Troponin and other diagnostic tests
Rob Siegel, MD
Jacobi Cardiology
Learning Objectives
When to order troponin How to interpret troponin values Clarify troponin confusion Review DDx of troponin elevation
Case #1: In the ED
Chief complaint: Chest pain 67 M with no prior cardiac history Risk factors are HTN Presents with two hours of
nonexertional epigastric pain radiating to his chest; episode resolved spontaneously 30 minutes before reaching the ED. Nonpleuritic.
Case #1, continued
PMH: HTN, GERD PSH: Inguinal hernia, age 22 Medication: , HCTZ 25mg PO daily,
Maalox Plus PRN NKDA SH: Quit tobacco 20 years ago. No E/D FH: Father had MI age 77, no other MI
in family, no CVA
Case #1, continued
136/72 P84 R24 SpO2=99%RA Pleasant, conversant, NAD JVP<8cm H2O, no bruits CTA, no crackles RRR, II/VI midsystolic murmur at LSB Warm extremities without edema
Case #1, continued
CXR: wnl EKG: normal sinus rhythm at 82, T-
wave inversions in III and aVF; no prior EKG
Case #1, summarized
This is a patient with atypical chest pain, and a somewhat low pre-test probability of acute coronary syndrome
(EKG is not completely normal, and the patient has hypertension)
Case #1: What do you do?
1) Discharge home with outpatient medical clinic follow-up
2) Admit to telemetry; rule out for MI with troponin; if rules out, obtain stress test
3) Stat cardiac catheterization
This will get more advanced
I promise. This case, and the next slide, will sounds a little like kindergarten to most of you.
But there’s an important point here. Please bear with me.
Troponin is a diagnostic test
You know how to interpret a diagnostic test.
You start with a pre-test probability. (If it’s really low or really high, you don’t
get the test.) If it’s intermediate, you get the test. Afterward, you have a post-test
probability. You act on the result.
Reichlin T et al. N Engl J Med 2009;361:858-867
Diagnostic Performance of Cardiac Troponin Assays at Presentation
Reichlin T et al. N Engl J Med 2009;361:858-867
A diagnostic test has a receiver-operator
curve.
This one is Jacobi’s
Troponin helps you diagnose one condition. And, with a couple of unimportant
exceptions, one condition only.
What is that condition?
The Most Important Point
Troponin is a diagnostic test
To help determine whether acute coronary syndrome is present
It’s not really useful in other situations (with a couple rare exceptions)
Acute Coronary Syndrome (ACS) Also known as coronary artery plaque
rupture
This is the condition we were worried about in the case: We were concerned that the patient could have ACS with atypical symptoms
Acute coronary syndrome
Troponin was developed to help rule out acute ACS It was not developed for any other
purpose Many studies have validated its use in
this scenario When we use it to make other clinical
decisions, we’re using it for a sort of off-label indication
NPV/PPV
Reichlin T et al. N Engl J Med 2009;361:858-867
Jacobi’s troponin
Your patient has a single negative troponin value. When should you check troponin again? (Remember, you’re trying to rule out
acute coronary syndrome.)
If negative at presentation, check troponin again at least 4 hours after onset of symptoms
Reichlin T et al. N Engl J Med 2009;361:858-867
Your inpatient has ruled out. When to check troponin again? Unless the patient has an episode that
raises concern for ACS:
Do not check troponin again.
(If you do, you’re using the assay in a way that nobody ever intended.)
Your inpatient has ruled in. When to check troponin again?It takes about a week for troponin level to return
to normal after ACS.
Short answer: Do not check again during this hospitalization.
(Longer answer: If there is new concern for ACS one week after ruling out, then check again then.)
Congratulations!
This talk is complete. You now know everything you need to know about the clinical utility of troponin.
The rest of the talk will address troponin-related information that does not assist in clinical decision-making.
Troponin confusion hall of fame
“If the troponin is positive, that means you need to start heparin.”
“Isn’t there a new type of MI called a ‘Type 2 Myocardial Infarction,’ and this is the same as demand ischemia?”
“But where is the troponin coming from if it’s not coming from the heart?”
Case #2
CC: Chest pain 67 year-old man with HTN, DM, CHOL Notes one month of progressive angina.
Exercise tolerance was unlimited one month ago; then began to develop substernal chest pressure with exertion with climbing five flights of stairs.
Case #2, continued
During the past month he gets chest pressure with less and less exertion. Yesterday he felt angina with climbing one-half flight of stairs.
This morning, while eating breakfast, he developed angina at rest.
He continues to have chest pain in the ED despite receiving NTG from EMS.
Case #2, continued
PMH: HTN, CHOL, DM PSH: None Medication: Metformin, Lisinopril, ASA,
Simvastatin NKDA SH: No T/E/D FH: Father had MI age 57; no other
CAD; no history of CVA
Case #2, continued
118/70 P92 R24 SpO2=98% on 2L NC Pleasant, conversant, quiet JVP<8 CTA, no crackles RRR, no murmur, S4 No edema Guaiac negative brown stool
Case #2, continued
C7 and CBC are normal CXR is normal EKG is normal sinus rhythm,
downsloping ST segment depressions in leads I, aVL, V5, and V6
Troponin is pending
When to start heparin?
Single best answer:
1) If troponin I is greater than 0.1 g/L 2) If troponin I is greater than 0.5 g/L 3) If troponin I is greater than 5 g/L 4) None of the above
ACS Spectrum
STEMI NSTEMI Unstable angina
Acute coronary syndrome
ACS Spectrum
STEMI (troponin doesn’t matter) NSTEMI (troponin is positive) Unstable angina (troponin is negative)
Treat all of the above with heparin unless there is a contraindication to heparin
Unstable Angina v. NSTEMI
The only difference here is in the terminlology (and in the troponin level)
Treatment for the two conditions is essentially the same
Case #2, review
Patient with multiple cardiac risk factors, comes in with (very) typical history of acute coronary syndrome, now with chest pain at rest
Troponin measurement has almost no role in establishing the diagnosis, because the diagnosis of ACS is already essentially certain
Give this patient heparin!
Case #3
Has many similarities to case #2, in case #2 the decision-making was simple, while in case #3 the decision making is complex.
Case #3
CC: Chest pain 67 year-old man with HTN, CHOL, PUD Notes one month of progressive angina.
Exercise tolerance was unlimited one month ago; then began to develop substernal chest pressure with exertion with climbing five flights of stairs.
Case #3, continued
PMH: HTN, CHOL, PUD PSH: None Medication: HCTZ, Simvastatin,
Omeprazole NKDA SH: No T/E/D FH: Father had MI age 77; no other
CAD; no history of CVA
Case #3, continued
118/70 P108 R24 SpO2=98% on 2L NC Pleasant, conversant, pale JVP<8 CTA, no crackles RRR, no murmur, S4 No edema Guaiac positive black stool
Case #3, continued
C7 is normal CBC shows hemoglobin=6,
hematocrit=19, MCV=71 CXR is normal EKG is sinus tachycardia, downsloping
ST segment depressions in leads I, aVL, V5, and V6
Troponin is pending
When to start heparin?
Single best answer:
1) If troponin I is greater than 0.1 g/L 2) If troponin I is greater than 0.5 g/L 3) If troponin I is greater than 5 g/L 4) None of the above
Case #3: Summary
Patient presents with severe angina in context of severe anemia with active bleeding
Most likely explanation for angina: Demand ischemia, caused by anemia
(Patient cannot deliver enough oxygen to myocardium due to anemia)
Cases 2 and 3 compared
Case 2 Case 3
Angina? Yes Yes
Ischemia? Yes Yes
Etiology? ACS Bleeding
Heparinize? Yes No!
Troponin? +/- +/-
Case #2 and 3: Take-home point
Do give heparin for unstable angina, regardless of troponin
Do not give heparin for troponin elevation alone,unless there’s another reason to give heparin
In case #3, heparin could be lethal
NPV/PPV
Reichlin T et al. N Engl J Med 2009;361:858-867
Troponin confusion hall of fame
“If the troponin is positive, that means you need to start heparin.”
“Isn’t there a new type of MI called a ‘Type 2 Myocardial Infarction,’ and this is the same as demand ischemia?”
“But where is the troponin coming from if it’s not coming from the heart?”
“Type 2 Myocardial Infarction”
This is not a clinically helpful concept It does not help you think through how
to manage your patient
Slightly useful in research studies Very useful to the patient billing office--
we get reimbursed well for MI
Myocardial Infarction Types
Type 1 (ACS)“Spontaneous myocardial infarction related to ischaemia due to a primary coronary event such as plaque erosion and/or rupture, fissuring, or dissection.”
Type 2“Myocardial infarction secondary to ischaemia due to either increased oxygen demand or decreased supply, e.g. coronary artery spasm, coronary embolism, anaemia, arrhythmias, hypertension, or hypotension.”
MI Types, Continued
Type 3 (ACS that kills you before you can measure troponin)“Sudden unexpected cardiac death, including cardiac arrest, often with symptoms suggestive of myocardial ischaemia, accompanied by presumably new ST elevation, or new LBBB, or evidence of fresh thrombus in a coronary artery by angiography and/or at autopsy, but death occurring before blood samples could be obtained, or at a time before the appearance of cardiac biomarkers in the blood.”
Don’t Memorize This
Type 4aMyocardial infarction associated with PCI
Type 4bMyocardial infarction associated with stent thrombosis as documented by angiography or at autopsy
Type 5Myocardial infarction associated with CABG
Universal Definition of Myocardial Infarction Kristian Thygesen, Joseph S. Alpert, Harvey D. White on behalf of the Joint ESC/ACCF/AHA/WHF Task Force for the Redefinition of Myocardial Infarction. J Am Coll Cardiol, 2007; 50: 2173-2195.
Troponin confusion hall of fame
“If the troponin is positive, that means you need to start heparin.”
“Isn’t there a new type of MI called a ‘Type 2 Myocardial Infarction,’ and this is the same as demand ischemia?”
“But where is the troponin coming from if it’s not coming from the heart?”
Differential diagnosis
So now you have a troponin level that is elevated. Your pre-test probability for ACS was very low; troponin should not have been ordered.
Now you’re in a clinical scenario that the troponin-validation studies do not address. What to do?
Don’t memorize this Cardiac diseases and interventions
Cardiac amyloidosis/Cardiac contusion/Cardiac surgery/Cardioversion and implantable cardioverter defibrillator shocks/Closure of atrial septal defects/Coronary vasospasm/Dilated cardiomyopathy/Heart failure/Hypertrophic cardiomyopathy/Myocarditis/Percutaneous coronary intervention/Post cardiac transplantation/Radiofrequency ablation/Supraventricular tachycardia
Non-cardiac diseasesCritically ill patients/High dose chemotherapy/Primary pulmonary hypertension/Pulmonary embolism/Renal failure/Subarachnoid haemorrhage/Scorpion envenoming/Sepsis and septic shock/Stroke/Ultra-endurance exercise (marathon)
Peter Ammann, Matthias Pfisterer, Thomas Fehr, Hans Rickli. Raised cardiac troponins: Causes extend beyond acute coronary syndromes. BMJ. 2004 May 1; 328(7447): 1028-1029.
Siegel 6-category Troponin DDx
Thrombosis Trauma Demand “Sick” Brain Annoying
Thrombosis
Pulmonary embolismTroponin is elevated in 30-50% of cases of clinically proven PE
Acute Coronary Syndrome
Give heparin!
Trauma
ElectricalEven a single ICD shock can cause
troponin elevation
MechanicalSurgery. Cardiac ablation procedures.
Trauma. (Check troponin after chest trauma.)
Supply/Demand Mismatch
Increased myocardial oxygen demand
Tachycardia, hypertrophy, fever, surgery
Decreased myocardial oxygen supply
Hypoxia, anemia, hypotension
Demand, continued: Tachycardia
Tachycardia alone has been implicated as a cause of troponin elevation in case series.
In one series of 21 patients with elevated cTnI levels and normal coronary angiograms, tachycardia was determined to be the explanation of the troponin elevation in six patients.
A second series described four patients with troponin elevations after episodes of supraventricular tachycardia (SVT), who had no evidence of CHD.
Demand, continued: Tachycardia
Myocardial troponin can be released as a consequence of tachycardia alone in the absence of myodepressive factors, inflammatory mediators, and CHD.
Bakshi TK; Choo MK; Edwards CC; Scott AG; Hart HH; Armstrong GP. Causes of elevated troponin I with a normal coronary angiogram. Intern Med J 2002 Nov;32(11):520-5.
Demand, continued: Hypertrophy
In a series of 74 consecutive patients without clinical evidence of active myocardial ischemia referred for routine echocardiography, seven of 25 patients in the tertile with the greatest LV mass had an elevated cTnI. In contrast, one patient in the intermediate range, and none of patients in the lowest tertile had elevated troponin.
Hamwi, SM, Sharma, AK, Weissman, NJ, et al. Troponin-I elevation in patients with increased left ventricular mass. Am J Cardiol 2003; 92:88
Demand, continued: Hypertrophy
LVH can lead to occult subendocardial ischemia via increased oxygen demand from increased muscle mass, coupled with decreased flow reserve due to remodeled coronary microcirculation.
Similar observations have been made in the setting of aortic valve disease.
Cardiac troponin I in aortic valve disease. Nunes JP; Mota Garcia JM; Farinha RM; Carlos Silva J; Magalhaes D; Vidal Pinheiro L; Abreu Lima C. Int J Cardiol 2003 Jun;89(2-3):281-5.
“Sick”
SepsisNot only does this cause demand
ischemia, it may also cause degradation of intramyocyte troponin molecules, allowing them to permeate the cell membrane (hypothetical)
Autoimmune/infiltrativeMyocarditis, amyloid
Brain
Subarachnoid hemorrhage (SAH) Acute CVATroponin is elevated in about 27% of patients with
acute stroke, and in SAH case series.
Probably due to catecholinergic surge; autopsy studies demonstrate myocardial band necrosis in some of these patients
Trooyen M, Indredavik B, Rossvoll O, Slordahl SA. [Myocardial injury in acute stroke assessed by troponin I] Tidsskr Nor Laegeforen 2001 Feb 10;121(4):421-5. Tung, P, Kopelnik, A, Banki, N, et al. Predictors of neurocardiogenic injury after subarachnoid hemorrhage. Stroke 2004; 35:548.Naidech, AM, Kreiter, KT, Janjua, N, et al. Cardiac troponin elevation, cardiovascular morbidity, and outcome after subarachnoid hemorrhage. Circulation 2005; 112:2851.Homma, S, Grahame-Clarke, C. Editorial comment--myocardial damage in patients with subarachnoid hemorrhage. Stroke 2004; 35:552.
Annoying
Lab errorProximity to mice
Chronic Kidney DiseaseCan have positive troponin for years. Also have
poor prognosis and CAD, too. If they also get atypical chest pain, should we cath these people or not?
Siegel 6-category Troponin DDx
Thrombosis (ACS, PE) Trauma (Electrical, mechanical) Demand (Demand, supply) “Sick” (Sepsis, immune/infiltrative) Brain (Large CVA, SAH) Annoying (Lab error, CKD)
Troponin without ACS
It’s like a positive RPR without syphilis: It can be a hint that you’re missing a
diagnosis. It can also end up being clinically
useless There is no clear evaluation strategy,
other than to think through the DDx of elevated troponin and see if it helps improve your patient’s diagnosis
Troponin without ACS, cont.
When you get this, should you look for or treat CAD?
• Get a stress test?• Get a cath?• Change your LDL treatment goal?
Troponin without ACS, cont.
"There are currently no data from randomized, controlled trials evaluating the efficacy of therapies aimed at reducing risk in patients with troponin elevations in the absence of an ACS." -Up-To-Date
• That said, you probably should give aspirin and beta blockers--in case you’re missing an ACS, the benefit is huge and the risks of these treatments are minimal.
• (Quadramed recommends this.)
Troponin confusion hall of fame
“If the troponin is positive, that means you need to start heparin.”
“Isn’t there a new type of MI called a ‘Type 2 Myocardial Infarction,’ and this is the same as demand ischemia?”
“But where is the troponin coming from if it’s not coming from the heart?”
Myocyte Necrosis is not necessary to make troponin In rat cardiomyocytes, only 15 minutes
of mild ischemia has been shown to be enough to cause troponin release
This interval is too short to induce cell death
McDonough JL, Arrell DK, Van Eyk JE. Troponin I degradation and covalent complex formation accompanies myocardial ischemia/reperfusion injury. Circ Res 1999;84: 9-20.
Increased preload alone can cause troponin release. Troponin degradation has been
demonstrated with increased preload, independent of myocardial ischemia, in isolated rat hearts.
Preload induces troponin I degradation independently of myocardial ischemia.
Feng J; Schaus BJ; Fallavollita JA; Lee TC; Canty JM Jr. Preload induces troponin I degradation independently of myocardial ischemia. Circulation 2001 Apr 24;103(16):2035-7.
Causes of Troponin Elevationwhere Heparin Can Be Lethal Demand ischemia from anemia/hypovolemia from
blood loss--can appear clinically similar to ACS Pericarditis Subarachnoid hemorrhage Large CVA Traumatic cardiac contusion Thoracic aortic dissection
All of the above can present with EKG changes; list is not complete
Degree of troponin elevationas an aid to diagnosis“This cannot be demand ischemia alone.
The troponin level is too high.” If there is any clinical study showing the
maximum troponin level achievable in any condition, I am not aware of it.
(With the exception of ICD shocks, where we think we know the upper limit.)
STEMI can present with surprisingly low troponin values.
In almost every study,
In a broad array of conditions,
The higher the peak troponin value, the worse the mortality.
Has been demonstrated in studies of ACS, PE, CVA, ESRD, sepsis
Degree of troponin elevationas an aid to prognosis
Troponin Predicts Mortality
Antman TM, Tenasijevic MJ, Thompson B, et al. Cardiac-specific troponin I levels to predict the risk of mortality in patients with
acute coronary syndromes. N Engl J Med 1996;335:1342-1349.
Why is troponin better than CK?
Because it is more accurate than CK, and also more sensitive than CK-MB for detecting ACS.
(However, troponin stays elevated longer, which is a drawback.)
The figure on the following slide comes from:
Omland T, de Lemos JA, Sabatine MS, et al. A sensitive cardiac troponin T assay in stable coronary artery disease. N Engl J
Med 2009;361:2538-2547.
ROC troponin/myoglobin/CK-CK-MB
Time course of serum markersin acute myocardial infarctionLarue C, Calzolari C, Bertinchant JP, Leclercq F, Grolleau R, Pau B. Cardiac-specific immunoenzymometric assay of troponin I in the early phase of acute myocardial infarction. Clin Chem. 1993;39:972–979.
Thank you.
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