Difference between revisions of "Liver Failure"

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==Introduction==
 
==Introduction==
Liver failure results from inadequate [[Liver - Anatomy & Physiology|liver]] function. It occurs even though the [[Liver - Anatomy & Physiology|liver]] has a large functional reserve and a high regenerative capacity. Due to the multiple functions of the liver the animal may present with a variety of clinical signs and although some syndromes such as GI ulceration and jaundice are very suggestive of hepatic disease, often ancillary tests are necessary to diagnose liver failure.
+
Liver failure results from inadequate [[Liver - Anatomy & Physiology|liver]] function. It occurs even though the [[Liver - Anatomy & Physiology|liver]] has a '''large functional reserve and a high regenerative capacity'''. Due to the multiple functions of the liver the animal may present with a '''variety of clinical signs''' and although some syndromes such as photosensitisation and jaundice are very suggestive of hepatic disease, often ancillary tests are necessary to diagnose liver failure.
  
 
==Causes==
 
==Causes==
  
===Hereditory Liver Disease===
+
===Primary Causes===
 +
====Hereditory Liver Disease====
 
Portsosystemic vascular abnormalities such as portosystemic shunt (PSS) and storage diseases.
 
Portsosystemic vascular abnormalities such as portosystemic shunt (PSS) and storage diseases.
  
===Low Liver Mass===
+
====Impaired Function of One Specific/Many of its Diverse Functions====
  
A low liver mass depletes the functional reserve.
+
The livers many functions include detoxification and inactivation of drugs and hormones; carbohydrate metabolism; lipid metabolism and storage; biotransformation and excretion; immunological function; vitamin storage, activation and elimination; and the storage of minerals. Failure of one or more of these functions can result in disease.  
  
NB: [[Liver - Anatomy & Physiology|liver]] enzyme levels in blood may not be markedly raised in chronic ongoing [[Liver - Anatomy & Physiology|liver]] damage because there may be few [[Liver - Anatomy & Physiology|liver]] cells remaining to leak enyzmes
+
====Direct Damage & Susequent Repair====
 +
A direct insult to the liver, either by exposure to hepatoxic substances or trauma causes damage and may result in liver failure. Remodelling of the vascular and connective components after damage can lead to inadequate nutritional supply to the hepatocytes, thus reducing their function
  
===Remodelling of the Vascular and Connective Components after Damage===
+
====Low Liver Mass====
  
This may lead to inadequate nutritional supply to the hepatocytes, thus reducing their function
+
A low liver mass depletes the functional reserve. This occurs secondary to fibrosis of the liver following irreparible damage.
  
===Impaired Function of One Specific/Many of its Diverse Functions===
+
NB: [[Liver - Anatomy & Physiology|liver]] enzyme levels in blood may not be markedly raised in chronic ongoing [[Liver - Anatomy & Physiology|liver]] damage because there may be few [[Liver - Anatomy & Physiology|liver]] cells remaining to leak enyzmes
  
The livers many functions include detoxification and inactivation of drugs and hormones; carbohydrate metabolism; lipid metabolism and storage; biotransformation and excretion; immunological function; vitamin storage, activation and elimination; and the storage of minerals. Failure of one or more of these functions can result in disease.  
+
===Secondary Causes===
 +
Secondary causes of liver disease include endocrinopathies such as hyperadrenocorticism, diabetes mellitus, and hypothyroidism, right-sided congestive heart failure, metastatic neoplasia, hypoxia, toxaemia and sepsis, gastrointestinal disease, pancreatitis, and certain drug therapies. Primary causes should be ruled out before considering extra-hepatic causes of disease.
  
 
==Signalment==
 
==Signalment==
Several breed predispositions exist. These include hereditory abnormalities such as [[Portosystemic Shunt|PSS]] and storage diseases, amyloidosis and idiopathic chronic inflammatory hepatobiliary disease. Otherwise there may be a history of the ingestion of hepatotoxic drugs which raises suspicion of disease.
+
Several breed predispositions exist. These include hereditory abnormalities such as [[Portosystemic Shunt|PSS]] and storage diseases, amyloidosis and idiopathic chronic inflammatory hepatobiliary disease. Otherwise there may be a history of exposure to hepatotoxic substances, which may raises suspicion of disease.
  
 
==Clinical Signs==
 
==Clinical Signs==
The animal may present with non specific signs such as weight loss, anorexia, vomiting, diarrhoea, lethargy and PU/PD. As these signs may occur in many disease processes, clinical pathology may be necessary to confirm liver disease. The may also present with syndromes specifically related to primary or secondary liver disease such as:  
+
The animal may present with non specific signs such as '''weight loss, anorexia, vomiting, diarrhoea, lethargy and PU/PD'''. As these signs may occur in many disease processes, clinical pathology may be necessary to confirm liver disease. The animal may also present with syndromes specifically related to primary or secondary liver disease such as:  
  
* [[Icterus]]
+
* '''[[Icterus]]'''
  
* [[Photosensitisation]]
+
* '''[[Photosensitisation]]'''
  
* [[Hepatic Encephalopathy]]
+
* '''[[Hepatic Encephalopathy]]'''
  
* [[Bleeding Tendencies]] or coagulopathy
+
* '''[[Bleeding Tendencies]] or coagulopathy'''
  
* [[Hypoalbuminaemia]] and ascites
+
* '''[[Hypoalbuminaemia]] and ascites'''
  
* Hepatomegaly or fibrosis of the liver
+
* '''Hepatomegaly or fibrosis of the liver'''
  
* Drug intolerance
+
* '''Drug intolerance'''
  
 
These specific signs are more likely to occur further into the disease course as the liver has an extremely large functional reserve.  
 
These specific signs are more likely to occur further into the disease course as the liver has an extremely large functional reserve.  
Line 46: Line 49:
  
 
===Laboratory Tests===
 
===Laboratory Tests===
* Haematology, biochemistry, urinanalysis  
+
'''Haematology, biochemistry, urinanalysis'''
* Serum bile acid test pre- and post-prandial
+
 
* Coagulation profile
+
Haematology may show a hypoalbuminaemia as the liver is the site of albumin production, and either hyperglobulinaemia (in response to chronic inflammatory liver disease) or hypoglobulinaemia (as many globulins, such as α- and β-globulins  are produced in the liver). Non regenerative normocytic and normochromic anaemia is also commonly seen.
 +
 
 +
Biochemistry may show an elevation in liver enzymes such as ALT, ALP, AST and GGT. However endocrinopathies, neoplasia, hypoxia, hypotension, muscle injury, corticosteroid and anti-convulsant administration, systemic infection and bone disorders can also increase serum levels of liver enzymes, therefore liver disease cannot be diagnosed on these results alone.
 +
 
 +
Urinanalysis often reveals ammonium biurate crystalluria, particularly in PSS cases. Feline bilirubinaemia is always considered abnormal in the cat and indicative of either hepatobiliary or haemolytic disease.
 +
 
 +
'''Serum bile acid test'''
 +
 
 +
This is a first line test for assessing liver function in non-icteric companion animals. Samples should be taken both pre- and post-prandially (after twelve hours fasting and again two hours after feeding). Hepatobiliary disease can be confirmed if the pre- and post-prandial values are markedly elevated.
 +
 
 +
'''Coagulation profile'''
 +
 
 +
The liver is essential for the production, activation, clearance and catabolism of coagulation factors. Therefore a coagulation profile measuring the PT, APTT, fibrinogen levels and FDP levels can be performed to help diagnose liver disease and prior to performing any more invasive diagnostics such as biopsy.
 +
 
 +
'''Plasma ammonia'''
 +
 
 +
Plasma ammonia levels should be measured in any case suspicious of hepatic encephalopathy. Elevated blood ammonia levels can confirm the condition but a normal blood ammonia reading cannot rule out HE. High ammonia is most commonly seen associated with PSS and more advanced liver disease. Samples are difficult to handle, and to improve the diagnostic value of the results it is useful to perform a concurrent ammonia tolerance test.
 +
 
 +
'''Abdominocentesis'''
 +
 
 +
A transudate may be present secondary to hypoabluminaemia (causing ascites). A modified transudate may be produced secondary to hepatic congestion, and the presence of bile suggests rupture of the biliary tree.
  
* Plasma ammonia
+
Blood glucose and cholesterol levels can also be measured. Hypoglycaemia, and either hyper- or hypocholesterolaemia can be seen in animals with liver disease.
* Abdominocentesis
 
  
 
===Imaging===
 
===Imaging===
'''Radiography''' can be used to assess the size and shape of the liver. Diffuse hepatomegaly is suggestive of infiltrative disease (such as neolasia or amyloidosis), inflammation, and congestion. Focal hepatomegaly is more suggestive of a single neoplastic mass, cyst , abscess, regenerative nodule or granuloma.  Hepatomegaly or a small liver may be suggestive of acute or chronic disease. Reduced liver size suggests fibrosis and atrophy. The use of radiographic contrast studies can be used to identify vascular abnormalities such as PSS.
+
'''Radiography''' can be used to assess the '''size''' and '''shape''' of the '''liver'''. Diffuse hepatomegaly is suggestive of infiltrative disease (such as neolasia or amyloidosis), inflammation, and congestion. Focal hepatomegaly is more suggestive of a single neoplastic mass, cyst , abscess, regenerative nodule or granuloma.  Hepatomegaly or a small liver may be suggestive of acute or chronic disease. Reduced liver size suggests fibrosis and atrophy. The use of radiographic contrast studies can be used to identify vascular abnormalities such as PSS.
  
'''Ultrasonography''' is a useful tool for assessing the liver for signs of disease. It can be used to evaluate the parenchyma, vascular system and biliary system for pathology but is not the most reliable tool for assessing liver size. Diffuse disease can be identified and further classified as hypoechoic or hyperechoic. Hypoechoic pathology includes hepatic lymphoma, congestion and suppurative disease. causes of hyperechoic liver arenchyma include fibrosis (accompanied by regenerative nodules, ascites and a small size), neoplasia, lipidosis and corticosteroid hepatopathy. With localised disease as focal lesion should be identifed, and ultrasonograhic appearance may allow the differentiation of cysts, regenerative nodules, abscesses, neoplasia, granulomas and haematomas, however this is not always possible due to their sometimes variable appearance. If disease is diffuse or a localised mass is ameanable to biopsy then ultrasound can be used to guide sampling. It is also extremely useful for the diagnosis of vascular abnormalites and biliary stasis.  
+
'''Ultrasonography''' is a useful tool for assessing the liver for signs of disease. It can be used to evaluate the '''parenchyma, vascular system and biliary system''' for pathology but is not the most reliable tool for assessing liver size. Diffuse disease can be identified and further classified as hypoechoic or hyperechoic. Hypoechoic pathology includes hepatic lymphoma, congestion and suppurative disease. causes of hyperechoic liver arenchyma include fibrosis (accompanied by regenerative nodules, ascites and a small size), neoplasia, lipidosis and corticosteroid hepatopathy. With localised disease as focal lesion should be identifed, and ultrasonograhic appearance may allow the differentiation of cysts, regenerative nodules, abscesses, neoplasia, granulomas and haematomas, however this is not always possible due to their sometimes variable appearance. If disease is diffuse or a localised mass is ameanable to biopsy then ultrasound can be used to guide sampling. It is also extremely useful for the diagnosis of vascular abnormalites and biliary stasis.  
  
 
===Biopsy===
 
===Biopsy===
 
Livers with either diffuse disease or a focal lesion that is ameanable to biopsy should be biospied and the sample sent for histopathology if diagnosis has not yet been achieved.
 
Livers with either diffuse disease or a focal lesion that is ameanable to biopsy should be biospied and the sample sent for histopathology if diagnosis has not yet been achieved.
  
Either a surgical biopsy or ultrasound guided needle biopsy should be performed to confirm diagnosis. However coagulation test should be performed before any biopsies are taken as the liver is a very vascular organ and animals with liver disease are often deficient in clotting factors (which results in a coagulopathy). Clearly there are risks associated with the procedure and the risk-benefit should be considered before performing a biopsy.
+
Either a '''surgical biopsy or ultrasound guided needle biopsy''' should be performed to confirm diagnosis. However '''coagulation tests''' (including PT, APTT and a platelet count) should be performed before any biopsies are taken as the liver is a very vascular organ and animals with liver disease are often deficient in clotting factors (which results in a coagulopathy). Animals may be treated with vitamin K or fresh frozen plasma, but if the coagulopathy is severe the procedure should not be performed. Clearly due to the associated risks, risk-benefit should be considered before performing a biopsy.
 +
 
 +
Many inflammatory disease processes produce the same signs histologically, as the liver responds in the same way to a variety of chronic insults (eg infection and toxins). Therefore it is also important to note the extent of the damage to gauge both the severity of the disease and the prognosis.
  
 
==Treatment==
 
==Treatment==
Line 72: Line 96:
 
* Treat secondary complications such a ascites, secondary bacterial infection and hepatic encephalopathy.  
 
* Treat secondary complications such a ascites, secondary bacterial infection and hepatic encephalopathy.  
  
There are numerous drugs including glucocorticoids, immunosuppressive agents, vitamins, antioxidants, bile acids (ursodeoxyycholic acid (UDCA)), antioxidants such as S-Adenosyl-L-methionine (SAMe), vitamin C and E and milk thistle (silymarin), and antifibrotic drugs. Treatment of liver-specific syndromes such as photosensitisation and hepatic encephalopathy are cover in their associated sections.
+
There are numerous drugs that can be used to treat liver disease including '''glucocorticoids, immunosuppressive agents, vitamins, antioxidants, bile acids (ursodeoxyycholic acid (UDCA)), antioxidants such as S-Adenosyl-L-methionine (SAMe), vitamin C and E and milk thistle (silymarin), and antifibrotic drugs'''. Treatment of liver-specific syndromes such as photosensitisation and hepatic encephalopathy are cover in their associated sections.
 +
 
 +
==Prognosis==
 +
Prognosis depends on the success of treatment. Once '''fibrosis''' of the liver has occured it is '''irreversible''' and functionality is lost forever.
 +
 
 +
 
 +
{{Learning
 +
|flashcards = [[Equine Internal Medicine Q&A 03]]
 +
}}
  
 
==References==
 
==References==
Line 83: Line 115:
 
Bexfield, N & Watson, P (2006) '''Diagnosis of canine liver disease''' ''In Practice 2006 28: 444-45''
 
Bexfield, N & Watson, P (2006) '''Diagnosis of canine liver disease''' ''In Practice 2006 28: 444-45''
  
'''1) Failure of detoxification'''
+
Mair, TS & Divers, TJ (1997) '''Self-Assessment Colour Review Equine Internal Medicine''' ''Manson Publishing Ltd''
 
 
'''Aldosterone''' - a failure of its proper inactivation results in hypervolaemia since a feature of this hormone is to cause sodium and hence water rentention. This is a factor in the development of ascites
 
 
 
'''Oestrogen''' - a failure of its proper inactivation will result in an accumulation of this hormone with atrophy of the genitals and an enlargement of the breasts in the male
 
 
 
'''Plant Pigments''' - failure to detoxify will lead to their accumulation in the tissues and photosenistisation may result if they are photodynamic
 
 
 
'''2) Metabolic upset'''
 
*The failing [[Liver - Anatomy & Physiology|liver]] is unable to convert ammonia to urea, resulting in a rise in the level of blood ammonia
 
*Lowered level of plasma albumin contributes to the development of ascites
 
 
 
'''3) Failure of
 
  
  
 
[[Category: To Do - Siobhan Brade]]
 
[[Category: To Do - Siobhan Brade]]
 
[[Category:To Do - Manson]]
 
[[Category:To Do - Manson]]

Revision as of 12:06, 30 August 2011

Introduction

Liver failure results from inadequate liver function. It occurs even though the liver has a large functional reserve and a high regenerative capacity. Due to the multiple functions of the liver the animal may present with a variety of clinical signs and although some syndromes such as photosensitisation and jaundice are very suggestive of hepatic disease, often ancillary tests are necessary to diagnose liver failure.

Causes

Primary Causes

Hereditory Liver Disease

Portsosystemic vascular abnormalities such as portosystemic shunt (PSS) and storage diseases.

Impaired Function of One Specific/Many of its Diverse Functions

The livers many functions include detoxification and inactivation of drugs and hormones; carbohydrate metabolism; lipid metabolism and storage; biotransformation and excretion; immunological function; vitamin storage, activation and elimination; and the storage of minerals. Failure of one or more of these functions can result in disease.

Direct Damage & Susequent Repair

A direct insult to the liver, either by exposure to hepatoxic substances or trauma causes damage and may result in liver failure. Remodelling of the vascular and connective components after damage can lead to inadequate nutritional supply to the hepatocytes, thus reducing their function

Low Liver Mass

A low liver mass depletes the functional reserve. This occurs secondary to fibrosis of the liver following irreparible damage.

NB: liver enzyme levels in blood may not be markedly raised in chronic ongoing liver damage because there may be few liver cells remaining to leak enyzmes

Secondary Causes

Secondary causes of liver disease include endocrinopathies such as hyperadrenocorticism, diabetes mellitus, and hypothyroidism, right-sided congestive heart failure, metastatic neoplasia, hypoxia, toxaemia and sepsis, gastrointestinal disease, pancreatitis, and certain drug therapies. Primary causes should be ruled out before considering extra-hepatic causes of disease.

Signalment

Several breed predispositions exist. These include hereditory abnormalities such as PSS and storage diseases, amyloidosis and idiopathic chronic inflammatory hepatobiliary disease. Otherwise there may be a history of exposure to hepatotoxic substances, which may raises suspicion of disease.

Clinical Signs

The animal may present with non specific signs such as weight loss, anorexia, vomiting, diarrhoea, lethargy and PU/PD. As these signs may occur in many disease processes, clinical pathology may be necessary to confirm liver disease. The animal may also present with syndromes specifically related to primary or secondary liver disease such as:

  • Hepatomegaly or fibrosis of the liver
  • Drug intolerance

These specific signs are more likely to occur further into the disease course as the liver has an extremely large functional reserve.

Diagnosis

Laboratory Tests

Haematology, biochemistry, urinanalysis

Haematology may show a hypoalbuminaemia as the liver is the site of albumin production, and either hyperglobulinaemia (in response to chronic inflammatory liver disease) or hypoglobulinaemia (as many globulins, such as α- and β-globulins are produced in the liver). Non regenerative normocytic and normochromic anaemia is also commonly seen.

Biochemistry may show an elevation in liver enzymes such as ALT, ALP, AST and GGT. However endocrinopathies, neoplasia, hypoxia, hypotension, muscle injury, corticosteroid and anti-convulsant administration, systemic infection and bone disorders can also increase serum levels of liver enzymes, therefore liver disease cannot be diagnosed on these results alone.

Urinanalysis often reveals ammonium biurate crystalluria, particularly in PSS cases. Feline bilirubinaemia is always considered abnormal in the cat and indicative of either hepatobiliary or haemolytic disease.

Serum bile acid test

This is a first line test for assessing liver function in non-icteric companion animals. Samples should be taken both pre- and post-prandially (after twelve hours fasting and again two hours after feeding). Hepatobiliary disease can be confirmed if the pre- and post-prandial values are markedly elevated.

Coagulation profile

The liver is essential for the production, activation, clearance and catabolism of coagulation factors. Therefore a coagulation profile measuring the PT, APTT, fibrinogen levels and FDP levels can be performed to help diagnose liver disease and prior to performing any more invasive diagnostics such as biopsy.

Plasma ammonia

Plasma ammonia levels should be measured in any case suspicious of hepatic encephalopathy. Elevated blood ammonia levels can confirm the condition but a normal blood ammonia reading cannot rule out HE. High ammonia is most commonly seen associated with PSS and more advanced liver disease. Samples are difficult to handle, and to improve the diagnostic value of the results it is useful to perform a concurrent ammonia tolerance test.

Abdominocentesis

A transudate may be present secondary to hypoabluminaemia (causing ascites). A modified transudate may be produced secondary to hepatic congestion, and the presence of bile suggests rupture of the biliary tree.

Blood glucose and cholesterol levels can also be measured. Hypoglycaemia, and either hyper- or hypocholesterolaemia can be seen in animals with liver disease.

Imaging

Radiography can be used to assess the size and shape of the liver. Diffuse hepatomegaly is suggestive of infiltrative disease (such as neolasia or amyloidosis), inflammation, and congestion. Focal hepatomegaly is more suggestive of a single neoplastic mass, cyst , abscess, regenerative nodule or granuloma. Hepatomegaly or a small liver may be suggestive of acute or chronic disease. Reduced liver size suggests fibrosis and atrophy. The use of radiographic contrast studies can be used to identify vascular abnormalities such as PSS.

Ultrasonography is a useful tool for assessing the liver for signs of disease. It can be used to evaluate the parenchyma, vascular system and biliary system for pathology but is not the most reliable tool for assessing liver size. Diffuse disease can be identified and further classified as hypoechoic or hyperechoic. Hypoechoic pathology includes hepatic lymphoma, congestion and suppurative disease. causes of hyperechoic liver arenchyma include fibrosis (accompanied by regenerative nodules, ascites and a small size), neoplasia, lipidosis and corticosteroid hepatopathy. With localised disease as focal lesion should be identifed, and ultrasonograhic appearance may allow the differentiation of cysts, regenerative nodules, abscesses, neoplasia, granulomas and haematomas, however this is not always possible due to their sometimes variable appearance. If disease is diffuse or a localised mass is ameanable to biopsy then ultrasound can be used to guide sampling. It is also extremely useful for the diagnosis of vascular abnormalites and biliary stasis.

Biopsy

Livers with either diffuse disease or a focal lesion that is ameanable to biopsy should be biospied and the sample sent for histopathology if diagnosis has not yet been achieved.

Either a surgical biopsy or ultrasound guided needle biopsy should be performed to confirm diagnosis. However coagulation tests (including PT, APTT and a platelet count) should be performed before any biopsies are taken as the liver is a very vascular organ and animals with liver disease are often deficient in clotting factors (which results in a coagulopathy). Animals may be treated with vitamin K or fresh frozen plasma, but if the coagulopathy is severe the procedure should not be performed. Clearly due to the associated risks, risk-benefit should be considered before performing a biopsy.

Many inflammatory disease processes produce the same signs histologically, as the liver responds in the same way to a variety of chronic insults (eg infection and toxins). Therefore it is also important to note the extent of the damage to gauge both the severity of the disease and the prognosis.

Treatment

The aim of treatment are to:

  • Remove the causative agent
  • Stop inflammation
  • Minimise fibrosis
  • Promote regeneration
  • Treat secondary complications such a ascites, secondary bacterial infection and hepatic encephalopathy.

There are numerous drugs that can be used to treat liver disease including glucocorticoids, immunosuppressive agents, vitamins, antioxidants, bile acids (ursodeoxyycholic acid (UDCA)), antioxidants such as S-Adenosyl-L-methionine (SAMe), vitamin C and E and milk thistle (silymarin), and antifibrotic drugs. Treatment of liver-specific syndromes such as photosensitisation and hepatic encephalopathy are cover in their associated sections.

Prognosis

Prognosis depends on the success of treatment. Once fibrosis of the liver has occured it is irreversible and functionality is lost forever.



Liver Failure Learning Resources
FlashcardsFlashcards logo.png
Flashcards
Test your knowledge using flashcard type questions
Equine Internal Medicine Q&A 03


References

Rutgers, C (1996) Liver disease in dogs In Practice 1996 18: 433-44

Rutgers, C (1996) Feline liver disease' In Practice 1998 20: 16-2

Dunn, j (1992) Assessment of liver damage and function In Practice 1992 14: 193-200

Bexfield, N & Watson, P (2006) Diagnosis of canine liver disease In Practice 2006 28: 444-45

Mair, TS & Divers, TJ (1997) Self-Assessment Colour Review Equine Internal Medicine Manson Publishing Ltd