Clinical Efficacy of Permanent Internal Mammary Artery Occlusion in Stable Coronary Artery Disease

Cardiovascular diseases remain the number one cause of death globally, primarily consequence of myocardial infarction. Although widely used in stable coronary artery disease (CAD), percutaneous coronary intervention (PCI) has not been shown to reduce the incidence of myocardial infarction or death. In contrast, coronary artery bypass grafting (CABG) significantly reduces rates of death and myocardial infarction compared to PCI, but at a higher rate of stroke. Similarly, coronary collaterals exert a protective effect by providing an alternative source of blood flow to a myocardial territory potentially affected by an acute coronary occlusion. Coronary collaterals represent pre-existing inter-arterial anastomoses and as such are the natural counter-part of surgically created bypasses. Sufficient coronary collaterals have been shown to confer a significant benefit in terms of overall mortality and cardiovascular events. In this regard, the concept of augmenting coronary collateral function as an alternative treatment strategy to alter the course of CAD, as well as to control symptoms, is attractive.

While a multitude of interventions has been shown to be effective in collateral growth promotion, so far, the effect of current interventions is only temporary, and therefore, repeated application is necessary to sustain the level of collaterals. The prevalent in vivo function of natural internal mammary arteries (IMA)-to-coronary artery bypasses and their anti-ischemic effect has been recently demonstrated by the investigators' research group. Levels of collateral function and myocardial ischemia were determined in a prospective, open-label clinical trial of permanent IMA device occlusion. In this study, coronary collateral function, has been shown to be augmented in the presence vs the absence of distal permanent ipsilateral IMA occlusion. These findings have been corroborated by the observed reduction in ischemia in the intracoronary ECG.

Coronary functional changes observed in response to permanent distal IMA occlusion have so far, not been related to clinical outcome parameters. Therefore, a controlled, randomized, double-blind comparison of clinical efficacy between a group of patients receiving permanent IMA occlusion vs. a sham-procedure will be consequently performed. Since single antianginal agents have been demonstrated to increase exercise time in comparison to placebo, an improvement of the physical performance due to the increased blood flow by the permanent distal IMA occlusion is expected.

Study Overview

• Status: Completed
• Conditions: Ischemia; Coronary Artery Disease; Internal Mammary-Coronary Artery Anastomosis; Circulation, Collateral
• Intervention / Treatment: Device: Amplatzer vascular plug 4; Other: Sham Control

Detailed Description

Despite considerable advances in medicine, cardiovascular diseases remain the number one cause of death globally. In industrialized countries, coronary artery disease (CAD) is the leading cause of death, consequence of myocardial infarction (MI).

In patients with acute coronary syndrome, percutaneous coronary intervention (PCI) has been shown to improve outcomes. For chronic stable CAD, a recent meta-analysis including more than 93'000 patients has concluded that there may be "evidence for improved survival with new generation drug eluting stents but no other percutaneous revascularization technology compared with medical treatment" . Conversely, a current review of recently published meta-analyses and the detailed analyses of 3 widely quoted individual studies indicate no difference exists among stable CAD patients between PCI and medical therapy regarding nonfatal myocardial infarct or all-cause or cardiovascular mortality. A very recently published randomized controlled trial among patients with stable, single-vessel CAD, the so called ORBITA trial, has found that PCI of the stenotic lesion did not prolong exercise time by more than the effect of a sham procedure during the short observation period of 6 weeks.

In contrast, coronary artery bypass grafting (CABG) was superior to PCI in patients with diabetes and multivessel CAD. CABG significantly reduced rates of death and myocardial infarction compared to PCI, but at a higher rate of stroke. Furthermore, in patients with advanced CAD, rates of myocardial infarction were more than 60% lower with CABG compared to PCI.

Conceptually, the benefit of CABG over PCI is not surprising as PCI targets significant coronary lesions thought to be responsible for causing ischemia. However, the deleterious effects of atherosclerosis are not typically preceded by significant luminal vascular narrowing. The vulnerable plaque eventually becoming the culprit plaque (causing myocardial infarction or sudden cardiac death) has typically a relatively mild stenosis. Furthermore, due to being multifocal and widespread, plaque vulnerability is not a target for, nor amenable to PCI.

Conversely, artificial - or natural - bypasses exert a protective effect by providing an alternative source of blood flow to a myocardial territory potentially affected by an acute coronary occlusion. Coronary collaterals represent pre-existing inter-arterial anastomoses and as such are the natural counter-part of surgically created bypasses. Sufficient coronary collaterals have been shown to confer a significant benefit in terms of overall mortality and cardiovascular events.

In this regard, the concept of augmenting coronary collateral function (i.e. coronary arteriogenesis) as an alternative treatment strategy of revascularization to alter the course of CAD is attractive. In particular, promotion of natural coronary bypasses is an appealing concept for patients with CAD not or not entirely treatable by the conventional coronary revascularization methods of PCI and CABG. According to an analysis by Williams et al, 142 of 493 patients with chronic stable CAD (29%) belonged to the group with incomplete coronary revascularization (partial and no revascularization plus the so called no-option group), and this group showed reduced survival during the 3-year follow-up period. Coronary collateral function promotion from any source could, thus, contribute to the completeness of myocardial revascularization. Incomplete coronary revascularization in chronic CAD has been shown in a very large (n=35'993 patients), recently published registry-based study to reduce overall survival according to the number of vessels not treated by PCI and according to the severity of stenoses left untreated. Coronary arteriogenesis, i.e., the growth of pre-existing collateral vessels has to occur well in advance of acute atherothrombotic coronary artery occlusion in order to limit infarct size. The source of blood supply via natural coronary bypasses (collateral arteries) to a circulatory area at risk for infarction can be within the coronary circulation, but also via extracardiac paths, e.g., via internal mammary arteries (IMA; also termed internal thoracic arteries). Extracardiac coronary artery supply is conceptually related to the term coronary collateral circulation because of its known anatomical structure as arterial anastomoses between, e.g., IMA, the pericardium and coronary arterial branches. In an editorial, Kern and Seto recently commented the concept of "Stimulating extracardiac collaterals" as follows: "To be clinically relevant, coronary collaterals should be a sustainable and sufficiently large source of myocardial perfusion and reduce ischemia in daily life. It is conceivable that improved extracardiac collateral flow has the potential to be exactly that."

This study is relevant due to its primary clinical in addition to surrogate marker efficacy testing, which has not been performed so far for this new technique of coronary arteriogenesis. If proven useful to extend physical exercise time in the context of mitigated angina pectoris, a further option of myocardial revascularization for patients with CAD not treatable by PCI or surgical bypass or not rendered asymptomatic by medical therapy would be available. The catheter-based technique of IMA device occlusion is simple and safe, and if shown efficacious, its action would be potentially sustainable due to the durability of occlusion.

Preclinical Evidence:

The efficacy to augment blood flow via the IMA as naturally existing extracardiac bypasses has been shown in experimental studies in dogs. Bilateral IMA ligation has led to an acute average increase in total coronary flow of about 6-10 ml/min.

The prevalent in vivo function of natural IMA-to-coronary artery bypasses and their anti-ischemic effect has been recently demonstrated during temporary IMA balloon occlusion by the investigators' research group. 180 pairs of measurements were performed in 120 patients electively referred for coronary angiography. Levels of collateral function and myocardial ischemia were determined during two coronary balloon occlusions, the first with, the second without distal IMA balloon occlusion.

Coronary collateral function, as determined by collateral flow index (CFI) has been consistently increased in the presence vs the absence of distal ipsilateral IMA balloon occlusion. These findings have been corroborated by the observed reduction in ischemia as assessed by intracoronary ECG (icECG). Conversely, with distal contralateral IMA occlusion, collateral function and ECG signs of ischemia have remained unchanged.

Clinical Evidence to Date:

Surgical trials in humans on the effect of bilateral IMA ligation on angina pectoris were carried out in the late 1950ies among a total of close to 500 symptomatic CAD patients. Transthoracic access to the IMAs was performed under local anesthesia by a small incision between the 2nd and 3rd rib. The primary endpoint of the clinical trials was angina pectoris, and inconsistently, ECG signs of myocardial ischemia. While the uncontrolled trials reported favourable results in terms of symptomatic relief of angina pectoris, the subsequently performed sham-controlled, but very small trials of bilateral ligation showed similar improvement in the sham as in the verum group. A major limitation of these studies lies in the rather insensitive endpoints used, which preclude conclusions about the efficacy of IMA ligation on extracardiac coronary collateral function.

In a prospective, open-label proof-of-concept trial, the investigators' laboratory occluded the right IMA (RIMA) permanently using a 4-5mm vascular plug in 50 CAD patients. As primary study endpoint, CFI was obtained during ostial, 1-minute balloon occlusion of the untreated right coronary artery (RCA) at baseline before RIMA device occlusion and 6 weeks later. CFI changed from 0.071±0.082 at baseline to 0.132±0.117 (p<0.0001) at follow-up examination. The increase in RCA CFI was accompanied by a decrease in signs of myocardial ischemia during the brief coronary occlusion.

Currently a controlled trial on the effect of permanent RIMA occlusion is ongoing, whereby 100 patients with chronic stable CAD (single-blinded for the procedure) are randomly allocated (1:1) to the occlusion or to a sham control group. The study endpoints (CFI and icECG and clinical signs of myocardial ischemia during RCA occlusion) as well as the follow-up duration of 6 weeks are identical in the current and the previous proof-of-concept trial. An interim analysis among the first 50 patients included in the trial has documented a change in CFI among the patients of the RIMA occlusion group of +0.025±0.015 (p=0.008 vs the sham control group), i.e., the amount of augmentation is similar as the CFI change found during temporal RIMA occlusion with simultaneous ostial RCA occlusion.

The acute functional changes observed by the investigators' study group in response to temporary distal IMA balloon occlusion as well as the improvement of collateral function in the right coronary artery with permanent distal IMA occlusion support the hypothesis that extracardiac coronary collateral supply can be augmented by this intervention. However, the effect of permanent IMA occlusion on clinical outcome in chronic stable CAD has not been studied yet.

• Study Type: Interventional
• Enrollment (Actual): 100
• Phase: Not Applicable

Contacts and Locations

• Study Contact: Name: Christian Seiler, Prof; Phone Number: +41 31 632 3693; Email: christian.seiler@insel.ch
• Study Contact Backup: Name: Marius R Bigler, MD; Phone Number: +41 31 632 8030; Email: mariusreto.bigler@insel.ch

Study Locations

• Switzerland
  • Bern, Switzerland
    • University Hospital Inselspital, Bern

Participation Criteria

Eligibility Criteria

• Ages Eligible for Study: 18 years and older (ADULT, OLDER_ADULT)
• Accepts Healthy Volunteers: No
• Genders Eligible for Study: All

Description

Inclusion Criteria:

• Chronic stable 1- to 3-vessel CAD
• Written informed consent to participate in the study

Exclusion Criteria:

• Absence of at least one coronary stenotic lesion ≥50% diameter narrowing.
• Acute coronary syndrome; unstable cardiopulmonary condition, unstable angina pectoris
• Severe valvular heart disease
• Congestive heart failure NYHA III-IV
• Prior coronary artery bypass surgery / prior cardiac surgery
• CAD best treated by coronary artery bypass grafting
• Prior Q-wave myocardial infarction in the vascular territory undergoing collateral function measurement
• Severe renal or hepatic failure
• Women of childbearing age

Study Plan

How is the study designed?

Design Details

• Primary Purpose: TREATMENT
• Allocation: RANDOMIZED
• Interventional Model: PARALLEL
• Masking: DOUBLE

Number of Arms

2

Arms and Interventions

Participant Group / Arm	Intervention / Treatment
EXPERIMENTAL: Intervention; In the presence of a significant coronary artery stenosis and randomization to the intervention group: Catheter-based permanent occlusion of the ipsilateral (to the culprit coronary lesion) IMA will be performed at the projected height of inferior vena cava confluence and right atrium using a dedicated occlusion device (Amplatzer vascular plug 4, CE0086).	Device: Amplatzer vascular plug 4; See above
SHAM_COMPARATOR: Sham-Control; In the presence of a significant coronary artery stenosis, and randomization to the sham-procedure: IMA will be selectively intubated using an appropriate catheter. Angiography of the IMA and the pericardiacophrenic branch will be performed.	Other: Sham Control; Angiography of the IMA without occlusion

What is the study measuring?

Primary Outcome Measures

Outcome Measure	Measure Description	Time Frame
Treadmill exercise time increment	Treadmill exercise time at follow-up minus treadmill exercise time at baseline exam (difference measured in seconds)	Follow-up (week 6)

Secondary Outcome Measures

Outcome Measure	Measure Description	Time Frame
Angina pectoris	Occurence of Angina pectoris during a controlled 1-minute ostial coronary occlusion for collateral flow index measurement. The occurence will be presented in percent (number of patient with Angina pectoris during occlusion / total number of patients * 100 ) per group (intervention and sham control). If no adequate collateral flow exists, all patient (=100%) should develop angina pectoris during a one-minute occlusion	Follow-up (week 6)
Collateral flow index	Change in coronary CFI (unitless) at follow-up (week 6) vs baseline. Collateral flow index (CFI), the ratio of mean occlusive divided by mean non-occlusive blood pressure, both subtracted by central venous pressure. Range: 0-1. With a CFI of 0.215, a sufficient collateral blood flow exists and can prevent myocardial infarction.	Follow-up (week 6)
Occlusive intracoronary ECG ST-segment shift	During a controlled 1-minute ostial coronary occlusion for collateral flow index measurement (in mV)	Follow-up (week 6)
Fractional flow reserve	Change in coronary FFR (unitless) at follow-up (week 6) vs baseline.	Follow-up (week 6)
Seattle Angina Questionnaire scores	Change in SAQ at follow-up (week 6) vs baseline. The SAQ quantifies 3 domains measuring the impact of angina on patients' health status. Scores are generated for each domain and are scaled 0-100, with 0 denoting the worst and 100 the best possible status. The total score is derived as the average of the three domain scores (again: with 0 denoting the worst and 100 the best possible status)	Follow-up (week 6)
Time to 0.1mV ECG ST-segment depression	Change in time (in seconds) to 0.1mV ECG ST-segment depression at follow-up(week6) vs baseline	Follow-up (week 6)

Collaborators and Investigators

• Sponsor: University Hospital Inselspital, Berne

Publications and helpful links

General Publications

• Stoller M, de Marchi SF, Seiler C. Function of natural internal mammary-to-coronary artery bypasses and its effect on myocardial ischemia. Circulation. 2014 Jun 24;129(25):2645-52. doi: 10.1161/CIRCULATIONAHA.114.008898. Epub 2014 Apr 17.
• Stoller M, Seiler C. Effect of Permanent Right Internal Mammary Artery Closure on Coronary Collateral Function and Myocardial Ischemia. Circ Cardiovasc Interv. 2017 Jun;10(6):e004990. doi: 10.1161/CIRCINTERVENTIONS.116.004990.

Study record dates

Study Major Dates

• Study Start (ACTUAL): March 8, 2019
• Primary Completion (ACTUAL): April 1, 2022
• Study Completion (ACTUAL): April 1, 2022

Study Registration Dates

• First Submitted: October 11, 2018
• First Submitted That Met QC Criteria: October 16, 2018
• First Posted (ACTUAL): October 17, 2018

Study Record Updates

• Last Update Posted (ESTIMATE): February 14, 2023
• Last Update Submitted That Met QC Criteria: February 13, 2023
• Last Verified: February 1, 2023

More Information

Terms related to this study

• Keywords: Collateral Flow Index; Permanent Internal Mammary Artery Occlusion
• Additional Relevant MeSH Terms: Pathologic Processes; Heart Diseases; Cardiovascular Diseases; Vascular Diseases; Arteriosclerosis; Arterial Occlusive Diseases; Coronary Artery Disease; Myocardial Ischemia; Coronary Disease; Ischemia
• Other Study ID Numbers: 2018-01480

Plan for Individual participant data (IPD)

• Plan to Share Individual Participant Data (IPD)?: UNDECIDED

Drug and device information, study documents

• Studies a U.S. FDA-regulated drug product: No
• Studies a U.S. FDA-regulated device product: No