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EVOLUTION OF VASCULAR SUBSTITUTES

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EVOLUTION OF VASCULAR SUBSTITUTES Prof. Dr. Bonno van Bellen Chief of the Department for Vascular Surgery and Angiology the Beneficencia Portuguesa Hospital of S o Paulo – PowerPoint PPT presentation

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Title: EVOLUTION OF VASCULAR SUBSTITUTES


1
EVOLUTION OF VASCULAR SUBSTITUTES
  • Prof. Dr. Bonno van Bellen
  • Chief of the Department for Vascular Surgery and
    Angiology the Beneficencia Portuguesa Hospital of
    São Paulo

2
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4
But the story started some 2700 years BC
  • When Si Ling Chi,
  • the first empress of China
  • was having a cup of tea
  • while seated under a tree

5
  • Seated on her chair, a cocoon felt
  • in her cup
  • She unraveled the tiny
  • threads that formed
  • the cocoon, made by
  • a small white caterpillar
  • She discovered silk
  • Discovery was keps secret untill the year 300DC

6
  • Silk was Chinas most important product for trade
    with the western world
  • Mongolian Peace turned the Silk Road between
    China and Europe safer and it was introduced into
    the european culture

7
Connection between silk and the development of
substitutes for the human arteries starts to
make sense at the very beginning of the 20st
century
8
Alexis Carrel1873 - 1944
  • Born in France he got in struggle with the french
    government because of his divergent political
    ideas.
  • He leaved France and went to Canada
  • Soon he got a laboratory at the University of
    Chicago in the USA where he continued his essays
    in experimental organ transplantation in dogs

9
Alexis Carrel1873 - 1944
  • In 1912 he received the Nobel Prize in Medicine
    and Physiology for his work in experimental organ
    transplantation and suture techniques for great
    and small blood vessels

10
  • His techniques could not be used in humans
    because the arterial diseases could not yet be
    visualized and blood used to clot when the
    arteries were submitted to some kind of operation

11
  • Some technique to see the blood vessels had to
    be discovered
  • Some way to impede clotting of blood had to be
    discovered

12
Wilhelm C. Roentgen1845 - 1923
  • Discovered xRays in 1895 and in few years the
    majority of the hospitals where equipped with
    xRay machines
  • Roentgen received the Nobel Prize of Physics in
    1901

13
Egas Muniz1874 - 1955
  • But only in 1943 Egas Muniz made the first
    arteriogram, opening the possibility to visualize
    the diseases of the arteries
  • Received the Nobel Prize for Medicine in 1949

14
Jay McLean and William Howell
1860 - 1945
  • Discovered heparin in 1916, an
  • anticoagulant needed to make operations upon
    blood vessels possible without clotting of blood.
  • Heparin became available for human use in 1935.

15
  • We had the fundamentals of the vascular surgical
    techniques - Carrel
  • We had the ways to see the arterial disease -
    Roentgen gt Moniz
  • We had heparin making direct access to the blood
    vessels possible without clotting gt McLean and
    Howell

16
  • The first attempts to create a substitute for the
    great arterial vessels of the body started with
    attempts to use conserved human vessels in the
    1940s by Robert Gross in Boston

17
  • Attempts to substitute a diseased aorta by
    biological and non biological tubes failed
  • A conserved human aorta used to dilate and
    rupture
  • Non biological tubes made of steel, glass and
    other material clotted down very soon

18
In 1951 Charles Dubost in France, replaced an
aortic aneurysm. This was a worthy example of
bold clinical advances with little or no
experimental preparation
19
Silk, 4600 years later
  • The observation that a silk suture in one of the
    chambers of the heart of a dog became covered
    with a tiny layer of cells became the crucial
    thought that fine threads woven or knitted as a
    tube could replace a sick aorta in an animal and
    maybe in the human being.
  • Voorhees AB, Jaretski A and Blakemore AH The
    use of tubes constructed from vinyon-N cloth in
    bridging arterial defects. Ann Surg 135332, 1952

20
Voorhees, Jarelski and Blakemore
  • Created a synthetic aorta of Vinyon N and used it
    experimentally as a substitute in a dog
  • Attempts were followed using other non-biological
    material Orlon, Ivalon, Teflon, and finally,
    Dacron.

21
Society for Vascular Surgery
  • In 1955 expressed its concern about the big
    variety of vascular substitutes and asked for a
    opinion of the leaders of the Society.
  • They, wisely, expressed no opinion at all, and
    the synthetic grafts continued to improve

22
The problem of kinking of the graft was solved
by Sterling Edwards and James Trapp who
introduced the method of crimping in 1955 The
grafts we use untill today are very similar to
those developed at that time
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Grafts to replace the human aorta in aneurysmal
disease continue to develop with the works of
Juan Parodi, an Argentinian surgeon who settled
the fundamentals for endovascular surgery in this
disease. So, in selected cases, minimally invase
aortic surgery for aneurysmal disease became
possible since 1991
25
Other vascular substitutes
  • Gore (PTFE - expanded politetrafluoretylene)
  • A superb isolative garment used for extreme
    temperatures
  • C.D. Campbell used it
  • as vascular substitute
  • for small vessels in 1976

26
The great steps
  • Silk 2700 BC
  • Si Ling Chi
  • X rays 1895
  • Wilhelm C. Roentgen (Nobel)
  • Vascular surgical techniques 1912
  • Alexis Carrel (Nobel)
  • Heparin 1935
  • Jay McLean and William Howell
  • Arteriogram 1943
  • Egas Muniz (Nobel)
  • Synthetic artery 1952
  • Voorhees, Jarelski and Blakemore
  • Endovascular aortic substitute 1991
  • Parodi
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