Recent advances in the role of Cardiac bio-markers for clinical practice
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Transcript of Recent advances in the role of Cardiac bio-markers for clinical practice
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Dr.S.Sethupathy
RMMC,
Annamalai university
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“A biomarker is a substance used as an indicator of a biologic state.
It is a characteristic
It is objectively measured
It is evaluated as an indicator of normal biologic processes, pathogenic processes, or pharmacologic responses to a therapeutic intervention.
Biomarkers
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“Cardiac markers are substances released from heart muscle when it is damaged as a result of myocardial infarction.”
Cardiac markers
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Objectives
1) CKMB and TI false-positive and false-negative possibilities should be entertained
2) Associations between TI, CKMB and CK in patients with suspected acute coronary syndrome and elevations in non-ACS situations
3) New markers
Cardiac markers
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Triad of Chest pain, ECG manifestations and elevations of biomarkers of cardiac injury
Chest Pain: highly variable and subjective
ECG: Objective ST or T-wave changes
Biomarker elevations: Objective data definingACS/AMI
Diagnosis of AMI
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Acute coronary syndrome (ACS)- any group of symptoms attributed to obstruction of the coronary arteries.
Common - chest pain, often radiating to the left arm or angle of the jaw, pressure-like in character, with nausea and sweating.
ACS due to one of three problems:
non-ST segment elevation myocardial infarction (NSTEMI) – 25%
ST segment elevation myocardial infarction (STEMI) – 30%,
unstable angina (38%).
ACS
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Unstable angina is angina pectoris -disruption of an atherosclerotic plaque with partial thrombosis and embolization or vasospasm.
Occurs at rest or minimal exertion and usually lasts less than 20 minutes
severe flank pain, new onset (i.e., within 1 month)
more severe, prolonged, or increased frequency than before
50% of people with unstable angina -with myocardial necrosis - elevated CK-MB and troponin T or I
non-ST elevation myocardial infarction.
Unstable angina
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Natriuretic peptide - Both B-type natriuretic peptide
(BNP) and N-terminal Pro BNP can be applied to predict the risk of death and heart failure following ACS.
Monocyte chemo attractive protein (MCP)-1 -identify patients with a higher risk of adverse outcomes after ACS.
Prognostic markers
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Acute Myocardial infarction happens when blood
stops flowing properly to part of the heart and the heart muscle is injured due to hypoxia.
Troponin levels: Normally not found in serum; it is released only when myocardial necrosis occurs.
Creatine kinase (CK) levels: CK-MB levels increase within 3-12 hours of the onset of chest pain, reach peak values within 24 hours, and return to baseline after 48-72 hours
AMI
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The ECG is the most important tool in the initial
evaluation and triage of patients in whom an acute coronary syndrome (ACS), such as myocardial infarction, is suspected.
It is confirmatory of the diagnosis in approximately 80% of cases.
Cardiac imaging – in individuals with highly probable or confirmed ACS, a coronary angiogram can be used to definitively diagnose or rule out coronary artery disease.
Electrocardiography
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Myoglobin levels: Myoglobin is released more
rapidly from infarcted myocardium than is troponin; urine myoglobin levels rise within 1-4 hours from the onset of chest pain
Complete blood count
Chemistry profile
Lipid profile
C-reactive protein and other inflammation markers
Investigations
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Ischemia-Modified Albumin (IMA) - In cases of
Ischemia - Albumin undergoes a conformational change and loses its ability to bind transitional metals (copper or cobalt).
IMA- Alb- N terminus –Cobalt binding –DTT(dithiothreitol) – complexes with unbound –500nm- > 85 U/ml – C.Ishemia
IMA can be used to assess the proportion of modified albumin in ischemia. Its use is limited to ruling out ischemia rather than a diagnostic test for the occurrence of ischemia.
Biomarkers
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Myeloperoxidase (MPO) - The levels of circulating
MPO, a leukocyte enzyme, elevate early after ACS and can be used as an early marker for the condition.
Glycogen Phosphorylase Isoenzyme BB-(GPBB) is an early marker of cardiac ischemia and is one of three isoenzyme of Glycogen Phosphorylase.
Troponin is a late cardiac marker of ACS
Biomarkers
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Diagnosing AMI/ACS
Detecting myocardial damage
Risk stratification of the patients
Commenting on Prognosis In ACS, pre and post PCI/reperfusion therapy
CHF
Renal Disease
What biomarkers are good for:
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CK (CPK)
CK-MB
Troponin-I/T
LD (LDH)
Myoglobin
ALT/AST
Others
Cardiac biomarkers
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Creatine kinase (CK/CPK) is an enzyme expressed in a number of tissues
Function: it catalyzes the conversion of creatine to phosphocreatine degrading ATP to ADP
phosphocreatine serves as an energy reservoir for the rapid regeneration of ATP)
The CK enzyme consists of two subunits, B (brain type) or M (muscle type), three different isoenzymes: CK-MM, CK-BB and CK-MB
Creatine Kinase
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CK-BB occurs mainly in tissues, rarely of any significance in the bloodstream
Skeletal muscle expresses CK-MM (98%) and low levels of CK-MB (1%)
Sensitive lab tests can pick up these low levels of CK-MB from skeletal muscle
The myocardium has CK-MM at 70% and CK-MB at ~30%
CK therefore, lacks specificity for cardiac damage and needs to be augmented with the MB fraction and Relative Index (RI) to indicate true cardiac damage
CK
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Needs >two-fold increase with simultaneous increase in CK-MB
to be diagnostic for MI problematic for use in patients with little muscle mass Increases 4-6 hours after onset of MI Peak activity is at 18 to 24 hoursUsually has returned to baseline levels by 36 hours False positive (for MI) CK elevation can be seen in: Significant skeletal muscle injury Significant CNS damage (Stroke/Trauma) Occasionally from GI, renal, urologic disease
elevations due to non-cardiac causes- shows a flatter curve, rising and disappearing at a slower pace than a cardiac source
CK
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High specificity for cardiac tissue
Begins to rise 4-6 hours after onset of infarction
Peaks at about 12 hours
Returns to baseline at 24-36 hours
Can be used to indicate early re-infarction if level normalizes and then increases again
Lab test for mass better
mass assays are more sensitive.
CK-MB
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False positive (for MI) CK-MB elevation :
Significant skeletal muscle injury
Cardiac injury - other than MI
Cardioversion, Defibrillation
Blunt chest trauma (Sports injuries)
Cardiac AND non-cardiac surgical procedures
Cocaine abuse (vasospasm, tachycardia, perfusion/demand mismatch)
Severe myocarditis
CK-MB
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Troponin - in skeletal as well as cardiac muscle
Troponin has three subunits, TnC, TnT, and TnI
Troponin-C binds to calcium ions
Troponin-T binds to tropomyosin
Troponin-I binds to actin in thin myofilaments to hold the troponin-tropomyosin complex in place
So far no source of Troponin-I outside the heart, but some Troponin-T in skeletal muscle.
Highly specific - Troponin-I
Troponin
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Increased level of the cardiac Protein isoform of
troponin circulating in the blood- a biomarker of myocardial infarction.
Raised Troponin levels indicate cardiac muscle cell death as the enzyme is released into the blood upon injury to the heart.
cardiac troponin I and T are very sensitive and specific indicators of damage to myocardium.
To differentiate unstable angina and MI in chest pain or acute coronary syndrome.
Troponin
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Laboratory range definition:
Cutoff is set at 99th percentile of a normal reference population
Since troponin levels are undetectable in normal subjects
This 99th percentile corresponds to <0.06
-heparin in sample can result in lowered values
Elevated troponin level within 2-3 hours of emergency department (ED) arrival, versus 6-9 hours or more with CK-MB and other cardiac markers.
More about Troponin
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Troponin-I levels begin to rise 2-3 hours after onset of MI and roughly 80% of patients withAMI will have positive values at 3 hours
Elevations in Troponin-I and Troponin-T can persist for up to 10 days after MI
It has good utility for retrospectively diagnosing AMI
CK-MB returns to baseline by 48 hours
Troponin release can also be precipitated by other conditions that cause myocardial damage
Cardiac troponin T and I can be used to monitor drug and toxin-induced cardiomyocyte toxicity.
Troponin Use
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Since normal people have virtually nil levels
of troponin in serum, it is thought that detectable levels indicate chronic disease even if not acute myocardial damage
Degree of elevation of Troponin value can give prognostic information
72-96 hour peak TI correlates with infarct size
Not with other biomarkers
Troponin Influence on Prognosis
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Used along with aminotransferases to diagnose AMI.
LD is non-specific for cardiac tissue , which contains LD-1.
pancreas, kidney, stomach tissue and red cells also contain LD-1.
In AMI, LD rises at about 10 hours,
peaks at 24-48 hours,
remains elevated for up to 8 days.
AST very non specific – now not used for AMI
LDH
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Ubiquitous small-size heme protein released from all
damaged tissues.
Increases often occur more rapidly than TI and CK.
Not utilized often for AMI/cardiac damage assessment because of its very rapid metabolism (short plasma half-life) causing short burst increases that are difficult to assess clinically.
its lack of specificity for cardiac tissue.
Myoglobin
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CK (U/L) Normal Range: 0-215
CKMB - < 25 U/L If CK-MB is elevated The ratio of CK-MB to total CK (relative index) is more
than 2.5–3 it is AMI. A high CK with index below this value suggests that
skeletal muscle damage. BNP - <100 pg/ml NO HF > 400 pg/ml HF
Reference range
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LESS THAN 0.07 NG/ML: NEGATIVE
0.07 - 0.5 NG/ML: CONSISTENT WITH POSSIBLE CARDIAC DAMAGE AND
POSSIBLE INCREASED CLINICAL RISK.
>0.5 NG/ML: CONSISTENT WITH CARDIAC DAMAGE, INCREASED CLINICAL RISK
AND MYOCARDIAL INFARCTION.
TROPONIN I
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Timing Summary
TEST ONSET PEAK DURATION
CK/CK-MB 3-12 hours 18-24 hours 36-48 hours
Troponins 3-12 hours 18-24 hours Up to 10 days
Myoglobin 1-4 hours 6-7 hours 24 hours
LDH 6-12 hours 24-48 hours 6-8 days
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“clinical evidence of myocardial ischemia” is
necessary in addition to elevated biochemical markers .
Example : hypoxia due to hypovolemia, GI bleeding,CO,CN poisoning, sepsis, Pul.emb, Pul.H, COPD,atrial fibrillation, myocarditis, myocardial contusion, renal failure , PET and tachycardia
Cardiac troponin T and I can be used to monitor drug and toxin-induced cardiomyocyte toxicity.
Elevated cardiac biomarkers in non-ACS situations
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Situations of prolonged mycyte ischemia prolonged/profound hypotension, chronic, pulmonary
hypertension CPR/Cardiac contusion Electrical Cardioversio PE, pericarditis, myocarditis Sepsis ( myocardial oxygen demand-supply mismatch) Apical Ballooning syndrome-- “Takotsubo
Cardiomyopathy” Chemotherapy, e.g. Adriamycin, Herceptin Toxins, cocaine Extreme exertion--Marathons, ultramarathons, Military
basic training LVH--leads to subendocardial ischemia by increased O2
demand from increased mass HF
Elevated cardiac biomarkers in non-ACS sitouations
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CAD is highly prevalent in patients with end-stage renal disease and
patients on dialysis.
HTN and DM
ESRD as well as dialysis change homeostatic mechanisms for lipids, calcium and electrolytes
HF patients and ESRD patients have low levels of troponin elevations chronically without evidence of myocardial damage, although the mechanism and significance are not known.
Possible reasons parallel those for HF:
significant LVH, endothelial dysfunction, loss of cardiomyocyte membrane integrity and possibly impaired renal excretion
Biomarkers in Renal Failure
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Chronically elevated troponin levels indicate a worse long-
term prognosis for cardiovascular outcomes
False positives- with use of troponin-T in ESRD patients but not as much with troponin-I
CK: plasma concentrations are elevated in 30-70% of dialysis patients at baseline, secondary to skeletal myopathy, intramuscular injections and reduced clearance
CK-MB: 30-50% of dialysis patients exhibit an elevation in the MB fraction >5% without evidence of myocardial ischemia
The most specific marker for suspected AMI in ESRD patients is Troponin-I with an appropriate sequential rise
Biomarkers in Renal Failure
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Small elevations in TI are chronically found in patients with heart
failure, without current symptoms of ischemia
The presence of TI remained an independent predictor of death
A positive TI in a hospitalized patient with HF is associated with a higher in-hospital mortality.
The presumed mechanism of cardiac troponin release in HF is from
myocardial strain-volume and pressure overload of both ventricles causing excessive wall tension leading to decreased subendocardial myocyte perfusion.
There is a correlation of elevated BNP and TI release
myocyte death- (sympathetic stimulation, inflammatory cytokines) -progressive myocyte apoptosis and cardiac dysfunction
Biomarkers in Heart Failure
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1. Heart-type fatty acid binding protein
2. Kinetically similar to myoglobin but more specific to cardiac tissue which contains a greater percentage of this protein than skeletal muscle
3. May also have role in prediction-prognosis in patients with NSTEMI
Newer markers - H-FABP
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H-FABP Protein 15 kdmyoglobin 17 kd
Released 3 hours early marker
Plasma level returns within 24 hours
H-FABP
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62 yo male with PMH of HTN x20 years, DM
II x 10 years presents with 2 hours of mid-sternal chest pain radiating to left arm and jaw, with associated SOB and diaphoresis. He was given O2, ASA 325mg and SL NTG en-route by EMS. Upon arrival to ED his CP is 5/10, somewhat relieved by the nitro, His ECG shows TWI in v2-v6. BP 150/100, P115, R18, 96% 2L NC
Case 1
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What is your pre-test probability for ACS before you
get cardiac biomarkers in this patient?
Which biomarkers to you think will be positive at this time? In 12 hours?
Will you wait for the biomarker results to start treatment for ACS?
Case 1 Discussion
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55 yo female with no significant PMH but
positive FHx for early MI in her brother at 48 years, and her father at 56 years, presents with mid-epigastric pain episodes lasting 1hr each, off and on for the last 24 hours after her labor Day BBQ (1st episode 24hrs ago), and she thinks her right arm is “tingly.” The last episode was 2 hours ago, but the pain is gone now. The ED gave her 1” nitropaste, 81mg asa x4 and Lovenox1mg/kg, as well as Zofran and Morphine. Her ECG shows TWI in lead II. Pulse is 100. Other VS WNL.
Case 2
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What is your pre-test probability of ACS in this
patient and how are you going to utilize your blood tests?
Obviously the ED physician felt this was likely to be ACS, do you agree?
If her troponin comes back as 0.07 with a normal CK and CK-MB what will you do?
Case 2 Discussion
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73 yo AAM presents to clinic for routine HF check. By office scale he has gained 10# since last visit 2 months ago. He admits to sleeping upright and has1block DOE. He denies angina/chest pain. In-office ECG is notable for strain pattern. He is diagnosed with HF exacerbation and direct admitted. AMI panel is drawn and CK is 250, MB is 8, TI is 1. BNP is 3500. 2nd TI is 1.2 and 3rd is 1.1. He is hypertensive but stable.
Case 3
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What is the likely explanation for this patient’s
elevated cardiac biomarkers?
How do you plan to manage this patient from here? Does he need to be in the CICU? Does he need further enzyme studies?
Case 3 Discussion
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44 yo AAF with ESRD secondary to HTN on dialysis
(HD x 7 years) presents with chest pain at dialysis. Her end-HD BP was 190/100 and she reports a headache. ECG shows Q-waves in the inferior leads but no acute changes. She got her flu shot at dialysis today. You draw AMI panel and CK is 300, MB 15, RI 4% and TI is 1.13
Case 4
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If her serial enzymes stay at the same levels what is her general Cardiovascular prognosis?
Given the story, what other findings do you expect on her ECG?
What is the likely physiological mechanism for her elevated CK? Her TI?
She refuses cath. What is the best, simplest way to attenuate her cardiovascular mortality?
Case 4 Discussion
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Thank you