canis/Content/Disease/dis02613.asp, Protein-losing enteropathy]
 +
|flashcards = [[Small Animal Abdominal and Metabolic Disorders Q&A 01]]
 +
|literature search = [http://www.cabdirect.org/search.html?q=%28%28title%3A%28PLE%29+AND+sc%3A%22ve%22%29%29+OR+%28%28title%3A%28%22Protein+Losing+Enteropathy%22%29%29%29 Protein Losing Enteropathy publications]
 +
}}
 +
 
 +
==References==
 +
Littman MP, Dambach DM, Vaden SL, Giger U (2000) '''Familial protein-losing enteropathy and protein-losing nephropathy in Soft Coated Wheaten Terriers: 222 cases (1983-1997)''' ''Journal of Veterinary Internal Medicine. 2000 Jan-Feb;14(1):68-80.''
 +
<br>
 +
Ettinger, S.J. and Feldman, E. C. (2000) '''Textbook of Veterinary Internal Medicine Diseases of the Dog and Cat Volume 2''' (Fifth Edition), ''W.B. Saunders Company''.
 +
<br>
 +
Hall, E.J, Simpson, J.W. and Williams, D.A. (2005) '''BSAVA Manual of Canine and Feline Gastroenterology '''(2nd Edition), ''British Small Animal Veterinary Association.''
 +
<br>
 +
Nelson, R.W. and Couto, C.G. (2009) '''Small Animal Internal Medicine (Fourth Edition)''', ''Mosby Elsevier''.
 +
<br>
 +
Willard, M. (2005) '''Protein-Losing Enteropathy in Dogs and Cats''', ''30th World Congress of the WSAVA''.
 +
 
 +
 
 +
{{review}}
  
 +
{{OpenPages}}
  
=References=
 
*Ettinger, S.J. and Feldman, E. C. (2000) '''Textbook of Veterinary Internal Medicine Diseases of the Dog and Cat Volume 2''' (Fifth Edition) ''W.B. Saunders Company''.
 
*Hall, E.J, Simpson, J.W. and Williams, D.A. (2005) '''BSAVA Manual of Canine and Feline Gastroenterology (2nd Edition)''' ''BSAVA''.
 
*Nelson, R.W. and Couto, C.G. (2009) '''Small Animal Internal Medicine (Fourth Edition)''' ''Mosby Elsevier''.
 
*Willard, M. (2005) '''Protein-Losing Enteropathy in Dogs and Cats''' ''30th World Congress of the WSAVA''.
 
 
[[Category:Intestine_-_Inflammatory_Pathology]]
 
[[Category:Intestine_-_Inflammatory_Pathology]]
[[Category:To_Do_-_Clinical]]
+
[[Category:Intestinal Diseases - Cat]]
[[Category:To_Do_-_James]]
+
[[Category:Intestinal Diseases - Dog]][[Category:Alimentary_Disorders]]
 +
[[Category:Expert Review - Small Animal]]

Latest revision as of 23:22, 9 September 2015


Introduction

Protein-losing enteropathy (PLE) refers to the loss of plasma proteins into the gastro-intestinal (GI) tract, exceeding the absorptive capacity of the intestines. PLE can be caused by disruption to the intestinal wall due to inflammation or infiltrative disease or by venous congestion of the GI tract and GI haemorrhage.

Hence, there are numerous causes of PLE in cats and dogs, including:

Rare causes of PLE include Small intestinal bacterial overgrowth (SIBO), hypoalbuminaemia causing intestinal mural oedema, increased activation of tissue plasminogen activator, systemic lupus erythematosis (SLE) and chemotherapy or radiotherapy.

Normally, dietary protein and protein from shed enterocytes is almost completely absorbed. In PLE there is excess loss of protein into the gut lumen of particularly non-selective albumin and globulin. This causes panhypoproteinaemia and hypocholesterolaemia. If this is severe, oedema and weight loss may result.

Signalment

Inflammatory bowel disease and lymphoma are the most common causes of PLE in both cats and dogs but lymphangiectasia occurs much more commonly in dogs than in cats. Chronic intussusception (usually occurring secondary to acute enteritis) and endoparasite infection are the most common causes of PLE in juvenile cats and dogs.

Basenjis, Norwegian Lundehunds, Soft-coated Wheaten terriers (SCWT), Yorkshire terriers and Shar peis all show breed predispositions for PLE. related to secretory enteropathy. Basenjis develop PLE as a result of secretory enteropathy, a type of inflammatory bowel disease. Soft-coated Wheaten Terriers often suffer from concurrent protein-losing nephropathy and most affected animals of this breed have a common ancestor who is thought to have lived in the USA. Females of this breed are more commonly affected than males.

Clinical Signs

Weight loss is the most evident sign, with diarrhoea occurring due to the loss of protein into the GI tract and subsequent osmotic movement of fluid. Melaena may occur with GI haemorrhage. Oedema, ascites and pleural effusion due to reduced plasma oncotic pressure are notable clinical signs. The animal will also usually have vomiting and anorexia and will be depressed and lethargic. Thickened intestines may be detectable on abdominal palpation and this finding may be related to the primary pathological process. Thromboembolic disease due to the loss of plasma anticoagulants such as antithrombin III may also occur. Hypocalcaemic tetany due to a reduced ability to absorb calcium and the fat soluble vitamin D may also be a sign of the condition. Apparent hypocalcaemia may also develop as the protein-bound portion of the blood total calcium concentration is reduced.

Diagnosis

Laboratory Tests

Changes consistent with possible differential diagnoses, such as hepatic and renal disease, should also be ruled out.

Haematology

Lymphopaenia occurs with lymphangiectasia due to the loss of lymph.

Biochemistry

Panhypoproteinaemia is a pattern more suggestive of PLE since albumin is usually lost in excess of globulin in protein losing nephropathy. Hypoproteinaemia may also develop with haemorrhage, dermal protein loss (after severe burns of degloving injury) or if the rate of synthesis of albumin is reduced by a severe hepatic insult. Oedema and ascites typically develop when serum albumin concentration drops below 15 g/l.

Hypocholesterolaemia may be present, especially in lymphangiectasia.

Hypocalcaemia also may be present, but ionised calcium concentration should be measured to determine the significance of this finding as serum calcium concentration is closely related to total protein level.

Other Tests

Measurement of faecal alpha1-protease inhibitor - This marker has a similar molecular weight to albumin and it is lost into the GI tract in PLE. Its concentration can therefore be measured in faeces as it is not degraded by GI enzymes. (Faecal samples must be frozen on collection before submission to a laboratory in the USA.)
Administration of 51-Chromium labelled albumin - A radioactive marker (51-Chromium) is attached to recombinant albumin molecules before injection into animal. Faecal samples are collected to determine whether the labelled albumin is being lost into the GI tract. Although this test represents the 'gold standard' test, it is available only at a limited number of referral institutes.

Diagnostic Imaging

Radiography

The results of abdominal radiographs are usually unremarkable but discrete mass lesions or ascites may be evident. Thoracic radiographs may show the presence of pleural effusion, metastatic neoplasia or evidence of histoplasmosis).

Ultrasonography

This may reveal changes to intestinal wall structure, including thickening without loss of normal layers (as with inflammatory bowel disease), thickening with loss of layers (as with infiltrative intestinal neoplasia) and 'tiger stripes', an unreliable indicator of lymphangiectasia. It may also show ascites or pleural effusion and mesenteric lymphadenopathy.

Histopathology

Endoscopy can be used to visualise the proximal intestinal luminal surface and to obtain grab biopsies. Surgical biopsies may be obtained for definitive diagnosis of lymphoma and secondary lymphangiectasia. A small fatty meal could be given the night before biopsy to increase the chance of diagnosing lymphangiectasia. Care should be taken with this procedure as animals with PLE have a greater risk of surgical wound dehiscence with the subsequent development of peritonitis.
Lesions that may be observed on histopathological analysis of biopsy samples include: signs of inflammatory bowel disease, dilated lymphatics and lipogranulomatous lymphangitis (especially in Soft-coated Wheaten terriers).

PLE may also be associated with protein losing nephropathy (PLN). PLN may be a chronic sequelae to the PLE. It follows immune complex deposition in the glomerulus, causing glomerulonephritis or glomerulosclerosis. PLN causes hypoalbuminaemia and hypercholesterolaemia. Similar PLN and PLE lesions are seen in young Basenjis with immunoproliferative enteropathy and glomerulosclerosis.

Treatment

Treatment of the underlying cause of disease should be initiated, if possible. In the case of severe respiratory embarrassment, treatment should be directed at draining any pleural effusion and providing support in case of a pulmonary thromboembolus.

Plasma transfusion

This may be used to increase plasma volume but, as much of the albumin is lost into the gut, there may be a disappointing increase in serum albumin concentration after transfusion. Large colloids (such as hetastarch) may also be administered to try to maintain plasma oncotic pressure.

Diuretics

These may be used to reduce any ascites or pleural effusion and it has been suggested that spironolactone may be more effective than frusemide for this purpose.

Antithrombotic therapy

Treatment may be initiated with low dose aspirin to prevent the development of thrombo-embolism.

Dietary Supplementation with Calcium

Calcium carbonate may be added to the diet if a low serum concentration of ionised calcium is documented.

Prognosis

This depends on the underlying cause but Soft-coated Wheaten terriers are known to have a median survival time of five months after diagnosis of PLE and of two months if they suffer from concurrent protein-losing nephropathy.


Protein Losing Enteropathy Learning Resources
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References

Littman MP, Dambach DM, Vaden SL, Giger U (2000) Familial protein-losing enteropathy and protein-losing nephropathy in Soft Coated Wheaten Terriers: 222 cases (1983-1997) Journal of Veterinary Internal Medicine. 2000 Jan-Feb;14(1):68-80.
Ettinger, S.J. and Feldman, E. C. (2000) Textbook of Veterinary Internal Medicine Diseases of the Dog and Cat Volume 2 (Fifth Edition), W.B. Saunders Company.
Hall, E.J, Simpson, J.W. and Williams, D.A. (2005) BSAVA Manual of Canine and Feline Gastroenterology (2nd Edition), British Small Animal Veterinary Association.
Nelson, R.W. and Couto, C.G. (2009) Small Animal Internal Medicine (Fourth Edition), Mosby Elsevier.
Willard, M. (2005) Protein-Losing Enteropathy in Dogs and Cats, 30th World Congress of the WSAVA.




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