Changes

{{review}}

{{OpenPagesTop}}

[[Image:Iv_injections.jpg|200px|thumb|right|Intravenous blood sampling(Copyright © RVC)]]  

[[Image:Iv_injections.jpg|200px|thumb|right|Intravenous blood sampling(Copyright © RVC)]]  

Biochemical analysis of blood is a useful diagnostic tool. It is often necessary to prioritise the components of a profile because of the small volume of blood submitted. Consider the following tests:

Biochemical analysis of blood is a useful diagnostic tool. It is often necessary to prioritise the components of a profile because of the small volume of blood submitted. Consider the following tests:

==Aspartate aminotranferase==

==Aspartate aminotranferase==

Some species may have higher concentrations of [[Aspartate aminotranferase|Aspartate aminotransferase (AST)]] in liver, skeletal muscle and myocardium. AST values are usually less than 250 iu/l.  Increased levels are suggestive of tissue damage, specifically liver or muscle in some species. In association with CP to rule out muscle damage it is a useful test in some species for hepatocellular damage. Generalised diseases, such as trauma, septicaemias and toxaemias, may also elevate AST due to tissues necrosis.

Some species may have higher concentrations of Aspartate aminotransferase (AST) in liver, skeletal muscle and myocardium. AST values are usually less than 250 iu/l.  Increased levels are suggestive of tissue damage, specifically liver or muscle in some species. In association with CP to rule out muscle damage it is a useful test in some species for hepatocellular damage. Generalised diseases, such as trauma, septicaemias and toxaemias, may also elevate AST due to tissues necrosis.

==Creatine kinase==

==Creatine kinase==

[[Creatine kinase|Creatine kinase]] ([[Creatine kinase|CK]], creatine phosphokinase, CPK) is derived predominantly from skeletal muscle and heart. Normal [[Creatine kinase|CK]] values in association with non-specific tests for hepatocellular damage (AST, LDH) may indicate liver disease.  Plasma [[Creatine kinase|CK]] values increase with muscle damage. [[Creatine kinase|CK]] elevations may be due to rough handling at the time of venipuncture and following the intramuscular injection of some chemotherapeutic agents, especially enrofloxacin.

Creatine kinase (CK, creatine phosphokinase, CPK) is derived predominantly from skeletal muscle and heart. Normal CK values in association with non-specific tests for hepatocellular damage (AST, LDH) may indicate liver disease.  Plasma CK values increase with muscle damage. CK elevations may be due to rough handling at the time of venipuncture and following the intramuscular injection of some chemotherapeutic agents, especially enrofloxacin.

==Uric acid==

==Uric acid==

The primary catabolic end product of protein, non-protein nitrogen and purines depends upon a reptile’s natural environment. Terrestrial reptiles excrete uric acid as the primary nitrogenous waste product (i.e. they are uricotelic). Uric acid is synthesised in the liver and excreted by renal tubular secretion.  The blood level is therefore largely independent of urine flow rate (and is therefore not a sensitive indicator of dehydration in reptiles or birds). Both animal and environmental factors influence uric acid levels. The normal blood uric acid value for most reptiles is 0 to 600 µmol/l.  

The primary catabolic end product of protein, non-protein nitrogen and purines depends upon a reptile’s natural environment. Terrestrial reptiles excrete uric acid as the primary nitrogenous waste product (i.e. they are uricotelic). Uric acid is synthesised in the liver and excreted by renal tubular secretion.  The blood level is therefore largely independent of urine flow rate (and is therefore not a sensitive indicator of dehydration in reptiles or birds). Both animal and environmental factors influence uric acid levels. The normal blood uric acid value for most reptiles is 0 to 600 µmol/l.  

===Hyperuricaemia===

===Hyperuricaemia===

Plasma levels of uric acid increase with [[Lizard and Snake Renal Disease|renal disease]] but this is neither a sensitive indicator of renal dysfunction, nor a specific indicator since physiological increases are common. Physiological high levels are seen in several species during [[Hibernation|hibernation]], probably due to decreased tubular function at low temperatures. Healthy snakes should be resampled after a fast if a high uric acid level is seen. Increased uric acid levels are seen with gout and renal failure. The loss of about two thirds of the renal functional mass is necessary before uric acid increases and therefore rises late in the course of renal failure. Renal failure has been associated with nephrocalcinosis (associated with high dietary levels of [[Calcium|calcium]] or hypervitaminosis D), [[Visceral gout|visceral gout]] (caused by dehydration, renal failure or toxicosis) and nephrotoxic drugs (aminoglycosides can result in significant renal tubular necrosis).

Plasma levels of uric acid increase with [[Lizard and Snake Renal Disease|renal disease]] but this is neither a sensitive indicator of renal dysfunction, nor a specific indicator since physiological increases are common. Physiological high levels are seen in several species during [[Hibernation|hibernation]], probably due to decreased tubular function at low temperatures. Healthy snakes should be resampled after a fast if a high uric acid level is seen. Increased uric acid levels are seen with gout and renal failure. The loss of about two thirds of the renal functional mass is necessary before uric acid increases and therefore rises late in the course of renal failure. Renal failure has been associated with nephrocalcinosis (associated with high dietary levels of [[Calcium - Reptiles|calcium]] or hypervitaminosis D), [[Visceral gout|visceral gout]] (caused by dehydration, renal failure or toxicosis) and nephrotoxic drugs (aminoglycosides can result in significant renal tubular necrosis).

==Calcium==

==Calcium==

==Additional tests==

==Additional tests==

===Amylase===

===Amylase===

[[Amylase|Amylase]] production and secretion is not restricted to the pancreas and may originate from several areas in the gastrointestinal tract of many reptiles. [[Amylase|Amylase]] values vary between reptile species and individuals. Increased levels may be useful as a diagnostic indicator in some species but its value in snakes has to be shown.

Amylase production and secretion is not restricted to the pancreas and may originate from several areas in the gastrointestinal tract of many reptiles. Amylase values vary between reptile species and individuals. Increased levels may be useful as a diagnostic indicator in some species but its value in snakes has to be shown.

===Bile acid===

===Bile acid===

[[Bile acids in lizards|Bile acid]] metabolism is presently poorly understood in reptiles. [[Bile acids in lizards|Bile acids]] have been poorly studied and are currently poor diagnostic indicators but further use and research may indicate their usefulness. Normal upper limits of [[Bile acids in lizards|bile acids]] levels in reptiles vary between 10 and 70 µmol/l. [[Bile acids in lizards|Bile acid]] levels in reptiles may be indicators of reduced hepatic function.

Bile acid metabolism is presently poorly understood in reptiles. Bile acids have been poorly studied and are currently poor diagnostic indicators but further use and research may indicate their usefulness. Normal upper limits of bile acids levels in reptiles vary between 10 and 70 µmol/l. Bile acid levels in reptiles may be indicators of reduced hepatic function.

===Electrolytes===

===Electrolytes===

[[Sodium|Sodium]], [[Potassium|potassium]] and [[Chloride|chloride]] levels are presently evaluated in a similar manner to mammals. There is a wide variation in normal levels among and within species. High [[Potassium|potassium]] levels generally carry a poor prognosis.

Sodium, potassium and chloride levels are presently evaluated in a similar manner to mammals. There is a wide variation in normal levels among and within species. High potassium levels generally carry a poor prognosis.

*[[Sodium|Sodium]] - [[Sodium|Sodium]] of normal reptiles generally varies between 120 and 170 mmol/l and varies between species. Hypernatraemia will occur with dehydration (inadequate uptake or excessive loss of fluid).  Hyponatraemia will occur with gastrointestinal loss (diarrhoea).

*Sodium; the sodium level of normal reptiles generally varies between 120 and 170 mmol/l and varies between species. Hypernatraemia will occur with dehydration (inadequate uptake or excessive loss of fluid).  Hyponatraemia will occur with gastrointestinal loss (diarrhoea).

*[[Potassium|Potassium]] - [[Potassium|Potassium]] is generally in the range of 2 to 8 mmol/l. Hypokalaemia in reptiles will occur from inadequate intake or excessive loss (diarrhoea). In mammals hyperkalaemia may occur with excessive [[Potassium|potassium]] intake, decreased secretion or shift from intracellular to extracellular fluid (e.g. severe acidosis).

*Potassium; Potassium is generally in the range of 2 to 8 mmol/l. Hypokalaemia in reptiles will occur from inadequate intake or excessive loss (diarrhoea). In mammals hyperkalaemia may occur with excessive potassium intake, decreased secretion or shift from intracellular to extracellular fluid (e.g. severe acidosis).

*[[Chloride|Chloride]] - [[Chloride|Chloride]] varies in the range of 100 to 150mmol/l. Hypercholoraemia is associated with dehydration and possibly renal failure.

*Chloride; Chloride varies in the range of 100 to 150mmol/l. Hypercholoraemia is associated with dehydration and possibly renal failure.

===Glucose===

===Glucose===

Both animal and environmental factors affect levels. Animal factors include species and nutritional status, and environmental factors include ambient temperature and season. Response to environmental cues tends to be species-specific. [[Glucose|Glucose]] values are generally between 3–16 mmol/l. [[Glucose|Glucose]] values in reptiles are presently considered of limited value because any changes tend to be non-specific and not sensitive.  For instance, hypoglycaemia has been associated with starvation, malnutrition, high protein diets, severe liver disease, endocrinopathies and septicaemia. Hypoglycaemia has also been reported to cause tremors, loss of righting reflex, torpor and non-responsive pupils in some reptiles. Other problems, such as hypocalcaemia, are far more common though. Hyperglycaemia may occur with iatrogenic glucocorticoid use or excess delivery of [[Glucose|glucose]]. Diabetes mellitus should also be considered.

Both animal and environmental factors affect levels. Animal factors include species and nutritional status, and environmental factors include ambient temperature and season. Response to environmental cues tends to be species-specific. Glucose values are generally between 3–16 mmol/l. Glucose values in reptiles are presently considered of limited value because any changes tend to be non-specific and not sensitive.  For instance, hypoglycaemia has been associated with starvation, malnutrition, high protein diets, severe liver disease, endocrinopathies and septicaemia. Hypoglycaemia has also been reported to cause tremors, loss of righting reflex, torpor and non-responsive pupils in some reptiles. Other problems, such as hypocalcaemia, are far more common though. Hyperglycaemia may occur with iatrogenic glucocorticoid use or excess delivery of glucose. Diabetes mellitus should also be considered.

===Lactate dehydrogenase===

===Lactate dehydrogenase===

[[Lactate dehydrogenase|Lactate dehydrogenase (LDH)]] has a wide distribution in reptile tissues and elevations suggest tissue damage. In some species elevations over 1000 iu/l are considered significant.  An increased value for [[Lactate dehydrogenase|LDH]]  indicates tissue damage.

Lactate dehydrogenase (LDH) has a wide distribution in reptile tissues and elevations suggest tissue damage. In some species elevations over 1000 iu/l are considered significant.  An increased value for LDH indicates tissue damage.

==Not commonly used==

==Tests not commonly used:==

*'''[[Alanine aminotransferase|Alanine aminotransferase]]''' - Elevated blood values of [[Alanine aminotransferase|alanine aminotransferase (ALT)]], formerly glutamic-pyruvic transaminase, GPT or SGPT, are not specific for one tissue and are not a reliable indicator of liver or muscle damage. ALT is not usually part of routine biochemistry.

*'''Alanine aminotransferase''' - Elevated blood values of alanine aminotransferase (ALT), formerly glutamic-pyruvic transaminase, GPT or SGPT, are not specific for one tissue and are not a reliable indicator of liver or muscle damage. ALT is not usually part of routine biochemistry.

*'''[[Alkaline phosphatase|Alkaline phosphatase]]''' - [[Alkaline phosphatase|Alkaline phosphatase]] (AP, ALP) is widely distributed in tissue and generally at low levels. Low tissue activity and lack of tissue specificity limit the use of AP as a diagnostic indicator in reptiles.

*'''Alkaline phosphatase''' - Alkaline phosphatase (AP, ALP) is widely distributed in tissue and generally at low levels. Low tissue activity and lack of tissue specificity limit the use of AP as a diagnostic indicator in reptiles.

*'''[[Bilirubin|Bilirubin]]''' - Assessment of [[Bilirubin|bilirubin]] is not a useful diagnostic test since the major bile pigment of reptiles is biliverdin. [[Bilirubin|Bilirubin]] cannot be detected or occurs at low concentrations. Plasma elevations of biliverdin may be useful in the diagnosis of liver-associated disease.

*'''Bilirubin''' - Assessment of bilirubin is not a useful diagnostic test since the major bile pigment of reptiles is biliverdin. Bilirubin cannot be detected or occurs at low concentrations. Plasma elevations of biliverdin may be useful in the diagnosis of liver-associated disease.

*'''[[Creatinine in lizards|Creatinine]]''' - Normal plasma [[Creatinine in lizards|creatinine]] values for reptiles are very low and are a poor diagnostic indicator in reptiles.

*'''Creatinine''' - Normal plasma creatinine values for reptiles are very low and are a poor diagnostic indicator in reptiles.

*'''Gamma glutamyl transferase (GGT)''' - Gamma glutamyl transferase (GGT) activity in plasma and tissue is low or undetectable and GGT appears to be of little diagnostic use.

*'''Gamma glutamyl transferase (GGT)''' - Gamma glutamyl transferase (GGT) activity in plasma and tissue is low or undetectable and GGT appears to be of little diagnostic use.

*'''Urea''' - Since reptiles are primarily uricotelic, blood urea of most reptiles is low.  It is generally considered a poor diagnostic indicator for renal disease in snakes.

*'''Urea''' - Since reptiles are primarily uricotelic, blood urea of most reptiles is low.  It is generally considered a poor diagnostic indicator for renal disease in snakes.

*'''Cholesterol''' - Cholesterol is a useful diagnostic parameter in mammalian biochemistry and is used in human medicine as an indicator for heart disease. Although vascular disease has been observed in reptiles, the relationship between cholesterol levels and disease has not been established in reptiles.

*'''Cholesterol''' - Cholesterol is a useful diagnostic parameter in mammalian biochemistry and is used in human medicine as an indicator for heart disease. Although vascular disease has been observed in reptiles, the relationship between cholesterol levels and disease has not been established in reptiles.

*'''Triglycerides''' - Most of the lipid in the blood of reptiles is in the form of triglycerides (but carotenoid pigments may be present in significant levels in many squamates). Levels vary significantly between species and change slowly with starvation and other environmental stressors.  Triglyceride is not presently a useful diagnostic parameter in reptiles because there is little information relating level to disease states.

*'''Triglycerides''' - Most of the lipid in the blood of reptiles is in the form of triglycerides (but carotenoid pigments may be present in significant levels in many squamates). Levels vary significantly between species and change slowly with starvation and other environmental stressors.  Triglyceride is not presently a useful diagnostic parameter in reptiles because there is little information relating level to disease states.

[[Category:Lizard_Diagnostics|C]]

[[Category:Lizard_Diagnostics|C]]

[[Category:Snake_Diagnostics|C]]

[[Category:Snake_Diagnostics|C]]