Wellens' syndrome (WS) is a preinfarction state caused by a sub-occlusion of the proximal left anterior descending coronary artery (LAD). In this case report, for the first time, we describe how this ...syndrome can be caused by COVID-19 infection and, most importantly, that it can be assessed bedside by enhanced transthoracic coronary echo Doppler (E-Doppler TTE). This seasoned technique allows blood flow Doppler to be recorded in the coronaries and at the stenosis site but has never been tested in an acute setting. Two weeks after clinical recovery from bronchitis allegedly caused by COVID-19 infection on the basis of epidemiologic criteria (no swab performed during the acute phase but only during recovery, at which time it was negative), our patient developed typical angina for the first time, mainly during effort but also at rest. He was admitted to our tertiary center, where pharyngeal swabs tested positive for COVID-19. A typical EKG finding supporting WS prompted an assessment of the left main coronary artery (LMCA) and the whole LAD blood flow velocity by E-Doppler TTE. Localized high velocity (transtenotic velocity) (100 cm/s) was recorded in the proximal LAD, with the reference velocity being 20 cm/s. This indicated severe stenosis with 90% area narrowing according to the continuity equation, as confirmed by coronary angiography. During follow-up after successful stenting, E-Doppler TTE showed a decrease in the transtenotic acceleration, confirming stent patency and a normal coronary flow reserve (3.2) and illustrating a normal microcirculatory function. Conclusion: COVID infection can trigger a coronary syndrome like WS. E-Doppler TTE, an ionizing radiation-free method, allows safe and rapid bedside management of the syndrome. This new strategy can be pivotal in distinguishing true WS from pseudo-WS. In cases of pseudo-WS, coronary angiography can be avoided. If E-Doppler TTE confirms the stenosis and PCI (percutaneous coronary intervention) is performed, the same method can allow assessment over time of the precise residual stenosis after stenting and verify the microvasculature status by evaluating coronary flow reserve.
Abstract
A 45-year-old woman, without cardiovascular risk factors and affected by chronic migraine, presented to the emergency department due to the onset of a typical chest pain. After performing an ...electrocardiogram she was promptly transported to the Cath lab, with the diagnosis of ST segment elevation myocardial infarction (STEMI), for urgent coronarography. A spontaneous dissection of the first obtuse marginal branch was detected which was treated with two drug eluting stents implantation. A day after the procedure, during a migraine crisis, at the continuous electrocardiographic monitoring it was registered a brief episode of complete atrioventricular block, which regressed spontaneously after a few minutes. For this reason, she underwent atropine test which resulted negative for AV conductance defects. No more episodes were recorded during the hospital stay, however it was decided to implant a loop recorder (Biotronik BIOMONITOR III) before the discharge. The patient received a remote monitoring device in order to allow a closer follow-up in course of the COVID-19-related lockdown, that caused a relevant reduction in the outpatients’ services. A few months later a sinusal pause of about 9 s was recorded with the emergence of an idioventricular rhythm at 25 b.p.m. When contacted by telephone the patient reported being hospitalized because of pulmonary complications of SARS-CoV-2 infection. She referred of being bedridden, without any cardiac monitor and of being asymptomatic for syncope. Thus, she was transferred to a Cardiology Unit dedicated to patients affected by SARS-CoV-2 disease, for further diagnostic investigations. This represents a case in which the remote monitoring technology resulted fundamental in the management of patients with implantable devices, in particular during COVID-19-related lockdown. However, it is at least as much important to encourage the patient to carry the transmitter with him, even in the case of unexpected events or hospitalizations, in order to gain access to all the information store in the CIED which might be useful to the diagnosis of the underlying disease. Biotronik has developed the smallest remote transmitter in commerce (CardioMessenger Smart) which is functional to this kind of use. Moreover, it has an automatic interrogation function which can send the alerts about the arrhythmic events quicker than the other brands and so it’s more practical in situations where the patient is hospitalized in non-cardiological units.
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