Chem lect 21: Eval musculoskeletal and hepatic systems

Question 1

Reference intervals (RI) for enzymatic assays

Answer 1

• RI’s needed to interpret results of patient
• Different instruments/reagents produce different results for enzymes
  
  • eg temperature of assay
• Best to RI’s for your lab especially for enzymes
  
  • not as much difference for hematology assays

Question 2

Why would enzymes increase in the blood?

Answer 2

• cellular leakage of enzyme
  
  • cytoplasmic release following plasma membrane damage or fragmmentation
    
    • blebosomes
  • release of cytosol or organelles following necrosis
• increased synthesis of enzyme (induction)
  
  • by existing cells
  • by hyperplastic/neoplastic cells
• decreased inactivation or clearance of enzymes
  
  • ex: renal excretion of amylase
• absorption of maternal enzymes in colostrum
  
  • (ALP and GGT in certain neonates)

Question 3

Physiochemical features that influence diagnostic use

(i.e. lead to inc enzyme activity in blood)

Answer 3

• enzyme activity in target cell > blood
• long enough half-life (hours) so enzyme accumulates in blood prior to activation
• access to blood vs fate of enzyme from luminal epithelium
  
  • directly
  • lymphatics

Question 4

Biometrics of ‘ideal’ diagnostic test

(ENZYMES)

Answer 4

• want high sensitivity
  
  • test detects sick patients
• Want high specificity
  
  • normal results when disease is absent

Question 5

Exceptions to clinical significance

Answer 5

• Certain enzymes
  
  • ALP in cats
  • GGT in dogs and cats
  • SDH
• Low grade inflammatory lesion (vs acute ‘flare up’)
• decreased number of target cells
  
  • necrosis or fibrosis
  • decreasing enzye activity may be a bad sign
  • organ function tests more reliable than enzyes
• Inhibitors of enzye activity
  
  • pancreatic lipase

* dec enzyme activity below RI is not clinically significant

Question 6

Muscle-origin enzymes

Answer 6

• CK, AST, LDH
• increases attributed to ‘leakage’ from injured skeletal myocytes
  
  • reversible vs irreversible injury
• increased enzyme activity correlates with number of injured cells
  
  • not type of injury (mild, necrotic, etc)

* can’t tell if damage is reversible or irreversible

* can’t tell if cells are damaged or dead

Question 7

Causes of myopathies

Answer 7

• Traumatic
  
  • HBC, downer, post-op, IM injections
• Exertional
  
  • exercise, endurance, seizures, trailering
• Degenerative
  
  • rhabdomyolysis, Senna, capture mypathy
• Inflammation
  
  • clostridial myositis
• Nutritional
  
  • Vit E/Se deficiency
• Ischemic
  
  • Saddle thrombus
• Metabolic
  
  • equine glycogen storage

Question 8

Creatine kinase

CK

Answer 8

• Leakage
• Source
  
  • skeletal (+ cardiac/smooth)
    
    • muscle, brain
    • Isoenzyes not used
• Serum half life
  
  • very short (hours)
• Clinical application
  
  • highly specific and sensitive for myopathies
• Overly sensitive
  
  • inc (>3X) in animals w/o significant myopathy

Question 9

Aspartate aminotransferase

AST

Answer 9

• Leakage
• Source
  
  • sk muscle
  • hepatocytes
  • other cells (Incl RBCs)
• Serum half life: hours to days
• Clinical applications
  
  • sensitive, but low specificity (muscle vs. liver origin)
    
    • need other specific enzymes (CK, ALT) to ID tissue source of leakage

Question 10

Lactate dehydrogenase

LDH

Not a test question

Answer 10

• Leakage
• Sources: multiple
  
  • skeletal muscle
  • liver
  • WBCs
  • RBCs
• Serum half-life: varies
• Clinical application: not much
• Not includedin chem panels

Question 11

ALT in muscle damage

Answer 11

• Mild elevations of ALT may be seen in dogs and cats
• liver disease is most usual cause of increases in these enzymes
• young dogs with muscular dystrophy
  
  • inc CK, ALT
• dystrophic deficient cats
  
  • inc CK, ALT

Question 12

Uncommon blood changes in massive rhabdomyolysis

Answer 12

• release of intracellular analytes from myocytes
  
  • hyperkalemia
  • hyperphosphatemia
  • creatine => inc creatine

Question 13

Muscle Disease beyond routine chem panel

Answer 13

• Urine myoglobin (skeletal)
• Plasma troponins (skeletal, cardiac)
• Pro-BNP, Pro-ANP (cardiac)

Question 14

Muscle Disease

Answer 14

• Myoglobin
  
  • muscle necrosis releases myoglobin
  • freely filters into urine > myoglobinuria
  • Urine ‘dipstick’ reacts to blood, hemoblobin and myoglobin
  • Clinical signs
    
    • enzymes
    • urinalysis
    • CBC can help differentiate

Question 15

Troponin

Not on test

Answer 15

• Cytosolic myofibrillar protein (not an enzyme) released from damaged cardiac and skeletal muscle
• Cardia troponin (cTI) specific for detecting myocardial disease
• Measured by immunoassay

Question 16

Natriuretic peptides

Answer 16

• released in response to cardiac myocyte stretch
  
  • vasodilation
  • natiuresis
• Inc blood levels with inc cardiac myocyte stretch/stress
• Commercially available (IDEXX)

Question 17

Natriuretic Peptides

Pro-BNP

Answer 17

Preliminary investigations in veterinary medicine

• causes of dyspnea
• Screen occult heart disease
• Predict morbidity/mortality with cardiac disease

Question 18

Liver physiology

What can go wrong

Answer 18

• Makes most proteins (albumin)
• Makes most coagulation factors
• Makes fuel
  
  • glucose, glycogen, lipoproteins
• Makes cholesterol
  
  • membranes and hormones (cortisol and testosterone)
• Makes tihngs to eliminate
  
  • urea and bilirubin
• Processes RBCs and hemoglobin
• Detoxifies endogenous and exogenous chemicals and drugs
• Filters bacteria from portal blood

Question 19

Serum/plasma chemistry tests for detection of liver disease

Answer 19

• hepatic damage
  
  • hepatocellular injury
    
    • leakage enzyme
  • cholestasis
    
    • induced enzymes
• Decreased hepatic function
  
  • synthetic function tests (albumin)
  • Excretory function tests (bilirubin)

Question 20

Liver tests

Answer 20

• Hepatocyte injury or ‘leakage’
  
  • ALT, AST, SDH
• Cholestasis
  
  • ALP, GGT
• Liver function
  
  • direct tests: bile acids, ammonia
    
    • in healthy animals, 95% of bile acids are removed from portal blood and recycled by liver
  • indirect tests
    
    • total bilirubin, albumin, glucose, BUN, cholestasis, coagulation factors

Question 21

Enzyme Abbreviations

• ALT
• AST
• SDH
• LDH
• CK
• GGT
• ALP

Answer 21

• ALT: (Almost) Always Liver Test
• AST: A Sometimes (liver) Test
  
  • could be from muscle or lysed RBCs
• SDH: Sick Depressed Horse (test)
• LDH: Lotta Darn Help (not)
• CK: Cramp Knot (test)
  
  • muscle
• GGT: Grungy Gall Test
• ALP: A Liver Possibility

Question 22

ALT

Alanine aminotransferase

Answer 22

• Leakage
• Source:
  
  • hepatocytes
  • skeletal muscle in dogs/cats
• Serum half-life: hours/days
• Clinical application:
  
  • sensitive and specific for hepatocellular injury in dogs/cats
  • not used in ruminants, horses, swine

Question 23

AST

Aspartate aminotransferase

Answer 23

• Leakage
• Source
  
  • skeletal muscle
  • hepatocytes
  • other tissues incl RBCs
• Serum half life: hours/days
• Clinical application
  
  • sensitive, but low specificity
    
    • muscle vs liver
    • need ALT and CK for comparison

Question 24

SDH

Sorbitol dehydrogenase

Answer 24

• Leakage
• Source
  
  • hepatocytes
• Half life: hours
• Clinical application
  
  • very sensitive and specific for hepatocellular injury
  • used mostly for horses, ruminants and swine
  • increases not very marked
• limited availability of test, ustable storage

Question 25

Comparison of enzyme activities in blood during active liver vs. muscle disease

Answer 25

Question 26

Cholestasis (impaired biliary flow)

Answer 26

• between hepatocytes and duodenum
• Intrahepatic
  
  • canaliculi and hepatic biliary duct flow affected
• Extrahepatic
  
  • gall bladder and common bile duct flow affected
• Markers: Tbili, Chol, Bile Acids, ALP, GGT
• Distinction not possible with chemistry tests
  
  • need imaging or surgery

Question 27

Bile acids made from

Answer 27

• cholesterol backbone

Question 28

Examples of cholestatic dzs

Answer 28

• hepatocellular swelling from accumulatin of lipid or glycogen
• inflammation (hepatitis, cholangiohepatitis, cholangitis)
• Neoplastic cell infiltration
• Common bile duct obstruction (colethiasis, pancreatitis) or leakage
• Disruption of hepatocellular bilirubin excretion
  
  • functional cholestasis (e.g. sepsis)

Question 29

Cholestatic enzymes

ALP, GGT

Answer 29

• Cholestatis induces synthesis of ALP and GGT which are bound to cell membranes
• ALP on canalicular surface of hepatocytes is cleaved by phopholipase
  
  • activated by increased bile acids during cholestasis
  • crosses cell to sinusoidal slurface and enters blood
• Cholestasis causes biliary epithelium to undergo hyperplasia
  
  • then synthesizes more GGT
• requires days for inc in induced inzyme activity vs immediate release of leakage enzyes

Question 30

ALP mostly comes from

Answer 30

Hepatocytes

Question 31

GGT mostly comes from

Answer 31

biliary epithelium

Question 32

Alkaline phosphatase

ALP

Answer 32

• Source
  
  • Hepatocytes
  • biliary epithelium
  • osteoblasts
  • colostrum
• half-life
  
  • varies with isoform and species
    
    • 3 days dog
    • 6 hours cat
• Variable sensitivity for cholestasis and low specificity
  
  • depends on species
  • many sources of ALP

Question 33

Inc ALP activity

Answer 33

• Cholestasis Dog > Cattle > Cat, horse
  
  • inc ALP precedes hyperbilirubinemia
  • Feline ALP: any inc is important
• Iatrogenic elevation in dogs
  
  • glucocorticoid induction
  • phenobarb
• Young animals have inc ALP from bone or bone abnormalities
  
  • non-healing fractures
  • osteosarcoma
  • animals
• Colostrum ingestion (dog, cats) few days
• Late pregnancy of cats (placental ALP)
• Mammary neoplasms

Question 34

Gamma glutamyltransferase

GGT

Answer 34

• Source
  
  • biliary epithelium
  • renal tubules
    
    • renal tubular GGT detected in urine not blood
• Half-life: 3 days

Question 35

Increased GGT activity

Answer 35

• Cholestasis
  
  • more specific (vs ALP) for cholestasis
  • More sensitive (vs ALP) in cats, horses, cattle
  • bottom line: assay ALP and GGT?
• Colostrum ingestion of mammary GGT a few days postnatal
  
  • puppies, calves
• Drug induction in dogs
  
  • less effect vs ALP
  • Steroids
  • phenobarbital

Question 36

Overview of liver function tests

Excretory

Synthetic

Answer 36

• Excretory
  
  • bilirubin
  • bile acids
  • ammonia
• Synthetic
  
  • albumin
  • urea (BUN)
  • cholesterol
  • glucose
  • coagulation factors

*tests (n=5) on routine chemistry panels

* notice missing hepatic tests….

Question 37

BIlirubin as a hepatic function test

Answer 37

• Routinely available
  
  • less sensitive for hepatic function vs bile acids
  • variable sensitivity for cholestasis
    
    • less so in dogs

Question 38

Metabolic pathway of bilirubin

Answer 38

• Hemoglobin degraded to unconjugated bilirubin
• Unconjugated bilirubin binds to albumin in plasma, travels to liver
• Liver conjugates bilirubin to make it more soluble for excretion
• Excretion through biliary tract into intestine

Question 39

Categories of hyperbilirubinemia

Pre-hepatic

hepatic

post hepatic

Answer 39

• Pre-hepatic
  
  • mostly unconjugated
• Hepatic
  
  • mix of unconjugated/conjugated
• Post-hepatic
  
  • mostly conjugated

*icterus clinically evident when total bilirubin > 1.5 mg/dL

Question 40

Tests for bilirubin

Blood and urine

Total bilirubin

bilirubin splits

urinary bilirubin

urinary urobilinogen

Answer 40

• Total bilirubin (plasma/serum)
  
  • routine chem panel
• Bilirubin ‘splits’ (plasma/serum)
  
  • special request
  • direct
    
    • conjucated (including delta bili)
  • indirect
    
    • unconjugated (calculated)
• Urinary bilirubin (urine dipstick)
  
  • interpretation for bilirubinuria in dogs vs cats
• Urinary urobilinogen (urine dipstick)
  
  • not clinically imp

Question 41

Bilirubin tests in the real world

Answer 41

• Typically just inc total bilirubin, don’t request splits
• Best candidate for determining splits
  
  • anorectic horses with suspected liver dz
• Categorize ‘pre-hepatic’ or ‘hepatic/post-hepatic’ using other data
  
  • PCV for anemia
  • ches for liver dz
  • leukograms for sepsis

Question 42

Metabolism of bile acids

Answer 42

• Synthesized from cholesterol in hepatocytes
• conjugated and excreted into bile
• ‘stored’ in gall bladder
  
  • CCK causes release into small intestine from gall bladder
  • Aids in fat digestion
• Reabsorbed in ileum, enters portal circulation
• uptake/clearance by hepatocytes from portal veins
  
  • highly efficient clearance (90% 1st pass)
• Enterohepatic cycle re-starts (95% overall recovery)
  
  • small losses in feces, urine

*not on routine panels

Question 43

Bile acids excreted into….

Should not be inc in….

Answer 43

Duodenum

Peripheral blood samples

Question 44

Basis for bile acid testing

Answer 44

• Evaluates excretion and subsequent clearance of bile acids by hepatocytes
• Requires healthy
  
  • hepatocytes
  • intestinal absorption
  • portal circulation
• Detects
  
  • hepatocellular dz
    
    • shunting vessel concerns…
  • cholestasis
  • hepatic circulation disorders (+malabsorption?)
• Very sensitive and specific for liver dz in all species

Question 45

Bile acid testing

Indications and procedure

Answer 45

• Not a routine test ($$)
• Indicated when hepatic enzymes/function tests are minimally altered but liver dz still suspected
• NOT indicated if hyperbilirubinemia of hepatic origin is present
  
  • redundant
• Fasting (8-12 hours)
• postprandial (2 hrs post small meal) serum samples in dogs/cats
  
  • postprandial more sensitive
  • single test in ruminants and horses

Question 46

Increased bile acids

Answer 46

• Decreased hepatic clearance
  
  • portosystemic shunts
  • hepatocellular disease
• Decreased hepatic biliary excretion
  
  • intrahepatic and extrahepatic cholestasis
  • functional cholestasis
    
    • e.g. extrahepatic sepsis

Question 47

Maltese dog bile acid results

Fasting: 36 ug/dL H [0-10]

Postprandial: 45 ug/dL H [0-20]

Answer 47

• maltese dog thing:
  
  • we don’t no what the hell goes on with them
  • not indicative of active liver dz

Question 48

Mixed breed bile acid results

Fasting 25 ug/dL H [0-10]

Postprandial 18 ub/dL [0-20]

Answer 48

• Considerations
  
  • Event during fasting
  • spontaneous gall bladder contraction
  • bile flow bypassed gall bladder
    
    • gall bladder contracts whenever it wants (CCK contracts gall bladder)
    • postprandial more sensitive for liver dz
• Technique
  
  • dog vomited fat meal before stimulating gallbladder release…?

Question 49

Problems with sensitivity/specificity

Answer 49

• excess fat
  
  • induces post-prandial lipemia that intereferes with absorbance
• therapeutic use of bile acids
  
  • ursodeoxycholic acid….? may or may not affect assay
• falsly decreased results if severe intestinal dz
  
  • PLE: decreases intestinal reabsorption of bile into protal circulation

Question 50

‘Ammonia’

(ammonium, NH₄)

Significance

Answer 50

• Produced from protein degradation by enteric bacteria
• absorbed by intestines and cleared from protal circulation by hepatocytes
  
  • enters urea cycle
    
    • hepatic detoxification
• SIgnificance
  
  • accumulates during liver disease
    
    • >60% loss of functional mass
  • role in hepatic encephalophathy
    
    • causes neurologic signs => these make us want to run ammonia tests

Question 51

Ammonia test procedure

Answer 51

• ammonia can be generated in tube after collection
  
  • must send on ice
  • must analyze within a couple of hours
• should maybe send a normal sample too to rule out handling problems
• bile acids much less complicated

Question 52

Hyperammonemia

rule outs

Answer 52

*typically run on fasted blood sample

• hepatocellular dz (dec uptake)
• Hepatic vascular shunts (PSS)
• urea cycle disorders (rare)
• urea toxicosis in ruminants
  
  • ​non protein nitrogen

Question 53

Decreased concentrations of analytes synthesized by hepatocytes

Answer 53

* not sensitive or specific but useful in concluding liver disease

• albumin
• urea
• cholesterol
• glucose
• clotting factors

Question 54

Effects of decreased hepatic synthesis

Hypoalbuminemia

Dec BUN

Hypocholesterolemia

Hypoglycemia

Coagulopathy

Answer 54

• Hypoalbuminemia
  
  • Late event in liver disease (80% loss function)
  • Other causes
    
    • inflammation
    • renal or intestinal loss + hyperglobulinemia?
• Dec BUN
  
  • Polyuria from inabilty to conc urine
• Hypocholesterolemia
  
  • also from cholestasis
• Hypoglycemia (late, 80% loss, least likely?)
  
  • hyperglycemia with decreased hepatic uptake
• Coagulopathy

Question 55

Coagulation disorders in liver dz

Answer 55

• Dec synthesis of coagulation factors
• Dec activation of Vit K dependant factors (II, VII, IX, X)
• Liver necrosis causes DIC
• Dec clearance of FDPs, activated coagulation factors

Question 56

Bilirubin on urine dipstick….

Answer 56

Always bad in cats

Shows up in urine before it shows up in blood… I think

Question 57

Answer 57

Ammonium biurates and bilirubin crystals

Question 58

Microcytosis

Microcytosis in absence of anemia

Answer 58

• decreased liver function could mean less processing of cholesterol to make the lipid bilayer of cell wall membrane
• something about processing iron

Microcytosis in absence of anemia

• shunts
• dec liver function
• japanese breeds

*microcytosis not very sensitive