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The pathogenesis of arteriosclerosis
The Amerkan
Journal
of Cardiology NUMBER 3
MARCH 1958
VOLUME I
Edi tori al The Pathogenesis of Arteriosclerosis
N
is valid without
o DISCUSSION
a definition.
is now particularly sclerosis
and
are
one can exist without
atherosclerosis tative
arterio-
more
arbitrary
sharply
speaking
it defines
studies the maturation become
manifest,
present
in such
all
enough.
Other
increase
in
applies
animals
as our
lesions
who
own
have
and
are
live
omnipresent,
and
extent
these
as abnormal
normal
involuntary
undergo
with
181
70 yr
190
from
birth
two
age.
to old age.
In
layer.
A
distinct
involves
internal
elastica
also
The
the
may
the artery
has been
term
applied
of the intima
absent
after of
in the course
“hyperplastic”
morphogenesis.
to this
arterio-
normal
in-
If, therefore,
hy-
and of the elastica
may
earliest lesions, then
is not always an aging phenom-
as currently
Fortunately
arteries
vessels thickening
is of the elastic or muscular
are never
The
arteriosclerosis enon
small
progressive
and of the elastica differ in intensity
volutionary
clinical
viewed
but begins
and anatomic
at birth.
arteriosclero-
sis are not always coexistent.
contrast
This biologic interpretation of arteriosclerosis have explains the difficulty some observers had in determining when physiologic aging ends
their birth
but continue to grow as the years progress. The endoAt birth there is hardly any intima. thelium lies directly upon the elastica which is single
of the
be viewed as the inescapable
lesions that
life. 5
sclerosis
but as part of the
changes
and
middle
perplasia
to other organs the arteries do not attain maximum histologic differentiation at
MARCH,1958
124
50 yr
of growth.
as well to the lower animals.2J
not be viewed
a
35 yr
type but they
ARTERIAL CHANGES WITH AGE Being
54
arteries
whether
long
things being equal these lesions
intensity
6
10 yr
the intima
a vascular
who
Intima (p)
Reduplication
of the and
ages:
begins as early as the second year in the larger
thickening
a reduplication
are universal
to
changes
first a collagenous
shows the measure-
Age
if one
from birth
Histology4
Birth
is no Biolog-
since
of arteries
and later
These
system
itself;
years two morphological
of the intima elastica.
There
need to define arteriosclerosis.
the senescent
only
Schafer’s
the other and that
of arteriosclerosis.
already becomes visible at the The following data taken
ments of the intima at different
when it does occur is but a facul-
lesion
ically
because
atherosclerosis
from
I1 have tried to show that morphologi-
defined. cally
pertinent
of intima
end of the first year.
This
of an artery was labeled “arteriosclerosis.”
This
layer
The time is long past when any hardening
and disease begins. For instance, BrenneP reports an incidence of 80 per cent arteriosclerosis of the pulmonary artery, his criterion
collagenous 295
Editorial being the thickening servations occur
of the intima.
the only normal
in children.
perfectly calculated artery
the
This
is is
vessels;
to the gross or naked eye in the pulmonary
is determined
intima,
cent.
when
of arteriosclerosis
which
in the
but
according
appearance
Brenner incidence
Anatomically,
correct,
by lipoid
the incidence
latter
In his obarteries
instance, on the posterior wall of the thoracic and abdominal aorta; at the site of vascular fixation, such as at the origin of the intercostal
pulmonary
is only
observation
has a deep significance
deposits
the rigid
six
directly
as we shall
per see
in respect to pathogenesis.
of the
elastica
pensatory many
hyperplasia
may
phenomena
evidences
that
these
prolonged
lesions
been cited
are
gross
arteriosclerosis
circulations. that
the
artery
pressure
arteriosclerosis
is certainly
very
of the pulmonary deposits
Sudan
stains
grossly (2)
When
unless
circulation
the
frequency cardiac
hepatic
and
congestive
production
pulmonary
failure;
of the
by
already
except
age
of arteriosclerosis
is
disorders,
those
in degree.
mitral
of
the
hypertensive
disease
It has speaking, disease
in normotensive Because of the and congenital
arteriosclerosis
in
in the
of the intima,
of the
pul-
pressure
may
rarely
veins
say
that
occurs
prolonged in the
sa-
aneuryism.
hyperplasia
In
of
the
in veins even when
the
thickened.
These
impressive
lesions for our
even with the most aggravated
prolonged
proaches
be
cava,
and in the venous
in the veins are particularly and
in
circulation;
arteriovenous
is profoundly
thesis because
can
in the vena
in the portal vein in hyper-
portal
of an I
elastica intima
arteries
a hyperkinesis
morphologically in
venous
artery
were
pressure
for instance,
passing
is superimposed,
lesions
of
prolonged
segment
not be demonstrated
in no way from
individuals
a
demonstrated,
aorta.
can be predicated.
hypertension,
the
The
exemplified
veins is close to zero, thickening
venous
in constrictive
that,
arterial
Since
showed
intima.
is negatively
the
a hypertension
they
phlebosclerosis.
thickened
pulmonary
of pulmonary
when
of pressure
ends of an artery
phenous veins in varicosities;
and the lesions are intensified.
shown
differ
could except
function,
for
lowered been
in
a markedly
tension
visible.
a normal limit
the
that
the divided
time
where
the
or lesser
of the pulmonary
rare,
In a study of hundreds lipoid
in
one-sixth
between in
to
between
greater
observation is especially He showed that a vein interposed
even in senility, never occurs except in instances
These are :
in incidence
Carrel’s’l
showed
is due to the circumstance
normal
is only
Gross
the
pressure.
of the
This
that
compensatory
arterial
The independence
(1)
as com-
and in previous studies7s8
have
normal
viewed
septum.
effect
in those
artery that lie against
bronchus; and in the endocardium opposite a perforation of the ventricular
pertinent.
of the intima and
be justly
of the wall of vessels
sections of the pulmonary
ARTERIAL CHANGES AND PRESSURES The progressive
in the portions
of the dura that lie next to the bone;
pressure,
pericardium,
for instance,
it never
the normal systemic arterial
even appressure.
The testimony adduced affords decisive evidence in my opinion, that the prolongation of the normal conditioning earliest words,
intraarterial factor
lesions
of
production
of the
arteriosclerosis.
we maintain
sufficiently
pressure is the main
in the that
continued
In other a normal function
can
ultimately
cause
vascular disease sufficient at times to compromise life.
I have suggested
therefore
the following
monary artery is common in the juvenile and even in the infantile years. (3) Arteriosclerosis is appreciably less in
equation :
hypotensive individuals.‘O It is notoriously less in patients with active tuberculosis, age for
Apparently, Thoma’s12 third law of the growth of vessels, namely, that the thickness of a vessel
age. (4)
arteriosclerosis
is dependent The
effect
of
intravascular
arterial pressure is well exemplified in the intensification of the lesions at points where the pressure is exerted
against
an
external
resistance,
for
= intravascular
on the difference
vascular and extravascular app,lied to the embryonal
pressure
between
X time
intra-
pressure, which he development of ar-
teries, is perfectly applicable to postembryonal growth. The important conclusion from the THE
AMERICAN
JOURNAL
OF
CARDIOLOGY
Editorial premises
we
have
submitted
sclerosis of the greater
circulation
by hyperplasia
of the
not
because
reversible
pressure
cannot
mising
is that
as manifested
intima
and
normal
be abolished
arterio-
elastica
is
intravascular
without
compro-
those
occurring
there
were
impressive
striking
being
to the
arterial
produced
the
Teleologically,
pressure
may
hyperplasia
viewed as an adaptation
to the progressive that
normally
be
rise of
proceeds
in human
by
differences,
tree
and
the
have
noteworthy
differences
been
then
most it was
and
then
some of these
overcome,1g~20 but first,
remain:
that in experimental
two
the cir-
atherosclerosis
from birth to old age, or if there is no perceptible
there
increase,
level of the cholesterol
(this is largely dependent
on species difference)
; and second, that human
normal
to the prolonged pressure.
will be worn will
take
heavier
maintenance
In other words,
out by vehicles,
longer
with
of the
a pavement
but the process
lighter
vehicles
than
atherosclerosis
hyperplasia
of the intima
except
and
elastica
been
made
chemical
sis;
tion of the plasma
circulation.
especially
However,
of arteriosclerosis imposed,
pulmonary
in the further
other
generally
in the
lesions
classified
substance
saccharides
consisting
in the
walls
deposit
is already
creases
with age.‘b-17
be
hyaline,
only
one
Of
worth
a
phase
years The
of
these
later
serious
lipoid deposition,
vessel.
This and in-
in children14
In addition, there may calcareous, and lipoid
mucoid,
degeneration.
of a meta-
of mucopoly-
of the
visible
changes,
consideration
vascular
importance
disease
that
in
a vast amount
of atherosclerosis
not only because
looms
it is the deposition arteriosclerosis it largely
to the narrowing
of the lumen. lends
itself
to
reproduction
and its elimination
has aroused
hopes
that
to the rising
visible
contributes
or prevention especially of coronary
his
the
lipoproteins
upon
plasma
co-workerszl
studied the distribution
the ratio
have
in
of the alpha
in the plasma
of
phospholipid. addition and beta
in different
animals,
in infants, young men and women and in human conditions
associated
with atherosclerosis.
Gof-
man’s studiesz2 of the lipids with the ultracentrifuge are familiar.
Both Barr’s and Gofman’s
studies, while suggestive, namely, mate
have the same defect,
that their findings bear only an approxi-
but
cidence
not a consistent
relation
to the in-
of atherosclerosis.
Thus
far
measuring
no
method
has
been
devised
of
the lipids in the blood quantitatively
or qualitatively
by physical or chemical
methods
which afford any ability to predict the incidence
feeding to rabbits.
The
tion only one factor,
problem
important
that enters into the production sis, Most
is no doubt that the deposits of lipid mim1958
and
depends
to
it has
of athero-
difficult because such studies take into considera-
The experimental study of atherosclerosis was begun by Anitschkow and Chalatow18 nearly
MARCH,
Barr
for instance,
the development
sometimes
cholesterol
by
in the composi-
of atherosclerosis.
EXPERIMENTAL ATHEROSCLEROSIS
There
the
have
discrepancies
experimental
disease, may be controlled.
forty years ago by cholesterol
sclerosis
lipids;
ob-
hyper-
Furthermore,
its ravages, incidence
large
of lipid
in the intima that renders but also because
recent
of study.
grossly,
in respect
the is the
in other words, atherosclerosis,
has stimulated
atherosclerosis
super-
as degenerations.
I refer to fibrosis and the deposition chromatic
evolution
become
that
syn-
biliary
of attempts
these
or physical differences
been shown
by a hypernephrotic
or familial
A number
to explain
may be the only lasting lesions of arteriosclerothis applies
to the blood
prolonged
in essential
cholesterolemia.
and
in the
hypothyroidism,
struction,
ARTERIAL DEGENERATION
relationship
is unaccompanied
cholesterolemia drome,
ones.
The
was no linear
that
means
Since
but
distribution
the fact
unphysiologic
differences cumstance
beings,
the lack of selective
only in herbivora.
life itself.
intraarterial
icked
namely
the
observers
always contains
lipid
content
fail to consider a certain
quota
is rendered as it may be,
of atheroscleroof the
blood.
that the blood of cholesterol
and other lipids. It is not a question of either/ or but only of more or less. In other words, in respect to the blood cholesterol the most we can hope for is a partial but not a complete solution
of the problem.
Editorial FACTORS IN ATHEROSCLEROSIS Other
factors
atherosclerosis, (1)
enter
atherosclerosis
in hypertensive
and accounts observed
atherosclerosis
is practically hypertension
of
for the
cholesterolemia
and a normal
blood
than with a hypercholesterolemia
and
it will take
a lesser time
with prolonged atherosclero-
lived animals,
hepatic,
blood
is induced.
of the effect of is a negative is exceedingly
In examining
phlebosclerosis.24
pulmonary
the vena cava, I have seen atheroma
hun-
ously long lived. experimental greater
Certainly
circulation,
in phlebo-
atherosclerosis
of atherosclerosis
the vascular
The evidence from
the
First,
there is a striking
observers
scurvy,2x and syphilis.
act as precursors In
sectioning
to the deposition many
found lipoid deposition panied by a hyperplasia contends secondary but
the
Many
believe that the mucopolysaccharides
that
the
arteries
I have
that
in the pulmonary
the
never
initial
are
reverse
relationships
artery is a valid argument
and
deposit
tensive
states
that
in the
Moon athero-
of the intima
preceded
the deposition
Also, they showed that the induction
of experimental atherosclerosis bore little resemblance to the histogenesis of human coronary atherosclerosis. (3) Finally, the Dynamic Factor of Time: The neglect of this factor explains why all attempts to ,formulate linear relationships between experimental factors and atherosclerosis have thus far failed. Anitschkow recognized the time element years ago when he showed that atherosclerosis can be produced with a
the
blue.
lipid
wall.
the
atherosclerosis Third,
of the
amount
in the
there
of lipid in hypergreater
is
or
of
in hypo-
less.
areas
that
revealed
Fourth,
the
dyes such
Fifth, in hypercholesterolemia convincing
showed
in
Second,
Conversely,
to colloidal
its are greater Most
of the
showed that the lipid was deposited
same
permeability
reasons:
in chemistry
is in the intima. whether
imbibition
following
similarity
human
circulations.
Anitschkow
the
in the amount
states,
lesser
exist
sclerosis that thickening
that followed
the
for
in the arterial
tensive
Wilens2g
thickenings
of
unless the time
by direct
distribution
and
of the intima. intimal
of lipid.
in
is an increase
the same sequence occurs in all arteries. and Rinehart30 demonstrated in coronary
the fibrous plaques
and
plasma
arises
plasma,
in the intima unaccom-
and the results of the lipid deposition; fact
atherosclerosis
experimental
of lipid.
inci-
sections
is strong that most of the lipid
tion of lipid in the vessel wall; cauterization,26J7
on the
in different
injury of the vessel wall predisposes to the deposidetergents,25
is a senescent
studies
tree are valueless
hy-
of the
factor is considered.
that
this includes in-
in pulmonary hypertension
Statistical
in
adrenalin,r8
in every field except
and in juvenile
dence
testimony
of arteriosclerosis2f3
is in birds who are notori-
atherosclerosis,
phenomenon.
of
the longest
at least in terms of their captivity,
The greatest incidence
pertension
explains
in the incidence
since by and large,
show the highest incidence
veins, and
sclerosis, but very rarely. (2) The Changes in the Vessel Wall Previously is abundant
some of the species difference arteriosclerosis
hypertension evidence
The time factor
circulation.
even with a normal
by
an athero-
or a hypercholes-
that atherosclerosis
produced
to cause
probably
one, namely,
jury
it
with
terolemia.
upon atherosclerosis
There
a normal pressure
other
atherosclerosis
sclerosis with a hypertension
A highly confirmatory
Described:
words,
In
years.
hypertension in
prolonged.
is
artery
pulmonary
provided
dreds of portal,
periment
in the juvenile
Faber23 showed that experimental
rare
if the ex-
of the pulmonary
the
sis can be produced
states
largely
always associated
cholesterol
of
The fact that atherosclero-
pronounced
is acknowledged, Gross
the production
of hypercholesterolemia
will take longer to produce
Hypertension:
sis is more
into
viz. :
lesser degree
than
greatest
as trypan the depos-
in normocholesterolemia.
is the work of Wilens31 who
experimentally
that
with
sufficient
into the pressure, lipid could be expressed wall of vessels. Inasmuch as the plasma lipid exists in a colloidal form and in the artery as a granular deposit, the presumption is that the intima takes part in this transformation. Not all the lipid enters the vessel wall by imbibition. Winternitz and his co-workers have adduced convincing evidence that some lipid is the result of hemorrhage from the rupture of the intimal capillaries. THE
AMERICAN
JOURNAL
OF
CARDIOLOGY
Editorial There is no doubt that experimental atherosclerosis is reversible, that is, the lipid disappears if the experiment is stopped at a proper time, even though connective tissue changes persist in the wall of the artery. But there is strong doubt whether human atherosclerosis is rebecause the most versible, even partially, important elements that enter into its production, namely normocholesterolemia, intravascular pressure, the changes in the ground substance and the time factor cannot be eliminated. The most that can be hoped for is a cessation or a slowing of the process. The only conditions in which human atherosclerosis may be reversible is in the hypercholesterolemic states previously mentioned. It is obvious that owing to the numerous interacting factors that enter into the production of arteriosclerosis, a complete reversal or a prevention will be an unattainable project. That is why arteriosclerosis has always been with us, in antiquity,32 and all climes, in all races. It is an inescapable destiny. ELI MOSCHCOWITZ New York, New York RErzr~zNo~s
4. 5. 6. 7. 8. 9. 10. 11. 12.
13.
MOSCHCO~~TZ, E. : Hyperplastic arteriosclerosis versus atherosclerosis. J.A.M.A. 413: 862, 1950. Fox, H., in COWDRY, E. V.: Arteriosclerosis. Macmillan, New York, 1933. CRONIN,M. T. T. and RATCLIFFE, H. L. : Arteriosclerosis in captive wild mammals and birds. Am. J. Path. 33: %b, 1951. SCHAFER, E. A. S. : Text Book of Histology. Lea & Febiger, Philadelphia, 1920. BELL, E. C., in COWDRY, E. V.: Arteriosclerosis. Macmillan, New York, 1933. BRENNER,0. : Pathology of the vessels of the pulmonary circulation. Arch. Znt. Med. 56 : 21 I, 1935. MOSCHCO~ITZ, E. : Hypertension of the pulmonary circulation. Am. J. M. SC. 174: 388,1927. MOSCHCO~ITZ, E. : Vascular Sclerosis. Oxford, New York, 1942. MOSCHCO~ITZ, E. : Unpublished data. HUNTER, A.: Blood pressure among standard lives. J. Actuar. Statistics 70: 60, 1939. CARREL, A. : Technique and remote results of vascular anastomosis. Surg. Gyaec. d Obstct. 1: 1, 1912. THOMA, R.: Ueber die Stromung des Blutes in der Gcfassbahn und die Spannung der Gefssswand. Beitr. z. path. Anat. u. z. allg. Path. 67 : 92, 19191920. LEARY, T.: The genesis of arteriosclerosis. Arch. Path. 32: 507, 1941.
MARCH, 1958
299
14. TAYLOR, H. E.. The role of the mucopolysaccharides in the pathogenesis of intimal fibrosis and atherosclerosis of the human aorta. Am. J. Path. 29: 87, 1953. Ueber Mukoides Bindegewebe 15. BJORLINC, E. : Virch. Arch. f. path. Anat. 205: 71, 1911. The human aorta sulfate-containing 16. FABER, M.: polyurinides and the deposition of cholesterol. Arch. Path, 48: 312, 1949. 17. SSOLOWJEW,A. : Ueber das Verhalten des Zwisschensubstanz der Aortenwand bei Atherosklerosie. Virch. Arch. f. path. Anat. 250 : 339, 1924. Ueber ex18. ANITSCHKOW,N. and CHALATOW, S.: perimentelle Cholestrin steatose und ihre Bedeutung fiir die Enstehung einziger pathologische Processe. Cent. f. allg. Path. n. path. Anat. 24: 1, 1913. Experimental Athero19. KATZ, L. N. and STAMLER, J.: sclerosis. Thomas, Springfield, Ill., 1953. 20. STEINER, A. and KENDALL, F. E.: Atherosclerosis and arteriosclerosis in dogs following ingestion of cholesterol and thiuracil. Arch. Path. 42: 433, 1946. Pro21. BARR, D. P., Russ, E. M., and EDER, H. A.: tein-lipid relationship in human plasma in atherosclerosis and related conditions. Am. J. Med. 11 : 480, 1951. 22. JONES, H. B., GOFMAN, J. W., LINDGREN, F. T., LYON, T. P., GRAHAM, D. M., STRISOWER, B., and NICHOLS,A. V.: Lipoproteins in atherosclerosis. Am. J. Med. 11: 358,195l. 23. FABER, M.: The cholesterol content of the human aorta in relation to serum cholesterol concentration. Act. med. Scandiaav. 125: 419, 1946. 24. GEIRINGER,E. : Venous atheroma. Arch. Path. 48: 410, 1949. 25. DE SUTO-NAGY, G. I. and WATERS, L. L.: The effect of altered lipid metabolism on experimental lesions of the coronary arteries. Circulation 4: 468, 1951. 26. SCHLICHTER,J. G., KATZ, L. N., and MEYER, J.: The occurrence of atheromatous lesions after cauterization of the aorta followed by cholesterol feeding. Am. J. M. SC. 218 : 60, 1949. 27. SSOLOWJEW, A.: Expcrimentelle Untersuchungen iiber die Bedeutung von lokaler Schldigung fiir die Lipoidablagerung in der Arterienwand. Ztschr. f. d. ges. cxper. Med. 69: 94, 1930. 28. WILLIS, G. C.: Experimental study of intimal in atherosclerosis. ground substance Canad. M. A. J. 69: 17, 1957. 29. WILENS, S. L. : The nature of diffuse intimal thickening. Am. J. Path. 27: 825, 1951. 30. MOON, H. D. and RINEHART, J. F.: Histogenesia of coronary arteriosclerosis. Circulation 6 : 481, 1952. 31. WILENS, s. L.: The experimental production of lipid deposition in excised arteries. Sn’encc 114: 389, 1951. 32. RUFFIER, A. M.: Studies in the Paleopatholo,gy of Bgypt. Univ. Chicago Press, Chicago, 1922.
Journal
of Cardiology NUMBER 3
MARCH 1958
VOLUME I
Edi tori al The Pathogenesis of Arteriosclerosis
N
is valid without
o DISCUSSION
a definition.
is now particularly sclerosis
and
are
one can exist without
atherosclerosis tative
arterio-
more
arbitrary
sharply
speaking
it defines
studies the maturation become
manifest,
present
in such
all
enough.
Other
increase
in
applies
animals
as our
lesions
who
own
have
and
are
live
omnipresent,
and
extent
these
as abnormal
normal
involuntary
undergo
with
181
70 yr
190
from
birth
two
age.
to old age.
In
layer.
A
distinct
involves
internal
elastica
also
The
the
may
the artery
has been
term
applied
of the intima
absent
after of
in the course
“hyperplastic”
morphogenesis.
to this
arterio-
normal
in-
If, therefore,
hy-
and of the elastica
may
earliest lesions, then
is not always an aging phenom-
as currently
Fortunately
arteries
vessels thickening
is of the elastic or muscular
are never
The
arteriosclerosis enon
small
progressive
and of the elastica differ in intensity
volutionary
clinical
viewed
but begins
and anatomic
at birth.
arteriosclero-
sis are not always coexistent.
contrast
This biologic interpretation of arteriosclerosis have explains the difficulty some observers had in determining when physiologic aging ends
their birth
but continue to grow as the years progress. The endoAt birth there is hardly any intima. thelium lies directly upon the elastica which is single
of the
be viewed as the inescapable
lesions that
life. 5
sclerosis
but as part of the
changes
and
middle
perplasia
to other organs the arteries do not attain maximum histologic differentiation at
MARCH,1958
124
50 yr
of growth.
as well to the lower animals.2J
not be viewed
a
35 yr
type but they
ARTERIAL CHANGES WITH AGE Being
54
arteries
whether
long
things being equal these lesions
intensity
6
10 yr
the intima
a vascular
who
Intima (p)
Reduplication
of the and
ages:
begins as early as the second year in the larger
thickening
a reduplication
are universal
to
changes
first a collagenous
shows the measure-
Age
if one
from birth
Histology4
Birth
is no Biolog-
since
of arteries
and later
These
system
itself;
years two morphological
of the intima elastica.
There
need to define arteriosclerosis.
the senescent
only
Schafer’s
the other and that
of arteriosclerosis.
already becomes visible at the The following data taken
ments of the intima at different
when it does occur is but a facul-
lesion
ically
because
atherosclerosis
from
I1 have tried to show that morphologi-
defined. cally
pertinent
of intima
end of the first year.
This
of an artery was labeled “arteriosclerosis.”
This
layer
The time is long past when any hardening
and disease begins. For instance, BrenneP reports an incidence of 80 per cent arteriosclerosis of the pulmonary artery, his criterion
collagenous 295
Editorial being the thickening servations occur
of the intima.
the only normal
in children.
perfectly calculated artery
the
This
is is
vessels;
to the gross or naked eye in the pulmonary
is determined
intima,
cent.
when
of arteriosclerosis
which
in the
but
according
appearance
Brenner incidence
Anatomically,
correct,
by lipoid
the incidence
latter
In his obarteries
instance, on the posterior wall of the thoracic and abdominal aorta; at the site of vascular fixation, such as at the origin of the intercostal
pulmonary
is only
observation
has a deep significance
deposits
the rigid
six
directly
as we shall
per see
in respect to pathogenesis.
of the
elastica
pensatory many
hyperplasia
may
phenomena
evidences
that
these
prolonged
lesions
been cited
are
gross
arteriosclerosis
circulations. that
the
artery
pressure
arteriosclerosis
is certainly
very
of the pulmonary deposits
Sudan
stains
grossly (2)
When
unless
circulation
the
frequency cardiac
hepatic
and
congestive
production
pulmonary
failure;
of the
by
already
except
age
of arteriosclerosis
is
disorders,
those
in degree.
mitral
of
the
hypertensive
disease
It has speaking, disease
in normotensive Because of the and congenital
arteriosclerosis
in
in the
of the intima,
of the
pul-
pressure
may
rarely
veins
say
that
occurs
prolonged in the
sa-
aneuryism.
hyperplasia
In
of
the
in veins even when
the
thickened.
These
impressive
lesions for our
even with the most aggravated
prolonged
proaches
be
cava,
and in the venous
in the veins are particularly and
in
circulation;
arteriovenous
is profoundly
thesis because
can
in the vena
in the portal vein in hyper-
portal
of an I
elastica intima
arteries
a hyperkinesis
morphologically in
venous
artery
were
pressure
for instance,
passing
is superimposed,
lesions
of
prolonged
segment
not be demonstrated
in no way from
individuals
a
demonstrated,
aorta.
can be predicated.
hypertension,
the
The
exemplified
veins is close to zero, thickening
venous
in constrictive
that,
arterial
Since
showed
intima.
is negatively
the
a hypertension
they
phlebosclerosis.
thickened
pulmonary
of pulmonary
when
of pressure
ends of an artery
phenous veins in varicosities;
and the lesions are intensified.
shown
differ
could except
function,
for
lowered been
in
a markedly
tension
visible.
a normal limit
the
that
the divided
time
where
the
or lesser
of the pulmonary
rare,
In a study of hundreds lipoid
in
one-sixth
between in
to
between
greater
observation is especially He showed that a vein interposed
even in senility, never occurs except in instances
These are :
in incidence
Carrel’s’l
showed
is due to the circumstance
normal
is only
Gross
the
pressure.
of the
This
that
compensatory
arterial
The independence
(1)
as com-
and in previous studies7s8
have
normal
viewed
septum.
effect
in those
artery that lie against
bronchus; and in the endocardium opposite a perforation of the ventricular
pertinent.
of the intima and
be justly
of the wall of vessels
sections of the pulmonary
ARTERIAL CHANGES AND PRESSURES The progressive
in the portions
of the dura that lie next to the bone;
pressure,
pericardium,
for instance,
it never
the normal systemic arterial
even appressure.
The testimony adduced affords decisive evidence in my opinion, that the prolongation of the normal conditioning earliest words,
intraarterial factor
lesions
of
production
of the
arteriosclerosis.
we maintain
sufficiently
pressure is the main
in the that
continued
In other a normal function
can
ultimately
cause
vascular disease sufficient at times to compromise life.
I have suggested
therefore
the following
monary artery is common in the juvenile and even in the infantile years. (3) Arteriosclerosis is appreciably less in
equation :
hypotensive individuals.‘O It is notoriously less in patients with active tuberculosis, age for
Apparently, Thoma’s12 third law of the growth of vessels, namely, that the thickness of a vessel
age. (4)
arteriosclerosis
is dependent The
effect
of
intravascular
arterial pressure is well exemplified in the intensification of the lesions at points where the pressure is exerted
against
an
external
resistance,
for
= intravascular
on the difference
vascular and extravascular app,lied to the embryonal
pressure
between
X time
intra-
pressure, which he development of ar-
teries, is perfectly applicable to postembryonal growth. The important conclusion from the THE
AMERICAN
JOURNAL
OF
CARDIOLOGY
Editorial premises
we
have
submitted
sclerosis of the greater
circulation
by hyperplasia
of the
not
because
reversible
pressure
cannot
mising
is that
as manifested
intima
and
normal
be abolished
arterio-
elastica
is
intravascular
without
compro-
those
occurring
there
were
impressive
striking
being
to the
arterial
produced
the
Teleologically,
pressure
may
hyperplasia
viewed as an adaptation
to the progressive that
normally
be
rise of
proceeds
in human
by
differences,
tree
and
the
have
noteworthy
differences
been
then
most it was
and
then
some of these
overcome,1g~20 but first,
remain:
that in experimental
two
the cir-
atherosclerosis
from birth to old age, or if there is no perceptible
there
increase,
level of the cholesterol
(this is largely dependent
on species difference)
; and second, that human
normal
to the prolonged pressure.
will be worn will
take
heavier
maintenance
In other words,
out by vehicles,
longer
with
of the
a pavement
but the process
lighter
vehicles
than
atherosclerosis
hyperplasia
of the intima
except
and
elastica
been
made
chemical
sis;
tion of the plasma
circulation.
especially
However,
of arteriosclerosis imposed,
pulmonary
in the further
other
generally
in the
lesions
classified
substance
saccharides
consisting
in the
walls
deposit
is already
creases
with age.‘b-17
be
hyaline,
only
one
Of
worth
a
phase
years The
of
these
later
serious
lipoid deposition,
vessel.
This and in-
in children14
In addition, there may calcareous, and lipoid
mucoid,
degeneration.
of a meta-
of mucopoly-
of the
visible
changes,
consideration
vascular
importance
disease
that
in
a vast amount
of atherosclerosis
not only because
looms
it is the deposition arteriosclerosis it largely
to the narrowing
of the lumen. lends
itself
to
reproduction
and its elimination
has aroused
hopes
that
to the rising
visible
contributes
or prevention especially of coronary
his
the
lipoproteins
upon
plasma
co-workerszl
studied the distribution
the ratio
have
in
of the alpha
in the plasma
of
phospholipid. addition and beta
in different
animals,
in infants, young men and women and in human conditions
associated
with atherosclerosis.
Gof-
man’s studiesz2 of the lipids with the ultracentrifuge are familiar.
Both Barr’s and Gofman’s
studies, while suggestive, namely, mate
have the same defect,
that their findings bear only an approxi-
but
cidence
not a consistent
relation
to the in-
of atherosclerosis.
Thus
far
measuring
no
method
has
been
devised
of
the lipids in the blood quantitatively
or qualitatively
by physical or chemical
methods
which afford any ability to predict the incidence
feeding to rabbits.
The
tion only one factor,
problem
important
that enters into the production sis, Most
is no doubt that the deposits of lipid mim1958
and
depends
to
it has
of athero-
difficult because such studies take into considera-
The experimental study of atherosclerosis was begun by Anitschkow and Chalatow18 nearly
MARCH,
Barr
for instance,
the development
sometimes
cholesterol
by
in the composi-
of atherosclerosis.
EXPERIMENTAL ATHEROSCLEROSIS
There
the
have
discrepancies
experimental
disease, may be controlled.
forty years ago by cholesterol
sclerosis
lipids;
ob-
hyper-
Furthermore,
its ravages, incidence
large
of lipid
in the intima that renders but also because
recent
of study.
grossly,
in respect
the is the
in other words, atherosclerosis,
has stimulated
atherosclerosis
super-
as degenerations.
I refer to fibrosis and the deposition chromatic
evolution
become
that
syn-
biliary
of attempts
these
or physical differences
been shown
by a hypernephrotic
or familial
A number
to explain
may be the only lasting lesions of arteriosclerothis applies
to the blood
prolonged
in essential
cholesterolemia.
and
in the
hypothyroidism,
struction,
ARTERIAL DEGENERATION
relationship
is unaccompanied
cholesterolemia drome,
ones.
The
was no linear
that
means
Since
but
distribution
the fact
unphysiologic
differences cumstance
beings,
the lack of selective
only in herbivora.
life itself.
intraarterial
icked
namely
the
observers
always contains
lipid
content
fail to consider a certain
quota
is rendered as it may be,
of atheroscleroof the
blood.
that the blood of cholesterol
and other lipids. It is not a question of either/ or but only of more or less. In other words, in respect to the blood cholesterol the most we can hope for is a partial but not a complete solution
of the problem.
Editorial FACTORS IN ATHEROSCLEROSIS Other
factors
atherosclerosis, (1)
enter
atherosclerosis
in hypertensive
and accounts observed
atherosclerosis
is practically hypertension
of
for the
cholesterolemia
and a normal
blood
than with a hypercholesterolemia
and
it will take
a lesser time
with prolonged atherosclero-
lived animals,
hepatic,
blood
is induced.
of the effect of is a negative is exceedingly
In examining
phlebosclerosis.24
pulmonary
the vena cava, I have seen atheroma
hun-
ously long lived. experimental greater
Certainly
circulation,
in phlebo-
atherosclerosis
of atherosclerosis
the vascular
The evidence from
the
First,
there is a striking
observers
scurvy,2x and syphilis.
act as precursors In
sectioning
to the deposition many
found lipoid deposition panied by a hyperplasia contends secondary but
the
Many
believe that the mucopolysaccharides
that
the
arteries
I have
that
in the pulmonary
the
never
initial
are
reverse
relationships
artery is a valid argument
and
deposit
tensive
states
that
in the
Moon athero-
of the intima
preceded
the deposition
Also, they showed that the induction
of experimental atherosclerosis bore little resemblance to the histogenesis of human coronary atherosclerosis. (3) Finally, the Dynamic Factor of Time: The neglect of this factor explains why all attempts to ,formulate linear relationships between experimental factors and atherosclerosis have thus far failed. Anitschkow recognized the time element years ago when he showed that atherosclerosis can be produced with a
the
blue.
lipid
wall.
the
atherosclerosis Third,
of the
amount
in the
there
of lipid in hypergreater
is
or
of
in hypo-
less.
areas
that
revealed
Fourth,
the
dyes such
Fifth, in hypercholesterolemia convincing
showed
in
Second,
Conversely,
to colloidal
its are greater Most
of the
showed that the lipid was deposited
same
permeability
reasons:
in chemistry
is in the intima. whether
imbibition
following
similarity
human
circulations.
Anitschkow
the
in the amount
states,
lesser
exist
sclerosis that thickening
that followed
the
for
in the arterial
tensive
Wilens2g
thickenings
of
unless the time
by direct
distribution
and
of the intima. intimal
of lipid.
in
is an increase
the same sequence occurs in all arteries. and Rinehart30 demonstrated in coronary
the fibrous plaques
and
plasma
arises
plasma,
in the intima unaccom-
and the results of the lipid deposition; fact
atherosclerosis
experimental
of lipid.
inci-
sections
is strong that most of the lipid
tion of lipid in the vessel wall; cauterization,26J7
on the
in different
injury of the vessel wall predisposes to the deposidetergents,25
is a senescent
studies
tree are valueless
hy-
of the
factor is considered.
that
this includes in-
in pulmonary hypertension
Statistical
in
adrenalin,r8
in every field except
and in juvenile
dence
testimony
of arteriosclerosis2f3
is in birds who are notori-
atherosclerosis,
phenomenon.
of
the longest
at least in terms of their captivity,
The greatest incidence
pertension
explains
in the incidence
since by and large,
show the highest incidence
veins, and
sclerosis, but very rarely. (2) The Changes in the Vessel Wall Previously is abundant
some of the species difference arteriosclerosis
hypertension evidence
The time factor
circulation.
even with a normal
by
an athero-
or a hypercholes-
that atherosclerosis
produced
to cause
probably
one, namely,
jury
it
with
terolemia.
upon atherosclerosis
There
a normal pressure
other
atherosclerosis
sclerosis with a hypertension
A highly confirmatory
Described:
words,
In
years.
hypertension in
prolonged.
is
artery
pulmonary
provided
dreds of portal,
periment
in the juvenile
Faber23 showed that experimental
rare
if the ex-
of the pulmonary
the
sis can be produced
states
largely
always associated
cholesterol
of
The fact that atherosclero-
pronounced
is acknowledged, Gross
the production
of hypercholesterolemia
will take longer to produce
Hypertension:
sis is more
into
viz. :
lesser degree
than
greatest
as trypan the depos-
in normocholesterolemia.
is the work of Wilens31 who
experimentally
that
with
sufficient
into the pressure, lipid could be expressed wall of vessels. Inasmuch as the plasma lipid exists in a colloidal form and in the artery as a granular deposit, the presumption is that the intima takes part in this transformation. Not all the lipid enters the vessel wall by imbibition. Winternitz and his co-workers have adduced convincing evidence that some lipid is the result of hemorrhage from the rupture of the intimal capillaries. THE
AMERICAN
JOURNAL
OF
CARDIOLOGY
Editorial There is no doubt that experimental atherosclerosis is reversible, that is, the lipid disappears if the experiment is stopped at a proper time, even though connective tissue changes persist in the wall of the artery. But there is strong doubt whether human atherosclerosis is rebecause the most versible, even partially, important elements that enter into its production, namely normocholesterolemia, intravascular pressure, the changes in the ground substance and the time factor cannot be eliminated. The most that can be hoped for is a cessation or a slowing of the process. The only conditions in which human atherosclerosis may be reversible is in the hypercholesterolemic states previously mentioned. It is obvious that owing to the numerous interacting factors that enter into the production of arteriosclerosis, a complete reversal or a prevention will be an unattainable project. That is why arteriosclerosis has always been with us, in antiquity,32 and all climes, in all races. It is an inescapable destiny. ELI MOSCHCOWITZ New York, New York RErzr~zNo~s
4. 5. 6. 7. 8. 9. 10. 11. 12.
13.
MOSCHCO~~TZ, E. : Hyperplastic arteriosclerosis versus atherosclerosis. J.A.M.A. 413: 862, 1950. Fox, H., in COWDRY, E. V.: Arteriosclerosis. Macmillan, New York, 1933. CRONIN,M. T. T. and RATCLIFFE, H. L. : Arteriosclerosis in captive wild mammals and birds. Am. J. Path. 33: %b, 1951. SCHAFER, E. A. S. : Text Book of Histology. Lea & Febiger, Philadelphia, 1920. BELL, E. C., in COWDRY, E. V.: Arteriosclerosis. Macmillan, New York, 1933. BRENNER,0. : Pathology of the vessels of the pulmonary circulation. Arch. Znt. Med. 56 : 21 I, 1935. MOSCHCO~ITZ, E. : Hypertension of the pulmonary circulation. Am. J. M. SC. 174: 388,1927. MOSCHCO~ITZ, E. : Vascular Sclerosis. Oxford, New York, 1942. MOSCHCO~ITZ, E. : Unpublished data. HUNTER, A.: Blood pressure among standard lives. J. Actuar. Statistics 70: 60, 1939. CARREL, A. : Technique and remote results of vascular anastomosis. Surg. Gyaec. d Obstct. 1: 1, 1912. THOMA, R.: Ueber die Stromung des Blutes in der Gcfassbahn und die Spannung der Gefssswand. Beitr. z. path. Anat. u. z. allg. Path. 67 : 92, 19191920. LEARY, T.: The genesis of arteriosclerosis. Arch. Path. 32: 507, 1941.
MARCH, 1958
299
14. TAYLOR, H. E.. The role of the mucopolysaccharides in the pathogenesis of intimal fibrosis and atherosclerosis of the human aorta. Am. J. Path. 29: 87, 1953. Ueber Mukoides Bindegewebe 15. BJORLINC, E. : Virch. Arch. f. path. Anat. 205: 71, 1911. The human aorta sulfate-containing 16. FABER, M.: polyurinides and the deposition of cholesterol. Arch. Path, 48: 312, 1949. 17. SSOLOWJEW,A. : Ueber das Verhalten des Zwisschensubstanz der Aortenwand bei Atherosklerosie. Virch. Arch. f. path. Anat. 250 : 339, 1924. Ueber ex18. ANITSCHKOW,N. and CHALATOW, S.: perimentelle Cholestrin steatose und ihre Bedeutung fiir die Enstehung einziger pathologische Processe. Cent. f. allg. Path. n. path. Anat. 24: 1, 1913. Experimental Athero19. KATZ, L. N. and STAMLER, J.: sclerosis. Thomas, Springfield, Ill., 1953. 20. STEINER, A. and KENDALL, F. E.: Atherosclerosis and arteriosclerosis in dogs following ingestion of cholesterol and thiuracil. Arch. Path. 42: 433, 1946. Pro21. BARR, D. P., Russ, E. M., and EDER, H. A.: tein-lipid relationship in human plasma in atherosclerosis and related conditions. Am. J. Med. 11 : 480, 1951. 22. JONES, H. B., GOFMAN, J. W., LINDGREN, F. T., LYON, T. P., GRAHAM, D. M., STRISOWER, B., and NICHOLS,A. V.: Lipoproteins in atherosclerosis. Am. J. Med. 11: 358,195l. 23. FABER, M.: The cholesterol content of the human aorta in relation to serum cholesterol concentration. Act. med. Scandiaav. 125: 419, 1946. 24. GEIRINGER,E. : Venous atheroma. Arch. Path. 48: 410, 1949. 25. DE SUTO-NAGY, G. I. and WATERS, L. L.: The effect of altered lipid metabolism on experimental lesions of the coronary arteries. Circulation 4: 468, 1951. 26. SCHLICHTER,J. G., KATZ, L. N., and MEYER, J.: The occurrence of atheromatous lesions after cauterization of the aorta followed by cholesterol feeding. Am. J. M. SC. 218 : 60, 1949. 27. SSOLOWJEW, A.: Expcrimentelle Untersuchungen iiber die Bedeutung von lokaler Schldigung fiir die Lipoidablagerung in der Arterienwand. Ztschr. f. d. ges. cxper. Med. 69: 94, 1930. 28. WILLIS, G. C.: Experimental study of intimal in atherosclerosis. ground substance Canad. M. A. J. 69: 17, 1957. 29. WILENS, S. L. : The nature of diffuse intimal thickening. Am. J. Path. 27: 825, 1951. 30. MOON, H. D. and RINEHART, J. F.: Histogenesia of coronary arteriosclerosis. Circulation 6 : 481, 1952. 31. WILENS, s. L.: The experimental production of lipid deposition in excised arteries. Sn’encc 114: 389, 1951. 32. RUFFIER, A. M.: Studies in the Paleopatholo,gy of Bgypt. Univ. Chicago Press, Chicago, 1922.