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MTAP 1 Clinical Chemistry > 3.2.6 Clinical Enzymology (Miscellaneous Enzymes) > Flashcards

3.2.6 Clinical Enzymology (Miscellaneous Enzymes) Flashcards

1
Q

Alcoholic liver disease, Microsomal induction of drugs and alcohol

a. Gamma glutamyl transferase
b. 5 Nucleotidase
c. Acid Phosphatase
d. Aldolase

A

a

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2
Q

Uses Szasz method

a. Gamma glutamyl transferase
b. 5 Nucleotidase
c. Acid Phosphatase
d. Aldolase

A

a

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3
Q

Best alcoholic marker

a. Gamma glutamyl transferase
b. 5 Nucleotidase
c. Acid Phosphatase
d. Aldolase
e. ALP

A

a

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4
Q

If ALP is high, Increase in GGT, and 5NT

a. Liver
b. Bone

A

a

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5
Q

If ALP is high, Normal in GGT, and 5NT

a. Liver
b. Bone

A

b

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6
Q

Intrahepatic cholestasis Only

a. Gamma glutamyl transferase
b. 5 Nucleotidase
c. Acid Phosphatase
d. Aldolase

A

b

GGP and ALP has Extrahepatic cholestasis

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7
Q

The following can be used to identify the source of increase ALP:

  • GGP
  • 5 NT
  • ACE

Which of the following does not belong?

A

ACE

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8
Q

GGP, ALP, and 5NT are increased in HBD

T or F

A

T

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9
Q

Szasz method:

p-nitroaniline is a product that produces what color?

a. Red
b. Yellow
c. Blue

A

b

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10
Q

A major source of Acid phosphatase?

a. Prostate
b. RBC
c. Heart

A

a and b

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11
Q

A major source and richest source of Acid phosphatase?

a. Prostate
b. RBC
c. Heart

A

a

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12
Q

Specimen consideration of Acid phosphatase is

Avoid hemolysis

T or F

A

T

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13
Q

Prostatic CA / Hyperplasia

a. Gamma glutamyl transferase
b. 5 Nucleotidase
c. Acid Phosphatase
d. Aldolase

A

c

Not practically use today

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14
Q

Resolution of Rape cases

a. Gamma glutamyl transferase
b. 5 Nucleotidase
c. Acid Phosphatase
d. Aldolase

A

c

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15
Q

Roy method

a. Gamma glutamyl transferase
b. 5 Nucleotidase
c. Acid Phosphatase
d. Aldolase

A

c

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16
Q

Roy method includes substrate which is:

a. Alanine
b. Pyruvate
c. Thymolphtalein monophosphate

A

c

17
Q

Chemical inhibition for ACP includes:

  • Tartrait
  • Copper
  • Formaldehyde

T or F

A

T

18
Q

Inhibits prostatic ACP

a. Tartrait
b. Copper
c. Formaldehyde

A

a

19
Q

Inhibits RBC ACP

a. Tartrait
b. Copper
c. Formaldehyde

A

b and c

20
Q

Elevation in Skeletal muscle

a. Gamma glutamyl transferase
b. 5 Nucleotidase
c. Acid Phosphatase
d. Aldolase

A

d

21
Q

Elevated Hepatic disorders

a. Glutamate dehydrogenase
b. Glutathione-S-transferase
c. ACE
d. Glycogen phosphorylase
e. Trypsin

A

a and b

Include MHD

22
Q

What leukemia is associated with tartrait resistance ACP?

A

Hairy cell Leukemia

23
Q

Increase in Blood pressure regulation

a. Glutamate dehydrogenase
b. Glutathione-S-transferase
c. ACE
d. Glycogen phosphorylase
e. Trypsin

A

c

24
Q

Elevate in Myocardial infarction

a. Glutamate dehydrogenase
b. Glutathione-S-transferase
c. ACE
d. Glycogen phosphorylase
e. Trypsin

A

d

25
Q

Elevated in Acute pancreatitis

a. Glutamate dehydrogenase
b. Glutathione-S-transferase
c. ACE
d. Glycogen phosphorylase
e. Trypsin

A

e

26
Q

Clinically significant when it is disease

a. Chymotrypsin
b. G-6-PD
c. Pyruvate kinase
d. Pseudocholinesterase

A

all

27
Q

Chronic pancreatic deficiency

a. Chymotrypsin
b. G-6-PD
c. Pyruvate kinase
d. Pseudocholinesterase

A

a

28
Q

Pesticide poisoning

a. Chymotrypsin
b. G-6-PD
c. Pyruvate kinase
d. Pseudocholinesterase

A

d

29
Q

Drug-induced Hemolytic anemia

a. Chymotrypsin
b. G-6-PD
c. Pyruvate kinase
d. Pseudocholinesterase

A

b

30
Q

Hemolytic disorder

a. Chymotrypsin
b. G-6-PD
c. Pyruvate kinase
d. Pseudocholinesterase

A

c

31
Q

Liver disease and Genetic variance (Abnormal response to muscle relaxant)

a. Chymotrypsin
b. G-6-PD
c. Pyruvate kinase
d. Pseudocholinesterase

A

d

32
Q

Clinically significant when decrease RBC

a. Chymotrypsin
b. G-6-PD
c. Pyruvate kinase
d. Pseudocholinesterase

A

b and c

33
Q

Clinically significant when decrease in serum

a. Chymotrypsin
b. G-6-PD
c. Pyruvate kinase
d. Pseudocholinesterase

A

d

MTAP 1 Clinical Chemistry (97 decks)

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