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https://doi.org/10.15836/ccar2019.109

Dipyridamole stress echo – the next step in evolution of stress imaging in the Echocardiography Laboratory at the Čakovec County Hospital

Mihajlo Kovačić orcid id orcid.org/0000-0002-2577-9474 ; Čakovec County Hospital, Čakovec, Croatia
Marko Hranilović orcid id orcid.org/0000-0001-6522-5882 ; Čakovec County Hospital, Čakovec, Croatia


Puni tekst: engleski pdf 843 Kb

str. 109-110

preuzimanja: 512

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Sažetak

Introduction: Stress echocardiography is the combination of 2D echocardiography with physical, pharmacological or electrical stress. The diagnostic endpoint of the detection of myocardial ischemia is the induction of a transient change in regional function during stress.1 Myocardial ischemia results in a typical “cascade” of events in which the various markers are hierarchically ranked in a well-defined time sequence. Flow heterogeneity between subendocardial and subepicardial perfusion is the forerunner of ischemia, followed by metabolic changes, alteration in regional mechanical function, and only at a later stage by electrocardiographic (ECG) changes, global left ventricular dysfunction (LV) and pain.2 Wall motion and perfusion or coronary flow reserve (CFR) changes are highly accurate, and more accurate than ECG changes for detection and location of underlying coronary artery disease. However, wall motion is more specific and requires ischemia; perfusion changes are more sensitive and may occur in the absence of true ischemia (microvascular disease, or LV hypertrophy).1 The three most common ischemic stressor are exercise, dobutamine, and vasodilators (dipyridamole, adenosine). They are equally potent for inducing wall abnormalities in the presence of
a critical epicardial coronary artery stenosis. Dobutamine and exercise manly act through increased myocardial oxygen demand. Vasodilators act by stimulating A2 adenosinergic receptors present on the endothelial
and smooth muscle cells of coronary arterioles and induce ischemia due to reduced subendocardial flow supply subsequent to inappropriate arteriolar vasodilatation and steal phenomena.1 Dipyridamole was the first pharmacological stress agent used for the diagnosis of coronary
artery disease, with a pioneering indication proposed in Europe for the identification of ischemia during 12-lead ECG3, and later in the USA by Lance Gould as hyperemic stress perfusion imaging.4 Dipyridamole stress echocardiography pioneered in the year of 1985 (Picano
et al). The safety record of high dose dipyridamole is well established on the basis of large scale multicentric studies with data from thousands of patients. The incidence of major complications, i.e. myocardial infarction, atrioventricular block, cardiac asystole, sustained ventricular
tachycardia, is about 1/1500 cases. The mortality rate is about 1/10000 cases, similar to that of the exercise stress test. Dipyridamole has a better safety profile than when stress testing with dobutamine, where the incidence of major adverse reactions is about 1/300 studies.5 Many
centers from 1988 until today, have used high doses administered in a short time (syringe-based infusion of 0.84 mg/kg). Later, some studies were reproduced with these doses, and today, most centers worldwide use high dose delivered in 4-6 min.6 Center experience: In 2017 we started to perform stress echocardiography in Čakovec County Hospital. The first method was exercise echocardiography using treadmill protocol, with imperative do accomplish postexercise imaging as soon as possible (<1 min from the cessation of exercise) where patient moved immediately from treadmill to imaging bed. With this method we have information from exercise stress testing combined with echocardiographic wall motions analysis to make final interpretation. The second method and most used until recently in our echo lab is standard dobutamine stress protocol, starting with 5 ug/kg/min and increasing 10, 20, 30 and 40 ug/kg/min. If no endpoint is reached, atropine, usually in dose 0.25 mg, is added to maximal dobutamine dose infusion. We are using this method for coronary disease detection, but also low dose protocol, to asses myocardial viability, valvular pathology (low-flow aortic stenosis) and other indications. Recently we started vasodilator stress echocardiography using dipyridamole, and until today, we performed a test on 15 patients. Protocol diagram is showed in Figure 1. The dipyridamole dose employed for stress testing was 0.84 mg/kg administered in short time (syringe-based infusion at a rate of 0.21 mg/kg/min during 4 minutes). A fast protocol is embraced because is known that high dose protocols in short time causes a three- to fourfold increase in coronary blood flow in normals and give best sensitivity and specificity for coronary pathology detection7. Peak vasodilatation occurs 1 to 2 minutes after the end of infusion and the dipyridamole elimination half-time is 40 minutes which enables us enough time for imaging in the period of maximum stress. After image completion we give the antidote aminophylline (blocks adenosine receptors) even in negative cases. The antidote can also be used for emergent reversal of adverse dipyridamole-related events which we have not encountered in this limited series of tests. If technically feasible due to image quality, we perform measurement of coronary
flow reserve in mid to distal left anterior descending artery (LAD) using pulse doppler (Figure 2 and Figure 3) before and after vasodilatation.
CFR in many cases adds additional diagnostic value when combined with conventional wall motion analysis. Another tool to increase diagnostic accuracy, especially when image quality is impaired, are contrast agents (i.e. Optison) which help to delineate endocardial borders. All caffeine-containing foods (coffee, tea, chocolate, bananas, cola drinks) should be avoided for 12 hours before test and all theophylline- containing drugs (aminophylline) should be discontinued for at least 24 hours before test. Very low dose protocols can be used (0.28 ug/kg) to identify myocardial viability and have high specificity (higher than dobutamine) but lower sensitivity8. Absolute contraindications for dipyridamole stress test are active bronchospasm, 2nd or 3rd degree AV block and systolic blood pressure <90 mmHg. Relative contraindications are methylxanthine use and remote history of restrictive airway disease.
Conclusion: Dipyridamole stress echocardiography can be used as a preferred stress test for the detection of coronary artery disease
in patients unable to exercise and with contraindications to dobutamine (tachyarrhythmias, uncontrolled blood pressure). It is technically easier than exercise or dobutamine stress tests since image quality is less degraded by tachycardia, hyperventilation and hypercontractility. The test is equally accurate in comparison with dobutamine, but technically easier and safer9. In the future, dipyridamole test is planned to be the default method for pharmacological stress in our laboratory supported with contrast agents when necessary. Contrast perfusion stress echocardiography is the next planned step in years to come.

Ključne riječi

stress echocardiography; dipyridamole, dobutamine; coronary artery disease

Hrčak ID:

220650

URI

https://hrcak.srce.hr/220650

Datum izdavanja:

31.5.2019.

Posjeta: 1.248 *