The Cerebral-Coronary Connection (C3) Study

The treatment of stable CAD is largely based on a paradigm that gives epicardial coronary stenoses a central role in the generation of myocardial ischaemia. However, coronary microcirculatory dysfunction (CMD) is a major and frequently ignored cause of ischaemia that, according to retrospective studies, influences the outcomes of patients with CAD. In addition, patients with CMD may not experience symptomatic relief with myocardial revascularization or pharmacological treatment. This constitutes one of the causes of persistent angina despite successful revascularization, causing not only an impairment of the quality of life and higher consumption of healthcare resources, but potentially affective disorders like depression, which has been found to be associated with CAD and with prognosis.

It also remains largely unknown whether CMD in stable CAD is organ-specific only or rather indicative of involvement of other vital organs. While this seems to be the case in the kidney and the retina, the relationship between CMD in the heart and the brain has not been studied. Beyond classical cardiovascular risk factors linked to the development of ischemic heart disease, systemic endothelial dysfunction could constitute a link between microcirculatory involvement in both organs: the heart and the brain. Additionally, the relation between chronic inflammatory status and microvascular disease in both the heart and the brain is not known.

The principal hypotheses and sub-hypotheses are as follows:

Principal hypotheses: 1. Patients with CMD have worse prognosis compared to those ones with normal coronary microcirculation. 2. Patients with CMD have a higher prevalence of CSVD. 3. Chronic systemic inflammation status is an independent predictor of CMD and CSVD.

Sub-hypotheses: 1. The presence of CMD is associated to recurrent/persistent angina. 2. The presence of CMD is associated to higher prevalence of depressive disorders. 3. CMD and CSVD are associated to systemic endothelial dysfunction.

Primary Objectives associated to Principal hypotheses: 1. To investigate the relationship between the presence of CMD and the development of patient-focused outcomes at 1 year of follow-up. 2. To determine the prevalence of CSVD in patients with CAD with and without CMD. 3. To investigate the relationship between systemic inflammation and CMD.

Primary Objectives associated to Sub-hypotheses: 1. To determine the prevalence of persistent or recurrent angina in patients with and without CMD in whom revascularization of CAD is guided by FFR. 2. To determine the prevalence of depressive disorders in patients with and without CMD. 3. To investigate the relationship between the status of systemic endothelial function and the presence of CMD and CSVD.

Methods: Patients with CAD undergoing FFR-guided revascularisation will be prospectively enrolled. FFR, coronary flow reserve (CFR) and the index of hyperemic microvascular resistance (HMR) will be measured with the Doppler guidewire (Combowire, Volcano - Philips corporation) under steady state hyperemia (intravenous adenosine infusion, 140 mcg/Kg/min). CMD will be defined according to CFR and HMR, and will be used to classify the overall population in two groups: the study group (presence of CMD) and the control group (absence of CMD). Coronary revascularization will be decided according to result of FFR (cutoff ≤0.80).

After the procedure the patient will undergo baseline clinical assessment: • Neurological clinical assessment and Transcranial Doppler Ultrasound. • Psychiatric clinical assessment. • Stress Cardiac MRI and Cerebral MRI. • Peripheral endothelial function test with plethysmography-based device EndoPat. • Laboratory blood tests for systemic inflammation markers, platelet function and endothelial progenitor cells. • Baseline assessment of angina status by the Seattle Questionnaire of angina (SAQ).

Clinical follow-up will be performed at 1-month, 6-months and 1-year, and will include: • clinical cardiology and psychiatric assessment, assessment of angina status by the SAQ. • stress test (1-year). • peripheral endothelial function test with plethysmography-based device EndoPat (1-year). • neurological clinical assessment and Transcranial Doppler Ultrasound (1- year). • laboratory blood tests for systemic inflammation markers, platelets function and endothelial progenitor cells(1-year).

Type of blinding: Data regarding coronary microcirculation invasive assessment, neurologic and psychiatric clinical assessment, cardiac and cerebral MRI, Trans-cranial Doppler Ultrasound, laboratory blood tests, systemic endothelial function and follow-up will be collected in a blinded fashion, so that patient and the other investigators, apart from the invasive cardiology team responsible for patient enrollment and study coordination, could not access to them. Primary events rate (major adverse cardiovascular events, incidence of CSVD, systemic inflammation status, depressive disorders, recurrent angina and systemic endothelial dysfunction) will be analyzed and correlated to CMD in a blinded fashion.