See "Small Animal Chemistry Panel"
* Concurrent measurement of serum electrolytes and creatinine is required for fractional excretion values.
See "Large Animal Chemistry Panel"
See "Small Animal Chemistry Panel"
See "Large Animal Chemistry Panel"
Complete Bld Cnt Automated, or CBCA
Non-Mammalian Compl Bld Cnt, or CBC
Partial Blood Count, or PBC
Complete Blood Count, or CBC
* A reticulocyte percentage and absolute reticulocyte count are provided in anemic dogs and cats.
Bile acid concentrations >25-30 umol/L in dogs and > 25 umol/L in cats are suggestive of hepatobiliary disease. These guidelines are valid for pre-prandial (fasting), post-prandial and random (unrelated to eating) samples. Most animals have higher post-prandial than fasting bile acid concentrations, however some animals (up to 20% of dogs) may have higher fasting than post-prandial bile acid concentrations, due to a recent meal, gall bladder contraction during fasting, or delayed gastric emptying. In this scenario, if both results are < 25 umol/L (especially < 15 umol/L), hepatobiliary disease is unlikely.
Based on studies done by Dr. Center at Cornell University, dogs with bile acid concentrations < 25 umol/L do not have evidence of hepatic pathology on biopsy, whereas dogs with values >25 umol/L usually have hepatic pathology. Dogs with bile acid values between 15-25 umol/L are in an equivocal zone (i.e. may or may not have hepatic pathology). Most animals with congenital or acquired portosystemic shunting have markedly increased post-prandial bile acids concentration.
Prolonged fasting, intestinal malabsorption, or rapid gastrointestinal transit may lower bile acid concentrations and decrease the sensitivity of bile acid testing for hepatobiliary disease. Bile acid testing should not be done in an animal that is clinically icteric or has an increased direct (conjugated) bilirubin, since this test does not give any indication of hepatic function or portosystemic shunting in the presence of cholestasis.
Young dogs of breeds predisposed to congenital portosystemic shunts should be tested greater than 16 weeks of age, because bile acid concentrations may be falsely lower in animals younger than this. For stimulation testing, animals should be fed at their routine meal times (e.g. morning) and should be given their regular meal (amount and type).
Bile acids concentration greater than 11 umol/L can be the result of hepatobiliary disease. Slightly increased concentrations (up to approximately 20 umol/L) can result from decreased feed intake for a period of several days or longer. Most horses with hepatobiliary disease have markedly increased bile acids concentration.
Bile acid testing should not be done in an animal that has an increased direct (conjugated) bilirubin or bilirubinuria (both of which indicate cholestasis), since this test does not give any indication of hepatic function or portosystemic shunting in the presence of cholestasis.
Bile acids concentrations are extremely variable in health and therefore have not been found to be useful in diagnosis of hepatobiliary disease. For optimum diagnostic value, bile acids results should be interpreted with regard to clinical findings and other laboratory results.
You will find three test results following the results for both fasting and post-prandial bile acids results. These tests are titled LIPEMIA, HEMOLYSIS, and ICTERUS. These are actually indexes of sample quality and are assessed by the analyzer by passing light at different wavelengths through the sample. The number reported under LIPEMIA measures the turbidity of the sample, which may be due to lipid (fat). The number reported under HEMOLYSIS is a semi-quantitative measurement of the concentration of free hemoglobin in mg/dL. The number reported under ICTERUS is an estimation of the bilirubin concentration in mg/dL rounded to the nearest whole number. These indexes are more quantitative and consistent than visual assessment of these interferences in the sample. The LIPEMIA and HEMOLYSIS index results correlates with a visual assessment of the sample as follows:
LIPEMIA = 30 – 60 appears slightly turbid (hazy)
LIPEMIA = 60 – 120 appears moderately turbid (milky)
LIPEMIA > 120 appears markedly turbid (creamy)
HEMOLYSIS = 20 – 100 appears slightly hemolyzed (pink tinged)
HEMOLYSIS = 100 –300 appears moderately hemolyzed (red)
HEMOLYSIS > 300 appears markedly hemolyzed (dark red)
Lipemia (falsely increases) and hemolysis (falsely decreases) do interfere with bile acid measurement, so efforts should be undertaken to minimize these (by not feeding too large a meal and by separating serum from cells as soon as possible). Our laboratory indicates when bile acid concentrations may have been affected by these interferences. Bile acids should not be performed in an animal with icterus due to cholestasis or any biochemical evidence of cholestasis (high total and direct bilirubin with bilirubinuria), since in these cases, the test does not give any additional information about liver function or vascular abnormalities.
For the fasting sample, blood should be collected after an overnight fast or alternatively just before a meal (when the animal is hungry). For the post-prandial sample, blood is drawn two hours after the animal is fed its regular meal (type of food and amount) to maximize the likelihood of gall bladder contraction. This is often best done at home (where the animal is more likely to eat and have normal gastrointestinal motility). Both blood samples should be collected into red-top vacutainers (serum is preferred for bile acid measurement) and serum should be separated promptly from cells.
Measurement of cholinesterase activity in serum or plasma is an inexpensive and quick screening test that is indicated for animals with a history of possible exposure to organophosphate or carbamate compounds and/or show clinical signs compatible with exposure.
Serum/plasma cholinesterase activity below the reference interval is consistent with exposure to cholinesterase- inhibiting compounds, including organophosphate and carbamate insecticides. If history and clinical signs are suggestive of organophosphate or carbamate poisoning, then testing of tissue, gastric contents, urine, or blood for these insecticides may be warranted.
Cholinesterase activity within the reference interval does not rule out exposure to organophosphate or carbamate insecticides since the range of activity within a species is so broad that an individual animal may have significant reduction of its pre-exposure activity and still be within the reference interval. Cholinesterase activity above the reference interval has no known significance. Hemolysis can increase cholinesterase activity in serum/plasma samples by release of cholinesterase from red blood cells.
Test Name | Calcium, Ionized or Ionized Calcium |
Test Days | M-Sa |
Lag | 1 day |
Samples | 1 mL separated serum |
Container | non-anticoagulant tube (plain red top) |
Coolant | refrigerate |
Please note that for ionized calcium testing, blood samples should be collected into non-anticoagulant (plain red top) tubes. The sample should then be centrifuged and the serum removed anaerobically (using an evacuated needle and syringe through the tube cap) and placed into a second non-anticoagulant tube (once again, inserting the needle through the cap of the tube). The tubes should not be uncapped under any circumstances. Keep the serum cool at all times. Analysis should be performed within 48 hours after collection for optimal results. Alternatively the serum can be frozen, shipped on dry ice, and analyzed within seven days.
Measurement of ammonia is problematic as it rapidly increases with storage in whole blood and also increases with storage in separated plasma. As a result the following handling collection and handling instructions should be followed:
Blood should be collected into EDTA or heparin tubes, separated immediately and the plasma should be frozen. The frozen plasma sample should be shipped to the lab on dry ice (needs to stay frozen). Mark the outside of the shipping box in large letters with the following: PERISHABLE KEEP FROZEN. If the sample arrives at the lab thawed a comment will be added indicating that the ammonia value may be falsely increased from storage.
Blood should be collected into EDTA or heparin tubes, separated immediately and the plasma kept on ice until analysis. Ammonia is stable in plasma for a maximum of 3 hours under these conditions. If sample separation from cells cannot be achieved, the sample should be kept on ice until submission to the laboratory, however ammonia will be less accurate. Mark the outside of the shipping box in large letters with the following: PERISHABLE KEEP COOL.
Control samples (from a clinically healthy animal) collected and handled in the same manner should always be run in conjunction with patient samples, to ensure that sample collection and handling are not responsible for elevations in ammonia.
Please contact the lab prior to collecting and sending the sample. This way testing can be expedited once the sample arrives.
The following interpretation guidelines are based on studies done at Cornell University and are valid for samples collected from 'at risk' TMR-fed cows between 2-14 days precalving (prepartum NEFAs) or 3-14 days post-calving (postpartum NEFAs). We recommend sampling at least 12 'at risk' cows when evaluating total mixed ration (TMR)-fed herds for negative energy balance.
The following interpretation guidelines are based on studies done at Cornell University and are valid for samples collected from 'at risk' TMR-fed cows between 3-14 days post-calving. We recommend sampling at least 12 'at risk' cows when evaluating total mixed ration (TMR)-fed herds for subclinical ketosis.
Clinical ketosis typically occurs in cows during early lactation (usually the first 2-4 weeks). This is also called lactation or spontaneous ketosis and is a consequence of excess negative energy balance due to stresses of calving and lactation. Occasionally, dairy cows in late lactation can also develop clinical ketosis (pregnancy ketosis) due to negative energy balance. Affected cows are dull, inappetant, lose weight and have decreased milk yield. Cows with clinical ketosis in dairy herds fed concentrate rations are frequently concurrently hypoglycemc. This worsens the state of negative energy balance Blood, urine and milk BHB values are often quite high. Blood BHB values >27 mg/dL are considered compatible with clinical ketosis. Cows with underlying hepatic lipidosis may have concurrent elevations in liver leakage enzymes (AST, SDH, GLDH) or cholestatic enzymes (GGT, ALP).
The following interpretation guidelines are based on studies done at Cornell University and are valid for samples collected from 'at risk' TMR-fed cows between 3-14 days post-calving. We recommend sampling at least 12 'at risk' cows when evaluating total mixed ration (TMR)-fed herds for negative energy balance and subclinical ketosis.
The following interpretation guidelines are based on studies done at Cornell University and are valid for samples collected from 'at risk' TMR-fed cows between 3-14 days post-calving. We recommend sampling at least 12 'at risk' cows when evaluating total mixed ration (TMR)-fed herds for negative energy balance and subclinical ketosis.
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