Cardiac Laboratory Evaluation

Question 1

What are the cardiac biomarkers? 3

Lab tests for CV risk assessment?

Whats the lab test for heart failure management? 1

Answer 1

1. Troponin
2. CK-MB
3. Myoglobin
4. hs-CRP
5. homocystine
6. BNP

Question 2

Cardiac biomarkers
Used for what?

What are they not necessary for? 2

Answer 2

Used in the diagnosis and risk stratification of patients with cardiac symptoms.

Not necessary for the diagnosis of patients who present with
1. ischemic chest pain and
2. EKGs with ST elevation.
They got there early enough so the lab tests wont be elevated yet

Follow the trend to peak

Question 3

What are cardiac biomarkers useful in assessing and why?

Answer 3

1. Useful to assess for myocardial injury

2. Proteins that leak from the myocardium secondary to ischemia

Question 4

What are the differences between the different biomarkers?

2

Answer 4

1. Time from ischemic injury to elevation of the lab values

2. Variable degrees of specificity for myocardial injury

Question 5

Troponin is a highly specific marker for what?

Answer 5

cardiac muscle cell death.

Question 6

1. What is troponin integral to in normal functioning?
2. Found in what kind of muscle? 2
3. What are Trop I and T specific for?
4. Released into the systemic circulation when there is what?

Answer 6

1. Protein that is integral to muscle contraction
2. Found in skeletal and cardiac muscle
3. Troponin I and Troponin T are isolated proteins specific for cardiac muscle
4. myocyte necrosis that leads to cell membrane disruption

Question 7

Troponin can identify patients at increased risk for?

How does the level of troponin affect the outcome?

Answer 7

adverse cardiac events

The higher the troponin the worse the outcome

Question 8

The degree of troponin rise correlates with the extent of what?

Answer 8

myocardial injury

Question 9

Troponin rises within 1.____ hours after cardiac insult and may stay elevated for 2.___ _____ to 3.__ ____ after event

Peak at 4._____ hours

“Wash out” after 5.__________ will cause significant rise in Troponins

Answer 9

1. 2-3
2. 10 days
3. 2 weeks
4. 12-16
5. thrombolytics

Question 10

Cardiac causes of elevated plasma cardiac troponin other than ACS
16

Answer 10

1. Cardiac contusion
2. Cardiac surgery
3. Cardioversion
4. Endomyocardial biopsy
5. CHF
6. Aortic dissection
7. Post PCI
8. Rhabdomyolysis
9. Myocarditis
10. Aortic valve disease
11. Hypertrophic cardiomyopathy
12. Tachyarrhythmia
13. Bradyarrhythmia, heart block
14. Apical ballooning syndrome
15. Pericarditis
16. Endocarditis

Question 11

Noncardiac causes of elevated plasma troponin

12

Answer 11

1. Pulmonary embolism
2. Severe pulmonary hypertension
3. Renal failure**
4. Stroke
5. Subarachnoid hemorrhage
6. Infiltrative disease, e.g.
7. Amyloidosis
8. Cardiotoxic drugs
9. Sepsis
10. Critical illness
11. Extensive burns
12. Extreme exertion

Question 12

How troponin is used to diagnose MI. When should we get it?

3

Answer 12

1. Measure at presentation to the ED
2. Repeat in 3-6 hours post symptom onset
3. May repeat beyond 6 hours if risk factors are present

Question 13

What are the factors that would make us want to check a troponin after 6 hours?
3

Answer 13

1. Initial troponin is normal
2. EKG changes are present
3. Patient has many high risk features

Question 14

If we dont have perfusion what happens to our troponin level over time?

Answer 14

Still not getting perfusion to the area so there is continuing necrosis and troponin levels stay higher longer (still peak though)

Question 15

The highly sensitive assays have a high negative predictive value for ______ in the setting of chest pain 2 hours post onset of symptoms

Pts with impaired ______ function may have falsely elevated levels of troponin

Answer 15

NSTEMI (not an MI but they still might have unstable angina)

renal!!!!!!!!

Question 16

For the diagnosis of MI what biomarkers should we use?

Answer 16

Use Troponin

The other cardiac biomarkers are not as sensitive or specific

Question 17

Where is creatine kinase found?

What do elevated levels suggest? 6

It may increase in what syndrome (and why?)

Answer 17

Enzyme found in muscle cells

Elevations suggest muscle damage and can be indicative of 1. injury,

2. rhabdomyolysis,
3. MI,
4. myositis,
5. myocarditis
6. Elevated in 1% of patients on statins

May increase in hypothyroidism
When T3 is low, CK becomes elevated

Question 18

Creatine Kinase has 3 isoenzymes. What are they?

Answer 18

CK-MM (skeletal muscle and heart)
CK-MB (Heart)
CK-BB (Brain)

Question 19

Describe when each of the following are elevated:
CK-MM? 2
CK-MB? 3
CK-BB? 6

Answer 19

CK-MM (skeletal muscle and heart)
Elevated in muscle damage to
1. heart or
2. skeletal muscle, crush injury, seizures, etc.

CK-MB (Heart)
Elevated in 
1. MI, 
2. inflammation of heart muscle, 
3. RV and LV strain

CK-BB (Brain)
Elevated in 
1. brain injury, 
2. meningitis, 
3. severe shock, 
4. stroke, 
5. hypothermia, 
6. restricted blood flow to the bowel

Question 20

1. CK-MB is concentrated where?
2. Also found where to a lesser degree?
3. When is it elevated after onset of symtpoms?
4. Peaks when?
5. Normalizes when?

Answer 20

1. in the myocardium
2. Also found in skeletal muscle to a lesser degree
3. Noted at 4-6 hours after onset of symptoms
4. Peaks at 24 hours
5. Normalizes in 48-72 hours

Question 21

1. Isolated CK-MB elevation has limited prognostic value in patients with what?
2. What is the CRUSADE Registry?
3. GRACE registry (in hospital mortality)?

Answer 21

1. ACS
2. Patients with negative troponin but CK-MB positive their mortality = to patients who had negative troponin and CK-MB
3. Both troponin and CK-MB positive = highest
   Troponin positive and CK-MB negative = intermediate
   Both markers negative = lowest

Question 22

CK-MB/CK relative index helps to determine what?

How is this calculated?

Answer 22

cardiac vs. skeletal muscle injury.

Calculated by the ratio of CK-MB to the total CK

Question 23

CK-MB/CK relative index is at what value if its skeletal muscle?

Cardiac?

Answer 23

Ratio less than 3 = skeletal muscle source

Ratio greater then 5 = cardiac source

Question 24

1. What is myoglobin?
2. Rises when after onset of infarction?
3. Peaks when?
4. Normalizes when?
5. Low sensitivity why?

Answer 24

1. Myoglobin is a protein found in skeletal and cardiac muscle
2. Typically rises 2-4 hours after onset of infarction
3. Peaks at 6-12 hours
4. Normalizes in 24-36 hours
5. Low sensitivity for AMI due to lack of cardioselectivity

Question 25

Lab tests for CV risk assessment

Answer 25

1. Lipid profile
   (already covered in endocrine)
2. hs-CRP
3. Homocystine

Question 26

For ruling out/in acute myocardial infarction vs. unstable angina
What is the go to test?

Answer 26

Troponin is the go to test

Question 27

Remember with symptoms or an abnormal EKG a person may be having an MI with an________troponin if the lab is drawn prior to __ hours of onset of symptoms…don’t treat the labs treat your patient

Answer 27

negative

2

Question 28

What does CRP measure?

When is it elevated?

Answer 28

CRP measures general levels of inflammation in the body

Elevated in infections, chronic disease, surgery

Question 29

Elevated hs-CRP causes a 2-3 times the risk of what disease processes?
4

Its a stronger predictor of what two things than LDL?

Major use is what?

In secondary prevention it might predict what?

Answer 29

1. MI,
2. stroke,
3. sudden cardiac death and
4. peripheral arterial disease

Stronger predictor of

1. heart disease and
2. stroke than LDL

Major use is in primary prevention

In secondary prevention may predict recurrent coronary events

Question 30

To lower hs-CRP what should we tell our pts to do?

5

Answer 30

1. Cardiac diet
2. Exercise
3. BP control
4. Smoking cessation
5. Statins

Question 31

1. What is Homocystine?
2. What is it acquired from?
3. What are elevated levels of homocystine related to? 2

Answer 31

1. Amino acid
2. Acquired mostly from meat protein
3. Elevated levels of homocystine are related to
   - -genetics and
   - -low levels of B6, B12 and folate

Question 32

Elevated levels of homocystine have been linked to____?

Hyperhomocystinemia may cause?
6

Answer 32

CVD

1. Prone to endothelial injury
2. Blood clots
3. Heart attack
4. Stroke
5. Miscarriage
6. Pre-eclampsia

Question 33

BNP – Brain naturetic peptide
is produced by what?
In response to what?

Answer 33

ventricles and atria in response to an increase in volume and pressure
(generally a measure of how much volume is in the body-this is too much stretching if too much volume)

Question 34

BNP stimulates the release of what?

How?

Answer 34

Stimulates the release of atrial naturetic peptide

Body rids itself of sodium in an attempt to decrease total body water volume

Question 35

What may BNP be helpful in differentiating?

Answer 35

between CHF and lung disease

Do not use routinely to follow stable CHF

Question 36

Causes of elevated BNP other than CHF

8

Answer 36

1. Elderly
2. Women
3. Renal failure
4. Cirrhosis
5. Acute coronary syndrome
6. Myocarditis
7. Pulmonary embolism
8. Primary pulmonary hypertension