Enzymes and Cardiac Markers

Question 1

What is an enzyme?

Answer 1

Substance (usually a protein) that increases rate of a chemical reaction without itself being changed in the process.

Question 2

What is Km (Michaelis-Menten constant)?

Answer 2

[substrate] at which the reaction velocity is 50% of max.

Question 3

What do high and low Kms represent?

Answer 3

High Km: weak affinity.

Low Km: strong affinity.

Question 4

How can enzymes be used to determine organ-specific injury?

Answer 4

Intracellular enzymes are released in response to cellular injury- can be measured in blood

Many tissues express the same enzyme so need to determine which organ is it coming from.

Clinical context can be used.

The enzyme may be predominantly released by 1 tissue after injury (e.g. serum ALT is mostly from liver).

Question 5

Which organs can be responsible for abnormal ALP?

Answer 5

Intrahepatic or extrahepatic bile ducts: Intra/extrahepatic cholestatic liver disease.

Bone: bone turnover

Placenta: Germ-cell tumours

ALP in Intestine but not used for Ix of bowel disorders

Question 6

Give 6 causes of bone related rise in ALP

Answer 6

Fracture

Paget’s disease

Osteomalacia/ Rickets

Cancer (primary or metastasis)

1o Hyperparathyroidism with bone involvement

Renal osteodystrophy

Question 7

Give 4 causes of Intra- and 2 causes of extrahepatic cholestatic liver disease.

Answer 7

Intra: Hepatitis, PBC, PSC, Malignancy

Extra: Choledocholithiasis, bile duct tumour

Question 8

When is a raised ALP physiological due to growth?

Answer 8

Childhood- bone

Pregnancy (last trimester)- placenta

Question 9

What is the clinical approach to an unexplained ALP?

Answer 9

1. Check LFTs (γ-glutamyl transferase + ALT)
2. Check vitamin D
3. ALP isoenzymes – performed by electrophoresis test

Question 10

Why check LFTs when ALP is raised?

Answer 10

Gamma GT + ALT very specific for liver

Question 11

Why check vitamin D if LFTs are normal when ALP is raised?

Answer 11

If vitamin D is low, can’t absorb phosphate so breakdown bone to release phosphate

Question 12

How does ALP change through life?

Answer 12

Serum ALP changes as a function of age. There are age-specific cut-off ranges for ALP.

Birth: HIGH due to bone growth

Plateaus just before puberty

Falls when bone growth ceases

Question 13

What are causes of a raised ALT?

Answer 13

Hepatic:

Hepatitis (viral, alcohol, AI)

Non-alcoholic fatty liver disease

Liver ischaemia

Toxins: Alcohol, Paracetaomol OD

Cancer

Not really used for kidney, pancreas or cardiac since better markers are available.

Question 14

What are 4 broad causes of a raised γ-glutamyl transferase (γ-GT)?

Answer 14

Hepatobiliary disease

Enzyme induction: upregulated in response to drugs

Pancreas: Pancreatitis (not used for dx, serum amylase is better).

Kidney: Not used in kidney disease because there are better biomarkers (creatinine, eGFR, albuminuria).

Question 15

What are 3 hepatobilliary causes of a raised γ-glutamyl transferase (γ-GT)?

Answer 15

Hepatitis

Alcoholic liver disease

Cholestatic liver disease

Question 16

What is a raised γ-glutamyl transferase (γ-GT) not useful for in hepatobiliary disease?

Answer 16

Distinguishing hepatic or biliary disease

ALT:ALP ratio is more useful

Question 17

What are 4 enzyme induction causes of raised γ-glutamyl transferase (γ-GT)?

Answer 17

Alcoholics (+/- liver disease)

Rifampicin

Phenytoin

Phenobarbitone

(Increased intracellular γ-GT levels so more is released in normal cell turnover)

Question 18

What are causes of a raised lactate dehydrogenase?

Answer 18

WBC: Lymphoma

RBC: Haemolysis e.g. haemolytic anaemia

Placenta: Germ-cell testicular cancer (seminoma)

Skeletal muscle: Myositis

Liver injury: Hepatic disease but better biomarkers available

Cardiac: Better biomarkers available

Question 19

What are causes of a raised serum amylase?

Answer 19

Pancreas: Acute pancreatitis, perforated duodenal ulcer, bowel obstruction (causes secondary injury to pancreas).

Salivary gland: Stones, infection (e.g., mumps). Less common, likely present with jaw pain.

Question 20

What is macro-amylase?

Answer 20

Amylase bound to immunoglobulin, thus too large to be cleared by kidneys. Often benign but causes confusion.

If you suspect this, request amylase electrophoresis for amylase isoenzymes.

Benign

Question 21

What are causes of a raised creatine kinase?

Answer 21

Skeletal muscle: Rhabdomyolysis, Myositis, polymyositis, dermatomyositis, severe exercise, myopathy (Duchene muscular dystrophy, statins).

Cardiac muscle: Cardiac injury but not used for this purpose (high-sensitivity troponin is better).

Question 22

In which population is creatinine kinase generally higher?

Answer 22

Individuals of Afro-Carribean descent

Question 23

What is Troponin I?

Answer 23

In cardiac + skeletal myocytes where it participates in muscle contraction.

3 types of troponin I, T + C in skeletal + cardiac muscle.

Labs do not measure skeletal muscle troponin, labs measure cardiac troponin I or T.

High sensitivity Trop I can be used to diagnose cardiac conditions.

Question 24

Which primary cardiac injuries can result in an elevated trop I?

Answer 24

Acute coronary syndrome (STEMI, NSTEMI, unstable angina) or ACS

Myocarditis

Cardiomyopathy

Aortic dissection

Question 25

Which secondary cardiac injuries can result in an elevated Trop I?

Answer 25

Pulmonary embolism

Systemic infection

Anaemia e.g. upper GI bleed

Question 26

Which factors can affect the trop result?

Answer 26

Age

Gender M>F

Acute or chronic kidney disease

Number of myocytes injured

Time of test

Question 27

How should the use of trop be incorporated into clinical practice?

Answer 27

1. When did the chest pain begin?
2. Take troponin I on admission
3. Take 2nd troponin 3 h later

50% increase or decrease suggestive of cardiac myocyte injury due to ACS

Question 28

How long after injury does trop stay elevated?

Answer 28

Troponin I begins to rise at 2-4h

Peaks 12h (range 8-28h).

Returns to normal 5-10 days later.

Question 29

What is a normal trop?

Answer 29

Male <35 ng/L
Female <16 ng/L

Question 30

A 40M presents with abdominal pain. The serum ALT is elevated. What tissue is the ALT most likely coming from?

Answer 30

Liver

Question 31

What is LDH associated with in germ cell testicular cancer and lymphoma?

Answer 31

Tumour bulk

High LDH = big tumour = poor prognosis

Monitor in remission

Question 32

What must be accounted for to make a diagnosis of cardiac myocyte injury?

Answer 32

Hx

Exam

ECG

Troponin

Question 33

A 45F with long hx of high alcohol intake, presents with vomiting and severe epigastric pain radiating to her back, partially alleviated on leaning forward. What is the diagnosis?

Answer 33

Acute pancreatitis

Question 34

What is the pathophysiology of STEMI, NSTEMI, unstable and stable angina?

Answer 34

Narrowing of the coronary arteries due to atherosclerotic plaque accumulation on a spectrum from 50% narrowing to complete occlusion

STEMI, NSTEMI + UA: admit

SA: outpatients

Question 35

How would you manage a patient with cardiac chest pain and ST elevation in any ECG leads?

Answer 35

Urgent cardiology review

Needs coronary revascularisation

Don’t wait for Troponin

Acute total occlusion of a coronary artery- needs to be opened so blood can perfuse heart to avoid HF.

Full thickness necrosis of cardiomyocytes

Question 36

How would you manage a patient with cardiac chest pain, abnormal ECG and elevated troponins?

Answer 36

Urgent cardiology review

Partial occlusion- some blood can perfuse the heart so there is partial cardiomyocyte necrosis

If left untreated can progress to STEMI

Question 37

How would you manage a patient with cardiac chest pain, normal ECG/ ST depression or T wave inversion with normal troponins?

Answer 37

Urgent cardiology review

At high risk of progression to MI

Question 38

How would you manage a patient with exertional chest pain that is relieved by rest or GTN, with a normal resting ECG, 2 troponin results within the ref ranges and with <50% change in results?

Answer 38

Senior review + likely discharge with outpatient cardiology FU

Question 39

How would you manage a patient with non-specific chest pain, normal ECG and normal troponins?

Answer 39

Very unlikely cardiac in nature

Negative predictive value of troponins is really good

Question 40

Describe the synthesis of BNP and NT-proBNP

Answer 40

Pro BNP has an N terminal + C terminal

Broken down to NT-proBNP + BNP

BNP: biologically active

Release BNP when there is volume overload or the cardiac myocytes are stretched

BNP does to kidney, causing nature’s to offload the volume

Question 41

Describe the use of NT-proBNP

Answer 41

BNP half life: 80mins - short + difficult to measure

NT-proBNP half life: 3h- more stable to measure

NT-proBNP produced in equimolar amounts as BNP

NT-proBNP used to exclude HF- if negative unlikely HF

Question 42

Which drug can interfere with BNP measurements, and thus reinforces the importance of measuring NT-proBNP?

Answer 42

Entresto (tx for HF)
Contains Sacubitril (Neprilysin inhibitor)

Neprilysin breaks down BNP

Inhibition of neprilysin causes falsely high BNP