25/26 - Basic Clinical LABS

Question 1

Why are Labs Ordered?

Answer 1

To Confirm a DIAGNOSIS
or to distinguish amoung different forms of a disease/pathology

To assess the severity of a condition

To monitor progress / therapy

To detect side-effects / complications

Question 2

Typical Labs ordered in an ANNUAL CHECKUP

Answer 2

CBC

Lipid + Glucose Panel

Liver Fxn Panel

Blood tests for kidney fxn

Urinalysis

Thyroid / C-reactive Protein / HbA1C

Vitamin D / Homocysteine / PSA

Question 3

CBC

Typical Lab ordered for Annual Checkup

Answer 3

Complete Blood Count

includes:
WBC / RBC

WBC differential

Hematocrit / Hemogloblin

Platelet Count

Question 4

Lipid + Glucose Panel

Typical Lab ordered for Annual Checkup

Answer 4

Total Cholesterol

LDL + HDL
LDL/HDL Ratio

Glucose

Question 5

Liver (Hepatic) Function Panel

Typical Lab ordered for Annual Checkup

Answer 5

blood levels of:

Total Protein

Albumin / Bilirubin

Liver Enzymes

Question 6

Blood tests for KIDNEY FUNCTION

Typical Lab ordered for Annual Checkup

Answer 6

Serum CREATININE

• *BUN**
• *blood urea nitrogen**

Question 7

Urinalysis

Typical Lab ordered for Annual Checkup

Answer 7

Examine specimen for:
color / clarity / odor / pH / spgr

protein / glucose / ketones

Also microscopic analysis for:

bacteria / crystals / blood cells

Question 8

Assays for VITAMIN status Focus on:

Answer 8

DIRECT measurement of the
vitamin / cofactor / precursor
in biological fluids or blood cells

or measurement of:

Urinary Metabolites

Biochemical Function
that requires the vitamin / cofactor
ex. G6P for thiamine deficiency

Question 9

Vitamin A

How is it clinically assayed?

Answer 9

Fat Soluble

Vision / growth / Reproduction
night blindness

Fluorometric

HPLC / RIA

Photometric

Question 10

Fat Soluble Vitamins

How are they clinically assayed?

Answer 10

(ADEK)

HPLC for ALL of them

• RIA** for all except *vitamin E
• not used much anymore due to cost / hazard / license*

Photometric for all except vitamin D

Question 11

Vitamin D

How is it clinically assayed?

Answer 11

Fat soluble vitamin

Ca2+ metabolism / bones / teeth
rickets / osteomalacia

Competitive Binding Protein = CPB

HPLC / RIA

no photometric assay

Question 12

Vitamin E

How is it clinically assayed?

Answer 12

Fat-soluble Vitamin

Antioxidant for unsat-lipids
lipid peroxidation / fragile RBC

Erythrocyte Hemolysis

HPLC, NOT RIA

Photometric

Question 13

Vitamin K

How is it clinically assayed?

Answer 13

Fat-Soluble Vitamin

blood clotting / osteocalcins
increased clotting time + hemorrhages

ProThrombin Time

HPLC / RIA

Photometric

Question 14

Thiamine

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 14

• *B1**
• beri beri*

HPLC / Fluorometric / microbial

Transketolase

Question 15

Riboflavin

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 15

B2
redox / dermatitis, photophobia

Enzyme

HPLC / Fluorometric / Microbial

Question 16

Pyridoxine

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 16

B6
AA + phospholipid metabolism / anemia + convulsions

Tyrosine Decarboxylase

HPLC / no fluoro / Microbial

Question 17

Niacin

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 17

B3
REDOX / pellagra

Fluorometric / Microbial

no HPLC, too common in the immune system

Question 18

Folate

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 18

B9
synthesis of Nucleic+Amino Acids / megaloblastic ANEMIA

same assays as B12

IMMUNOASSAY

CPB = competitive protein binding

no HPLC, common in immune system / no fluoro

Microbial

Question 19

Cyanobalamin

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 19

B12
AA + Lipid metabolism / Pernicious+megaloblastic ANEMIA

same assays as B9, folate

IMMUNOASSAY

CPB = competitive protein binding

• *Microbial**
• no HPLC, common in immune system / no fluoro*

Question 20

Biotin

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 20

B7
Carboxylation / dermatitis

AVIDIN BINDING

Enzymes

PHOTOmetric

Microbial

Question 21

Pantothenic Acid

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 21

B5
Central metabolism / burning feet syndrome

Enzymes

CPB

PHOTOmetric

Microbial

Question 22

Ascorbate

Water Soluble Vitamin, how is it CLINICALLY ASSAYED?

Answer 22

C
connective tissue / scurvy

PHOTOmetric

HPLC

Question 23

What Vitamin can be analyzed by

Erythrocyte Hemolysis?

Answer 23

Vitamin E

antioxidant / lipid peroxidation

Question 24

Which Vitamin can be analyzed by

PROTHROMBIN TIME?

Answer 24

Vitamin K

blood clotting / hemorrhages

Question 25

Which vitamins can be analyzed by

IMMUNOASSAY?

Answer 25

FOLATE + Cyanobalamin
B9 / B12

both also CPB & Microbial assays

Question 26

Which vitamin can be analyzed by

AVIDIN BINDING?

Answer 26

BIOTIN

B7

carboxylation / dermatitis

Question 27

Oral Glucose Tolerance Test

What is done prior / during the test?

Answer 27

OGTT

Controlled diet for 3 days prior to test

After an overnight fast, patient is to swallow a solution with

75 grams of glucose

Then blood samples are drawn at regular intervals and
assayed for glucose

Question 28

Oral Glucose Tolerance Test

What does it measure?

What is a normal response?

Answer 28

Use a BLOOD DRAW to measure

Glucose concentration over time, after the OGTT load

Normal Response
Peak @30 min,
return to fasting @2hours

fasting = 700-1050 mg/L

Question 29

OGTT

What is a Diabetic/abnormal Response?

What values indicates Diabetes?

Answer 29

in an abnormal diabetic response,
BOTH Starting Glucose & Glucose PEAK is HIGHER
slow return to fasting level,
or not dropping to NORMAL fasting (700-1050mg/L)

• *DIABETES**
• *> 2000 mg/L**, after 2 hours after the OGTT load

Question 30

Main differences in clinical test results for

Diabetic vs Non-diabetic

Answer 30

• *DIABETES**
• *>** 2000 mg/L, 2hours post OGTT
• *LATER & HIGHER Peak**
• *Fasting level is also HIGHER**

Normal / Non-diabetic:
Peak @ 30 min
Return to fasting @ 2 hours, (normal = 700-1050 mg/L)

Question 31

Why do we NOT use urinary glucose levels?

Why is BLOOD GLUCOSE preferred?

The fasting blood glucose level can be measured easily with little interference, and it correlates well with the severity of the disease.

Answer 31

In healthy individuals, Glucose MUST exceed >1800 mg/L
before excessive glucose appears in the urine

In Diabetic patients, the renal threshhold can increase to >3000mg/L
Urinary glucose is NOT a sensitive marker

• Also, excessive glucose excretion can be caused by:*
• *Pregnancy / Rickets / Osteomalacia**

Question 32

What is often shown in PREDIABETES?

Answer 32

• *IFG_ and/or _IGT**
• AT RISK for T2DM* + stroke + heart attacks

IMPAIRED FASTING GLUCOSE
FBG = 1000-1250 mg/L
>1260 mg/L is diabetes

IMPAIRED GLUCOSE TOLERANCE
blood glucose level is 1400-2000 mg/L
AFTER a 2-hour OGTT
>2000 is diabetes

Question 33

3 Ways to DIAGNOSE DM by blood glucose levels

What levels?

Answer 33

Tests should be CONFIRMED on a SUBSEQUENT DAY

1) FPG > 1260 mg/L
* (prediabetes = 1000-1250)*

2) Casual plasma BG> 2000 mg/L
3) 2hr OGTT w/ post load value > 2000 mg/L

Question 34

What are the 3 Ketone Bodies?

involved in KETOSIS

Answer 34

Acetone

B-hydroxybutyrate

Acetoacetate

Organic acids, if their levels rise TOO HIGH –> blood pH = ACIDIC

Question 35

At what LEVELS is KETOSIS seen?

What symptoms are seen?

Answer 35

Seen with levels of 30-70 mmol/L

Acetone on the breath may be detectible

Question 36

When does Acidotic Ketosis occur?

Answer 36

when the Blood pH DROPS BELOW 7.3

B-hydroxbutyrate + acetoacetate
Organic acid, concentrations are TOO HIGH
overcome the buffering action of the serum

Question 37

What are the 2 TYPES of

BLOOD GLUCOSE METERS?

and what do they measure?

Answer 37

FIrst we need to get a single drop of blood, from FINGERSTICK

Electrochemical Glucose monitor
uses glucose oxidase -> hydrogen peroxide -> o2
small electrical current

Photometric Glucose Monitor
similar to above, but color change is measured

Question 38

What does HbA1c measure?

And how is it correlated with Diabetes?

Answer 38

AVERAGE BG over the last 2-3 Months

HIGH HbA1c : directly proportional to : degree of HYPERglycemia
indicates a loss of BG control or pt’s compliance

assayed by:
electrophoresis
ion exchange / afffinity chromatography

Question 39

What is NITROGEN BALANCE?

24-hour urine collection used to measure

What are its Positive / Negative values?

Answer 39

Dietary Nitrogen INTAKE - Excretion or Losses
(mainly from AA’s in protein) - (mainly from URINE)

Positive Value = Growth + Development + Pregnancy

• Negative Value = INCREASED catabolism of AA’s + Purines*
• may call for dietary intervention*

Question 40

Where are AA’s filtered out from?

What occurs if the transport is saturated or defective?

Answer 40

AA’s are filtered in the KIDNEY,
reabsorbed in renal tubules by saturable/active transport systems

If this system is saturated or defective,
the AA’s are left in the urine and are excreted

AMINOACIDURIA

results

Question 41

What causes PRIMARY Acidurias?

Answer 41

MUTATIONS IN ENZYMES
that are involved in AA metabolism

loss in activity of enzyme –> RAISES concentration of precursors
which will appear in the urine

Question 42

What is SECONDARY Aciduria?

Answer 42

DAMAGE TO KIDNEY
from various causes:

Viral infection / APAP toxicity / Rickets

Genetic defects in enzyme/transporters in kidney

Question 43

What are SCREENING TESTS for

Aminoacidurias?

Answer 43

Screening Tests
cheap & fast, not quantitative
specimen can come from urine / blood / CSF

TLC w/ ninhydrin spray

Photometric (UV absorbance)

Guthrie (microbiological)

FeCl3 test for PKU

Question 44

What are QUANTITATIVE TESTS

for AminoAcidurias?

Answer 44

Quantitiative Tests
slower, not so cheap + needs special equipment
may use urine or blood w/ pre-treatment

HPLC + Ion-Exchange Chromatography
detection by UV / MS for liquid chromatographic methods

Capillary Electrophoresis
UV / MS detection

Question 45

OTHER Organic ACIDURIAS

other secondary metabolites

Answer 45

Diabetes & Ketone bodies = Acetoacetate + B-hydroxybutyrate

Defects in propionate metabolism
B12 deficiency -> HIGH levels of propionate + methylalonate

• *MSUD** = maple syrup urine disease
• defect in AA metabolism* -> high levels of certain KETO ACIDS

Question 46

What type of Analysis/Test is done for

VOLATILE ANYLYTES?

Answer 46

GC / MC

for small volatile analytes = you can SMELL IT
Ex. Maple Syrup - MSUD

NOT used for amino Acids

Question 47

What are anlytes for KIDNEY FUNCTION TESTS?

Where do the specimens come from?

Answer 47

URINE / BLOOD / SERUM

Analytes:
UREA / Uric Acid + Urate / AMMONIA
CREATINE + CREATININE

High capacity of kidney for filtration -> waste products are not seen
until renal function is GREATLY compromised:

Major function of kidney is elimination of nitrogenous wastes
urea / ammonia / urate

Question 48

What levels/tests are used to monitor the

filtration ability of the KIDNEY?

Answer 48

BUN** (blood urea nitrogen) & **URINARY CREATININE

Nitrogen:Creatinine Ratio is typically 10:1 or 20:1

HIGH RATIO = decreased renal perfusion
cardiac failure / GI bleeding / excess protein / drugs

Low Ratio does not indicate pathology
found with low protein intake
but also with SEVERE LIVER DISEASE

Question 49

What ORGAN(S) do UREA LEVELS track the health of?

Answer 49

BOTH

LIVER + KIDNEY

Synthesis is in the liver
Excretion is through the kidney

Urea is the MAJOR route by which we excrete NITROGEN

Question 50

How do we clinically ASSAY

UREA?

Answer 50

Urea + urease -> Ammonia:
Berthelot
ammonia + phonol -> measure absorbance @ 560nm

• *Glutamate dehydrogenase**
• *UV absorbance @ 340nm**

Alternate CHEMICAL method
DIRECT reaction with diacetyl –> DIAZINE

Buttery smell = diacetyl

Question 51

What are physiological sources of

AMMONIA?

Answer 51

GI TRACT is the main source
NH3 is generated by bacterial action
(proteases / ureases / amine oxidases)

• Some is made by the URIC ACID CYCLE*
• unless there is a defect*

Question 52

HYPER-Ammonemia

Causes / Effects

Answer 52

Caused by:

• *Inherited Deficiencies** in UREA CYCLE ENZYMES
• *Liver Disease** or Renal Failure
• though the MAJOR source of ammonia is the GI TRACT*

High Ammonia = Toxic, depletes TCA cycle & reduce energy
Nerve Cell damage -> Nausea / Coma / Death

Question 53

How is Ammonia Analyzed / tested for?

Answer 53

SERUM samples are preferred

Quantitative Methods:

• *Glutamate Dehydrogenase** = PREFERRED
• *Berthelot Method**

Special precautions to avoid CONTAMINATION from:
poor ventilation / smoking residue
poor venipuncture technique
delays in specimin analysis –> degradation

Question 54

Creatine vs CreaTINine

Answer 54

Creatine –> CreaTINine
SPONTANEOUSLY CONVERTED at a constat rate in the Muscle
reflects the amount of muscle tissue

Creatine + Creatine Kinase -> Phosphocreatine
Phosphocreatine is also converted to CreaTINine
imortant in restoring ENERGY

Question 55

What does CreaTINine clearance reflect?

What organ?

CrCl

Answer 55

Reflects the ability of the KIDNEY to

FILTER metabolic byproducts from the BLOOD

Question 56

How is Creatine / CreaTINine Analyzed/Assayed?

Answer 56

Specimen = Serum / Plasma

CreaTINine reacts w/ alkaline picrate –> orange-red complex
measured spectrophometrically

Also enzymatic methods, creaTINine -> creatine ->
color change or UV abosorbance change

or algorithim to compare with measured GFR
24 hour urine collection is ideal, but 12 is fine

Question 57

How is Uric Acid (Urate) produced?
what does it do?

Answer 57

• *Catabolism of PURINES** = Adenosine & Guanine
• minor source is from DIETARY PURINES*

Uric Acid is excreted through kidney –> urine

in VIVO it is an antioxidant, but will precipitate <5.6 pH
GOUT
poor circulation etc.

Question 58

What is HYPER-Uricemia?

What diseases does it cause?

Answer 58

Serum / plasma level of urate > 7.0 mg/dL for men >6.0 for women

GOUT
due to urate precipitation in JOINTS

Lesch-Hyhan Syndrome
deficiency in HGPRT enzyme & blocks purine solvage
HIGH levels of hypoxanthine + guanine –> hyperuricemia

Question 59

How is Urate/Uric Acid Clinically ASSAYED?

Answer 59

HPLC

Phosphotungstic Acid = PTA
BLUE color as PTA is reduced by urate

Uricase
UV absorbance as enzyme, urea -> allotoin

Dry chemistry systems

Question 60

Sketch the transport of LIPIDS

throughout the BODY

Answer 60

Question 61

What is the role of Lipoproteins?

Answer 61

Lipoproteins transport LIPIDS through circulation
in micelllular-like complexes
specialized system of lipoproteins & receptors

Body fat is mainly composed of
triglycerides = major long term energy storage
TG / Cholesterol form fat droplets

Question 62

What are LDLs?

Answer 62

Low Density Lipoprotein
ideally <100mg/dL
Still a necessary part of LIPID TRANSPORT
LDL-> peripheral tissue

Associated with Atherosclerosis = HARDENING of arteries
fat deposits in the lining of arteries –> CHD or artery blockage

Question 63

What are HDL’s?

Answer 63

HIGH density Lipoprotein
ideally >40 mg/dL

Aids in the REMOVAL OF CHOLESTEROL
from arterial wall plaques

LDL -> Peripheral Tissue -> HDL -> back to LIVER

reduce risk of Atherosclerosis

Question 64

What are S/Sx of High Serum Lipids?

And What CAUSES this?

Answer 64

• *XANTHOMAS** = swelling full of lipids
• *Enlarged LIVER / SPLEEN**

caused by:
high calorie diet / lack of exercise / cigarettes
T2DM / corticosteroids / estrogens / retinoids
B-adrenergic blocking agents

Optimal fasting serum levels:
Total cholesterol < 200 mg/dL
LDL cholesterol < 100 mg/dL
HDL cholesterol > 40 mg/dL
TG < 150 mg/dL

Question 65

What are Routine Assay methods for

Cholesterol & Triglycerides?

Answer 65

Serum / Plasma Sample + enzymes
Measure H2O2 = hydrogen peroxide –> colored dye

measured SPECTROPHOTOMETRICALLY

similar for both Cholesterol / TG’s

Question 66

What are Routine Assay methods for

HDL?

Answer 66

Precipitate HDL containing apo B-100

using cetrifugation and heparin-MnCl2

measure cholesterol REMAINING in the SUPERNATANT

(VLDL + LDL + chylomicrons)

Question 67

What are Routine Assay methods for

LDL?

Answer 67

Selectively precipitate LDL, using polyvinyl sulfate or heparin
@ low pH, then measure cholesterol in supernatent

LDL = (Supernatent value) -MINUS- (TOTAL Cholesterol)

Question 68

What are Routine Assay methods for

Total LipoProtein

Answer 68

NMR
to measure lipoprotein associated FA methyl groups

Electrophoresis
to seperate lipoproteins

Question 69

What does Dehydration result in?

And what are the 3 types of Dehydration?

Answer 69

HYPER-Natremia + HYPER-Osmolarity

• *HYPER-Natremic** Dehydration
  from: water & food deprivation / sweating / diuresis / diuretic
• Normo*Natremic Dehydration
  from: vomiting & diarrhea
• HypoNatremic* Dehydration:
  from: diuretic therapy / inefficient adrenocorticoids + renal disease

(Na+ is high extracellularly, Na out)

Question 70

What CAUSES Overhydration?

What is the RESULT?

Answer 70

NOT caused by Excessive Water Intake (POLYDIPSIA)

typically caused by IMPAIRED RENAL FUNCTION
too much water is retained by the kidney

hypoNatremia***, ***hypo-osmality

Question 71

What is EXCESS Sodium associated with?

Na Out

Answer 71

Too much dietary salt

CHF + Liver / Renal Disease

Pregnancy

HYPER-Aldosteronism

AAS / FES / Ion-Selective Electrode

Question 72

What is Sodium depletion associated with?

Answer 72

Vomitting / Diarrhea

Sweating

• Renal** / *_hypo-aldosteronism_
• *DM**

BURNS

AAS / FES / Ion-Selective Electrode​

Question 73

what is HYPER-Kalemia associated with?

Answer 73

• *K**idney is the major organ for excretion
• *K - IN**, very steep gradient INSIDE

Kidney disease

Crush / Crash Injuries

Damaged Cells -> LEAK POTASSIUM

AAS / FES / Ion-Selective Electrode

Question 74

Chloride Balance

Answer 74

CL intake is mainly through Diet
Excretin is mainly through URINE, little through FECES

HYPER / Hypo - Chloremia
is associated with SODIUM excess or depletion

exceptions can occur during _acidosis / alkalosis_

Color-agents + spectral changes / Ion-Selective Electrode

Question 75

Typical Methods for Assaying

ELECTROLYTES

Answer 75

ION-SELECTIVE ELECTRODE

for Sodium / Potassium / Chloride

Sweat

Question 76

How do we Sample / TEST for this electrolyte?

Sodium

Answer 76

Sample:

• *Serum / Plasma**
• *Urine / Feces / GI Fluids**

AAS = Atomic Absorption Spectrophotometry

FES = Flame Emission Spectrophotometry

Ion-Selective Electrode

may also monitor a enzyme or chromophore

Question 77

How do we Sample / TEST for this electrolyte?

Potassium

K IN

Answer 77

Sample:
Serum / Plasma ( no RBCs that could release K+)

AAS = Atomic Absorption Spectrophotometry

FES = Flame Emission Spectrophotometry

Ion-Selective Electrode

Question 78

How do we Sample / TEST for this electrolyte?

Chloride

Answer 78

Sample:
Urine / Plasma / Serum

Titration with color agents + monitor spectral changes

Ion-Selective Electrode

Question 79

How do we test for CYSTRIC FIBROSIS?

Answer 79

SWEAT

Assay for:
Conductivity

CHLORIDE SPECIFIC ELECTRODE
ion-selective electrode

Question 80

LIVER PATHOLOGIES

Answer 80

Problems with EXCRETION:

• *Bile Acids_ & _Jaundice**
• Xenobiotic Metabolis*m = DRUG Metabolism

Hepatic Synthetic Function Dysruption:
metabolism of Carbs / Fats / Protein

Cirrhosis / portal HYPER tention / Varices / Ascites

Coagulation Factors

GALLSTONES

Question 81

What is CHOLESTASIS?

and how is it Diagnosed?

Answer 81

Bile is NOT flowing from the liver -> duodenom

due to:
gallstones / malignant growths
liver disease / drugs

ALKALINE PHOSPHATASE = ALP

Question 82

What does Bilirubin / frationation Test diagnose?

Answer 82

Jaundice

Disorders of metabolism

Jaundice in the NEWBORN

Question 83

What does AST / ALT test for?

Aspartate / Alanine Aminotransferase

Answer 83

AST = Sensitive test of Hepatocellular Disease

ALT = Sensitive + More Specific test of Hepatocellular Disease

Question 84

What does Albumin test help Dianose?

Answer 84

Indicator of SEVERITY & CHRONICITY

of hepatic fxn / disease

Question 85

What does Prothrombin Time test DIAGNOSE for?

Answer 85

Test for liver disease’s SEVERITY

Cholestasis
also is tested by ALP

Question 86

What is the biochemical origin of BILIRUBIN?

How is it Excreted?

Answer 86

Heme Breakdown product

Conjugated with GLUCURONIC ACID –> excreted in the FECES
= Direct Bilirubin

Indirect bilirubin = unconjugated form

Urobilinogen = reduced form of bilirubin
occurs when liver’s metablic capacity is exceeded
detected by a color change rxn in urine

Question 87

How do we Assay BILIRUBIN?

Answer 87

Direct Bilirubin Assay
react with diazotized sulfanilic acid w/ serum / plasma
measure color change

Urine Specimen:
dipstick impregnated w/ diazo reagent
also gives color change

Question 88

Assay difference between
Conjugated / Unconjugated / Total
BILIRUBIN

Answer 88

Total Bilirubin
Seperate assay with alcohol to ACCELERATE RXN

Conjugated = Direct Bilirubin Assay
reacted with diazotized sulfanilic acid, measure color change

• UNconjugated = Indirect Bilirubin, *_much slower RXN_
• *Total - Direct = Indirect**

Question 89

How do we assay for

Total Protein & Albumin?

Answer 89

Dye-Binding:
FAST & CHEAP, but less delicate

Biuret
chemical rxn -> color change, dependent on AMIDE bonds

Lowry
chemical rxn -> color change, dependend on Tyr + Trp Content

Direct photometric
Measure UV absorbance @ 200-225nm
not preffered due to interfering substances

Question 90

What do BIURET / LOWRY assays test for?

Answer 90

TOTAL PROTEIN / ALBUMIN

Biuret = amide bonds, color change

Lowry = Tyr + Trp content, color change

Question 91

What are assays for SPECIFIC Liver Proteins?
ex.
Complement Factors / Clotting Factors

AST / ALT / LDH enzymes

Answer 91

IMMUNOASSAYS
kits are cheap, and fast + specific
some cross-reactivity w/ isozymes

Electrophoretic Assays of SERUM samples
good for seperating / quantating isozymes

Question 92

What are specific PATHOLOGIES of

Gastric / Pancreatic / Intestinal Function?

and what are
typical markers?

Answer 92

Tumors of GI / Pancreas

Ulcers / Pancreatitis

Cystic Fibrosis

variety maldigestion/malabsorption disorder

Hormones / Enzymes / Unabsorbed food compotents
markers

Typically assayed by IMMONOASSAYS

Question 93

What are selected HORMONES / ENZYMES that are tested for

Gastric / Pancreatic / Intestinal Function?​

And how are they

ASSAYED?

Answer 93

MOST HORMONES = Immunoassay
Gastrin / VIP / GIP
Pepsin/pepsinogen

Trypsin / Elastase / Chymotrypsin
synthetic substratess -> color change + IMMUNOASSAY

• *Amylase / Lipase**
• *coupled enzyme reactions** -> colored products -> spectrophotometrically + IMMUNOASSAY

Question 94

What are KEY MARKERS in

Bone / Mineral Disorders?

And how are they caused?

Answer 94

INORGANICS
Ca / Mg / Phosphate

from THERAPY

• *Diuretics** -> lower Mg2+, RAISE Ca2+
• *Lithium** -> RAISE BOTH Mg + Ca
• *Vit D / A** -> RAISE Ca

**Hormones** = **vit D** + **ParaThyroid hormone**
Enzymes = **alkaline phosphatase**

Question 95

How do we Test / Assay for this inorganic marker for Bone/mineral disorders?

Phosphate

Answer 95

Use Serum or Heperinized Plasma,
EDTA/other anticoags interfere with assay

ammonium molybdate ->

UV-Vis Abosprtion

Question 96

How do we Test / Assay for this inorganic marker for Bone/mineral disorders?

Calcium / Magnesium

Answer 96

Using chelating dyes -> colored complex

UV-Vis Absorption

AAS

Ion-Selective Electrodes

Question 97

How do we Test / Assay for this hormone/enzyme for Bone/mineral disorders?

Vitamin D & Metabolites

Answer 97

column chromatography

HPLC / UV Absorption / Immunoassay

Question 98

How do we Test / Assay for this hormone/enzyme for Bone/mineral disorders?

Answer 98

IMMUNOASSAYS

for all

calcitonin / PTH / collagen telepeptides / osteocalcin

Question 99

How do we Test / Assay for this hormone/enzyme for Bone/mineral disorders?

Alkaline Phosphates

Answer 99

marker for BONE FORMATION

Immunoassay

or Complicated enzymatic Methods

Question 100

What are typical markers for TUMORS?

and how are they tested for?

Answer 100

May express Aberrant Proteins or Excess “normal” proteins

Unusual carbs / polysaccherides
Mutated Genes

IMMUNOASSAYS

some use DNA sequence detection

mass spectrometry