<div><b>Carlos A. Mestres, MD, PhD, FETCS</b></div><div>Clinic for Cardiac Surgery</div><div>University Hospital Zürich,</div><div>Rämistrasse 100</div><div>CH 8091 Zürich (Switzerland)</div><div>Email: <i>Carlos.Mestres@usz.ch</i></div><div>With minor differences when estimating the historical aspects of
coronary artery bypass graft surgery (CABG), we may agree that the
discussions about the impact of CABG on patients suffering from coronary
artery disease (CAD) are going on for around sixty years now. The
historical landmarks that cogently shaped diagnosis and therapy of CAD
in the way we understand it today are out there for quite some time and
it should be compulsory for every practitioner to review all in depth
for understanding.</div><div>The introduction of selective coronary angiography by Sones and Shirey
(1) paved the way to attempt direct myocardial reconstruction and
revascularization. This included patch graft reconstruction of the left
main stem by Senning (2), the performance of coronary endarterectomy by
Effler et al (3) and direct coronary artery grafting using the reversed
saphenous vein graft by Favaloro et al (4) and the internal mammary
artery by Green et al (5). Garrett et al are credited by having actually
performed the first saphenous vein CABG operation reported a few years
later (6). Critical was to recognize that there was a need to know what
happened after the operation was completed. Sheldon et al (7) pioneered
postoperative studies in revascularized patients and years later
Chesebro et al (8) convinced the community to add antiplatelet
medication to help maintaining open the grafts over time. The second
revolution in the treatment of CAD exploded after Grüntzig performed for
the first time a percutaneous transluminal angioplasty revascularization
(PTCA) of a diseased coronary artery (9). The rest is history and
presumably we are aware of it.</div><div>In the meantime, thousands of publications have addressed both methods
of myocardial revascularization. We still today discuss about the
eventual benefits of both approaches and which the best methods is. More
than 40 years after the introduction of PTCA, there are still fights
aiming at demonstrating superiority of one over the other.
Notwithstanding myriads or written pages and graphs derived from all
sort of studies, from institutional case series to meta-analyses and
randomized trials, it seems that some questions have still no clear or
convincing answers, at least for a part of the community. In fact, a
number of questions are still the same we had three or four decades ago.
The controversies are almost the same that were depicted in the
monumental contribution of Favaloro when critically summarizing the
first thirty years of CABG (10).</div><div>In this issue of the Journal, Yokoyama et al address one of those
controversies, which the optimal treatment for patients with CAD and
reduced left ventricular ejection fraction (LVEF) is (11). They have
conducted a network meta-analysis comparing CABG, PTCA and optimal
medical therapy (OMT) in patients with CAD and low LVEF. After analyzing
18,855 patients with CAD with low EF treated with CABG, PCI or OMT
collected from 3 randomized trials (RCT) and 10 propensity score-matched
studies, all-cause mortality was significantly lower in patients with
CABG compared to those with PCI or OMT while no difference was observed
between PCI and OMT and the rates of MI were significantly lower in
patients treated with CABG compared to those treated with PCI or OMT.
With the only exception that subgroup analysis by limiting the PCI group
to patients receiving drug-eluting stent (DES) showing similar all-cause
mortality between CABG and PCI, while both CABG and PCI were associated
with lower all-cause mortality compared to OMT. Authors concluded by
saying that their study demonstrated that CABG is the appropriate
treatment strategy in patients with CAD and low LVEF.</div><div>This is the main conclusion that authors can draw from this
meta-analysis. It makes sense, of course. Some critics may argue that
the definition of low EF could be refined. Is really &lt;50% an
appropriate cutoff value to define low EF? This is an old story. In
fact, Favaloro also discussed about this 30 years ago and stated that
analysis of the status of the left ventricle in most of the publications
at the time comparing CABG and PTCA divided the angioplastic patients by
ejection fraction above and below 45%, which probably does not
appropriately analyze patients with a more severe reduction of ejection
fraction (10). These studies do not clearly address the actual
percentage of patients with severe LV dysfunction with an
EF&lt;25%, to say something. Which is the proportion of patients
with real dysfunction across these studies? What is imortant to
understand is that CABG performed better than PCI at any level of LV
dysfunction. The recent study by Sun et al (12) referenced by the
authors as number 33 investigated patients with an EF&lt;35%.
There were more mortality and MACCE in patients who underwent PCI. The
lower the EF, the more beneficial CABG entering the fifth year of
follow-up.</div><div>Interestingly enough there were no statistically significant differences
between PCI and OMT in mortality, MACCE, MI, and repeat
revascularization. One may argue then if there are no significant
differences, why not support OMT insted of PCI? This is very likely not
to be supported by anyone. The final attractive finding is that when
using DES for revascularization, PCI with DES seems to be associated
with similar mortality compared with CABG and that PCI with DES was
associated with reduced mortality in comparison with OMT. The latter
will sure require more data and analysis. In the present study, the
follow-up of studies was usually short with the exception of the study
of DeVore et al (13).</div><div>The topic of PCI with DES in comparison with CABG looking at survival
outcomes will need more investigation in the future. Authors suggest
that PCI with DES may have comparable survival outcomes with CABG in
patients with low EF. This is still controversial despite recent data.
Looking at specific subsets of patients like those with left main
disease, some very recent data from Jeong et al (14) suggest that there
are no significant differences between DES and CABG with respect to the
incidences of MACCE, serious composite outcome, and all‐cause mortality
in patients with and without diabetes mellitus with LMCA disease
although authors state that their sample size could be a limitation.
Furthermore, Ono et al (15) just a few days ago highlight in this
extended follow-up of the SYNTAX trial (16) that there were no
significant differences at 10 years in all-cause death and estimated
life expectancy
between PCI and CABG
in the elderly (&gt;70 years). These latest studies do not
specifically address ventricular function as the current meta-analysis
does (11). In the end, it is all about statistics? Is everybody trying
to squeeze data as much as possible aiming at convincing the others by
defending a specific hypothesis? Are the methods worthwhile? Are the
trials optimal? Are they different between cardiology and cardiac
surgery? This has been pointed out by Robinson et al (17) as it seems
that focus of the study is an issue.</div><div>Closing, the value of the study of Yokoyama et al is that their study
demonstrated that CABG remains the treatment of choice in patients with
CAD and low LVEF. Other aspects need further investigation when it comes
to DES. Surgery, after sixty years, continues to be the option in
triple-vessel disease also in patients with low EF. The final
controversial question is: do we need more investigation with this
regard?</div>