Coronary
Artery Bypass Surgery
Coronary artery bypass surgery, was a
game changer in the treatment of heart disease and a major positive disruptive technology which improved,
preserved and lengthened the lives of patients with coronary artery disease,
I first learnt about coronary
angiography at the Karolinska hospital in Stockholm in 1968. I had been invited
by the Elema company to study their angiographic techniques using a large film
changer to obtain exquisite and precise high definition images of the heart and
its chambers. The radiologists were using an interesting technique of non-selective
injections of contrast medium into the root of the aorta. The patient was anaesthetized,
and a coiled catheter placed in the aortic root. Ventilation was interrupted,
the cardiac output fell as did the blood pressure and then a large injection of
contrast medium was made into the aorta. The contrast medium filled the
coronary arteries, ventilation and the normal circulation were resumed, and
excellent X-ray images were obtained of the coronary arteries.
Mason Sones at the Cleveland Clinic
made the first direct coronary angiogram by accident. A cardiac catheter
slipped into the coronary artery, contrast material was injected, the coronary
arteries were opacified and the patient recovered. He refined his technique and
soon was undertaking routine coronary angiography. Floyd Loop, the surgeon, was
performing many Vineberg procedures, where the internal mammary artery was implanted
into an ischaemic region of the heart muscle, which was not receiving
sufficient blood because of a coronary artery obstruction. Mason Sones would
then perform selective angiography and show that the internal mammary artery
branches had connected to the branches of the obstructed coronary arteries. He
had acquired a series of more than 2000 patients and had a vast experience in
understanding the anatomy and disease in the coronary arteries.
Coronary artery surgery for
atherosclerotic disease has undergone many changes. First, the pericardium was opened and abraded
(roughened) so that on healing small anastomoses were created between the
parietal and visceral layers to improve coronary blood flow (Claude Beck).
Vineberg in Toronto took down the internal mammary artery and implanted it into
a tunnel in the ischaemic myocardium where it generated its own collaterals and
this had been proven to be very effective at the Cleveland clinic by Donald
Effler and then subsequently proven by angiography by Mason Sones
The coronary arteries were very
small – 2 to 4 mm in diameter, but at first the surgeons tried to put patches
across the the narrowing to widen the
arteries. This was only moderately successful.
The next step was to use open heart
surgery and support the heart using a
heart-lung machine. A large superficial vein from the leg was harvested and used
to bypasss the narrowing. The first anastomosis (connection) was to the aorta
and the second to the narrowed or obstructed artery beyond the narrowing. Blood
flowed through the bypass vein to supply the artery beyond the narrowing. The
patient recovered, and his angina disappeared. A man who was unable to walk up
a hill was restored to a normal lifestyle. Unfortunately, only very sick
patients were selected for the operation. They had very diffuse disease with multiple
narrowing’s in several arteries. They had also experienced several heart
attacks so that the muscle of the heart had been replaced by a large scar. The
post operative recovery was slow and the initial mortality was high. The
cardiologists were not keen on sending their patients to an operation with a
high mortality and a long recovery period. However Favaloro and Floyd Loop at
the Cleveland Clinic, and Dudley Johnson in Milwaukee persisted, and gradually
the results improved. They had excellent documentation and followup of their patients but showed that avanced age, multiple lesions and poor ventricular function carried a poorer prognosis.
I faced a different problem. I had
learned how to do high quality coronary angiography but my surgeon, Chris
Barnard in Cape Town was unhappy to with this microscopic surgical technique,
so that I used my first coronary angiograms to exclude coronary disease in older
patients with valve disease before
surgery.
I moved to Durban and was joined by
Basil Lewis and Avi Bakst. We built a new catheter lab which had a 9 inch image
intensifier that gave us a large field ventriculogram, and a second 5 inch
intensifier which had greater magnification and produced beautiful cine
pictures of the coronary arteries, its branches and the disease processes. Ben
le Roux, an excellent surgeon was unwilling to tackle the microsurgery of the
coronary arteries and we had to wait until we were joined by Mike Rogers, who had
trained with Donald Ross at the National Heart Hospital in London, where he had
undertaken the first coronary artery bypass grafts in England. Mike Rogers
introduced the bypass graft operation in Durban and with his usual enthusiasm
and surgical ability our program took off and flourished.
Basil and I travelled to the United
States once a year, and would stop over at the Cleveland Clinic, and in
Milwaukee. We continued to learn all the tips and tricks for improving the
quality of our angiography and spent hours in the operating room watching the details
of coronary artery bypass grafting and then following the patients after
surgery in the clinic. Their angina pectoris had disappeared, and they returned
to normal life. Their post operative coronary angiograms showed a normal graft filling
a diseased artery with contrast medium. The operative problem was being solved.
In Durban our program flourished We
now undertook more coronary artery bypass grafting on less severely diseased patients.
The South African cardiologists were very impressed and excited by this
impressive and revolutionary operation. They followed their patients in the
clinic after coronary artery bypass surgery: their angina pectoris had disappeared,
and they were living a normal life. The cardiologists started referring
patients, but unfortunately most of them had very severe advanced disease.
We changed our research program to
study the different patterns of coronary artery disease, their infarcts, their
electrocardiograms, their clinical status and we built up a new classification
of localized and diffuse disease and its syndromes that appeared after
narrowing or obstruction of the left anterior descending, circumflex and right
coronary arteries. We became more selective in
our patients, operative mortality fell, the clinical improvement was
more marked after surgery and the results outstanding. Patients were referred
from all parts of South Africa and now we had a problem with the Provincial
Administration about the payment of fees since we were a free government
hospital. Later Rob Kinsley returned
from the Mayo Clinic and started bypass surgery in Johannesburg, and a new
generation of cardiac surgeons emerged in South Africa, but mostly in the
private sector.
When I came to Jerusalem in 1973,
coronary artery bypass surgery, was in its infancy, the coronary angiography
was of poor quality and the surgeons had little experience.
I drove the program forward with my usual high energy enthusiasm.and soon
we became the most active unit in the country and together with good surgery by
Joe Borman and his younger colleagues we built up a large reservoir of patients
with excellent short and long term surgical and clinical results.
Initially, Joe was a little
conservative so that some of our very difficult and complicated patients were sent to Floyd Loop in Cleveland,
Johnson in Milwaukee, and to Green at NYU.
This was a tricky time as the internal medicine physicians were
unwilling to submit their patients to surgery. The morbidity and mortality
rates continued to fall and we had a flood of patients from all corners of
Israel. The sluice gates had opened.
.
After 20 years coronary artery
surgery had become the major full-time occupation of the cardiac surgeons. All
the major hospitals in Israel followed suite and now have flourishing and successful coronary artery bypass surgery
programs.
The next development was to protect the
myocardium and provide a quiet operative field during the operative procedure.
The heart was stopped, and we used hypothermia and direct coronary perfusion to
preserve coronary blood flow and oxygenation. Myocardial preservation became a
major goal. This was achieved by using potassium infusions into the coronary
arteries, that would stop the heart and provide a quiet field for anastomosing the
tiny arteries and then use other drugs and electrolyte solutions during the preservation period. Reperfusion of the
coronary arteries with warm blood and then defibrillation restored a beating
heart. We restarted the heart but in a few patients there was myocardial
damage. Joe Borman undertook extensive investigation of the preservation solutions
in his animal laboratory.
We also discovered that the venous
grafts had a finite lifespan. About 20% closed shortly after the operation,
because of a poor anastomosis, a poor run off causing low flow with clotting, or the grafts twisted
in the pericardial space.
Some of the veins were not healthy
or could not withstand the high arterial pressure and developed a reactive
fibrosis and closed within the first year. In a third group, the risk factors
for atherosclerosis continued to affect the native arteries, the
atherosclerotic process developed in the grafts, and we learned that management
of risk factors for atherosclerosis was a lifelong intervention and that
patients with high blood levels of LDL soon developed graft atherosclerosis.
Floyd Loop preferred to use bilateral internal mammary artery implants, the
grafts remained patent: the long term results after 10-20 years were excellent.
The other arterial grafts from the arm or abdomen were less successful, but as
the implant technology improved, so did the long term outcomes.
The next stage was operating on the beating heart without using the
heart-lung machine: “off bypass surgery”. The chest was opened, and all the the
anastomoses were undertaken on the beating heart, often at a reduced heart rate
using short-term beta blockers. This was more difficult. The left anterior
descending artery, on the anterior surface of the heart was easy to anastomose,
the circumflex artery was located on the side of the heart, and to expose it,
it had to be brought out of the chest and the heart rotated and brought forward.
The right coronary artery was more difficult. It was located at the back of the
heart and the heart had to be bent and lifted forward for exposure. We overcame all
these problems, but myocardial protection remained the simplest procedure.
Then came minimal invasive surgery
using mini thoracotomies and working under telescopic vision. Recovery was
rapid causing less discomfort to the patient.
I immersed myself and all my younger
colleagues in coronary artery disease, studied all the techniques at meetings in the US and Europe
and spent many hours in the operating
room observing the leading surgeons in Europe and the USA. We also invited them
to join us in Jerusalem and operate in Hadassah.
Initially the CABG procedures were
treated with skepticism
but as the results improved, major multicenter double-blind controlled trials
were undertaken to compare medical and surgical treatments. The surgical group
had better symptomatic and quality of life outcomes.
Percutaneous coronary angioplasty
entered our repertoire in the early 1980’s: a simple technique of improving
coronary artery blood flow and
myocardial perfusion without opening the chest and performing a major
operation. We again led the way. Most centres would undertake a coronary
arteriogram in patients with symptomatic coronary artery disease, return them
to the ward, discuss the outcome and then decide whether the patient should be
treated with conservative medical treatment or undergo PTCA or CABG. We decided
to make the diagnosis at the time of catheterization and then continue to PTCA
if indicated. When in doubt we would
consult with the duty cardiac surgeon and have a detailed discussion. If
the PTCA was complicated we would consult with another senior interventional
cardiologist and decide on the details of proposed interventions. The only
problem was that the cardiologist was the gatekeeper in making the decisions.
The entire department soon developed an intimate knowledge of the
pathophysiology of the disease and became experts in the research literature
and guidelines of treatment. The patients from the other major centers in Israel, underwent an initial diagnostic test and while waiting for a delayed
clinical decision would consult with me and often ask me to undertake the
interventional procedure in Jerusalem. This added a major workload but provided
my group with extensive practical interventional experience.
Some patients deteriorated after about
10 years because of further progression of
the underlying disease or development of graft atherosclerosis. We undertook
the follow-up of these patients and became experts in understanding and
prediction of the danger signs and introducing an early second round of interventions.
Our program of careful clinical follow, liberal use of non-invasive tests to
detect early signs of disease progression and then not delaying a second
procedure to keep the patients in fine fettle. We relieved suffering and
prolonged life. As the medical management and drug intervention improved fewer and fewer patients needed reintervention
and life was prolonged almost indefinitely. This placed a heavy clinical burden
on myself and my staff.
The hospital administration did not or would not recognize this revolution.
I moved my own clinic outside the hospital where I could extend my day and see
patients until 10 or 11PM in the evening. Unfortunately, this impinged on my
research times and writing was often deferred to the early hours of the
morning.
Joe Borman was a tireless surgeon
and undertook meticulate anastomoses so that his grafts remained open for many
years. His operating times were prolonged, but this was reflected in the long
term symptom free survival of his patients. When he retired and Gideon Merin
took over from him, the surgical wards were expanded and we doubled our patient
throughput, but many of the patients needed a second operation after about ten
years due to graft degeneration or progression of the underlying disease.
There was gentle competition between
the cardiologists and the surgeons about who should intervene, and whether
surgery was preferable to PCI and many trials were undertaken to compare the
outcomes of the two competing procedures and frequent new modified guidelines
were published. We maintained a friendly and congenial coexistence, as major
clinical trials tried to determine which procedure was superior in the
different patient subsets Earlier interventions and vigorous secondary
prevention of disease progression also improved the long-term outcomes.
Robotic surgery entered the playing
field and although some of the American and European surgeons have excellent
results, we never entered the arena.
The hospital administration failed
to understand the importance of our cardiological program and long-term rehabilitation,
and we lagged in providing appropriate facilities. My own relationships with the hospital
administration became strained and I became known as the “octopus” who
thought that he owned the hospital. It
is sad that we moved into adequate new facilities only when a new hospital
director was appointed 17 years after my retirement as the Head of the unit. The
Director, Prof Zeev Rotstein together with the Hadassah ladies and the Irma and
Paul Milstein foundation have now provided adequate space and excellent
facilities for the expanding service but unfortunately most of the my fiery enthusiasm has abated.
Primary and secondary prevention
programs are essential to limit the development of atherosclerosis. They have slowed
the development of the disease so that severe atherosclerotic disease is
disappearing, the disease has become less common and with almost universal
opening of obstructed coronary arteries during acute infarction, there are less
total obstructions and the patients have more suitable anatomy for later PCI or
CABG.
The cardiac surgeons have played a lifesaving
role in the management of coronary artery disease and have been my closest
partners. Now we are taking over their function with simpler percutaneous
techniques.Nonetheless there remain many patients with severe disease who need
surgery.
I am very proud of catalyzing
coronary artery bypass surgery and the overall management of coronary artery
disease in South Africa and Israel.
It has been a lifelong project of persistence and perservation and over last 15 years we have
reduced the mortality of Cardiovascular Disease in Israel by 63 %.
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