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StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024 Jan-.
Viliane Vilcant ; Roman Zeltser .
Last Update: June 20, 2023 .
Treadmill stress testing is a form of cardiovascular stress testing that typically utilizes electrocardiography along with blood pressure monitoring and exercise, typically involving a treadmill or bicycle. This form of stress testing is generally performed according to protocols. However, patients unable to exercise can sometimes still undergo this test with the administration of a pharmacologic agent that stimulates the heart's activity, simulating exercise-induced changes. This activity specifically focuses on treadmill exercise stress testing and reviews the indications, contraindications, and techniques involved in performing treadmill exercise stress testing; this activity also highlights the role of the interprofessional team in the care of patients undergoing this procedure.
Review the indications for treadmill testing. Identify the contraindications to a treadmill test. Explain the clinical significance of a treadmill test.Summarize a structured interprofessional team approach to provide effective care and appropriate surveillance of patients undergoing a treadmill stress test.
Treadmill stress testing is a form of cardiovascular stress testing that uses exercise with electrocardiography (ECG) and blood pressure monitoring. This form of stress testing is usually performed with exercise protocols using either a treadmill or bicycle. In addition, patients who are unable to exercise may benefit from the administration of a pharmacologic agent that stimulates the heart's activity, simulating exercise-induced changes.
With treadmill stress testing, providers can determine a patient's functional capacity, assess the probability and extent of coronary artery disease (CAD), and assess the risks, prognosis, and effects of therapy.[1] Observations from the Henry Ford exercise testing (FIT) study appear to suggest a graded and inverse correlation between cardiorespiratory fitness and incidental atrial fibrillation, especially for obese patients.[2]
Exercise Physiology
Exercise is associated with sympathetic stimulation and changes in the coronary vasomotor tone, which affects coronary blood flow. Several studies have reported that the coronaries dilate during exercise.[3] Some reported mechanisms contributing to this dilatation include the release of vasoactive substances from the endothelium due to increased myocardial oxygen consumption, passive relaxation due to the increase in coronary arterial pressure, and endothelium-mediated limitation of constrictor effects of catecholamine.
During exercise, the increase in myocardial oxygen demand and coronary vasodilation allows for increased oxygen delivery which is crucial to myocardial perfusion, thereby preventing ischemia. Through this hyperemic effect, providers can identify ischemia, as stenotic vessels do not vasodilate as well as normal vessels.[4]
Due to sympathetic stimulation and vagal inhibition, an increase in stroke volume, heart rate, and cardiac output is noted. Alveolar ventilation and venous return also increase as a consequence of selective vasoconstriction. The hemodynamic response depends on the amount of muscle mass involved, exercise intensity, and overall conditioning. As exercise progresses, skeletal muscle blood flow increase and peripheral resistance decrease leading to a rise in systolic blood pressure (SBP), mean arterial pressure (MAP), and pulse pressure.[5] Diastolic blood pressure (DBP) may remain unchanged, slightly increase, or slightly decrease.
The age-predicted maximum heart rate is a useful measure for estimating the adequacy of stress on the heart to induce ischemia. The goal is usually 85% of the age-predicted maximum heart rate, calculated by subtracting the patient's age from 220.[6][7][8]
Treadmill stress testing is indicated for the diagnosis and prognosis of coronary artery disease (CAD). This is the initial investigation of choice in patients with a normal or near-normal resting ECG capable of performing adequate exercise.[9][1] Indications for treadmill testing include:
Symptoms suggesting myocardial ischemia Acute chest pain in patients excluded for acute coronary syndrome (ACS) Recent ACS treated without coronary angiography or incomplete revascularization Known CAD with worsening symptomsPrior coronary revascularization (5 years or longer after coronary artery bypass grafting [CABG] or two years or less after percutaneous coronary intervention [PCI])
Valvular heart disease (to assess exercise capacity and need for surgical intervention) Certain cardiac arrhythmias to assess chronotropic competence Newly diagnosed heart failure or cardiomyopathy[1][8]Absolute Contraindications
Acute myocardial infarction within 2 to 3 days Unstable angina not previously stabilized by medical therapy Uncontrolled cardiac arrhythmias causing symptoms or hemodynamic compromise[10] Symptomatic severe aortic stenosis[11] Uncontrolled symptomatic heart failure An acute pulmonary embolus or pulmonary infarction Severe pulmonary hypertension Acute myocarditis or pericarditis, or endocarditis Acute aortic dissectionRelative Contraindications (can be overlooked if the benefits of treadmill stress testing outweigh the risks)
High-grade AV blocks Severe hypertension (systolic greater than 200 mmHg, diastolic greater than 110 mmHg, or both) Inability to exercise given extreme obesity or other physical/mental impairment[8][12] Left main coronary stenosis Moderate stenotic valvular heart disease Electrolyte abnormalities Tachyarrhythmias or bradyarrhythmias Hypertrophic cardiomyopathy and any other forms of outflow tract obstruction[13] Mental or physical impairment leading to an inability to exercise adequatelyTreadmill stress testing is generally safe. Complications are rare, and the frequency of serious adverse cardiac events (i.e., myocardial infarction, sustained ventricular arrhythmia, and death) has been estimated to be approximately 1 in 10,000 patients.
All persons conducting the treadmill stress test should be trained to diagnose and manage complications should they arise. Emergency resuscitation equipment and drugs should also be readily available. The patient should be explained about the procedure, and consent should be obtained before the procedure.
Treadmill stress testing is performed in a designated lab, supervised by a trained healthcare provider. Electrodes are placed on the chest and attached to an ECG machine, recording the heart's electrical activity. The resting ECG, heart rate, and blood pressure are obtained prior to starting the exercise regimen.
The baseline ECG should be evaluated closely prior to starting the exercise portion of the test. Several baseline ECG changes can obscure the test results, making it difficult for the provider to interpret the results in terms of ischemia. Such baseline changes include ST-segment changes that are greater than or equal to 1 mm, left bundle branch block, ventricular paced rhythm, left ventricular or right ventricular hypertrophy, ventricular pre-excitation (i.e., WPW syndrome), T wave inversions due to strain pattern or previous injury, conduction abnormalities, and medication-induced ST-T wave changes. If any of these ECG abnormalities are noted, the test should be performed with the addition of an imaging modality. The resting ECG is usually obtained both supine and standing since patient position can influence the QRS and T wave axes. Whether with imaging or without, treadmill stress testing is more helpful in excluding CAD than confirming it.[14]
Once it is determined that there are no limiting factors based on baseline ECG, the patient is placed on a treadmill with a designed protocol that increases in intervals as they exercise. Blood pressure and heart rate are monitored throughout exercise, and the patient is monitored for any developing symptoms such as chest pain, shortness of breath, dizziness, or extreme fatigue. The Bruce protocol is the most common one used during treadmill exercise stress testing.[15] This protocol is divided into successive 3-minute stages, each requiring the patient to walk faster and at a steeper grade. The testing protocol could be adjusted to a patient's tolerance, aiming for 6 to 12 minutes of exercise duration. There is a modified Bruce protocol for those who cannot exercise vigorously, adding two lower workload stages to the beginning of the standard Bruce protocol, both of which require less effort than stage 1. There are a number of other protocols for patients with a limited exercise tolerance; however, other methods that do not include exercise are also available for such patients.
During the exercise test, data about heart rate, blood pressure, and ECG changes should be obtained at the end of each stage. At any time, an abnormality is detected with cardiac monitoring. Heart rate and systolic blood pressure should rise with each stage of exercise until a peak is achieved. Patients should be questioned about any symptoms they experience during exercise. All patients should be monitored closely during recovery until heart rate and ECG are back to baseline, as arrhythmias and ECG changes can still develop.
It is unnecessary to stop exercise at the onset of mild symptoms if no abnormalities are noted on ECG and the patient is hemodynamically stable. The American College of Cardiology (ACC)/American Heart Association (AHA) guidelines have specified indications for the termination of exercise testing. The following are the absolute indications for termination of testing:
A drop in systolic blood pressure of greater than 10 mmHg from baseline when accompanied by other indications of ischemia.