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Acid-Base
Balance of Diets Which Produce Immunity to Dental Caries
Among the South Sea Islanders and Other Primitive Races
Reprinted here with permission by Price-Pottenger
Nutrition Foundation
by Weston
A. Price, DDS, MS, FACD
Read
before the New York Dental Centennial Meeting, New York,
N.Y., December 4, 1934; reprinted from the Dental Cosmos
for September 1935.
Among
the many theories regarding the controlling factors for
immunity to dental caries, “potential alkalinity”
has been stressed by many as playing the controlling role.
This has been strongly emphasized in the paper by Dr.
Martha Jones entitled “Our Changing Concept of an
Adequate Diet in Relation to Dental Disease.” She
and her associates have emphasized this factor in several
previous communications. I do not find in her reports,
however, the type of quantitative data which seem to be
needed for evaluating this problem. The fact that a given
potentially basic diet has been found associated with
immunity may have little significance regarding the role
of acid-base balance in establishing immunity.
It
is very clear that a satisfactory approach to this problem
will require the consideration of many diets which have
been competent to establish and maintain a very high immunity.
No modern civilization provides such a control group,
since dental caries is active and in certain groups rampant
among the individuals of all of our modernized peoples.
It is for this reason I have been making expeditions during
several years to reach the remnants of primitive racial
stocks who, like their ancestors, are characterized by
a very high immunity to dental caries and who by their
isolation make possible a critical study of the variables
at the point of contact with modern civilization where
the high immunity changes to a high susceptibility to
tooth decay.
I
have previously reported on my studies among the Swiss
in the high Alps (1) in isolated valleys. The people of
the Outer Hebrides (2), the Eskimos of Alaska (3) and
the Indians of northern and central Canada (4) have also
been reported. In addition to these we now have very extended
data obtained during the past summer from studies among
the Melanesians and Polynesians on eight archipelagos
of the Pacific.
In
this report we shall include a consideration of the acid-base
balance of the foods for both these racial stocks and
for groups with high immunity to dental caries and for
those who have lost that high immunity.
| Figure
1: Dental Caries on Primitive and Modern Food |
| Peoples |
Primitive
|
Modern
|
| Alps |
46
|
298
|
| Hebrides |
11
|
300
|
| Eskimos |
0.9
|
130
|
| Indians |
1.6
|
215
|
| South
Sea Islanders |
3.4
|
308
|
In order to make these data more readily understood when
a comparison is made of the potential acidity of the various
diets that have been found capable of producing and maintaining
high immunity, it is important that we visualize, first,
the levels of incidence of tooth decay in these groups while
they are isolated and also the levels of those of the same
racial stocks who had lost their immunity at the point of
contact with civilization. These are shown for the different
groups in Figure 1. There are five groups. We are using
all of the people of the South Sea Islands in one group
for convenience in this study. It will be noted that the
isolated Swiss of the high Alpine valleys had forty-six
teeth attacked by tooth decay out of each 1,000 teeth examined.
The modernized Swiss who were eating our modern foods had
298 teeth involved with caries for each 1,000 teeth examined.
For the primitive Gallics in the Outer Hebrides these figures
were eleven teeth of each 1,000 teeth examined which had
been attacked by dental caries and for the modernized groups
300 teeth. For the isolated Eskimos less than one tooth,
0.9, was attacked by caries in each 1,000 teeth examined
and for those at the point of contact with our modern foods
130 teeth were involved. For the Indians of the far north
and interior of Canada living on their primitive native
foods 1.6 teeth were attacked with dental caries, while
for the modernized Indians 215 teeth. For all of the groups
in the South Sea Islands living on their primitive native
foods 3.4 teeth per 1,000 teeth examined had been attacked
by dental caries, whereas among those eating foods of modern
civilization this was increased to 308 teeth. It is important
that we keep these figures in mind as we observe the total
acidity and total base provided in the average daily diets
of these various groups.
| Figure
2: Acid Base Content of Primitive and Modern Diets |
|
Acid
|
Base
|
| Peoples |
Prim |
Modern |
Prim |
Modern |
| Alps |
359 |
165 |
355 |
171 |
| Hebrides |
248 |
171 |
152 |
152 |
| Eskimos |
707 |
234 |
382 |
227 |
| Indians |
892 |
234 |
628 |
227 |
| South
Sea Islanders |
322 |
203 |
399 |
244 |
The figures for acidity and base content are shown in Figure
2. We have in this chart the same groups in the same relationship
as in Figure 1. The method of determining the acid and base
content of a given food involved determining the quantity
of each of the basic elements -- calcium, magnesium, sodium
and potassium -- and the acid elements -- phosphorus, chlorine
and sulphur. These determinations have been made by using
Sherman’s tables with special determinations of special
foods. These are expressed in terms of cc. of normal acid
and normal base, using the method suggested by Salter, Fulton
and Angier in the Journal of Nutrition for May 1931. The
excess of acid over base or base over acid is expressed
as potential acidity or potential alkalinity. It is important
to note that in four of these five groups of primitive racial
stocks, living on entirely different native foods and in
widely divergent climates and entirely different living
habits, the immunity-producing diets were found to be higher
in acid factors than in base factors. In some the divergence
is quite small and in others, quite large. It is also important
that, in changing, from high immunity to high susceptibility
diets there was no increase in potential acidity with increased
susceptibility to tooth decay. This graph shows the quantity
of acid and base in each of the diets associated with immunity
and also with susceptibility to tooth decay, and it is of
interest to note the very great difference in total acid
and total base contained in the nutritions of the various
groups.
The
clinical work that has been done by Dr. Jones and her
associates in the Hawaiian Islands has been on a diet
that is potentially alkaline, consisting, as we have learned
from her, of poi and milk. The poi is made from powdered
cooked taro to which water has been added and fermentation
allowed to take place for a definite period. We are primarily
concerned with the inorganic acids in evaluating the role
of potential acidity, since the organic acids are largely,
if not completely, oxidized in the body. Fermenting the
poi does not therefore materially change the acid-base
balance. The following are the figures for both acid and
base factors for each of the primitive and modernized
diets for the five groups: for the primitive peoples in
the Alps we have as cc.N. acid 359 and base 355; for the
modernized groups we have acid 165 and base 171. For the
Gallics of the Outer Hebrides in the primitive groups
we have acid 248 and base 152, for the modernized groups,
acid 171 and base 152. In the primitive Eskimos diet the
acid is 707 cc.N. and the base 382; for the modernized
Eskimos the acid is 234 cc.N. and the base 227. In the
primitive groups of Indians the acid content is 892 cc.N.
and the base 628; for the modernized groups the acid is
234 cc.N. and the base is 227. For the primitive South
Sea Islanders’ diet the acid is 322 and the base
399, and for the modernized groups the acid content is
203 and the base 244. My data, accordingly, do not support
the theory advocated by Dr. Jones.
It
is of particular interest that in my studies of the South
Sea Island groups taro was found to be one of the most
universally and extensively used articles of food. When
used with adequate primitive diets of all the Island groups
studied, except the Hawaiian Islands, which would include
the Marquesas, Society, Cook, Tonga, New Caledonia, Fiji
and Samoan Islands, the taro, which was cooked by baking
in ovens consisting of heated stones covered with leaves
and dirt, produced a very high level of immunity to dental
caries in every instance where the groups were isolated
from contact with foods of modern civilization and where
they were using only their native vegetables and fruits
and animal life of the sea. The nutrition of these people
will be discussed from a chemical and activator basis
in another communication, since space does not permit
including it here.
It
is very important that dependable data be accumulated
as rapidly as possible which bear upon this problem of
acid-base balance of foods, since many enthusiasts are
advocating strongly the elimination or reduction of potentially
acid foods such as cereals, meats and fish. Indeed, a
great deal of propaganda is reaching the profession and
laity which places great stress upon the importance of
keeping the diet potentially alkaline.
It
is my personal belief, based on the extensive data that
I am accumulating, from a study of these various primitive
groups and their breakdown at the point of contact with
civilization and its foods, that several constitutional
factors may be involved besides tooth decay, and which
are very important. My investigations are showing that
primitive groups have practically complete freedom from
deformity of the dental arches and irregularities of the
teeth in the arches and that various phases of these disturbances
develop at the point of contact with foods of modern civilization.
It
is not my belief that this is related to potential acidity
or potential alkalinity of the food but to the mineral
and activator content of the nutrition during the developmental
periods, namely, prenatal, postnatal and childhood growth.
It is important that the very foods that are potentially
acid have as an important part of the source of that acidity
the phosphoric acid content, and an effort to eliminate
acidity often means seriously reducing the available phosphorus,
an indispensable soft and hard tissue component.
It
is my belief that much harm has been done through the
misconception that acidity and alkalinity were something
apart from minerals and other elements. Many food faddists
have undertaken to list foods on the basis of their acidity
and alkalinity without the apparent understanding of the
disturbances that are produced by, for example, condemning
a food because it contains phosphoric acid, not appreciating
that phosphorus can only be acid until it is neutralized
by combining with a base.
An
illustration of this is the following case: A girl was
brought for assistance and study who still had her childhood
face at sixteen years of age. There had been marked delay
in physical development and function other than this growth
factor. I was advised that the nutrition of this child
had been very largely guided by the literature of the
Defensive Diet League which, as one of its principal premises,
has urged the keeping down of the acid-producing foods.
This girl was so conscious of her underdevelopment that
she disliked to go to social events with those of her
age. When brought to me for assistance and correction
of her facial deformity I did not deem it wise or feasible
to undertake to change the position of the facial bones
by use of orthodontic appliances. I depended entirely
on a reinforced nutrition. We supplied mineral and activator
carrying foods, with the hope that the growth factors
might be in part latent and still be capable of stimulation.
There was a very marked improvement in the facial development.
In one year she largely developed her adult face. She
is very conscious of this improvement and, instead of
being reticent and reserved, she has become the leader
in her group.
It
is very unfortunate that medical and dental science has
not looked to the primitive people earlier for standards
of not only physical perfection but also of nutrition.
Indeed,
while I am dictating this text I have been interrupted
by a nurse who has come to inquire whether the teachings
so strongly heralded by certain groups should be followed,
namely, that proteins and carbohydrates should never be
eaten together.
I
have seldom found anywhere in the world such a high percentage
of physical excellence with high immunity to our modern
degenerative diseases as among these people of the South
Sea Islands. Their diet practically every day consisted
of eating the proteins from the animal life of the sea
with the carbohydrates of their land vegetables, many
of which were very rich in starch. This was equally true
of the Gallics in the Outer Hebrides, living almost entirely
on oats and sea foods.
By
studying primitive people who have exceedingly high immunity
to dental caries and those people at the point where they
lost that high immunity, we were able to reduce the total
number of variables to a minimum. It was then possible
to study critically those factors of the nutrition which
are found to be changed and the varying amounts which
can be directly related to the changed incidence of dental
caries. This provides still another approach to the problem
since, by adding those factors to a deficient diet which
are found to constitute the difference between that diet
and one that has been demonstrated by those primitive
peoples to be efficient, we have a means for checking
and determining whether these factors when added will
change susceptibility to immunity. It is by this procedure
that we can now control dental caries when active, or
completely prevent it from developing.
It
is of particular significance that when all of the foods
of these various primitive groups are reduced to their
chemical and activator content they are found to be relatively
equivalent. This strongly indicates the direction in which
the dental profession can profitably move in this matter
of the prevention of tooth decay. Since many other degenerative
processes are found to develop simultaneously, or nearly
so, with the loss of immunity to dental caries, we have
strong evidence that these physical afflictions are, like
dental caries, symptoms rather than unit diseases. This
clearly is the direction that modern preventive medicine
will take in order to establish high immunity to the degenerative
diseases.
In
every instance in my studies of these primitive racial
stocks where I found that they had made contact with our
modern civilization, with the result that they had lost
their immunity to dental caries, that contact included
displacing part of their native diet with imported white
flour and sugar and sweetened goods. These foods are exceedingly
low in Nature’s building material for growth and
repair. Refined sugar has practically no minerals or activators,
and white flour has had removed about four fifths of the
minerals and nearly all of the germ with its contained
activators. Molasses, or sorghum, carries very little
phosphorus, though it does carry calcium, which is usually
provided easily in safer foods like milk and vegetables.
It also carries potassium liberally.
Concentrated
sweets of all kinds are too high in caloric value to be
safe in liberal quantity. Our daily limit of two or three
thousand calories, together with our requirement of about
two grams of phosphorus in the foods (in order to obtain
two-thirds of that amount for body building), means that
to obtain this amount we would have to eat enough molasses
to supply about 13,300 calories, or about ten pounds.
This, if possible, would probably do much harm. To get
sufficient phosphorus from white flour products usually
requires eating about four and one-half pounds of white
bread daily, which would provide about 10,000 calories.
In
my clinical practice, in which I am endeavoring to put
into practice the lessons I am learning from the primitive
people, I do not require that the foods of the primitive
races be adopted but that our modern foods be reinforced
in body building materials to make them equivalent in
mineral and activator content to the efficient foods of
the primitive people. This usually is accomplished by
displacing white-flour products with whole-wheat products,
together with eliminating or reducing the high caloric
foods such as sugars and other sweets, and adding foods
that are good providers of the fat-soluble activators,
such as the butter of milk as produced by cows that are
eating liberally of fresh or cured rapidly growing green
wheat or rye, together with the organs of animals and
the use of sea foods such as these primitive people have
used so successfully in providing not only high immunity
to dental caries but excellent bodies, with high defense
for the degenerative diseases.
We
are learning Nature’s methods and undertaking to
utilize them. The chemical content of all of these primitive
foods is comparably high in minerals and activators, especially
the fat-soluble activators, while being relatively low
in calories. In no instance have I found the change from
a high immunity to dental caries to a high susceptibility
among these primitive racial stocks to be associated with
a change from a diet with a high potential alkalinity
to a high potential acidity, as would seem to have been
the case had the high alkalinity balance theory been the
correct explanation. If the requisite is so simple as
a potential alkalinity, why has not the addition of sodium
bicarbonate to a deficient diet controlled dental caries?
BIBLIOGRAPHY
- Price,
Weston A.: “Why Dental Caries with Modern Civilization
?” Dental Digest. 89:94, 147, March and April 1933.
- Idem:
Dental Digest 88:225, June 1933.
- Idem:
Dental Digest 40:210, June 1934.
- Idem:
Dental Digest, 40:130, April 1934.
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