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A Treatise on the Food Question
IN FIVE VOLUMES
Explaining, in Plain Language, the
Chemistry of Food and the Chemistry of
the Human Body, together with the Art of
Uniting these Two Branches of Science in the
Process of Eating, so as to Establish Normal
Digestion and Assimilation of Food and
Normal Elimination of Waste, thereby
Removing the Causes of Stomach,
Intestinal, and All Other
Digestive Disorders
BY
Eugene Christian, F. S. D.
Volume III
NEW YORK
THE CHRISTIAN DIETETIC SOCIETY
1914
Copyright, 1914
BY
EUGENE CHRISTIAN
ALL RIGHTS RESERVED
Published August, 1914
Lesson XII | Page |
---|---|
Harmonious Combinations of Food and Tables | |
of Digestive Harmonies and Disharmonies | 591 |
Chemical Changes Produced by Cooking | 593 |
Starch Digestion--Cooked and Uncooked | 597 |
Excuses for Cooking Our Food | 599 |
Experiment upon Animals | 601 |
Food Combinations | 603 |
How to Interpret the Tables | 607 |
Tables of Digestive Harmonies and Disharmonies | 609 |
Lesson XIII | |
Classification of Foods and Food Tables | 619 |
Simple Classification of Foods Based on | |
Principal Nutritive Substances | 621 |
Purposes which the Different Classes of Food | |
Serve in the Human Body | 625 |
Purpose of Carbohydrates | 625 |
Purpose of Fats | 626 |
Purpose of Proteids | 626 |
Purpose of Mineral Salts | 629 |
Difference between Digestibility and Assimilability | 630 |
Table showing Comparative Assimilability and | |
Carbohydrate and Water Content of Cereals, | |
Legumes, and Vegetables | 632 |
Lesson XIV | |
Vieno System of Food Measurement | 637 |
Energy | 639 |
Nitrogen | 641 |
Systems of Food Measurements Compared | 642 |
The "Old" System | 642 |
The New or "Vieno" System | 645 |
Necessity for a Simple System | 646 |
Explanation of Table | 648 |
Table of Food Measurements | 655 |
Lesson XV | |
Curative and Remedial Menus | 665 |
Introduction | 667 |
Cooking | 669 |
Grains | 669 |
Vegetables | 670 |
Cooking en casserole | 671 |
Rice and Macaroni | 672 |
Fruits | 672 |
Canned Goods | 673 |
Buttermilk | 674 |
Home-made Butter | 674 |
The Banana | 675 |
How to Select and Ripen Bananas | 676 |
Baked Bananas | 677 |
Recipes: | |
For Coddled Egg | 677 |
For Uncooked Eggs | 678 |
For Baked Omelet | 678 |
For Fish and Fowl | 678 |
For Green Peas in the Pod | 679 |
For Pumpkin | 680 |
For Vegetable Juice | 680 |
For Sassafras Tea | 681 |
Wheat Bran | 681 |
Bran Meal | 683 |
Choice of Menus | 683 |
Normal Menus | 685 |
Introduction to Normal Menus | 685 |
For Normal Child, 2 to 5 years | 687 |
For Normal Youth, 5 to 10 years | 692 |
For Normal Youth, 10 to 15 years | 696 |
For Normal Person, 15 to 20 years | 700 |
For Normal Person, 20 to 33 years | 704 |
For Normal Person, 33 to 50 years | 708 |
For Normal Person, 50 to 65 years | 712 |
For Normal Person, 65 to 80 years | 716 |
For Normal Person, 85 to 100 years | 720 |
Introduction to Curative Menus | 724 |
Curative Menus: | |
Superacidity | 726 |
Fermentation | 753 |
Constipation | 761 |
Gastritis | 763 |
Nervous Indigestion | 784 |
Nervousness | 789 |
Subacidity | 801 |
Biliousness | 809 |
Cirrhosis of the Liver | 822 |
Diarrhea | 832 |
Emaciation | 845 |
Harmonious Combinations of Food and
Tables of Digestive Harmonies
and Disharmonies
CHEMICAL CHANGES PRODUCED BY COOKING
The application of heat to food is comparatively of recent origin in the evolution of mankind. The use of fire involves a certain amount of mental ingenuity, and could not be practised by man's anthropoid ancestors. Anthropoid animals, whether human or ape, have a great amount of curiosity for the unusual and the new.
Man probably began his cooking experiments by soaking hard foods in warm water, then in hot water, or by warming cold foods at his camp-fire. As heat[594] volatilizes the pleasant odorous substance present in many foods, the custom of heating them probably became popular. The habit of cooking spread, as many other novel and interesting customs have spread, from this primitive process to the French chef, regardless of whether the results were beneficial or harmful.
The question whether foods should be eaten cooked or uncooked can best be answered by examining the chemical and mechanical changes produced in the process of cooking, and their consequent physiological effects.
Cooking may be divided into two classes, namely, Moist Heat and Dry Heat. To illustrate:
Sugars are not chemically affected by boiling with water, while starch, cooked with boiling water, or steam, absorbs from three to five times its bulk of moisture, and changes into a soft, pasty, or semi-dissolved mass. Under dry heat, sugars[595] are converted into a brown substance, known as caramel, while starch cooked under a temperature of 300° to 400° of dry heat, is changed into a dextrin, of which toast and zwieback are examples.
Fats are not changed chemically by moist heat; that is, by being boiled in water, but the globules are melted and the hot fat spreads in a film over other material which may be present. In dry heat, fats are chemically decomposed, forming irritating vapors. The odors of frying fat are due to the presence of small quantities of these decomposition products. In larger quantities, and with greater heat, these substances are exceedingly irritating to the mucous membrane of the stomach and the intestines.
The chemical changes produced by heating proteids are of much more importance than are those which take place in other foods. Simple proteids, such[596] as albumin and globulin, are coagulated at a temperature of about 160°. This change is familiar in the coagulation of egg whites under low temperature. Other proteids undergo similar changes, governed by the degree and kind of heat (dry or moist), to which they are subjected. This change in proteid material continues with the application of prolonged heat, until the proteid, under dry heat, is converted into a dark brittle mass, wholly insoluble and indigestible.
If the student will take the white of an egg, and bake it for some time in an oven, he will observe the coagulation or hardening of the proteid. The chemical nature of this change is one of great complexity. The molecules combine with each other, forming almost indestructible substances. The combined or coagulated forms of proteid are represented in nature by horns, hoofs, finger nails, and hair.
STARCH DIGESTION—COOKED AND UNCOOKED
The student will remember the reference made in Lesson V to experiments concerning the digestibility of starch when taken in various forms. In these experiments, though conducted for the purpose of demonstrating the supposed advantage of excessive cooking, the results showed that at the time the contents of the stomach were removed, all the proteids of the uncooked grain had been digested, while the percentage of proteid digested from the various forms of cooked grain grew less as the cooking was increased. As the chief function of the gastric juice is the digestion of proteids, the real significance of the above experiments was exactly the opposite from that which was intended to be proved.
The statement is frequently made that the starch of grain cannot be digested[598] without cooking, because the cells enclosing the starch grains have indigestible or insoluble cellulose walls. The old theory is that cooking expands the starch and ruptures or tears down these walls, freeing the contents so that the digestive juices may act upon the enclosed starch granules. This is a theory unsupported by facts. The cell walls on the interior of the grain kernel are very filmy, and in the mature grain scarcely exist at all. The analysis of wheat flour shows only a trace of cellulose fiber. Were these cellulose walls within the wheat grain, as this theory commonly teaches, flour would show a liberal quantity of cellulose. The cellulose wall theory, as a necessity for cooking starch, is an excellent illustration of the ease with which a groundless statement or theory may be used to prove or to explain some popular prejudice.
In the process of cooking, the tendency is to render the organic salts contained in[599] food entirely inorganic. This change from organic to inorganic salts is measured by the temperature to which the foods are subjected. Many of these salts are combined with the nitrogenous constituents of food, therefore when subjected to certain degrees of heat they are of little value in the construction of the proteid molecules within the body. This is especially true of fresh or green vegetables.
EXCUSES FOR COOKING OUR FOOD
Inasmuch as the majority of people favor cooking, probably forgetting that about half of the food consumed in the world at the present time is taken in its natural or uncooked state, it may be well to mention some of the views advanced by those who believe that the present diet of cooked grain is better for modern man than an elementary diet, and who[600] attempt to give a natural explanation. One theory is that man has subsisted so long upon cooked foods that his organs have become fitted for a cooked diet, and a cooked diet only. Another view sometimes advanced is, that while cooked foods were originally detrimental, yet by continued use man has become fitted for such a diet and unfitted for a natural diet. These are but other forms of the old belief in the inheritance of acquired characteristics. This belief, however, is steadily losing ground among evolutionists. There is no more reason to believe that a modified function of the stomach would be inherited, than there is to believe that small feet would be inherited among the Chinese women just because these organs are mutilated by local custom.
The best light of scientific knowledge now leads us to believe that the healthy child of today is, in its capacity for nutrition, essentially like the primitive child,[601] and would thrive best upon a varied diet of natural foods.
EXPERIMENT UPON ANIMALS
While I do not claim that the methods of animal feeding apply accurately to man, yet the digestive and the assimilative processes of animals are so closely related to the human processes, that the results obtained in animal nutrition are very instructive to the student of human food science.
About thirty years ago, when the scientific study of agriculture first became prevalent, an experiment was made in cooked food for animals, upon an extensive basis. At that time it was the universal belief that man owed much of his superiority over other animals to the use of cooked food. This argument was put forth with great force and appeared quite reasonable. It was asked whether animals other than man would be[602] benefited by changing to a cooked bill of fare.
During this agitation numerous western farmers put their hogs, chickens, cows, horses, and sheep upon a cooked bill of fare, and many enthusiastic feeders claimed beneficial results. Later the various Governmental Experimental Stations took up the subject and made many careful, complete, and comparative tests of the effects of cooked and uncooked food for animals. The result did not show the expected thing. The cooking experiments in the majority of cases proved injurious, and the general decision of the Government investigators was that cooking food for animals was useless and detrimental to the great live stock industry. Stock food cookery has now become entirely obsolete.
Man is the only animal that cooks his food, and has made great progress in civilization while subsisting on a cooked[603] diet, but cooking is no more the cause of his advancement than silk hats and swallow-tailed coats. He has advanced only according to the degree that he has thought, studied, and experimented. Cooking has undoubtedly enabled man to utilize many things as food, that he could not and would not have used otherwise, but whether this has aided or retarded in his material progress is yet an unsolved question.
FOOD COMBINATIONS
The following tables are designed to convey, in the most condensed and simplified form, the results of my investigations in regard to food combinations.
It is somewhat difficult to give in any one table exact information concerning food combinations under the varying conditions of the body and its ever-changing requirements. The best that[604] can be done is to lay out such groups as are fundamentally harmonious from a chemical point of view.
The particular condition of the patient often reveals certain special requirements which must be dealt with according to the symptoms given off by the body. Many of these combinations, when taken under certain conditions, may appear disagreeable, but this can be overcome by leveling the proportions and limiting the quantity. Quantity is of very great importance for the reason that the most perfect selections of food can be made and blended into perfect chemical harmony, and still disagree with the normal stomach if a quantity is taken in excess of physical demands.
The use of these tables will serve to bring to the student's attention the advantage to be gained from a health-giving and curative point of view, as well as from simplicity in diet.
In considering the chemical harmony of foods, the student should keep in mind the time required for digestion, which involves not only the question of combining foods at the same meal, but also the taking, within a few hours after eating, of other articles that may produce chemical inharmony. For example: Milk, cereals, and sweet fruits are in chemical harmony, but a lemonade introduced into the stomach an hour or two later would produce inharmony, and be almost as harmful as if it had been taken with the meal.
There are many injurious combinations which the student will learn to omit from a sense of taste and instinct, and while our instincts have in many cases ceased to guide us aright, they will rapidly return and assume command if given a fair opportunity.
The perfect meal can be made from three or four articles, and the entire menu[606] can be changed three times a day, but to take eight, ten, or a dozen things at the same meal, puts the quantity, as well as every article composing the meal, into jeopardy.
After one has eaten a sufficient quantity of food, and the taste has signalled "ENOUGH," something sweet or pungent is introduced. This puts into activity another set of taste buds which will accept a given quantity of another food. However, the stomach has already given off one signal of "enough," hence every pennyweight taken in excess of that amount is that much more than should be eaten.
In order to simplify the making of harmonious combinations, I have grouped the foods whose use I recommend in nine different divisions. A further subdivision of vegetables and fruits might have been made, but this would have increased the number of groups, making them more complicated and less practical.
HOW TO INTERPRET THE TABLES
In order to ascertain the articles with which any special food will combine, the student should turn to the table headed with the desired article of that group. If foods from three groups are to be considered, the student will look for two of them in the first vertical column on the left-hand side of the page, and will then follow across to the vertical column for the third article.
Figure (1) means especially beneficial
Figure (2) means good combinations
Figure (3) means somewhat undesirable
Figure (4) means particularly harmful
(a) "Fats with" figure (1), under the heading Grains, first table, page 609, means that the combination of "fats with grains" would be "especially beneficial."
(b) "Fats and eggs with" figure (2), under the heading Milk, page 609, means that "fats and eggs with milk" make a good combination.
(c) "Fats and milk with" figure (3), page 609, under column headed Nuts, means a "somewhat undesirable" combination.
(d) "Fats and acid fruits with" figure (4), under heading Milk, page 609, means that this combination would be "particularly harmful," etc.
It is impractical to print ready reference tables showing the harmony of more than three articles, but the student can judge this sufficiently well for himself by comparing the respective harmonies of the several foods of the group.
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Fats
(Such as Butter, Salad Oils, Cream, etc.)
Eggs | Milk | Nuts | Grains | Vegetables | Acid Fruits |
Sweet Fruits |
Sugars | |
---|---|---|---|---|---|---|---|---|
Fats with | 2 | 2 | 3 | 1 | 1 | 2 | 2 | 2 |
Fats and Eggs with | — | 2 | 3 | 2 | 2 | 2 | 2 | 2 |
Fats and Milk with | 2 | 3 | 2 | 2 | 4 | 2 | 2 | |
Fats and Nuts with | 3 | 3 | — | 2 | 2 | 3 | 3 | 2 |
Fats and Grains with | 2 | 2 | 2 | — | 1 | 2 | 2 | 2 |
Fats and Veget. with | 2 | 2 | 1 | 1 | — | 3 | 2 | 2 |
Fats and acid fruits with | 2 | 4 | 2 | 2 | 3 | — | 2 | 3 |
Fats and sweet fruits with | 2 | 2 | 2 | 2 | 2 | 3 | — | 3 |
Fats and Sugars with | 2 | 2 | 2 | 2 | 2 | 2 | 3 | — |
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Eggs
Fats | Milk | Nuts | Grains | Vegetables | Acid Fruits |
Sweet Fruits |
Sugars | |
---|---|---|---|---|---|---|---|---|
Eggs with | 2 | 1 | 3 | 2 | 2 | 2 | 1 | 2 |
Eggs and Fats with | — | 2 | 3 | 2 | 2 | 2 | 2 | 3 |
Eggs and Milk with | 2 | — | 2 | 1 | 3 | 4 | 1 | 2 |
Eggs and Nuts with | 3 | 2 | — | 1 | 1 | 1 | 1 | 2 |
Eggs and Grains with | 2 | 1 | 1 | — | 2 | 2 | 2 | 2 |
Eggs and Veget. with | 2 | 2 | 1 | 2 | — | 3 | 1 | 2 |
Eggs and acid fruits with | 2 | 4 | 1 | 2 | 3 | — | 4 | 2 |
Eggs and sweet fruits with | 2 | 1 | 1 | 2 | 2 | 2 | — | 3 |
Eggs and Sugars with | 2 | 2 | 2 | 2 | 2 | 2 | 3 | — |
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Milk
(Including skimmed and clabbered milk, buttermilk and fresh cheese)
Fats | Eggs | Nuts | Grains | Vegetables | Acid Fruits |
Sweet Fruits |
Sugars | |
---|---|---|---|---|---|---|---|---|
Milk with | 2 | 1 | 2 | 1 | 4 | 4 | 1 | 3 |
Milk and Fats with | — | 2 | 3 | 2 | 2 | 4 | 2 | 2 |
Milk and Eggs with | 2 | — | 2 | 1 | 2 | 4 | 1 | 2 |
Milk and Nuts with | 3 | 2 | — | 1 | 3 | 4 | 1 | 2 |
Milk and Grains with | 2 | 1 | 1 | — | 3 | 4 | 2 | 2 |
Milk and Veget. with | 2 | 2 | 2 | 3 | — | 4 | 2 | 3 |
Milk and acid fruits with | 4 | 4 | 4 | 4 | 4 | — | 4 | 4 |
Milk and sweet fruits with | 2 | 1 | 1 | 2 | 3 | 4 | — | 2 |
Milk and Sugars with | 2 | 2 | 2 | 2 | 3 | 4 | 2 | — |
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Nuts
(All common nuts except chestnuts and peanuts)
Fats | Eggs | Milk | Grains | Vegetables | Acid Fruits |
Sweet Fruits |
Sugars | |
---|---|---|---|---|---|---|---|---|
Nuts with | 3 | 3 | 2 | 1 | 1 | 2 | 1 | 2 |
Nuts and Fats with | — | 3 | 3 | 2 | 2 | 2 | 2 | 3 |
Nuts and Eggs with | 3 | — | 2 | 1 | 2 | 2 | 1 | 2 |
Nuts and Milk with | 3 | 3 | — | 1 | 2 | 4 | 1 | 2 |
Nuts and Grains with | 2 | 1 | 1 | — | 1 | 3 | 1 | 1 |
Nuts and Veget. with | 1 | 1 | 2 | 1 | — | 3 | 1 | 2 |
Nuts and acid fruits with | 2 | 1 | 4 | 2 | 2 | — | 2 | 3 |
Nuts and sweet fruits with | 2 | 1 | 1 | 1 | 1 | 2 | — | 2 |
Nuts and Sugars with | 3 | 2 | 2 | 1 | 2 | 2 | 2 | — |
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Grains
(All cereal and starchy products)
Fats | Eggs | Milk | Nuts | Vegetables | Acid Fruits |
Sweet Fruits |
Sugars | |
---|---|---|---|---|---|---|---|---|
Grains with | 1 | 2 | 1 | 1 | 2 | 3 | 2 | 2 |
Grains and Fats with | — | 2 | 2 | 2 | 1 | 3 | 2 | 2 |
Grains and Eggs with | 2 | — | 1 | 1 | 2 | 3 | 2 | 2 |
Grains and Milk with | 2 | 1 | — | 1 | 3 | 4 | 2 | 2 |
Grains and Nuts with | 2 | 1 | 1 | — | 1 | 3 | 1 | 1 |
Grains and Vege. with | 1 | 2 | 2 | 1 | — | 3 | 1 | 2 |
Grains and acid fruits with | 2 | 2 | 4 | 2 | 2 | — | 2 | 3 |
Grains and sweet fruits with | 2 | 2 | 2 | 1 | 1 | 2 | — | 2 |
Grains and Sugars with | 2 | 2 | 2 | 1 | 2 | 2 | 2 | — |
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Vegetables
(Leafy or succulent vegetables as lettuce, spinach).
Fresh peas, carrots, parsnips, etc.—Potatoes being
starchy, not included.
Fats | Eggs | Milk | Nuts | Grains | Acid Fruits |
Sweet Fruits |
Sugars | |
---|---|---|---|---|---|---|---|---|
Veget. with | 1 | 2 | 4 | 1 | 2 | 3 | 2 | 3 |
Veget. and Fats with | — | 2 | 2 | 2 | 1 | 3 | 2 | 3 |
Veget. and Eggs with | 2 | — | 2 | 2 | 2 | 3 | 2 | 3 |
Veget. and Milk with | 2 | 3 | — | 2 | 3 | 4 | 3 | 3 |
Veget. and Nuts with | 1 | 1 | 3 | — | 1 | 3 | 1 | 2 |
Veget. and Grains with | 1 | 2 | 3 | 1 | — | 3 | 1 | 2 |
Veget. and acid fruits with | 3 | 3 | 4 | 2 | 3 | — | 3 | 2 |
Veget. and sweet fruits with | 2 | 2 | 3 | 1 | 1 | 3 | — | 2 |
Veget. and Sugars with | 2 | 2 | 4 | 2 | 2 | 3 | 2 | — |
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Acid Fruits
(All acid and subacid fruits as listed in Lesson VIII)
Fats | Eggs | Milk | Nuts | Grains | Vegetables | Sweet Fruits |
Sugars | |
---|---|---|---|---|---|---|---|---|
Acid fruits with | 2 | 2 | 4 | 2 | 3 | 3 | 3 | 2 |
Acid fruits and Fats with | — | 2 | 4 | 2 | 3 | 3 | 2 | 2 |
Acid fruits and Eggs with | 2 | — | 4 | 2 | 3 | 3 | 4 | 2 |
Acid fruits and Milk with | 4 | 4 | — | 4 | 4 | 4 | 4 | 4 |
Acid fruits and Nuts with | 3 | 1 | 4 | — | 3 | 3 | 2 | 3 |
Acid fruits and Grains with | 2 | 2 | 4 | 3 | — | 3 | 2 | 3 |
Acid fruits and Veget. with | 3 | 2 | 4 | 3 | 2 | — | 3 | 3 |
Acid and sweet fruits with | 3 | 2 | 4 | 2 | 2 | 3 | — | 3 |
Acid fruits and Sugars with | 2 | 2 | 4 | 2 | 2 | 3 | 4 | — |
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Sweet Fruits
(All non-acid fruits as listed in Lesson VIII)
Fats | Eggs | Milk | Nuts | Grains | Vegetables | Acid Fruits |
Sugars | |
---|---|---|---|---|---|---|---|---|
Sweet fruits with | 2 | 1 | 1 | 1 | 2 | 2 | 3 | 2 |
Sweet fruits and Fats with | — | 2 | 2 | 2 | 2 | 2 | 2 | 2 |
Sweet fruits and Eggs with | 2 | — | 1 | 1 | 2 | 2 | 4 | 3 |
Sweet fruits and Milk with | 2 | 1 | — | 1 | 2 | 3 | 4 | 2 |
Sweet fruits and Nuts with | 3 | 1 | 1 | — | 1 | 1 | 3 | 2 |
Sweet fruits and Grains with | 2 | 2 | 2 | 1 | — | 1 | 3 | 2 |
Sweet fruits and Veget. with; | 2 | 1 | 2 | 2 | 1 | — | 3 | 2 |
Sweet and acid fruits with | 2 | 2 | 4 | 2 | 2 | 3 | — | 3 |
Sweet fruits and Sugars with | 3 | 3 | 2 | 2 | 2 | 2 | 4 | — |
TABLES OF DIGESTIVE HARMONIES AND DISHARMONIES
1 Especially beneficial | 3 Somewhat undesirable |
2 Good combinations | 4 Particularly harmful |
Sugars
(Cane and maple-sugars, sirup, and honey)
Fats | Eggs | Milk | Nuts | Grains | Vegetables | Acid Fruits |
Sweet Fruits |
|
---|---|---|---|---|---|---|---|---|
Sugars with | 2 | 2 | 3 | 2 | 2 | 3 | 2 | 2 |
Sugars and Fats with | — | 3 | 2 | 3 | 2 | 3 | 2 | 2 |
Sugars and Eggs with | 2 | — | 2 | 2 | 2 | 3 | 3 | 3 |
Sugars and Milk with | 2 | 2 | — | 2 | 2 | 3 | 4 | 2 |
Sugars and Nuts with | 2 | 2 | 2 | — | 1 | 2 | 3 | 2 |
Sugars and Grains with | 2 | 2 | 2 | 1 | — | 2 | 3 | 2 |
Sugars and Veget. with | 2 | 2 | 3 | 2 | 2 | — | 3 | 2 |
Sugar and acid fruits with | 3 | 2 | 4 | 3 | 3 | 2 | — | 3 |
Sugar and sweet fruits with | 3 | 3 | 2 | 2 | 2 | 2 | 4 | — |
CLASSIFICATION OF FOODS
AND
FOOD TABLES
LESSON XIII
Simple Classification of Foods
While there is a dominating substance in all foods, yet they usually contain many compounds which render them, from a chemical standpoint, very difficult to classify accurately. For example, the principal nutrients in wheat are carbohydrates (starch and sugar), yet wheat contains mineral salts, fat, and protein, the latter being a compound consisting of carbon, hydrogen, oxygen, nitrogen, and sulfur. Wheat would, therefore, be placed in the carbohydrate class, but it would overlap into several other classes. What is true of wheat, is true of nearly all other articles of food. Furthermore, foods do not chemically reproduce themselves when taken into the body, but in the process of metabolism they are converted[622] either into other elements or into other compounds. From this it will be understood that the articles listed under the following headings are classified according to the nutritive substance which predominates in them, and are given for the purpose of guiding the practitioner in the selection of such foods as will supply the various chemical constituents of the body.
Foods which contain two or more substances in generous proportions may appear under two or more of the following headings, as in the case of peanuts. This humble article of food contains 19 per cent carbohydrates, 20 per cent protein, and 29 per cent fat, hence it is listed under the three headings—carbohydrates, proteids, and fats.
The tables comprise the best selections of food available in all countries and at all seasons of the year. They contain everything the body needs under the varying conditions of age, climate, and[623] activity, except, perhaps, in some parts of the frigid zone.
In compiling these tables I have selected only such articles of food as experience has proved most useful.
SIMPLE CLASSIFICATION OF FOODS BASED ON PRINCIPAL NUTRITIVE SUBSTANCES
/——————Carbohydrates——————\ | Fats | Proteids | Foods rich in Mineral Salts |
||
---|---|---|---|---|---|
Chocolate | Honey | Vegetables— | Butter | Cheese | Vegetables— |
Fruits— | Nuts— | Asparagus | Cheese | Eggs | Asparagus |
Dates | Chestnuts | Bananas | Chocolate | Fish | Beet-tops |
Figs | Peanuts | Beets | Cream | Legumes— | Cabbage |
Grapes | Pignolia or | Cabbage | Nuts— | Beans—dried | Carrots |
Persimmons | pine nuts | Carrots | Almonds | Lentils—dried | Celery |
Raisins | Sirups | Celery | Brazil-nuts | Peas—dried | Dandelion |
Grains— | Sugar | Lettuce | Cocoanuts | Milk | Green peas |
Barley | Tapioca | Onions | Hickory-nuts | Nuts— | Lettuce |
Corn | Parsnips | Peanuts | Peanuts | Onions | |
Oats | Potatoes—sweet | Pecans | Pignolia or | Radish-tops | |
Rice | Potatoes—white | Pignolia or | pine nuts | Romaine | |
Rye | Pumpkin | pine nuts | Poultry | Spinach | |
Wheat | Spinach | Walnuts | Vegetables— | String beans | |
Squash | Oils— | Cabbage | Turnip-tops | ||
Turnips | Cottonseed | Lettuce | Watercress | ||
Nut-oil | Onions | Wheat bran | |||
Olive-oil | Spinach | ||||
Turnips | |||||
Wheat bran |
PURPOSES WHICH THE DIFFERENT CLASSES OF FOOD SERVE IN THE HUMAN BODY
While all the articles of food in the four above-named classifications contain other elements than the one under which heading they appear, yet the body uses or appropriates them for the following purposes:
PURPOSE OF CARBOHYDRATES
The carbohydrate substance in food is used by the body chiefly for the purpose of keeping up body-weight; that is, for the purpose of supplying the various fluids which fill the cell-structure. If one is suffering from emaciation, the carbohydrate element in food should predominate. While some of the more soluble proteids, especially milk and eggs, will give a rapid gain in weight, the weight will not be permanent unless sufficient carbohydrates are taken to supply the[626] blood with all the required elements of nutrition, or, in other words, to level or to balance the body requirements.
PURPOSE OF FATS
Fats are used by the animal body primarily for the purpose of producing heat. Food is burned or oxidized in the blood, undergoing very much the same action as does the combustion of coal in a grate. The heat thus generated is delegated to the blood, and the blood, by its circulation, distributes this heat throughout the body. The carbon dioxid or waste matter formed during the circulation, is carried to the lungs, where it reunites with the oxygen which we breathe, and thereby again passes back into the atmosphere.
PURPOSE OF PROTEIDS
Proteid is a compound containing chiefly nitrogen, oxygen, and carbon.[627] Its purpose is to form the muscular and the tissue structure of the body. To use a homely illustration, proteid may be compared to the material which makes the honeycomb, while the carbohydrate substance may be compared to the honey; that is, to the fluids which fill the cells.
Those performing heavy or active muscular labor should eat liberally of the proteid class of foods.
Under normal conditions, natural hunger will call for the quantity of proteid needed. The tendency, however, should be toward the minimum; that is, one should take the lowest quantity of proteid that the body requires to keep up the cell-structure. (See Lesson VI, p. 216.) Modern investigations have shown that, in many cases of extreme athletic tests, a low proteid diet has given the greatest endurance. This is accounted for by the fact that nearly all carbohydrates, especially of the grain family, contain from 8 to 12 per cent of[628] proteids, which is quite sufficient, in many instances, to supply the body with all the tissue-building material necessary.
Inasmuch as the several nutritive elements found in a single article of food are better proportioned by Nature, than man can usually proportion them, the relation of one substance to another will be better divided if the entire meal be made to consist of only one kind of food, and both digestion and assimilation will therefore be more perfect. Under these conditions the blood will be laden with very little waste matter, which is the thing that reduces our powers of endurance. Therefore, when it is possible to secure the carbohydrate, the proteid, and the fatty substances from a single article of food which will give to the body greater strength and endurance than when we secure these substances from several sources, we should confine our menus to single articles of well-proportioned food. This thought, carried to its logical[629] end, leads one more and more, as experience progresses, toward the mono-diet system.
PURPOSE OF MINERAL SALTS
Mineral salts serve two distinct purposes in the body:
1 They assist in building up the cartilage and the body-structure
2 They assist in the digestion, and in the dissolution of other foods, especially of the carbohydrate group, and more especially of the grain family
Grains are very difficult to subdivide into their constituent elements; that is, to reduce to a solution so fine that assimilation will be perfect. A liberal use of the foods containing mineral salts aids very materially in this process of solution.
DIFFERENCE BETWEEN DIGESTIBILITY AND ASSIMILABILITY
The true interpretation of the word "digestion" is the preparation of food by the action of:
1 The saliva
2 The gastric juice
3 The bile, and
4 The pancreatic juice
When food is properly prepared by mastication by the time it reaches the pancreas, it should be thoroughly split up or subdivided, in which state it is ready for assimilation.
The true interpretation of the word "assimilation" is the absorption of all food substances through the walls of the intestinal tract, and the final passing of them into the circulation.
It is nothing unusual, however, for a person to become afflicted with predigestion,[631] and, at the same time, with poor or faulty assimilation; in other words, digestion being too rapid, and assimilation being too slow. This condition frequently occurs in cases of superacidity. On account of the excess of acid, the food digests or passes from the stomach prematurely; that is, before it has been dissolved by the action of the hydrochloric acid. The food, thus super-charged with acid, passes from the stomach into the lower intestines, and sets up a condition of irritation. This irritation or swelling of the mucous surface (lining) of the intestines, closes the small canals, or winking valves, as they are sometimes called, thus seriously interfering with the passing of the dissolved food matter into the circulation.
The following table is designed to show the comparative assimilability of the leading articles of food, together with their starch, sugar, and water content:
TABLE SHOWING COMPARATIVE ASSIMILABILITY AND CARBOHYDRATE AND WATER CONTENT OF CEREALS, LEGUMES, AND VEGETABLES
FOOD |
Assimilability |
Percentage of | ||||
---|---|---|---|---|---|---|
Starch | Sugar | Water | ||||
CEREALS | ||||||
Barley | Somewhat Difficult |
61.6 | 1.5 | 13.7 | ||
Buckwheat | Difficult | 48.0 | 6.0 | 12.0 | ||
Corn | Difficult | 60.5 | 3.0 | 12.2 | ||
Oats | Difficult | 54.0 | 2.0 | 12.0 | ||
Rice | Medium | 79.1 | 0.4 | 13.0 | ||
Rye | Somewhat Difficult |
62.0 | 0.95 | 15.06 | ||
Wheat | Medium | 62.0 | 0.95 | 15.08 | ||
LEGUMES | ||||||
Beans—dried | Good | 53.0 | 3.0 | 12.0 | ||
Lentils—dried | Good | 50.0 | 2.0 | 11.0 | ||
Peas—dried | Good | 57.0 | 4.0 | 11.0 | ||
* VEGETABLES | ||||||
Banana—very ripe | Very good | 8.0 | 11.0 | 48.0 | ||
Beets | Good | 1.7 | 7.8 | 68.0 | ||
Cabbage | Medium | 4.3 | — | 78.0 | ||
Carrots | Very good | 1.0 | 6.1 | 83.0 | ||
Parsnips | Very good | 1.5 | 6.0 | 82.0 | ||
Potatoes { Sweet | Good | 24.4 | 5.6 | 69.0 | ||
{ White | Very good | 19.8 | .7 | 72.0 | ||
Pumpkin | Very good | 3.9 | 2.0 | 74.3 | ||
Squash | Very good | 4.1 | 1.2 | 83.0 | ||
Turnips | Good | 5.1 | 2.1 | 91.0 |
* While all the vegetables mentioned in the above table belong to the carbohydrate class, yet the starch element contained in them is very much more assimilable than the starch contained in grains or legumes, therefore these vegetables may be eaten freely by those having rheumatic or gouty tendencies.
The starch and the sugar content in fresh vegetables appears low owing to the fact that they contain a large percentage of water. Eliminating the water, these foods rank in their starch and sugar content with cereals and legumes, and are much more easily digested and assimilated. In other words, if the chemist should reduce the water content to the same per cent as that of cereals, the carbohydrate content would rise in the same ratio as the water content is reduced. Both the starch and the sugar content of these vegetables is more digestible, and more readily assimilated than the starch and the sugar found in cereals and legumes.
PURPOSE OF THE VIENO TABLE
The student should remember that not only the quantity but the quality of food must be considered. The vieno system of food measurement, as herein explained, is the simplest system of food measurement that has ever been published. It is amply complete, and accurate enough for the purpose for which it is intended, and that is the calculation of the energy and the available nitrogen contained in natural dietaries.
This measurement is really a quantitative measurement; that is, it measures the quantity, not the quality. In order to have a full knowledge of a bill of fare, it is necessary to know, in addition to the quantity, the exact chemical nature of each particular food, and also to know the other foods with which that food will combine.
This food table tells accurately the amount of energy that may be derived[635] from food by chemical analysis, but it does not tell the amount of energy that the body must expend in the work of assimilation. This cannot be given in a table, because it varies with the individual and the condition of his digestive organs.
VIENO SYSTEM OF FOOD MEASUREMENT
The amount of nutrition contained in a given quantity of food is often a determining factor in curative dietetics.
The two most important things to be considered in prescribing foods are:
1 The amount of energy contained in a given quantity
2 The amount of available nitrogen or tissue-building material in a given quantity
ENERGY
Energy is the power to do work. That form of energy with which we are most familiar is mechanical energy, as raising a stone or turning a wheel.
Heat is another form of energy. Heat and work can be converted into each other. The steam-engine turns heat into work, while a "hot box" on a car-wheel is a case of work being turned back into heat.
Experience shows that a definite amount of heat will yield a definite amount of work, so that the amount of heat produced by a given amount of food, when combined with oxygen, is taken as a measure of its energy. This is ordinarily expressed in calories, a calorie being the amount of heat required to raise the temperature of one thousand grams of water one degree on the centigrade thermometer scale.
The use of these terms need not concern the student. Instead of using the calorie I will use a unit which is equal to one hundred calories. I have selected a unit of this size because it gives about the ordinary service of food at meals which is easily measured and remembered.
NITROGEN
Nitrogen is the chemical element that is most concerned with the function of life. All animal tissue contains nitrogen, which forms about one-sixth part, by weight, of all the nitrogenous or protein substances.
If we were to take a hundred pounds of lean meat, or muscle, and evaporate from it all the water, we would have about eighteen pounds of dry material left. If we should analyze this dry substance, we would find that about one-sixth, or three pounds, would be the element nitrogen. Thus we say that muscle contains eighteen per cent of protein, or three per cent of nitrogen. In ordinary practise the protein is mixed with fats and salts, and cannot be measured by simply drying out the water, so the chemist finds the amount of nitrogen present and multiplies by 6.25, which gives[642] about the correct per cent of protein. This method is not exact because the per cent of nitrogen in various proteids is not always the same, but it will give an intelligent average. I will discard the use of the term protein, and refer to the amount of nitrogen directly.
All compounds of the element nitrogen are not available as food. For example: The nitrogen of the air, of ammonia gas, or gunpowder cannot be utilized in the animal body. The nitrogen in foods only refers to available nitrogen. Compounds containing other forms of nitrogen are not foods, but are frequently poisons.
SYSTEMS OF FOOD MEASUREMENTS COMPARED
THE "OLD" SYSTEM
Under the old system of food measurement, feeding the human body cannot be made a practical science for the masses, therefore a new system becomes necessary.[643] That we may more fully appreciate the value of a new system, let us consider the methods hitherto available.
Suppose a man is using two quarts of milk a day, and wishes to determine the amount of available nitrogen or tissue-building material and energy it contains. Under the old system he must get a book on food analysis, or send to Washington for a Government bulletin. If he does not understand the meaning of the terms and figures used, the tables would be useless to him until he goes to a chemist to have them explained. He is now ready to work out the nutritive value of his milk, and proceeds as follows:
First, he gets the number of cu cm in the milk, thus—952.8 (number cu cm in 1 quart) x 2 = 1905.6, number of cu cm in 2 quarts of milk. Second, he gets the weight of his milk in grams—1.032 (number grams in 1 cu cm of milk) x 1905.6 = 1966.57, number of grams in 2 quarts of milk.
He now turns to a table of analysis which tells him that milk contains 3 per cent of protein, 3½ per cent of fat, and 4½ per cent of sugar. As the amount of nitrogen in milk is approximately one-sixth of its entire protein, he would now get 16 per cent of the 3 per cent (.16 x .03 = .0048), which is the percentage of nitrogen contained in milk.
His next step would be—1966.57 (number grams in 2 quarts of milk) x .0048 = 9.44, the number of grams of nitrogen in 2 quarts of milk.
I will not explain the way in which the energy would have to be figured, but will merely give the arithmetical processes by which the result is obtained:
3 × 4.1 = 12.3
3.5 × 9.3 = 32.55
4.5 × 4.1 = 18.45
12.3 + 32.55 + 18.45 = 63.30
1966.57 × 63.30 = 124483.88
124483.88 ÷ 100 = 1244, the No. of calories or
energy (heat units) contained in two quarts of milk.
THE NEW OR "VIENO" SYSTEM
To a unit of food-energy which is equal to one hundred calories (see last paragraph on "Energy"), I have given the name of Vieno, derived from "vital" and "energy," and pronounced vi-eń-o. The Vieno system, therefore, will measure all foods by vi-en-os, or units of energy equal to one hundred of the chemist's calories. One vieno of milk is one-sixth of a quart, or two-thirds of an ordinary glass. From this it is readily seen that two quarts of milk will give twelve vienos of energy, or, if we wish to express it in the chemist's term, twelve hundred calories.
The table also states that milk has a nitrogen factor of .8. Therefore, if we wish to know the amount of nitrogen in the two quarts of milk, all we need do is to multiply the number of vienos by the nitrogen factor; 12 x .8 = 9.6, which figure[646] represents the nitrogen consumption expressed in grams. (See explanation of fourth column of table.) These results are practically the same as those obtained by the old system of computation, but expressed in simpler terms. Thus we see that the vieno system of computing food values is unique in its simplicity, and will be a very material aid in putting Food Science on a practical basis.
NECESSITY FOR A SIMPLE SYSTEM
Things are commonly measured by volume, or by weight. That volume could not be made sufficiently accurate in the measurement of food values is evident. A bushel of lettuce leaves would contain much less food value than a bushel of wheat. Weight would seem to be a fairer way to compare foods, but all foods contain[647] water, which may vary from five to ninety-five per cent. A pound of turnips, which is nine-tenths water, would not be comparable with sugar, which has scarcely any water.
Even if it were not for the water, weight would not be a fair method of comparison because some foods are of more value per pound than others, owing to their difference in chemical composition. For instance, a pound of butter gives about two and one-fourth times as much heat to the body as sugar.
As before mentioned, the two chief food factors which we ought to measure are energy-producing and tissue-building power.
All true foods when assimilated in the body produce some energy. In fact, only such substances as produce bodily energy, when combined with the oxygen taken in through the lungs, can be correctly termed food.
I have taken this energy-producing power of food as the best basis for measurement and comparison. The nitrogen could have been taken as a unit, and the energy figured by a table, but it is simpler to use energy as a unit (as given in column 3, p. 655), and figure the nitrogen in the various foods by means of a table which gives the amount of nitrogen per unit of energy. (Column 4, p. 655.)
Multiplication of units of energy (column 3) by the nitrogen factor (column 4) is necessary because the ratio of nitrogen to energy is different in each food.
EXPLANATION OF TABLE
In the table that follows, I have attempted to give in the simplest way the amount of each particular food that one vieno equals.
The second column shows, in the plainest language possible, what one vieno of[649] food equals—as, one vieno of barley equals one ounce; or, one vieno of nuts equals one rounded tablespoonful, etc. This method is, of course, only approximate, as in some foods it is impossible to find a simple term to express the amount of one vieno. This is especially true of cooked foods because of the varied amounts of water contained. In such cases the way for the student to become familiar with a vieno is to weigh one pound of the raw material, and, after it is cooked, weigh it again, and then calculate the water content.
The definition given in the second column in the case of milk, butter, eggs, and cheese is fairly accurate. The description given in the case of cereals and bread is also fairly accurate. In the list of fresh vegetables, no attempt has been made to describe one vieno by volume, as, vegetables being loose and bulky, it is practical to measure them only by weight.
In the case of fresh fruits, one vieno has been defined as "one large orange" or "six plums," etc. In such cases allowance for the non-edible portion has been made; all weights given in the table consider only the edible portion.
In the case of nuts, the definition of a vieno in so many spoonfuls is fairly accurate. This is done only as an illustration, and not continued throughout the table. The student should use only the second column of the table for rough work, and to help him figure the approximate amount of one vieno.
The third column of the table, which gives the number of vienos or the amount of heat-energy in one pound, is the column to which the student should refer in his work. A pound of food referred to in this column invariably means one pound of the edible portion.
The way for the student to calculate the amount of food in one vieno is to take[651] a pound of the food that he is to use and divide it equally into as many portions as the number in the third column. For example: If one pound of wheat is given as equal to sixteen vienos, the student should weigh a pound of wheat and divide it into sixteen portions, and each of these portions will equal one vieno.
The fourth column of the table gives the approximate nitrogen factor; that is, the percentage of nitrogen by weight in one vieno. This column is to be used for computing the amount of nitrogen in the diet under all ordinary circumstances. The student should take the total number of vienos of each food and multiply this number by the nitrogen factor. The product will be the approximate amount of the nitrogen consumed, expressed in grams. This is the direct method of ascertaining the amount of available nitrogen in food.
If in reading other works, the student finds the amount of nitrogen given in decigrams, he needs only to divide by ten in order to reduce it to this system, as a decigram is one-tenth of a gram. Likewise, protein can be reduced to grams, or decigrams, by a simple process of multiplication and division, as follows: Sixty grams of protein contains practically ten grams (one hundred decigrams) of nitrogen. Divide the amount of protein by six to change protein to the nitrogen unit. That is (Protein ÷ 6) = amount of nitrogen in grams.
The old-fashioned food table gave the amount of protein in per cent by weight, making it necessary to weigh the food, figure the amount of protein by multiplying the weight by the per cent, and then reducing this according to the rule given above. I explain this so that the student may be able to compare results expressed in the old table, with the vieno method,[653] but in all practical work the student should use only this direct method which is much more simple and accurate.
The fifth column of the table gives the weight of one vieno in grams. This adds no new information, but only gives the weight of one vieno in the metric system. It should be used by those who wish to be accurate in their work, or by those who take a scientific interest in their dietary.
The last column of the table gives the actual amount of nitrogen in one vieno of food expressed in grams. This is the accurate figure from which the approximate nitrogen factor for ordinary use has been derived. For example: The actual amount of nitrogen in one vieno of chestnuts is .396. If this number is multiplied by the number of vienos of chestnuts eaten, we would have the actual number of grams of nitrogen consumed. Suppose ten vienos of chestnuts are eaten; we would multiply .396 by ten,[654] which would give us 3.96 grams of nitrogen. For ordinary purposes, I use the nearest decimal, which is .4, and which I give in the fourth column as the nitrogen factor. Those who wish to figure the nitrogen with scientific accuracy should use the figures given in the last column of the table, as in the example I have given.
The Vieno system of food measurement is new, and is intended to give to the practitioner and to the housewife the greatest aid in balancing or proportioning the diet. I have therefore included in the following tables, all classes of foods, many of which I do not recommend or use in my scientific work.
TABLE OF FOOD MEASUREMENTS
DIRECT METHOD OF CALCULATING AVAILABLE NITROGEN IN FOOD
Multiplying the number of vienos (column 3) by the nitrogen factor (column 4) will give the amount of available nitrogen in the various foods, expressed in grams
1 | 2 | 3 | 4 | 5 | 6 |
---|---|---|---|---|---|
Name of Food | Quantity equaling one vieno *(100 calories) |
No. vienos or amount of heat energy in one pound |
Nitrogen factor | Weight of one vieno in grams |
Grams of nitrogen in one vieno |
Cereal Foods | |||||
Barley, pearled | One ounce | 16 | .4 | 27.5 | .37 |
Bread— | |||||
Graham | Loaf size,¾ in. thick | 12 | .6 | 37.5 | .59 |
White | Loaf size, ¾ in. thick | 12 | .6 | 39.3 | .58 |
TABLE OF FOOD MEASUREMENTS—(Continued)
1 | 2 | 3 | 4 | 5 | 6 |
---|---|---|---|---|---|
Name of Food | Quantity equaling one vieno *(100 calories) |
No. vienos or amount of heat energy in one pound |
Nitrogen factor |
Weight of one vieno in grams |
Grams of nitrogen in one vieno |
Christian's Vieno bran | Two ounces | 8 | .3 | 21.2 | .30 |
Christian's Vieno self-raising bran meal |
1½ ounces | 12 | .4 | 33.5 | .55 |
Corn-meal | One ounce | 16 | .4 | 27.4 | .41 |
Corn-starch | One ounce, scant | 17 | .0 | 27.1 | .00 |
Crackers | Four, average size | 19 | .4 | 23.8 | .39 |
Hominy | One ounce | 16 | .4 | 27.5 | .36 |
Macaroni or spaghetti | One ounce | 16 | .6 | 27.2 | .58 |
Oatmeal or rolled oats | Scant ounce | 15 | .6 | 24.4 | .63 |
Rice | One ounce | 16 | .4 | 27.8 | .36 |
Rye flour | One ounce | 16 | .3 | 27.8 | .30 |
White flour | One ounce | 16 | .5 | 27.9 | .49[657] |
Whole wheat or graham flour |
One ounce | 16 | .6 | 27.8 | .61 |
Whole wheat | One ounce | 16 | .6 | 27.8 | .61 |
Dairy Products | |||||
Butter | Not quite an inch cube | 36 | .0 | 12.6 | .00 |
Cheese— | |||||
Cottage | Three ounces | 5 | 3.0 | 89.0 | 2.97 |
Full cream | Portion size of walnut | 20 | 1.0 | 22.0 | 1.01 |
Cream (20% fat) | Five tablespoonfuls | 10 | .2 | 45.0 | .17 |
Milk— | |||||
Buttermilk | One full glass | 2 | 1.3 | 274.0 | 1.32 |
Condensed | Three tablespoonfuls | 15 | .4 | 30.0 | .42 |
Skimmed | One full glass | 2 | 1.5 | 267.0 | .46 |
Whole | Two-thirds of a glass | 3 | .8 | 140.0 | .78 |
Fish | |||||
Fresh fish (Run of the market) |
Quarter of a lb. | 6 | 3.1 | 102.0 | 3.13 |
1 | 2 | 3 | 4 | 5 | 6 |
---|---|---|---|---|---|
Name of Food | Quantity equaling one vieno *(100 calories) |
No. vienos or amount of heat energy in one pound |
Nitrogen factor |
Weight of one vieno in grams |
Grams of nitrogen in one vieno |
Fruit | |||||
Apples | One, 2½ in. thick | 3 | .1 | 156.4 | .10 |
Apricots | Six of moderate size | 3 | .3 | 168.0 | .29 |
Bananas | One large | 5 | .2 | 98.6 | .21 |
Berries— | |||||
Blackberries | One moderate sauce-dish | 3 | .3 | 168.0 | .35 |
Raspberries | One moderate sauce-dish | 3 | .4 | 146.3 | .39 |
Strawberries | One sauce-dish | 2 | .4 | 252.0 | .40 |
Cantaloup | One five-inch in diameter | 2 | .3 | 299.0 | .29 |
Cherries | One moderate sauce-dish | 4 | .2 | 103.0 | .16 |
Currants (dried) | Three tablespoonfuls | 13 | .1 | 33.4 | .11[659] |
Dates | Five, average size | 16 | .1 | 28.1 | .09 |
Figs | Two, average size | 5 | .2 | 30.7 | .21 |
Grapes | One moderate sauce-dish | 4 | .2 | 108.8 | .23 |
Lemons | Three, moderate size | 2 | .3 | 221.0 | .35 |
Olive-oil | One tablespoonful | 42 | .0 | 10.1 | .00 |
Olives (ripe) | Eight | 12 | .0 | 37.5 | .00 |
Oranges | One large orange | 2 | .2 | 189.0 | .24 |
Pears | One, large | 3 | .2 | 154.0 | .15 |
Plums | Six, small | 4 | .2 | 115.0 | .18 |
Prunes | Three, large | 14 | .1 | 32.4 | .11 |
Raisins | Two heaping tablespoonfuls | 16 | .1 | 28.3 | .12 |
Watermelon | 1½ pound melon meat | 1 | .2 | 324.0 | .20 |
Meat | |||||
Bacon (smoked) | Slice ¼ in. thick, 4 in. long | 30 | .2 | 15.0 | .24 |
Chops— | |||||
Lamb | Portion size of an egg | 15 | .9 | 29.4 | .88 |
Pork (medium fat) | Slice ½ in. thick, 2 in. square | 16 | .8 | 28.7 | .76 |
Ham (smoked)(medium fat) | Slice ½ in. thick, 2 in. square | 19 | .6 | 23.3 | .57 |
1 | 2 | 3 | 4 | 5 | 6 |
---|---|---|---|---|---|
Name of Food | Quantity equaling one vieno *(100 calories) |
No. vienos or amount of heat energy in one pound |
Nitrogen factor |
Weight of one vieno in grams |
Grams of nitrogen in one vieno |
Leg of mutton (medium fat) | Portion size of an egg | 11 | 1.2 | 41.0 | 1.20 |
Ribs of beef | Portion size of an egg | 15 | .9 | 31.3 | .87 |
Steak— | |||||
Porterhouse | Slice ½ in. thick, 2 in. square | 13 | .9 | 35.7 | .90 |
Round beef | Slice ½ in. thick, 2 in. square | 12 | 1.6 | 47.7 | 1.55 |
Nuts | |||||
Almonds | One heaping tablespoonful | 30 | .5 | 15.0 | .53 |
Brazil-nuts | One heaping tablespoonful | 32 | .4 | 13.9 | .38 |
Chestnuts | One heaping tablespoonful | 11 | .4 | 40.3 | .40[661] |
Cocoanuts, fresh | Half an ounce | 32 | .2 | 16.4 | .16 |
Cocoanut, prepared | Two rounded tablespoonfuls | 31 | .2 | 14.5 | .15 |
Filberts | One heaping tablespoonful | 33 | .3 | 13.8 | .34 |
Hickory-nuts | One rounded tablespoonful | 33 | .3 | 13.6 | .33 |
Peanuts | One heaping tablespoonful | 26 | .7 | 17.7 | .73 |
Pecans | One rounded tablespoonful | 34 | .2 | 13.1 | .23 |
Pignolias | One rounded tablespoonful | 28 | .8 | 15.9 | .83 |
Pistachios | One heaping tablespoonful | 29 | .5 | 15.2 | .54 |
Walnuts— | |||||
Black | One heaping tablespoonful | 31 | .6 | 14.6 | .64 |
English | One heaping tablespoonful | 33 | .4 | 14.6 | .38 |
Poultry and Eggs | |||||
Chicken (broiler) | Three ounces | 7 | 3.1 | 90.0 | 3.09 |
Chicken (matured) | Two ounces | 8 | 1.4 | 43.7 | 1.44 |
Eggs (albumin) | White of six eggs | 2 | 3.6 | 181.4 | 3.56 |
Eggs (whole) | One large egg | 8 | 1.4 | 63.0 | 1.35 |
Eggs (yolk) | Yolk of very large egg | 17 | .7 | 26.0 | .66 |
Turkey | 1¾ ounces | 10 | 1.1 | 33.3 | 1.12 |
1 | 2 | 3 | 4 | 5 | 6 |
---|---|---|---|---|---|
Name of Food | Quantity equaling one vieno *(100 calories) |
No. vienos or amount of heat energy in one pound |
Nitrogen factor |
Weight of one vieno in grams |
Grams of nitrogen in one vieno |
Sugars | |||||
Honey | One ounce | 16 | .0 | 29.8 | .02 |
Molasses—New Orleans | 1½ ounces | 13 | .0 | 36.5 | .01 |
Maple-sirup | Four tablespoonfuls | 13 | .0 | 34.8 | .00 |
Sugar— | |||||
Cane, granulated | Three rounded teaspoonfuls | 19 | .0 | 24.4 | .00 |
Maple | One ounce | 16 | .0 | 30.0 | .00 |
Vegetables | |||||
Beans— | |||||
Lima (dried) | One ounce | 16 | .8 | 27.9 | .81 |
Navy (dried) | One ounce | 16 | 1.1 | 28.1 | 1.13 |
String | Half a pound | 2 | .8 | 232.6 | .85[663] |
Beets | Half a pound | 2 | .5 | 211.0 | .54 |
Cabbage | Three-fourths pound | 1 | .8 | 313.0 | .80 |
Carrots | Half a pound | 2 | .5 | 215.0 | .54 |
Celery | One pound | 1 | .9 | 533.5 | .94 |
Corn (green) | One large ear | 5 | .6 | 96.5 | .62 |
Lettuce | One pound | 1 | 1.0 | 504.0 | .98 |
Onions | Half a pound | 2 | .5 | 202.0 | .52 |
Parsnips | Six ounces | 2 | .5 | 181.0 | .46 |
Peas— | |||||
Dried | One ounce | 16 | 1.1 | 27.4 | 1.06 |
Green | Quarter of a pound | 4 | 1.1 | 97.5 | 1.02 |
Potatoes— | |||||
Sweet | Three ounces | 6 | .2 | 80.0 | .23 |
White | Quarter of a pound | 4 | .4 | 118.0 | .41 |
Spinach | One pound | 1 | 1.5 | 412.0 | 1.49 |
Squash | Half a pound | 2 | .5 | 211.0 | .47 |
Tomatoes | One pound | 1 | .6 | 408.0 | .65 |
Turnips | Half a pound | 2 | .5 | 245.0 | .51 |
HANDY TABLE
One pound | = | 16 ounces |
One pound | = | 453.57 grams |
One ounce | = | 28.35 grams |
The weight of such foods as meat, fruit, etc., is so nearly equal to that of water that the weight may be calculated from the size, if that is known.
One cubic inch | = | 16.5 grams |
One cubic inch | = | about a half ounce |
One cubic foot | = | 62 pounds |
One gallon | = | 8 pounds |
One pint | = | 476.4 grams |
Milk is slightly heavier than water, while oils or fats are lighter.
One quart of milk | = | 980 grams |
One quart of olive-oil | = | 876 grams |
One average egg | = | 50 grams |
One average olive | = | 6 grams |
One Vieno | = | 100 calories |
One decigram nitrogen | = | 13/5 of a gram of protein |
CURATIVE
AND
REMEDIAL MENUS
CONCLUDED
LESSON XV
Curative and Remedial Menus
INTRODUCTION
Scientific eating consists in selecting the food the body requires according to age, occupation, and climate. These requirements can be supplied with a very few articles. The necessary changes in diet can always be made by varying the proportions. It is possible to select, for each of the four seasons of the year, three or four articles that will contain all the elements of nourishment the body needs, therefore true food science leads one inevitably toward the mono-diet plan; that is, making a meal of only one kind of food. Owing to our inherent desire[668] to sit at the "groaning table" we may yet be a long distance from the mono-diet plan, but the science of human nutrition points with unerring certainty toward simplicity. It should be remembered, however, that one may eat, under nearly all conditions except extreme superacidity all he desires of one or two things—one preferred.
In the light of modern medicine, no food has any specific curative property. Foods become curative only as they remove abnormal conditions, and they will remove abnormal conditions just to the extent that they can be perfectly digested and assimilated, and to the extent that waste matter is thoroughly eliminated from the body. In this way all possible resistance is removed, and Nature will build up the dis-eased and broken-down tissue in obedience to the law of animal evolution. This constructive process we call "curing."
While the menus for each season of the year may seem to vary but little, especially when compared with the conventional omnivorous diet, yet experience has proved that the fewer the articles composing the meal, the better will be the results.
COOKING
SOME IMPORTANT FACTS REVEALED BY MODERN SCIENCE
The object of cooking is to tear down the cell-structure of foods, and to make them more digestible. After the cell-structure is demolished, every degree of heat to which foods are subjected injures the foods instead of improving them.
GRAINS
Grains should be cooked whole. They should be cleansed, well covered with[670] water, and boiled until the grains burst open as in making old-fashioned corn hominy. This will often take from three to four hours' constant boiling.
Cereals prepared in this way are more delicious, more nourishing, and far more healthful than any of the prepared or patented "breakfast foods," while the cost is perhaps about one-eighth or one-tenth of that of the popular patented products.
VEGETABLES
The old or popular method of cooking vegetables is to cover them generously with water and to boil them much longer than is necessary, then to drain off the water, season, and serve. By this process the mineral salts, in many cases the most valuable part of the food, are dissolved, passed into the water, and lost. In this way many excellent articles of food are greatly impoverished and reduced perhaps 50 per cent in nutritive value.
The time vegetables are cooked should be measured by their solidity. As an example, spinach can be thoroughly cooked in about fifteen minutes. In this way some of its elements are volatilized, giving it a delicious flavor and taste, while if cooked in an abundance of water, from half to three-quarters of an hour, which is the customary way, its best nutritive elements are lost by draining away the water, and it is rendered almost tasteless.
COOKING EN CASSEROLE
All succulent and watery vegetables such as cabbage and spinach, beans, carrots, onions, parsnips, peas, squash, turnips, etc., should be cooked in a casserole dish.
Prepare vegetables in the usual manner as for boiling. A few tablespoonfuls of water may be added to such articles as green beans and peas, beets, carrots, cauliflower, onions, parsnips, etc. Cover,[672] and place in an ordinary baking oven until the vegetable is thoroughly cooked or softened. In this way vegetables in reality are cooked in their own juices, rendered much softer, more digestible, more delicious, and all their mineral salts and other nutritive elements are preserved, making them also more nutritious.
RICE AND MACARONI
Rice, macaroni, and spaghetti are exceptions to the above rules. They should be cooked in an abundance of water and thoroughly drained. In this way the excess of starch which they contain is disposed of, and their nutritive elements are better balanced. They are also rendered much more palatable and digestible.
FRUITS
If fruits can be obtained thoroughly ripe, they should never be cooked.
Dried or evaporated fruits can be prepared for the table by soaking them thoroughly in plain water for a few hours, or over night. In this way the green and inferior pieces are exposed and can be discarded. The excess of water can be boiled down to a sirup and poured over the fruit. In this way the fruit-sugar is developed, and sweetening with cane-sugar becomes unnecessary.
Soaking as above described is merely a process of putting back into the fruit the water that was taken out of it by evaporation or dehydration.
It is evident that that part of the fruit which will not soften sufficiently by soaking, to become palatable, was not ripe enough for food.
CANNED FOODS
The average table, especially hotels and restaurants, are supplied largely from canned foods. A process of perfect[674] preservation of foods has never been invented and probably never will be. No matter how well foods may taste, they undergo constant chemical changes from the time they leave the ground or parent stalk until they are thoroughly decomposed. All vegetables, therefore, should be used fresh, if possible.
BUTTERMILK
An excellent quality of buttermilk may be made as follows: Allow sweet milk to stand (well covered) in a warm room until it thickens or coagulates; whip with an ordinary rotary egg beater without removing the cream.
HOME-MADE BUTTER
Sweet butter may be made in a few minutes from ordinary cream by placing it in a deep bowl and whipping with a rotary egg beater.
SUGGESTIONS CONCERNING THE SELECTION
AND THE PREPARATION OF CERTAIN
ARTICLES MENTIONED IN
THE MENUS
THE BANANA
The banana is a vegetable. It is one of our most valuable foods, as well as the most prolific. It will produce more food per acre, with less care and labor, than any other plant that grows.
While the banana grows only in the tropical countries, it is equally as good and useful to people of the northern zones.
Bananas that are transported to the North are cut green, and often immature; that is, before they have attained their full growth. This latter variety should never be used. In their green and unripened state, they are wholly unfit for food, and for these reasons there has arisen a broadcast prejudice against this most excellent article of diet.
HOW TO SELECT AND RIPEN BANANAS
Care should be exercised to select the largest variety—only those that have attained their full growth on the parent tree. If bananas cannot be procured "dead ripe" from the dealer, they should be purchased, if possible, by the bunch, or a few of the lower "hands" can be purchased and left on the stalk. They should be kept in the open air (that is, uncovered), in an even, warm temperature, and the end of the stalk covered with a clean white cloth, or immersed in water, kept fresh by changing daily. In this way the banana will mature, ripen slowly, and be almost as delicious as if obtained ripe from its native tree.
Bananas should not be eaten until they are "dead ripe"—black spotted. In this state, the carbohydrates which they contain are as readily digestible as fresh milk.
BAKED BANANAS
Peel large ripe bananas; bake in an open pan in a very hot oven from ten to fifteen minutes, or until slightly brown.
Baked bananas make a delicious dessert served with either of the following:
a Cream
b Nut Butter
c Dairy Butter
d Both dairy butter and a sauce made by
gradually diluting nut butter with a
little water, until a smooth paste is
formed
Bananas need much mastication, not for the purpose of reduction, but for the purpose of insalivation.
RECIPE FOR CODDLED EGG
Place an egg in a pint cup; cover with boiling water and allow to stand, covered, five or six minutes.
RECIPE FOR UNCOOKED EGGS
Break the number desired into a narrow bowl; add a teaspoonful of sugar to each egg, and a pinch of salt; whip very briskly with a rotary egg beater from five to eight minutes.
To each egg a teaspoonful of lemon juice and half a glass of milk may then be slowly whipped into the mixture, if desired.
RECIPE FOR BAKED OMELET
Whip two eggs very thoroughly for about five minutes; add a dash of salt, a dessert-spoonful each of corn-starch and of heavy cream. Bake very lightly in a small pan.
FISH AND FOWL
SELECTION AND PREPARATION
If we must eat the flesh of animals the young should be selected. It contains[679] more digestible protein, especially albumin, than the old or matured animal, and has had less time in which to become contaminated by unhygienic habits. Both fish and fowl should be baked, boiled, or broiled; never fried.
RECIPE FOR PREPARING GREEN PEAS IN THE POD
After thoroughly cleansing the desired amount of fresh tender peas, unshelled, put them into a covered pot or casserole dish; add a few spoonfuls of water, a little butter and salt, and cook slowly until thoroughly softened; serve in the pod.
The peas may be eaten by placing the pod between the teeth, and then giving it a gentle pull. This strips off the outer coating or pulp, leaving only the thin film of cellulose.
NOTE: The pea pulp, or substance upon the pod, is rich in mineral salts,[680] highly nutritious, slightly laxative, and an excellent aid in the digestion of other foods. It is a better balanced and a more valuable food than the pea.
PUMPKIN
Pumpkin may be made very delicious by stewing or boiling in just enough water to prevent burning. Mash well and put through a colander. Season and serve same as squash, or, prepare as directed, and bake until slightly brown.
VEGETABLE JUICE
Chop fine and boil carrots, peas, asparagus, or any other fresh vegetable from eight to ten minutes in sufficient water to make the amount of juice required; strain and serve.
The tender parts of the fresh vegetable may be thoroughly cooked, put through a colander, and served as a purée.
HOW TO MAKE SASSAFRAS TEA
Crush the bark of the red sassafras root, allowing a piece as large as a silver dime to each cup. Add the quantity of water desired; simmer from five to ten minutes. Drink with cream and sugar.
WHEAT BRAN
Wheat bran is the outer coating of the wheat grain. Chemically, it is pure cellulose, which is insoluble and indigestible in the ordinary digestive solvents of the body.
Wheat bran serves a valuable medicinal purpose in the stomach and in the alimentary tract. When introduced into the stomach, its cell structure fills with water, and it increases from four to eight times its size in its dry state. It excites both stomach and intestinal peristalsis, thereby preventing stomach indigestion,[682] and by carrying the water along down the intestinal tract, it prevents intestinal congestion, or what is commonly called constipation. Wheat bran may be properly called an intestinal broom or cleansing agent.
Man, in the process of preparing his food, has invented expensive and complicated machinery for removing all cellulose and roughness from his diet. He has suffered both stomach and intestinal congestion just to the extent that this refining process has been carried on. Bran puts back into the diet not only what modern milling methods have taken out of it, but that which civilized habits of refining have eliminated from our food. It therefore naturalizes the diet, promotes digestion, cleanses the mucous surfaces of both the stomach and the intestines, and prevents congestion in the ascending colon, which is the primary cause of appendicitis, so called.
BRAN MEAL
Bran meal is the product of the entire wheat, ground coarsely, and mixed with a certain per cent of wheat bran. It makes an excellent bread.
Bread made from bran meal acts on the digestive and the alimentary organs, the same as the pure bran, only in a milder capacity. It also aids the stomach in the digestion of other foods. It is more nourishing than wheat flour, for the reason that it is better balanced, containing all the carbohydrate and the proteid elements of the grain.
Bread made from bran meal is better in the form of gems baked in small gem rings.
This meal requires neither baking powder nor soda, and should not be sifted.
Wherever two menus are given, choice may be exercised, but whichever menu[684] is chosen, it should be taken in its entirety. In other words, do not select articles from one menu and combine them with articles mentioned in another menu. Neither should any article of food be eaten with a particular menu, other than that which is mentioned therein. By observing these suggestions, the proper combinations of food are observed, which is equally as important as the selections.
NOTE: In this volume there are some menus which contain combinations of food classed as No. 3 in Lesson XII, "Tables of Digestive Harmonies and Disharmonies," pp. 609 to 617 inclusive. This is explained by the fact that said "tables" are laid out for the normal person, while the menus were prescribed for the treatment of some special disorder, or for the purpose of removing some offending causes.
The following menus are intended for those possessing normal digestion and assimilation of food; that is, for those having no digestive disorders.
INTRODUCTION TO NORMAL MENUS
While a majority of the menus composing this volume were prescribed for the purpose of removing the causes of some specific disorder, a vast number of those treated remained under the care of the author long after they had become normal or cured, as the transition from dis-ease to health is usually termed.
Another large number of comparatively healthy persons, recognizing the relation between diet and health, came under the care of the writer for the purpose of having their diet selected, proportioned, and balanced according to age, occupation, and the season of the year.
The excellent results that were obtained, in nearly all such cases, emphasized the importance of giving a set of normal menus for normal people. All the following menus have been tested, under the direction of the author, and have been chosen because they gave the desired results.
SPRING MENU
FOR THE NORMAL CHILD
From 2 to 5 Years of Age
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
FOR THE NORMAL CHILD
From 2 to 5 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL CHILD
From 2 to 5 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL CHILD
From 2 to 5 Years of Age
BREAKFAST
LUNCHEON
DINNER
The articles of food for children ranging from two to five years of age are about the same. The proportions, however, should be administered according to age.
The child from two to three years of age may be given a glass of milk between meals, but should eat a very light dinner, consisting of only two or three articles, while the child from three to five, especially after it has engaged in vigorous play, can, with safety, follow the menus herein prescribed.
SPRING MENU
FOR THE NORMAL YOUTH
From 5 to 10 Years of Age
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
FOR THE NORMAL YOUTH
From 5 to 10 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL YOUTH
From 5 to 10 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL YOUTH
From 5 to 10 Years of Age
BREAKFAST
LUNCHEON
DINNER
SPRING MENU
FOR THE NORMAL YOUTH
From 10 to 15 Years of Age
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
FOR THE NORMAL YOUTH
From 10 to 15 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL YOUTH
From 10 to 15 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL YOUTH
From 10 to 15 Years of Age
BREAKFAST
LUNCHEON
DINNER
SPRING MENU
FOR THE NORMAL PERSON
From 15 to 20 Years of Age
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
FOR THE NORMAL PERSON
From 15 to 20 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL PERSON
From 15 to 20 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL PERSON
From 15 to 20 Years of Age
BREAKFAST
LUNCHEON
DINNER
SPRING MENU
FOR THE NORMAL PERSON
From 20 to 33 Years of Age
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
FOR THE NORMAL PERSON
From 20 to 33 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL PERSON
From 20 to 33 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL PERSON
From 20 to 33 Years of Age
BREAKFAST
LUNCHEON
DINNER
SPRING MENU
FOR THE NORMAL PERSON
From 33 to 50 Years of Age
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
FOR THE NORMAL PERSON
From 33 to 50 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL PERSON
From 33 to 50 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL PERSON
From 33 to 50 Years of Age
BREAKFAST
LUNCHEON
DINNER
Note: Sassafras tea is made from the bark of red sassafras. (See p. 681.)
SPRING MENU
FOR THE NORMAL PERSON
From 50 to 65 Years of Age
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
FOR THE NORMAL PERSON
From 50 to 65 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL PERSON
From 50 to 65 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL PERSON
From 50 to 65 Years of Age
BREAKFAST
LUNCHEON
DINNER
SPRING MENU
FOR THE NORMAL PERSON
From 65 to 80 Years of Age
BREAKFAST
LUNCHEON
DINNER
Note: If there is a tendency toward rheumatism, gout, or lumbago, eggs should be omitted.
SUMMER MENU
FOR THE NORMAL PERSON
From 65 to 80 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL PERSON
From 65 to 80 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL PERSON
From 65 to 80 Years of Age
BREAKFAST
LUNCHEON
DINNER
SPRING MENU
FOR THE NORMAL PERSON
From 85 to 100 Years of Age
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
FOR THE NORMAL PERSON
From 85 to 100 Years of Age
BREAKFAST
LUNCHEON
DINNER
FALL MENU
FOR THE NORMAL PERSON
From 85 to 100 Years of Age
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
FOR THE NORMAL PERSON
From 85 to 100 Years of Age
BREAKFAST
LUNCHEON
DINNER
INTRODUCTION TO CURATIVE MENUS
Scientific investigation leads one inevitably to the conclusion that a vast number of so-called dis-eases are caused by errors in eating; that is, by wrong selections, wrong combinations and wrong proportions of food. (See chart, Vol. I, p. 9, showing the number of dis-eases caused by superacidity.) This chart will give the reader some idea of the number of disorders that may originate from one source or from one fundamental cause.
While superacidity is a true dis-ease, and may cause all the disorders shown on this chart, yet behind superacidity there is a parent cause, namely, wrong eating. In the light of these facts, it is obvious that a department of curative and remedial menus should constitute an important feature of this work.
For each patient who came under the care of the author (over 23,000 in all), there was prescribed an average of six menus, covering a period of six weeks. Each patient was required to keep an accurate record of his or her diet, and the symptoms that developed after each meal. This record was either brought to the author in person, or sent to him through the mails.
From this vast amount of data and clinical experience, the writer was enabled to select all the menus composing this volume, from those that had proved successful in the various disorders treated. This volume, therefore, is composed of only such menus as gave the desired results. It represents the refined experience of twenty years' active practise in Scientific Feeding.
SPRING MENU
ABNORMAL APPETITE
SUPERACIDITY
Abnormal appetite is caused by the surplus acid which is left in the stomach after digestion has taken place. This surplus acid causes irritation of the mucous membrane of both the stomach and the pylorus. The supersecretion of acid, in turn, is caused by overeating, by taking foods in combination which are chemically inharmonious, by sedative and intoxicating beverages, by tobacco, and by all stimulating drugs. The logical remedy, therefore, is to omit the use of these things, and to regulate the diet according to age, occupation, and chemistry, and to drink copiously of water both at meals and between meals.
BREAKFAST
LUNCHEON
DINNER
Note: For all cases of superacidity, see "Importance of Water-drinking," Vol. II, p. 434.
SUMMER MENU
ABNORMAL APPETITE
SUPERACIDITY
BREAKFAST
LUNCHEON
DINNER
Drink one or two glasses of water at each meal.
FALL MENU
ABNORMAL APPETITE
SUPERACIDITY
BREAKFAST
LUNCHEON
DINNER
The noon meal should be omitted if the breakfast is late.
WINTER MENU
ABNORMAL APPETITE
SUPERACIDITY
BREAKFAST
LUNCHEON
DINNER
Drink an abundance of cool water at each meal.
If the patient is suffering, or recovering from a severe attack of stomach irritation, the quantity of solid food should be reduced, and the quantity of water increased.
SPRING MENU
SOUR STOMACH (SUPERACIDITY)
IRRITATION OF STOMACH AND INTESTINES
On rising, drink two glasses of cool water. Devote from three to five minutes to vigorous, deep breathing exercises.
BREAKFAST
LUNCHEON
DINNER
At least two glasses of water should be drunk between breakfast and luncheon, and between luncheon and dinner.
The quantity of food may be slightly increased as the patient improves, and the meals may be varied by changing the vegetables current in the market. The general combinations and the proportions, however, should be observed for two or three weeks.
SUMMER MENU
SOUR STOMACH (SUPERACIDITY)
IRRITATION OF STOMACH AND INTESTINES
Immediately on rising, drink two glasses of water.
BREAKFAST
LUNCHEON
DINNER
Just before retiring, drink two glasses of water.
FALL MENU
SOUR STOMACH (SUPERACIDITY)
IRRITATION OF STOMACH AND INTESTINES
Observe the instructions in regard to water-drinking and deep breathing, which were given in connection with the spring menu.
BREAKFAST
LUNCHEON
DINNER
From one to three glasses of water should be drunk at each of these meals—half a glass at the beginning; a glass during the progress of the meal, and a glass at the close.
WINTER MENU
SOUR STOMACH (SUPERACIDITY)
IRRITATION OF STOMACH AND INTESTINES
On rising, drink two or three glasses of water, and take vigorous exercise and deep breathing.
BREAKFAST
The entire meal may consist of boiled wheat and butter, with a very little cream, unless the weather is exceedingly cold, in which event the wheat may be reduced in quantity, and two, or even three, whipped eggs taken.
LUNCHEON
DINNER
Avoid overeating. Stomach fermentation is caused largely by taking into the stomach a quantity of food in excess of digestive ability or of bodily requirements. The logical remedy, therefore, is to limit the quantity of food, or to increase the amount of physical exercise.
SPRING MENU
SOUR STOMACH—INTESTINAL GAS CONSTIPATION
On rising, drink a glass or two of water, eat a spoonful of cherries or berries, and devote a few minutes to vigorous exercise.
BREAKFAST
LUNCHEON
DINNER
Drink two glasses of cool water at each of these meals.
Just before retiring, take a small portion of wheat bran, and spend at least ten minutes in vigorous exercise.
SUMMER MENU
SOUR STOMACH—INTESTINAL GAS CONSTIPATION
Drink copiously of cool water, and take a brisk walk or vigorous exercise and deep breathing before breakfast.
BREAKFAST
LUNCHEON
DINNER
Cool water should be drunk freely at meals, and mastication should be thorough.
FALL MENU
SOUR STOMACH—INTESTINAL GAS CONSTIPATION
First Day: On rising, drink two glasses of water, and devote three or four minutes to Exercises 3 and 5. (See Vol. V, pp. 1344 and 1345.) Inflate the lungs every fourth or fifth movement to their extreme capacity.
BREAKFAST
LUNCHEON
DINNER
Just before retiring, take a spoonful of wheat bran in half a glass of water. Exercise as prescribed for the morning.
Second Day: The same as the first, increasing the quantity of food, if hungry. The noon meal could consist of two eggs, prepared as prescribed, and one fresh vegetable, uncooked, such as carrots or turnips, eaten with a green salad and either nuts or olive-oil. A banana, with very thin cream, might also be taken.
Third Day: Practically the same as the second, varying the breakfast by omitting eggs, allowing it to consist of bananas, soaked prunes and cream; or, oatmeal in small quantity, with thin cream; or, if agreeable, let it consist of the same articles as prescribed for the first day.
FOURTH DAY:
BREAKFAST
LUNCHEON
DINNER
Just before retiring, take a heaping tablespoonful of wheat bran and the exercises which were prescribed for the first day.
Fifth Day: Same as the fourth.
Sixth Day: Same as the first, repeating the diet, day by day, for twelve or fifteen days.
WINTER MENU
SOUR STOMACH—INTESTINAL GAS CONSTIPATION
Immediately on rising, take a cup of hot water, into which put two tablespoonfuls of wheat bran. Devote from three to five minutes to deep breathing exercises.
BREAKFAST
LUNCHEON
DINNER
If something sweet is desired, a small portion of plain ice-cream or gelatin may be eaten once a week.
From one to two glasses of water should be drunk at each of these meals.
If it is cold, and something hot is desired, a cup of sassafras tea, made from the bark of the red sassafras root, may be taken at the morning and the evening meal. (See p. 681.)
Just before retiring, devote three or four minutes to deep breathing exercises.
At the beginning of the evening meal, or on retiring, two or three tablespoonfuls of bran may be taken in a little hot water. The quantity of bran may be reduced according to the condition of the bowels.
SPRING MENU
STOMACH AND INTESTINAL CATARRH
Catarrh of the stomach is merely a form of chronic irritation caused by a residue of hydrochloric acid in the stomach following the process of digestion. This condition is augmented by intoxicating and stimulating beverages—tobacco, liquor, beer, tea, coffee; by acids, such as vinegar, lemon, grapefruit, and pineapple juices; by cane-sugar, cereal starches, and meat. The remedy, therefore, is found in eliminating these things, and in confining the diet to the following foods:
All fresh vegetables | Milk |
Eggs | Nuts |
Green salads | Subacid fruits |
Melon | Very tender fish or white meat of fowl—occasionally |
Inasmuch as the primary cause of stomach catarrh is supersecretion of hydrochloric acid, an abundance of pure water should be drunk at meals and also between meals.
BREAKFAST
Drink a cup of hot water about 11 a. m.
LUNCHEON
Drink a cup of hot water about 4 p. m.
DINNER
Mastication must be perfect.
Bread, flour, and cereal products should be omitted, with the exception of a very[749] limited quantity of thoroughly cooked rice and wheat bran.
Sweets, desserts, tea, coffee, all sedative and stimulating beverages, and drugs and narcotics should be omitted.
Water should be drunk copiously both at meals and between meals.
SUMMER MENU
STOMACH AND INTESTINAL CATARRH
BREAKFAST
LUNCHEON
DINNER
FALL MENU
STOMACH AND INTESTINAL CATARRH
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
STOMACH AND INTESTINAL CATARRH
BREAKFAST
LUNCHEON
DINNER
Choice of the following cooked in a [B]casserole dish:
a Cauliflower, cabbage, or Brussels sprouts
b Carrots, parsnips, or turnips
A baked potato
A vegetable salad with ripe olives and nuts
[B] For cooking en casserole, see p. 671.
SPRING MENU
FERMENTATION—INTESTINAL GAS FEVERED STOMACH AND LIPS CANKERS ON TONGUE
BREAKFAST
LUNCHEON
DINNER
An abundance of cool water should be drunk between meals, and from one to two glasses at meals.
Fevered stomach is caused by fermentation of food—hyperacidity. After the diet is balanced so as to be chemically harmonious, the next most important thing is copious water-drinking at meals and between meals.
See Vol. II, p. 434.
SUMMER MENU
FERMENTATION—INTESTINAL GAS FEVERED STOMACH AND LIPS CANKERS ON TONGUE
Immediately on rising, drink a glass or two of water. Also take vigorous exercise and deep breathing.
BREAKFAST
LUNCHEON
DINNER
From one to two glasses of water should be drunk at each of these meals, eliminating all sweets and acids.
If there is a tendency toward constipation, half a cup of wheat bran, cooked, and served as an ordinary cereal, should be taken at the morning and the evening meal.
FALL MENU
FERMENTATION—INTESTINAL GAS FEVERED STOMACH AND LIPS CANKERS ON TONGUE
Immediately on rising, drink a cup of cool water, and take vigorous exercise and deep breathing.
BREAKFAST
LUNCHEON
EMERGENCY LUNCHEON
DINNER
EMERGENCY DINNER
If one is engaged in heavy manual labor, the food may be increased beyond the amount herein prescribed. The combination, however, should be observed.
The emergency luncheon is to be taken if one does not like the regular luncheon. The same rule should be observed with the emergency dinner. The regular luncheon contains considerable protein, which is very necessary in these conditions. The emergency dinner contains the same in another form. The one may be chosen which appeals most to natural hunger.
Now and then the breakfast may consist of one or two extremely ripe bananas, eaten with nut butter and cream, and one or two whipped eggs.
WINTER MENU
FERMENTATION—INTESTINAL GAS FEVERED STOMACH AND LIPS CANKERS ON TONGUE
BREAKFAST
LUNCHEON
DINNER
If the tongue should become coated, or the mouth sore, the amount of food[760] prescribed for the evening meal should be reduced until digestion is perfect, which can be aided largely by drinking copiously of water.
If the bowels should become slightly constipated, take two heaping tablespoonfuls of wheat bran in a cup of hot water just before retiring. It is not necessary to masticate the bran. Devote two or three minutes to deep breathing exercises, Nos. 1 and 5, as shown in Vol. V, pp. 1343 and 1345.
The eggs can be taken uncooked, without whipping, if preferred.
SPRING MENU
CONSTIPATION (CHRONIC) NERVOUSNESS
First Day: Immediately on rising, take half a cup of wheat bran, in hot water, and eat a tablespoonful of soaked evaporated apricots.
Devote five minutes to exercises Nos. 3 and 5. (See Vol. V, pp. 1344 and 1345.) These should be taken vigorously, before an open window, and before dressing. Then take a cool shower bath and a vigorous rub down.
If possible, take half an hour's walk before breakfast.
BREAKFAST
Devote two or three minutes to exercises 3 and 5, about ten o'clock, if possible.
LUNCHEON
Drink two glasses of water during the progress of the meal.
DINNER
Just before retiring, take half a cup of wheat bran.
Second Day: The same as the first, slightly increasing the quantity of food if there is a tendency toward weakness or unusual fatigue.
Third Day: The same as the second, varying the meals by changing the vegetables.
Fourth Day: On rising, eat a cup of soaked apricots, and take the exercises which were prescribed for the first day.
BREAKFAST
LUNCHEON
DINNER
Just before retiring, eat a few soaked evaporated apricots, or half a cup of bran.
Note: The apricots should be omitted if there is a tendency toward sour stomach (premature fermentation), or rheumatism.
Fifth Day: the Same As the Fourth.
Sixth Day: The same as the first.
Repeat this diet until the bowels become normal. The bran and the apricots may then be reduced according to the condition of the bowels, and the quantity of vegetables, eggs, and other solids increased sufficiently to meet the demands of normal hunger.
SUMMER MENU
CONSTIPATION (CHRONIC) NERVOUSNESS
Immediately on rising, eat two or three very ripe peaches or plums, and drink a glass or two of water. Devote from five to ten minutes to vigorous exercise and deep breathing, especially exercise No. 3. (See Vol. V, p. 1344.)
BREAKFAST
LUNCHEON
DINNER
If the above menus do not seem sufficient to sustain the body while performing manual labor, one or two whipped eggs may be added.
Just before retiring, eat three or four ripe peaches, or a large bunch of blue grapes, swallowing seeds without mastication. Take exercises as prescribed for morning.
From two to three glasses of water should be drunk at each of these meals.
FALL MENU
CONSTIPATION (CHRONIC) NERVOUSNESS
(For general instructions see Spring Menu.)
Just after rising, eat a bunch of grapes.
BREAKFAST
LUNCHEON
DINNER
From two to three glasses of water should be drunk at each of the above meals, and mastication should be very thorough.
WINTER MENU
CONSTIPATION (CHRONIC) NERVOUSNESS
Immediately on rising, take the juice of a sweet orange.
For general instructions see Spring Menu.
BREAKFAST
LUNCHEON
DINNER
A glass of pure apple cider may be drunk just after rising, and just before retiring.
From two to three glasses of water should be drunk at each of the above meals.
SPRING MENU
CONSTIPATION—AUTOINTOXICATION LOW VITALITY
Choice of the following menus:
MENU I | MENU II |
---|---|
BREAKFAST | |
Half a cup of wheat bran, cooked | Two glasses of water |
The juice of a sweet Florida | Wheat bran, cooked |
orange (Russet seedling) | Boiled whole wheat, with cream |
One glass of water | Two tablespoonfuls of nuts or |
One whole egg, whipped | one tablespoonful of nut butter |
with teaspoonful of sugar | One very ripe banana, with |
One or two extremely ripe | nuts and raisins |
bananas, with nuts and cream | |
LUNCHEON | |
Peas or asparagus | A boiled onion |
A baked potato | Whole wheat or a bran meal gem |
A cup of hot water | A cup of hot water |
DINNER[772] | |
Green peas | A small portion of fish or |
Spanish onions | of white meat of chicken |
A small, baked white potato | One very small, baked white potato |
(Eat skins and all) | A salad of lettuce or anything |
Two eggs, lightly poached | green, with oil |
Nuts and raisins, if something | A baked banana |
sweet is desired |
A spoonful or two of coarse wheat bran should be taken both at breakfast and at dinner; also, just before retiring, a glass of water and a few pieces of soaked evaporated apricots.
(The apricots should be omitted if there is a tendency toward either fermentation or rheumatism.)
SUMMER MENU
CONSTIPATION—AUTOINTOXICATION LOW VITALITY
Choice of the following menus:
MENU I | MENU II |
---|---|
BREAKFAST | |
Fresh fruit—grapes preferred | Wheat bran |
A baked sweet potato | Melon or peaches |
Two very ripe bananas, | Very ripe bananas with |
with figs and cream | cream, nuts and raisins |
Wheat bran | One glass of water |
One whipped egg | |
LUNCHEON | |
Melon | One or two fresh vegetables (choice) |
One fresh vegetable | A baked potato or corn |
A bran gem with either | A green salad |
butter or nut butter | Bran, or a bran gem |
Two tablespoonfuls of nuts (choice) | |
One glass of water | [774] |
DINNER | |
A fruit salad made of bananas, | Practically the same as for |
raisins, and grated nuts; | luncheon, with choice of |
serve with whipped cream | junket or gelatin |
Two tablespoonfuls of nuts (choice) | |
Cream cheese and one fig | |
Boiled wheat, with sweet butter | |
Two glasses of water | |
A melon |
SUPPLEMENTARY MENU
If there is a craving for something sweet, let the evening meal consist entirely of ice-cream and three or four glasses of water. All sweets may be omitted, however, if they do not especially appeal to the taste.
Take vigorous exercise and deep breathing just after rising, and just before retiring.
FALL MENU
CONSTIPATION—AUTOINTOXICATION LOW VITALITY
Just after rising, eat a large bunch of grapes and drink a glass of water.
Choice of the following menus:
MENU I | MENU II |
---|---|
BREAKFAST | |
Peaches, plums, or melon | Two or three exceedingly |
Whole wheat, or barley, | ripe bananas, eaten with |
boiled until soft; serve | nut butter and cream; |
with butter and cream | also raisins, if something |
Wheat bran cooked, eaten | sweet is desired |
with thin cream | (Bananas may be baked |
Water | if preferred) |
LUNCHEON | |
A bowl of clabbered milk, | A baked white potato |
eaten with a very little sugar | (Eat skins and all) |
One whipped egg | One fresh vegetable |
Half a cup of wheat bran | A morsel of fish[776] |
DINNER | |
Spinach, cooked | Same as dinner (Menu I) |
One egg white | with the addition of buttermilk |
Baked beans | or a morsel of fish |
One fresh vegetable | (Some simple dessert may be |
taken with this meal, if desired) |
Just before retiring, take wheat bran or eat a large bunch of grapes.
WINTER MENU
CONSTIPATION—AUTOINTOXICATION LOW VITALITY
BREAKFAST
LUNCHEON
DINNER
From one to two glasses of water should be drunk at each of these meals.
Either grapes or wheat bran should be taken just before retiring. The wheat bran may be taken uncooked in hot water.
If constipation is not relieved after taking the quantity of bran prescribed, increase the quantity until the desired results are obtained, then gradually decrease the quantity, taking it only at the morning and the evening meal.
SPRING MENU
GASTRITIS
In severe cases of gastritis, all food, and even water should be omitted. As the patient begins to recover, water, cool or hot, may be taken, and after a time, when normal hunger appears, the following suggestions in diet should be observed:
BREAKFAST
LUNCHEON
DINNER
As the patient recovers, the articles composing the meals may be increased, confining entirely to such foods as peas, asparagus, potatoes, carrots, parsnips, beets, spinach, and the green salad vegetables.
SUMMER MENU
GASTRITIS
In regard to the omission of food in severe cases, see Spring Menu.
BREAKFAST
LUNCHEON
DINNER
FALL MENU
GASTRITIS
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
GASTRITIS
BREAKFAST
LUNCHEON
DINNER
For instructions in cooking "en casserole," see p. 671.
SPRING MENU
NERVOUS INDIGESTION
Nervous indigestion is a condition in which the mucous membrane of the stomach is in a chronic state of irritation caused by hydrochloric acid fermentation.
The appetite is usually keen; sometimes ravenous. This, however, is the best evidence that the diet should be limited to just enough food to sustain strength when no manual labor is performed.
BREAKFAST
LUNCHEON
DINNER
SUMMER MENU
NERVOUS INDIGESTION
BREAKFAST
LUNCHEON
DINNER
FALL MENU
NERVOUS INDIGESTION
BREAKFAST
LUNCHEON
DINNER
Note: From one to three glasses of cool water should be drunk at each of these meals.
WINTER MENU
NERVOUS INDIGESTION
BREAKFAST
LUNCHEON
DINNER
Note: Acids, sweets, white bread, oatmeal, corn hominy, and the cereal foods from which the bran has been removed,[788] should be entirely omitted in all cases of stomach irritation, of which nervous indigestion is merely an expression. The use of tea, coffee, tobacco, all stimulating and intoxicating drinks should also be discontinued.
SPRING MENU
FOR BUSINESS MAN
THIN—NERVOUS—IRRITABLE INSOMNIA—STOMACH AND INTESTINAL TROUBLE
Menu No. 1 is for use at home where one can get all the staple vegetables prepared as directed.
Menu No. 2 consists of emergency meals to be taken when away from home.
They practically contain the same nutritive elements, however, but in slightly different proportions.
MENU I | MENU II |
---|---|
BREAKFAST | |
A dish of whole wheat or flaked | A cup of hot water |
wheat, thoroughly cooked | Bran meal gems |
Two tablespoonfuls of nuts | Corn muffins |
One egg, coddled | A potato eaten with either |
A cup of hot water | butter or cream[790] |
LUNCHEON | |
One or two fresh vegetables | Two glasses of milk (One |
A baked sweet or a white potato | whipped egg mixed with |
A salad, if desired | the milk) |
One or two spoonfuls of nuts | A potato or one fresh vegetable |
A glass of water | |
DINNER | |
A green salad—either lettuce | Vegetable soup |
and tomatoes, or endive | One fresh vegetable |
Gems made from corn meal | An omelet or a very small |
or bran meal, eaten with | portion of fish or white meat |
butter and nuts | of chicken; omelet preferred |
Choice of peas, beans, or | A baked potato |
asparagus | One extremely ripe banana |
Dessert—gelatin or home-made | with cream, nuts, and |
ice-cream | either figs or raisins |
Intestinal gas can be largely controlled by thorough and complete mastication.
If the use of milk should cause slight constipation, the constipation can be relieved by taking a small portion of wheat bran, either cooked or uncooked, at both the morning and the evening meal.
SUMMER MENU
FOR BUSINESS MAN
THIN—NERVOUS—IRRITABLE INSOMNIA—STOMACH AND INTESTINAL TROUBLE
Choice of the following menus for a week or ten days:
MENU I | MENU II |
---|---|
BREAKFAST | |
Cantaloup or sliced peaches | Melon or peaches |
One tablespoonful of steamed | Two very ripe bananas with |
whole wheat | cream, nuts, and raisins |
One glass of milk | Two baked bananas |
Two or three glasses of milk | |
LUNCHEON | |
One or two ears of corn—boiled | Baked sweet potatoes, with |
A few nuts—choice | butter |
One whipped egg and one | Two tablespoonfuls of nuts—choice |
glass of milk, mixed | A green salad |
DINNER | |
Spinach, lima beans, carrots, | Cantaloup |
squash—any two of these | Boiled corn and lima beans |
One egg, coddled | Lettuce and tomato salad |
Small piece of corn bread | A baked potato |
or whole wheat bread | An egg or a small portion |
Two glasses of buttermilk | of fish |
Note: From one and a half to two glasses of water should be drunk at each of these meals.
If constipation occurs, soaked prunes or soaked evaporated apricots may be taken just before retiring. A glassful of water in which the prunes or apricots have been soaked should also be drunk just after rising.
If stomach-acidity or intestinal fermentation should occur, omit all acid fruits and regulate the bowels by the use of wheat bran.
One hour during the day should be devoted to vigorous physical exercise.
FALL MENU
FOR BUSINESS MAN
THIN—NERVOUS—IRRITABLE INSOMNIA—STOMACH AND INTESTINAL TROUBLE
First Day: Immediately on rising, drink one glass of cool water and eat half a pound of Concord grapes. Eliminate the seeds, but thoroughly masticate and swallow the skins.
Devote from five to six minutes to exercises Nos. 3 and 5. (See Vol. V, pp. 1344 and 1345.) Inflate the lungs to their fullest capacity at every third or fourth breath.
BREAKFAST
LUNCHEON
DINNER
From one and a half to two glasses of water should be drunk at each of the above meals.
Just before retiring, eat a small bunch of Concord grapes and drink half a glass of water.
Devote from five to ten minutes to exercises Nos. 3 and 5, as above directed, giving special attention to deep breathing. Endeavor to inflate the lungs to their fullest capacity every third or fourth breath.
Second Day: The same as the first, slightly increasing the quantity of food if desired. This may be done by more thorough mastication and by devoting more time to exercise.
Third Day:
BREAKFAST
LUNCHEON
DINNER
Fourth Day:
BREAKFAST
LUNCHEON
DINNER
Fifth Day: The same as the first.
Sixth Day: The same as the second, and so on, day by day, for about twelve days.
LETTER OF ADVICE
ACCOMPANYING ABOVE MENU
Rise at a regular hour every morning. Take a lukewarm sponge bath, following[797] it by a cool splash and a vigorous rub down, practising deep breathing all the while.
Before dressing, devote from two to three minutes to exercises Nos. 3 and 5. (See Vol. V, pp. 1344 and 1345.) Take these movements calmly.
Do not worry. Masticate all food to infinite fineness. Take plenty of time to eat.
Inflate the lungs to their fullest capacity one hundred times a day. This is of very great importance.
If the quantity of food prescribed is more than the appetite calls for, eliminate any one thing entirely, or reduce the quantity of the whole.
WINTER MENU
FOR BUSINESS MAN
THIN—NERVOUS—IRRITABLE INSOMNIA—STOMACH AND INTESTINAL TROUBLE
First Day: Immediately on rising, drink two cups of cool water and devote from five to ten minutes to vigorous exercise.
BREAKFAST
LUNCHEON
DINNER
Just before retiring, repeat the exercises which have been prescribed for the morning, and, if constipated, take two or three tablespoonfuls of wheat bran in hot water.
Second Day: Same as the first, slightly increasing the quantity of food, if hungry.
Third Day: Same as the second, adding one or two whipped eggs for breakfast, and changing vegetables to suit the appetite for luncheon and for dinner. Nearly all vegetables such as beets, carrots, parsnips, and turnips may be substituted for one another.
Fourth Day:
BREAKFAST
LUNCHEON
DINNER
Exercise as prescribed for the first day.
Fifth Day: The same as the fourth.
Sixth Day: The same as the first, repeating these menus for a period of about three weeks.
For diet and general instructions in regard to nervousness, see menus for "Fermentation" and "Superacidity." See also Lesson XVII, "Nervousness—Its Cause and Cure," Vol. V, p. 1211.
SPRING MENU
INDIGESTION (CHRONIC)
BREAKFAST
LUNCHEON
DINNER
A few tablespoonfuls of pineapple juice should be taken half an hour after each meal.
The above menus may be increased in quantity as the digestion improves, taking special care, however, not to overeat. Fresh vegetables, from the list given below, may be added to the noon and the evening meal, as the season advances, and the patient becomes stronger.
SUMMER MENU
INDIGESTION (CHRONIC)
Immediately on rising, drink a cup of water, and devote from five to ten minutes to vigorous exercise, with deep breathing.
BREAKFAST
LUNCHEON
DINNER
FALL MENU
INDIGESTION (CHRONIC)
Immediately on rising, drink a cup of water, and devote a few minutes to vigorous exercise.
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
INDIGESTION (CHRONIC)
BREAKFAST
LUNCHEON
DINNER
Take a spoonful or two of wheat bran and a spoonful of pineapple juice at the close of this meal, either cooked, or in hot water, uncooked.
The above menus are the minimum of food for this condition. The quantity may be increased according to the demands of normal hunger. Hunger, however, should be determined by labor or exercise. Abnormal appetite, caused by supersecretion of acid in the stomach, is very often mistaken for hunger. In such cases, the patient should cease eating before the appetite is satisfied.
In nearly all cases of acute indigestion, food should be omitted. The patient should be given hot water morning, noon, and evening, and, if possible, a stomach tube should be inserted, and the hot water and stomach contents removed. If this cannot be done, the patient should drink copiously of hot water, and vomit as much of it as possible. After the stomach has been cleansed, a cup of coarse wheat bran, or a large bunch of Concord or blue grapes may be given (if they are in season), swallowing skins, seeds, and pulp. Both bran and grapes are preferable to laxative medicines, and much more effective. The high enema should be administered, thus removing the contents of the lower bowels. After the stomach and the bowels have been thoroughly cleansed, if the patient is not able to exercise, artificial manipulation of the abdomen should be[808] administered for a period of half an hour three times a day. These suggestions may be repeated until the patient is relieved, when the diet for chronic indigestion may be followed in rather modified form, omitting the heavier vegetables, and increasing the lighter foods.
SPRING MENU
BILIOUSNESS—HEADACHE SLUGGISH LIVER
Supersecretion of bile by the liver is termed biliousness. This may be expressed by the presence of bile in the stomach, which usually causes headache, beginning at the base of the brain, and after five or six hours settling over the eyes. This is sometimes associated with nausea or sick headache.
Again, the excess of bile is absorbed into the blood, causing the skin to become yellow and spotted, and sometimes it assumes the appearance of jaundice.
Biliousness is caused by taking an excess of sweets, coffee, liquors, fats, and sometimes starches—cereal, bread, etc. The remedy, therefore, is a very simple one, and largely confined to elimination, vigorous exercise, deep breathing, and copious drinking of water.
The following menus are suggestive. The diet may consist of any group of fresh, natural foods which are in season.
BREAKFAST
LUNCHEON
DINNER
Sufficient coarse wheat bran should be taken at each meal to keep the bowels in normal condition.
SUMMER MENU
BILIOUSNESS—HEADACHE SLUGGISH LIVER
BREAKFAST
LUNCHEON
DINNER
FALL MENU
BILIOUSNESS—HEADACHE SLUGGISH LIVER
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
BILIOUSNESS—HEADACHE SLUGGISH LIVER
BREAKFAST
LUNCHEON
DINNER
SPRING MENU
HEADACHE—TORPID LIVER
BREAKFAST
LUNCHEON
DINNER
Just before retiring, drink a cup of water and eat a dozen ripe strawberries, without sugar or cream. This should be followed by vigorous exercise and deep breathing.
For recipe for baked bananas, see p. 677.
SUMMER MENU
HEADACHE—TORPID LIVER
BREAKFAST
LUNCHEON
DINNER
FALL MENU
HEADACHE—TORPID LIVER
First Day: Immediately on rising, take a glass or two of water and a bit of any juicy fruit—grapes preferred. Devote as much time as possible to exercises Nos. 1, 3, and 5. (See Vol. V, pp. 1343, 1344, and 1345, giving preference to No. 3.) Do not exercise until too much fatigued, but rest every twenty or thirty movements.
BREAKFAST
LUNCHEON
DINNER
Just before retiring, take the juice of half an orange, half a glass of water, and devote as much time as possible to exercises prescribed for the morning.
Second Day: Same as the first, slightly varying the meals according to choice of vegetables.
Third Day: Same as the second.
Fourth Day: In regard to water-drinking, exercising, and eating a particle of fruit just after rising, see the rules which were given for the first day.
BREAKFAST
LUNCHEON
DINNER
Just before retiring, eat a small bunch of grapes, drink a glass of water, and take exercise, as prescribed for the first day.
Fifth Day: Same as the fourth.
Sixth Day: Same as the first.
Seventh Day: Same as the second, continuing for ten or twelve days.
WINTER MENU
HEADACHE—TORPID LIVER
The element protein slightly predominates in these menus, while the fat-producing nutrients are minimized.
Choice of the following:
MENU I | MENU II |
---|---|
BREAKFAST | |
A cup of hot water | One egg, whipped with a |
Half a cup of bran | very little sugar and a |
Baked sweet potatoes | spoonful of lemon juice |
Cocoa | One banana with very little nut |
butter and cream, and a few raisins | |
LUNCHEON | |
A vegetable salad—lettuce, | A fruit salad—lettuce; seeded |
grated carrots and tomatoes, | grapes, banana, and |
eaten with a dressing | a piece of an orange, |
of nut butter, reduced | chopped; serve with |
to a solution by | either whipped cream or |
adding water | nut-butter dressing |
A boiled onion | One fresh vegetable, with |
A baked sweet or a white | a whole wheat cracker |
potato, or baked beans | |
(Eat sparingly of the latter)[821] | |
DINNER | |
Two fresh vegetables | One fresh vegetable |
Fish or an egg; egg preferred | A baked potato |
A potato or a whole wheat gem | Two eggs, either boiled two |
minutes or whipped with | |
just a little lemon juice and sugar |
CIRRHOSIS OF THE LIVER
Cirrhosis is a word derived from the Greek meaning yellow. It was originally intended to convey the idea of over-growth or enlargement of this much-abused organ, but inasmuch as atrophic conditions often show yellow or tawny, there are now two kinds of cirrhosis, namely, atrophic cirrhosis, meaning a shrinkage, and hypertrophic cirrhosis, meaning enlargement of the liver.
Atrophic cirrhosis is caused by alcoholism, often augmented by milder stimulants such as tea and coffee.
Hypertrophic cirrhosis is caused by overeating, especially of meat, sweets, and starchy foods.
The causes of the former should be removed by ceasing the use of tea, coffee, and all alcoholic stimulants, and of the latter by omitting sweets, and limiting the diet in quantity to, or in severe cases below, the actual needs of the body.
The following menus are laid out for the treatment of severe cases. They are designed both as a counteractive and as a remedial measure.
In mild cases, or as the patient recovers, the diet may be increased in quantity, but it should be confined very rigidly to the articles named in the list below, and in the menus which follow.
Foods to be used in the treatment of cirrhosis of the liver:
Proteids | Vegetables | Fruits |
---|---|---|
Egg whites | Asparagus | Apples |
Fish | Beets | Apricots |
Fowl—white meat | Beans | Cantaloup |
Nuts | Brussels sprouts | Cherries |
Sour milk | Cauliflower | Grapes |
Cabbage | Melons | |
Carbohydrates | Carrots | Oranges |
Bananas | Celery | Peaches |
Corn bread | Onions | Pears |
Flaked rye | Potatoes | Plums |
Wheat bran | Spinach | Prunes |
Whole wheat | Squash | Raisins |
Turnip-greens | Tomatoes | |
Fats | Turnips | |
Butter | ||
Nut butter | ||
Nuts |
SPRING MENU
CIRRHOSIS OF THE LIVER
BREAKFAST
Note: If bananas are not "dead ripe" they should be baked.
LUNCHEON
DINNER
SUMMER MENU
CIRRHOSIS OF THE LIVER
BREAKFAST
LUNCHEON
DINNER
FALL MENU
CIRRHOSIS OF THE LIVER
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
CIRRHOSIS OF THE LIVER
BREAKFAST
LUNCHEON
DINNER
If the breakfast is late, and the labor is light, the noon meal should be omitted.
SPRING MENU
CIRRHOSIS OF THE LIVER
BREAKFAST
LUNCHEON
DINNER
From one to three glasses of water should be drunk at each of these meals. Mastication should be very thorough.
For cooking "en casserole," see p. 671.
SUMMER MENU
CIRRHOSIS OF THE LIVER
BREAKFAST
LUNCHEON
DINNER
FALL MENU
CIRRHOSIS OF THE LIVER
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
CIRRHOSIS OF THE LIVER
BREAKFAST
LUNCHEON
DINNER
If there is a tendency toward constipation, two or three tablespoonfuls of wheat bran should be taken, and an abundance of water drunk both at meals and between meals.
SPRING MENU
DIARRHEA
BREAKFAST
LUNCHEON
DINNER
(If the milk should prove disagreeable, it may be boiled or heated to 200° Fahrenheit.)
SUMMER MENU
DIARRHEA
BREAKFAST
LUNCHEON
DINNER
FALL MENU
DIARRHEA
BREAKFAST
LUNCHEON
DINNER
WINTER MENU
DIARRHEA
BREAKFAST
LUNCHEON
DINNER
Omit water at meals.
Mastication should be very thorough. The principle involved in treating diarrhea is to eliminate from the diet all coarse and fibrous foods, and to limit water, watery foods, and fats to the minimum.
SPRING MENU
DIARRHEA—DYSENTERY
First Day: Immediately on rising, drink a cup of hot water and devote from five to ten minutes to vigorous, deep breathing exercises, giving special preference to Nos. 3 and 5. (See Vol. V, pp. 1344 and 1345.)
BREAKFAST
LUNCHEON
DINNER
Note: Omit coffee and tea.
Just before retiring, take vigorous exercise and deep breathing as prescribed for the morning.
Second Day: Same as the first, increasing the quantity of food if weak or faint.
Third Day: Same as the second.
Fourth Day:
BREAKFAST
LUNCHEON
DINNER
Fifth Day: Same as the fourth, adding a whipped egg to the morning meal, and one or two whipped eggs to the evening meal, if faint or weak, omitting other foods in the same proportion.
Sixth Day: Same as the first, repeating the diet herein given, for a period of from twenty to thirty days, with variations confined to the things prescribed.
If there be no improvement by the third day, the quantity of food should be materially reduced.
SUMMER MENU
DIARRHEA—DYSENTERY
On rising, drink a glass or two of cool water.
BREAKFAST
LUNCHEON
DINNER
FALL MENU
DIARRHEA—DYSENTERY
BREAKFAST
LUNCHEON
DINNER
Drink a cup of hot water at the close of each of these meals.
WINTER MENU
DIARRHEA—DYSENTERY
First Day: Immediately on rising, devote about five minutes to exercises Nos. 3 and 5 (see Vol. V, pp. 1344 and 1345) before an open window, or in a thoroughly ventilated room. Drink two glasses of water.
BREAKFAST
LUNCHEON
(This meal should be very light)
DINNER
Second Day: The same as the first.
Third Day: The same as the second, slightly increasing the quantity of food.
Fourth Day:
BREAKFAST
LUNCHEON
DINNER
Exercise and deep breathing, and a glass of water just before retiring.
Fifth Day: The same as the fourth.
Sixth Day: The same as the first, repeating the diet herein given, day by day, for a week or ten days.
SPRING MENU
EMACIATION—UNDERWEIGHT—RATHER ANEMIC
Immediately on rising, devote from twenty to thirty minutes to vigorous exercise and deep breathing.
BREAKFAST
LUNCHEON
DINNER
Drink from one to three glasses of either water or milk at each of these meals.
Take sufficient wheat bran to keep the bowels in normal condition.
For recipe for baked bananas, whipped and coddled eggs, see pp. 677 and 678.
SUMMER MENU
EMACIATION—UNDERWEIGHT—RATHER ANEMIC
On rising, drink two glasses of water and take vigorous exercises and deep breathing.
BREAKFAST
LUNCHEON
DINNER
Just before retiring, eat a few peaches or plums, and take a spoonful of bran.
FALL MENU
EMACIATION—UNDERWEIGHT—RATHER ANEMIC
BREAKFAST
LUNCHEON
DINNER
Sufficient coarse wheat bran or bran gems should be taken to keep the bowels in natural or normal condition. Unless elimination of waste is normal, it is difficult to gain weight.
WINTER MENU
EMACIATION—UNDERWEIGHT—RATHER ANEMIC
BREAKFAST
MENU I | MENU II |
---|---|
LUNCHEON | |
One or two fresh vegetables | Three or four eggs whipped |
Choice between a bit of fish | with sugar and lemon juice. |
or tender chicken if there | Add half a glass of milk to |
is a craving for something salty | each egg |
Emergency Luncheon III
DINNER | |
---|---|
Spinach, cooked, eaten with | One egg or fish |
a baked potato and one | A baked potato |
very lightly scrambled egg | A glass of clabbered milk, |
A boiled onion | with a sprinkle of sugar |
Carrots, parsnips, or turnips | Half-cup of wheat bran, |
cooked, with a little cream |
For cooking "Vegetables," see p. 670.
SPRING MENU
RUN-DOWN CONDITION FLATULENCY—UNDERWEIGHT
First Day: On rising, drink copiously of cool water, and devote from five to eight minutes to deep breathing exercises.
BREAKFAST
LUNCHEON
DINNER
Just before retiring, take a glass of water and the juice of half an orange, and devote from three to five minutes to deep breathing exercises.
Second Day: The same as the first, slightly increasing or decreasing the quantity of food according to normal hunger.
Third Day:
BREAKFAST
LUNCHEON
DINNER
Fourth Day: Same as the third.
Fifth Day: Same as the first, repeating these menus for a week or ten days as here given. The menus may be varied according to vegetables, fruits, and berries that may come into market as the season advances.
SUMMER MENU
RUN-DOWN CONDITION FLATULENCY—UNDERWEIGHT
MENU I | MENU II |
---|---|
BREAKFAST | |
Peaches with cream | Cantaloup or Japanese plums |
One exceedingly ripe banana | Two tablespoonfuls of nuts, |
with cream and nut | masticated to exceeding |
butter, and one fig or two dates | fineness; eat with bananas |
Two eggs, whipped; mix | and soaked prunes |
with a pint of milk | A large cup of junket or |
Wheat bran | buttermilk |
Wheat bran | |
LUNCHEON | |
Choice of okra, parsnips, | A green salad |
or carrots | Choice of onions, squash, |
A white potato or corn on cob | beans, carrots, or beets |
One glass of water | A white potato |
One glass of water[857] | |
DINNER | |
Fish or junket | Any two of the following: |
A baked potato eaten with butter | Beans, corn, sweet potato, |
Onions, squash, beans, or corn | squash, or onions |
A green salad with nuts | One egg, boiled two minutes |
A Japanese persimmon or a | (chicken, if preferred) |
cantaloup | A potato |
A salad with a few nuts |
The above menus are composed of the fewest number of articles that will supply the nutritive elements required. They may be increased according to normal hunger, but the combinations should be observed.
FALL MENU
RUN-DOWN CONDITION FLATULENCY—UNDERWEIGHT
First Day: On rising, drink two cups of hot water. Also eat half a pound of grapes, and devote from three to five minutes to exercises Nos. 3 and 5. (See Vol. V, pp. 1344 and 1345.)
BREAKFAST
LUNCHEON
DINNER
Eggs, buttermilk, or cheese are preferable to fish or chicken, but the latter may be used to bring up the proteid balance, when the former articles cannot be procured.
[C] Some one of these vegetables should be made very hot with red pepper for the purpose of exciting stomach and intestinal peristalsis.
A glass of water should be drunk at each of these meals.
Second Day: The same as the first, increasing or decreasing the quantity of food according to normal hunger. Do not overeat.
Third Day: The same as the second.
No doubt the symptoms the first two or three days will be that of weakness and emptiness. This will pass away during the week. There is ample nourishment in the articles prescribed to sustain the body even under strenuous physical labor, but these combinations of food may not be well assimilated the first few days.
FOURTH DAY:
BREAKFAST
LUNCHEON
DINNER
Wheat bran or a few Concord grapes just before retiring.
Fifth Day: The same as the fourth.
Sixth Day: The same as the first.
Seventh Day: The same as the second and so on, for a period of about fifteen days.
WINTER MENU
RUN-DOWN CONDITION
FLATULENCY—UNDERWEIGHT
It is well to remember that the best nourished person is the one who subsists upon the fewest number of things that will give to the body the required amount and character of nutrition.
Two glasses of cool water on rising, and the juice of a sweet orange. Devote as much time as possible to vigorous deep breathing exercises before an open window.
MENU I | MENU II |
---|---|
BREAKFAST | |
A cup of hot water | A spoonful or two of bran, |
A spoonful or two of wheat | cooked |
bran, cooked; serve with | Whole wheat gems with nut |
thin cream | butter |
Whole wheat gems eaten | One egg, boiled two minutes |
with nuts or nut butter | A glass of milk or a cup |
A cup of milk, cocoa, or chocolate [862] | of cocoa |
LUNCHEON | |
Three or four glasses of milk | Three or four eggs, whipped, |
Half a cup of wheat bran | into which put a teaspoonful |
Or | of sugar to each egg, and |
Baked white potatoes | a flavor of lemon juice, |
Butter | omitting milk |
A cup of water | |
The juice of an orange an | |
hour later | |
DINNER | |
Carrots, squash, or boiled | Turnips, carrots, or beets—any |
onions—any two of these | two or all of these |
A baked potato | A baked potato |
One egg | Fish |
A cup of milk or chocolate | A baked banana eaten with |
cream, and something | |
sweet if desired |
A baked omelet may be used now and then. (See recipe, p. 678.)
For "Choice of Menus," see p. 683.
Transcriber notes:
P. 831. 'o' changed to 'of'.
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