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Update in Cardiac Stress Testing and Nuclear Cardiology
Matthew Schumaecker, MD, FACC, FASNCMedical Director, Nuclear CardiologyDivision of Cardiology, Carilion ClinicAssistant Professor of MedicineVTC School of Medicine
Objectives
After 50 minutes, the awake audience member should have:• A renewed conceptual framework of cardiac
stress testing• A better understanding of the epidemiology
behind stress testing, particularly nuclear cardiac testing
• An introduction to novel technologies in nuclear cardiology with emphasis on low-radiation techniques
Part I: What is Cardiac Stress Testing
Overview of Stress Modalities
Stress Modality• Exercise
• Treadmill• Bicycle
• Pharmacological• Dobutamine• Atropine
• Adenosine• Dipyridamole
Imaging Modality• Surface electrocardiography• Echocardiography• Myocardial Perfusion
Imaging:• SPECT• PET
Stress Modality: Exercise
Advantages:• Least expensive stress
modality• Lowest concern for
adverse reaction• Produces physiologic
ischemia in CAD• Threshold of reproduction
of ischemic symptoms• Derived functional data
is strongly predictive of cardiac mortality
Disadvantages:• Cannot perform in
patients with significant functional limitations
• ECG uninterpretable in LBBB, LVH, resting ST abnormalities, WPW, PPM and SPECT can be false positive in LBBB and patients with PPM
Stress Modality: Exercise-Treadmill
• Treadmill is most commonly used for exercise
• Bicycle is used mostly in echo lab for valve cases (i.e., mitral stenosis) and to assess for exercise-induced pulmonary hypertension.
• Patients are put on a standardized protocol which can predict performance based on age and gender (i.e., Bruce, Cornell, Naughton)
Stress Modality: Exercise-Treadmill
Bruce Protocol - Treadmill• Most commonly used
protocol.• Very well-studied and
validated with good prognostic data.
• Each stage lasts three minutes
• Patient exercises to symptomatic maximum
Stage Speed (mph)
Gradient (%)
I 1.7 10
II 2.5 12
III 3.4 14
IV 4.2 16
V 5.0 18
VI 5.5 20
Stress Modality: Exercise
• MET = Metabolic equivalent• 1 MET = amount of energy expended at
supine rest• 1 MET ≈ (kcal/hour)/kg• 1 MET ≈ 3.5 ml/kg/min VO2
• Average maximum exercise threshold in healthy middle-aged male ~ 10 METS
Stress Modality: Exercise-Treadmill
Stress Modality: Exercise-Treadmill
Stress Modality: Exercise - Bicycle
Advantages• More direct measurement of
work (i.e., watts)• Echocardiographic images
obtained during exercise• Useful for evaluating mitral
stenosis and exercise induced pulmonary hypertension
• Can complement vasodilator stress by producing better images and minimizing symptoms
• Can obtain respiratory data if
equipped
Disadvantages• Can be cumbersome to set up.• Takes longer to reach MPHR• Not widely used in US for
cardiac stress testing
Stress Modality: Dobutamine
• Beta agonist• Simulates exercise by positive chronotropy
and inotropy.• Can be difficult to achieve 85% MPHR with
dobutamine alone• May need to augment chronotropic response
with atropine up to 1 mg.• Can cause SAM and LVOT obstruction in
patients with significant septal hypertrophy.
Stress Modality: Vasodilator
Slide by Dr. Robert Hendel. ASNC 7/07
Stress Modality: Vasodilator
Slide by Dr. Robert Hendel. ASNC 7/07
Stress Modality: Adenosine
• Causes coronary arteriolar vasodilation• Extremely short half life• Given in a four or six minute infusion• Tracer is injected halfway through the
protocol• Can cause flushing, diaphoresis,
chest pain. Usually resolves within minutes after infusion
Stress Modality: RegadenosonFour Types of Adenosine Receptors
• A1 – AV Block
• A2A – Vasodilate small coronary vessels• A2B – Mast cell degranulation
• A3 - Bronchoconstriction
ADVANCE MPI-2
Mahmarian et al. JACC Imaging; Aug 2009
Stress Modality: Dipyridamole
• Trade Name: Persantine• Acts by blocking the cellular uptake of
adenosine• Four to ten times less expensive than adenosine• Comparable to adenosine with respect to
sensitivity; specificity may be lower• Much longer half life so adverse reactions tend
to be more severe• Not used very much in clinical practice
Imaging Modalities
Slide by Dr. Robert Hendel. ASNC 7/07
Surface ECG
• Obtained during every stress modality.• Determine underlying rhythm• Assess for arrhythmic response to stress• Assess for ischemic response to stress
• ST segment is monitored during all phases of stress to look for significant deviation.
• Sensitivity and specificity alone are lower than other modalities (especially in women) but can be complementary to other modalities.
ECG Positivity
Tak and Gutierrez. Postgraduate Medicine Online June 2004
Stress Echo
Pro• No radiation• Higher specificity• Can assess other cardiac
chambers and valves.• Can assess valve
disease• Can assess pulmonary
hypertension
Con• Operator-dependent• Lower sensitivity• No vasodilator option• Non-quantitative
Stress Nuclear
Pro• Higher sensitivity• Vasodilator option• Quantitative support• Less inter-operator and
inter-reader variability
Con• Radiation concern• Does not evaluate valves
or other cardiac processes other than myocardial perfusion
Part II: Why Do We Stress Test?
Part II: Why Do We Stress Test?
• Rule out CAD?• Reassure patients?• Reassure ourselves?• Avoid lawsuits?
Imaging Modalities:Sensitivity and Specificity
Tread
mill
ECG
Planar
Tha
llium
SPECT MPI
Tread
mill
Echo
PET0%
10%20%30%40%50%60%70%80%90%
100%
SensitivitySpecificity
Why Do We Stress Test?
• To provide a physiologically-based risk assessment in selected individuals which is adjunctive and additive to traditional risk assessment from H&P and models such as Framingham or Reynold’s Risk Score
Cardiac Death and MIby SPECT Degree of Normalcy
Hachamovitch R, Berman DS, Shaw LJ, et al. Circulation. 1998 Feb 17;97(6):535-43.
Black boxes– Cardiac deathWhite boxes – Myocardial infarction
n=5534
Cardiac Death Rate Stratified by Revascularization vs. Medical Therapy and by SPECT Degree of
Normalcy
Hachamovitch R, Berman DS, Shaw LJ, et al. Circulation. 1998 Feb 17;97(6):535-43.
Black boxes – Medical TherapyWhite boxes – Revascularization
Part III:Which Patients Do We Stress Test?
Part III:Which Patients Do We Stress Test?
• Patients at high risk for CAD?• Abnormal ECG• Hyperlipidemia• Hypertensives• Smokers
Why Detecting (asymptomatic) CAD Might Not Matter
Why Detecting (Asymptomatic)CAD Might Not Matter
Is there any role to stress testing asymptomatic individuals?
NOT USUALLY
“Special” Asymptomatic Indications
• Consideration for class Ic antiarrhythmic• Newly diagnosed cardiomyopathy• CT calcium score > 400 Agatston units• Chemotherapy• MAYBE – high risk (>20%/10 year)
diabetics
Appropriate Use Criteria
Appropriate Use Criteria
Part IV: Radiation Safety and Advances in Nuclear Imaging
Technology
Danger of increased radiation
• “ Myocardial perfusion imaging … now accounts for more than 10% of the entire cumulative effective (radiation) dose to the US population from all sources except radiotherapy.”
Einstein AJ. Effect of radiation exposure from cardiac imaging. J Am Coll Cardiol 2012; 59:553-565.
Society Mandate for Lower Radiation Exposure
The American Society of Nuclear Cardiology has set a goal that accredited nuclear cardiology laboratories should reduce radiation levels to 9 mSv in half of patients by 2014
Journal Nuclear Cardiology 2010; 17:709-718
82,861 patients studied after MI. 77% had cardiac imaging or procedure
For every 10 mSv of low-dose ionizing radiation, there was a 3% increase in the risk of age- and sex-adjusted cancer over a mean follow-up period of five years (hazard ratio 1.003 per mSv, 95% confidence interval 1.002–1.004).
Imaging procedures and their approximate effective radiation doses*
Procedure Average effective dose (mSv)
Range reported in the literature (mSv)
Bone density test+ 0.001 0.00–0.035
X-ray, arm or leg 0.001 0.0002–0.1
X-ray, panoramic dental
0.01 0.007–0.09
X-ray, chest 0.1 0.05–0.24
X-ray, abdominal 0.7 0.04–1.1
Mammogram 0.4 0.10–0.6
X-ray, lumbar spine 1.5 0.5–1.8
CT, head 2 0.9–4
CT, cardiac for calcium scoring
3 1.0–12
Nuclear imaging, bone scan
6.3 �
CT, spine 6 1.5–10
CT, pelvis 6 3.3–10
CT, chest 7 4.0–18
CT, abdomen 8 3.5–25
CT, colonoscopy 10 4.0–13.2
CT, angiogram 16 5.0–32
CT, whole body variable 20 or more
Nuclear imaging, cardiac stress test
40.7 �
Source: Mettler FA, et al. "Effective Doses in Radiology and Diagnostic Nuclear Medicine: A Catalog,"Radiology (July 2008), Vol. 248, pp. 254–63.
At Carilion, closer to 15.2 mSv
Spectrum Dyamics D-SPECT
Uses CZT (Cadmium Zinc Telluride) crystal instead of tradition NaI
This makes it much more sensitive to photon emissions
Analagous to taking a picture with very high speed film – you need less “light” to get a picture
This allow us to get clear pictures:•More quickly•With less radiation•On more obese patients (weight limit 531 lbs)
Solid State SPECT Imaging:Low Dose
Recent data shows that an excellent quality scan could be accomplished with 5 mCi of Technetium.
This would provide about 1.6 mSv of radiation per scan
Stress First/Only
• 60-70% nuclear studies normal• If stress images are normal, rest images
are not clinically valuable• In lower risk patients, we could do stress
imaging and only if abnormal bring back for rest
Radiation ExposureNormal BMI
Procedure Radiation Exposure
Dual Isotope Imaging traditional SPECT
24mSv
Same Isotope (Tc-Tc) Imaging/traditional SPECT
12mSV
Same Isotope (Tc-Tc) Imaging / D-SPECT
4 mSv
Stress Only (Tc) / D-SPECT 1 mSv
Questions
Matthew SchumaeckerBlackberry: 540-494-2411
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