Correlation Study of Imaging Data Acquired During CABG With Data Acquired in the Cath Lab

Summary

Visual assessment of a coronary artery narrowing (called stenosis) seen on angiography is conventionally used to infer how likely the stenosis will limit blood flow (called ischemia) under conditions of increased demand (e.g exercise). This is based on animal work and data from humans with simple single vessel disease with no co-existing conditions. These data have been extrapolated to more complex patients/ complex disease but clearly over-simplifies the situation in the majority of patients cardiologists treat.

Pivotal work by DeBruyne, Pils and colleagues in the 90's convincingly showed that pressure derived measurements, called FFR, from the coronary artery during a cardiac catheterization, more accurately identify stenoses that would cause ischemia compared to visual assessment alone. A strategy of FFR guided coronary stenting with drug eluting stents significantly improved outcomes and reduced costs compared to visual assessment alone (FAME trial). Deferring treatment based on FFR has been shown to be safe (DEFER Trial). FFR has excellent sensitivity and specificity. A FFR of \<=0.80 was used as this identified ischemia causing lesions 90% of the time. Therefore, the concept of FFR guided percutaneous revascularisation and treatment deferral has a robust evidence base to support it.

Coronary bypass grafting (CABG) is traditionally based solely on a visual assessment of angiography images. SPY® Infrared Fluorescence Angiography (NIRF, FDA approved 2005) is used by some cardiac surgeons to assess the patency of bypass grafts in real-time in the operating room, as a surrogate for immediate traditional coronary angiography. Dr. Ferguson observed that regional myocardial perfusion (RMP) image data was also captured in these video sequences.

Study Hypotheses:

1. In patients who are likely CABG candidates, target vessel epicardial coronary arteries (TVECAs) with FFR \> 0.80 will not demonstrate an increase in RMP despite an anatomically patent bypass conduit during SPY® imaging.
2. In TVECAs with an increase in RMP during SPY® imaging, cardiac catheter laboratory measures of coronary physiology from that TVECA, namely one or a combination of FFR, CFR, HSR and HMR, will correlate with the SPY® data on myocardial perfusion, and suggest a potential mechanism for this physiologic response to TVECA grafting.

Conditions

• Coronary Artery Disease

Interventions

DEVICE

ComboMap XT Guidewire

Intracoronary pressure and flow measurements

PROCEDURE

'SPY' NIRF During CABG

FDA approved use of injection of indocyanine green for the purposes of performing pre and post coronary grafting graft patency and perfusion assessment with the SPY near infra red fluorescence system

Sponsors & Collaborators

• Volcano Corporation

  collaborator INDUSTRY

• Imperial College London

  collaborator OTHER

• East Carolina University

  lead OTHER

Principal Investigators

• Ashesh N Buch, MBChB, MD · East Carolina University

• T. Bruce Ferguson, MD · East Carolina University

Study Design

Allocation

NA

Purpose

DIAGNOSTIC

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Min Age

18 Years

Max Age

80 Years

Sex

ALL

Healthy Volunteers

No

Timeline & Regulatory

Start

2014-12-31

Primary Completion

2018-03-30

Completion

2019-03-30

FDA Device

Yes

Countries

• United States

Study Locations