Impressions from the Wise Traditions Conference

I spent last weekend at the Weston A. Price Foundation Wise Traditions conference in King of Prussia, PA. Here are some highlights:

Spending time with several people in the diet-health community who I’ve been wanting to meet in person, including Chris Masterjohn, Melissa McEwen and John Durant. John and Melissa are the public face of the New York city paleo movement. The four of us spent most of the weekend together tossing around ideas and making merry. I’ve been corresponding with Chris quite a bit lately and we’ve been thinking through some important diet-health questions together. He is brimming with good ideas. I also got to meet Sally Fallon Morell, the founder and president of the WAPF.

Attending talks. The highlight was Chris Masterjohn’s talk “Heart Disease and Molecular Degeneration: the New Paradigm”, in which he described his compelling theory on oxidative damage and cardiovascular disease, among other things. You can read some of his earlier ideas on the subject here. Another talk I really enjoyed was by Anore Jones, who lived with an isolated Inuit group in Alaska for 23 years and ate a mostly traditional hunter-gatherer diet. The food and preparation techniques they used were really interesting, including various techniques for extracting fats and preserving meats, berries and greens by fermentation. Jones has published books on the subject that I suspect would be very interesting, including Nauriat Niginaqtuat, Plants that We Eat, and Iqaluich Niginaqtuat, Fish that We Eat. The latter is freely available on the web here.

I attended a speech by Joel Salatin, the prolific Virginia farmer, writer and agricultural innovator, which was fun. I enjoyed Sally Fallon Morell’s talk on US school lunches and the politics surrounding them. I also attended a talk on food politics by Judith McGeary, a farmer, attorney and and activist, in which she described the reasons to oppose or modify senate bill 510. The gist is that it will be disproportionately hard on small farmers who are already disfavored by current regulations, making high quality food more difficult to obtain, more expensive or even illegal. It’s designed to improve food safety by targeting sources of food-borne pathogens, but how much are we going to have to cripple national food quality and farmer livelihood to achieve this, and will it even be effective? I don’t remember which speaker said this quote, and I’m paraphrasing, but it stuck with me: “I just want to be able to eat the same food my grandmother ate.” In 2010, that’s already difficult to achieve. Will it be impossible in 2030?

Giving my own talk. I thought it went well, although attendance was not as high as I had hoped. The talk was titled “Kakana Dina: Diet and Health in the Pacific Islands”, and in it I examined the relationship between diet and health in Pacific island cultures with different diets and at various stages of modernization. I’ve covered some of this material on my blog, in my posts on Kitava, Tokelau and sweet potato eating cultures in New Guinea, but other material was new and I went into greater detail on food habits and preparation methods. I also dug up a number of historical photos dating back as far as the 1870s.

The food. All the meat was pasture-raised, organic and locally sourced if possible. There was raw pasture-raised cheese, milk and butter. There was wild-caught fish. There were many fermented foods, including sauerkraut, kombucha and sourdough bread. I was really impressed that they were able to put this together for an entire conference.

The vendors. There was an assortment of wholesome and traditional foods, particularly fermented foods, quality dairy and pastured meats. There was an entire farmer’s market on-site on Saturday, with a number of Mennonite vendors selling traditional foods. I bought a bottle of beet kvass, a traditional Russian drink used for flavor and medicine, which was much better than the beet kvass I’ve made myself in the past. Beets are a remarkable food, in part due to their high nitrate content—beet juice has been shown to reduce high blood pressure substantially, possibly by increasing the important signaling molecule nitric oxide. I got to meet Sandeep Agarwal and his family, owners of the company Pure Indian Foods, which domestically produces top-quality pasture-fed ghee (Indian-style clarified butter). They now make tasty spiced ghee in addition to the plain flavor. Sandeep and family donated ghee for the big dinner on Saturday, which was used to cook delicious wild-caught salmon steaks donated by Vital Choice.

There were some elements of the conference that were not to my taste. But overall I’m glad I was able to go, meet some interesting people, give my talk and learn a thing or two.

Malocclusion: Disease of Civilization, Part VII

Jaw Development During Adolescence

Beginning at about age 11, the skull undergoes a growth spurt. This corresponds roughly with the growth spurt in the rest of the body, with the precise timing depending on gender and other factors. Growth continues until about age 17, when the last skull sutures cease growing and slowly fuse. One of these sutures runs along the center of the maxillary arch (the arch in the upper jaw), and contributes to the widening of the upper arch*:

This growth process involves MGP and osteocalcin, both vitamin K-dependent proteins. At the end of adolescence, the jaws have reached their final size and shape, and should be large enough to accommodate all teeth without crowding. This includes the third molars, or wisdom teeth, which will erupt shortly after this period.

Reduced Food Toughness Correlates with Malocclusion in Humans

When Dr. Robert Corruccini published his seminal paper in 1984 documenting rapid changes in occlusion in cultures around the world adopting modern foodways and lifestyles (see this post), he presented the theory that occlusion is influenced by chewing stress. In other words, the jaws require good exercise on a regular basis during growth to develop normal-sized bones and muscles. Although Dr. Corruccini wasn't the first to come up with the idea, he has probably done more than anyone else to advance it over the years.

Dr. Corruccini's paper is based on years of research in transitioning cultures, much of which he conducted personally. In 1981, he published a study of a rural Kentucky community in the process of adopting the modern diet and lifestyle. Their traditional diet was predominantly dried pork, cornbread fried in lard, game meat and home-grown fruit, vegetables and nuts. The older generation, raised on traditional foods, had much better occlusion than the younger generation, which had transitioned to softer and less nutritious modern foods. Dr. Corruccini found that food toughness correlated with proper occlusion in this population.

In another study published in 1985, Dr. Corruccini studied rural and urban Bengali youths. After collecting a variety of diet and socioeconomic information, he found that food toughness was the single best predictor of occlusion. Individuals who ate the toughest food had the best teeth. The second strongest association was a history of thumb sucking, which was associated with a higher prevalence of malocclusion**. Interestingly, twice as many urban youths had a history of thumb sucking as rural youths.

Not only do hunter-gatherers eat tough foods on a regular basis, they also often use their jaws as tools. For example, the anthropologist and arctic explorer Vilhjalmur Stefansson described how the Inuit chewed their leather boots and jackets nearly every day to soften them or prepare them for sewing. This is reflected in the extreme tooth wear of traditional Inuit and other hunter-gatherers.

Soft Food Causes Malocclusion in Animals

Now we have a bunch of associations that may or may not represent a cause-effect relationship. However, Dr. Corruccini and others have shown in a variety of animal models that soft food can produce malocclusion, independent of nutrition.

The first study was conducted in 1951. Investigators fed rats typical dry chow pellets, or the same pellets that had been crushed and softened in water. Rats fed the softened food during growth developed narrow arches and small mandibles (lower jaws) relative to rats fed dry pellets.

Other research groups have since repeated the findings in rodents, pigs and several species of primates (squirrel monkeys, baboons, and macaques). Animals typically developed narrow arches, a central aspect of malocclusion in modern humans. Some of the primates fed soft foods showed other malocclusions highly reminiscent of modern humans as well, such as crowded incisors and impacted third molars. These traits are exceptionally rare in wild primates.

One criticism of these studies is that they used extremely soft foods that are softer than the typical modern diet. This is how science works: you go for the extreme effects first. Then, if you see something, you refine your experiments. One of the most refined experiments I've seen so far was published by Dr. Daniel E. Leiberman of Harvard's anthropology department. They used the rock hyrax, an animal with a skull that bears some similarities to the human skull***.

Instead of feeding the animals hard food vs. mush, they fed them raw and dried food vs. cooked. This is closer to the situation in humans, where food is soft but still has some consistency. Hyrax fed cooked food showed a mild jaw underdevelopment reminiscent of modern humans. The underdeveloped areas were precisely those that received less strain during chewing.

Implications and Practical Considerations

Besides the direct implications for the developing jaws and face, I think this also suggests that physical stress may influence the development of other parts of the skeleton. Hunter-gatherers generally have thicker bones, larger joints, and more consistently well-developed shoulders and hips than modern humans. Physical stress is part of the human evolutionary template, and is probably critical for the normal development of the skeleton.

I think it's likely that food consistency influences occlusion in humans. In my opinion, it's a good idea to regularly include tough foods in a child's diet as soon as she is able to chew them properly and safely. This probably means waiting at least until the deciduous (baby) molars have erupted fully. Jerky, raw vegetables and fruit, tough cuts of meat, nuts, dry sausages, dried fruit, chicken bones and roasted corn are a few things that should stress the muscles and bones of the jaws and face enough to encourage normal development.


* These data represent many years of measurements collected by Dr. Arne Bjork, who used metallic implants in the maxilla to make precise measurements of arch growth over time in Danish youths. The graph is reproduced from the book A Synopsis of Craniofacial Growth, by Dr. Don M. Ranly. Data come from Dr. Bjork's findings published in the book Postnatal Growth and Development of the Maxillary Complex. You can see some of Dr. Bjork's data in the paper "Sutural Growth of the Upper Face Studied by the Implant Method" (free full text).

** I don't know if this was statistically significant at p less than 0.05. Dr. Corruccini uses a cutoff point of p less than 0.01 throughout the paper. He's a tough guy when it comes to statistics!

*** Retrognathic.

Exercise and Bodyfat

I'm a firm believer that exercise is part of a healthy pattern of living. Hunter-gatherers had a word for exercise: "life". Getting outdoors and moving is one of the few things that differentiate modern humans from lab rats.

That being said, there are some common misconceptions about the activity patterns of hunter-gatherers and healthy non-industrial groups. They aren't (usually) couch potatoes, but they don't necessarily exercise a lot either. They range from very active to positively lazy, depending on the culture, the season and the gender concerned. Yet overweight is rare in all of them.

Consider the Kitavans. According to Dr. Staffan Lindeberg, the only overweight person on the whole island is someone who left for several years to live in a city. An average Kitavan man has a BMI of 20, which is very lean. Women have an average BMI of 18! A BMI of 25 is considered overweight and 30 is obese. The average Swede has a BMI of 25, the average American, 28. Kitavans have the activity level of a moderately active Swede, nothing more. They do the minimum amount of work required to grow their starchy tubers and fruit, and catch fish, all of which are abundant year-round. They are not restricted in calories.

Then there are the Tokelauans. Between 1968 and 1982, residents of the Pacific atolls of Tokelau gained roughly 11 pounds (5 kg) on average. This corresponded with a shift in diet from traditional Polynesian foods to a partial reliance on white flour, sugar and other processed foods. During this period, men exercised progressively less due to the introduction of the outboard motor, but the activity level of women stayed roughly the same. Both genders gained weight. Calorie intake didn't trend in any particular direction during the same time period.

Tokelauans who migrated to New Zealand saw a particularly large weight gain, gaining 22 pounds (10 kg) over the same time period. Their diet became even more Westernized than their relatives who remained on Tokelau. The authors of the Tokelau Island Migrant study felt that "most of the migrants expend greater energy in their work than is currently the case in Tokelau."

The "paradoxes" keep rolling in. In this recent study, investigators compared the energy expenditure of Nigerian and African-American women, using direct measurement (respiratory gas exchange and doubly labeled water) rather than questionnaires and observation. Here's what they found:

Mean body mass index (in kg/m(2)) was 23 among the Nigerians and 31 among the African Americans; the prevalences of obesity were 7% and 50%, respectively. After adjustment for body size, no differences in mean activity energy expenditure or physical activity level were observed between the 2 cohorts.

Are you bored yet? Here's another one, just in case your eyes are still open. I'll quote from Stefansson's Cancer, Disease of Civilization, referring to traditional point Barrow Inuit women in wintertime. The section in quotes comes from the anthropologist Dr. John Murdoch:

"They are large eaters, some of them, especially the women, eating all the time..." ...during the winter the Barrow women stirred around very little, did little heavy work, and yet "inclined more to be sparse than corpulent"

One last example. Americans have gained weight continually over the last 40 years, despite increasing leisure-time exercise and an increased energy expenditure. Our calorie intake has increased over the same time period, and the quality of our diet has deteriorated.

I think it's clear that the relationship between exercise and weight is not very tight. In my opinion, diet has a much larger influence on weight than exercise. Doing low-intensity "cardio" on a treadmill is almost totally ineffective for weight loss.

So can exercise help a person reach or maintain a healthy weight? Absolutely, but the type of exercise is critical. Exercise plugs into some of the same metabolic pathways as a healthy diet, normalizing hormone levels and increasing stress resitance. All you have to do is pop over to Chris's Conditioning Research to see a number of studies that compared chronic cardio (as Mark Sisson would say) to high-intensity, intermittent training (HIIT). HIIT is the winner every time by virtually every measure. Even though a person burns fewer calories sprinting on and off for five minutes than she does running for 30, she will still lose more fat and gain more muscle sprinting because of the metabolic shift that type of training produces.

In one study Chris posted, investigators compared the effect of two different exercise styles on fat loss and metabolic parameters. One group was assigned to low-intensity steady-state exercise, while the other was assigned to short 8-second sprints (called HIIE in this study). Here's what they found after 15 weeks:

Both exercise groups demonstrated a significant improvement (P less than 0.05) in cardiovascular fitness. However, only the HIIE group had a significant reduction in total body mass (TBM), fat mass (FM), trunk fat and fasting plasma insulin levels.

I think exercise is part of the fat loss / maintenance toolkit, along with intermittent fasting. But nothing beats a good diet.

The Myth of the High-Protein Diet

The phrase "low-carbohydrate diet" is a no-no in some circles, because it implies that a diet is high in fat. Often, the euphemism "high-protein diet" is used to avoid the mental image of a stick of butter wrapped in bacon. It's purely a semantic game, because there is no such thing as a diet in which the majority of calories come from protein. The ability of the human body to metabolize protein ends at about 1/3 of calories (1, 2), and the long-term optimum may be lower still. Low-carbohydrate diets (yes, the ones that are highly effective for weight loss and general health) are high-fat diets.

Healthy cultures around the world tend to consume roughly 10 to 20% of calories from protein:

Masai - 19%

Kitava - 10%

Tokelau - 12%

Inuit - 20%, according to Stefansson

Kuna - 12%

Sweden - 12%

United States - 15%

Human milk - 6%

The balance comes from fat and carbohydrate. Ask a traditional Inuit. If there's no fat on your meat, you may as well starve. Literally. "Rabbit starvation" was a term coined by American explorers who quickly realized that living on lean game is somewhere between unhealthy and fatal.

In the early 1900s, anthropologist and explorer Vilhjalmur Stefansson lived for several years among completely isolated Canadian Inuit (Eskimo) who had never seen a white person before. They were literally a stone-age culture, completely uninfluenced by the modern world. They are representative of how some of our paleolithic ancestors would have lived. Here's Stefansson, quoted from My Life With the Eskimo (1913):

In certain places and in certain years, rabbits are an important article of diet, but even when there is an abundance of this animal, the Indians consider themselves starving if they get nothing else, - and fairly enough, as my own party can testify, for any one who is compelled in winter to live for a period of several weeks on lean meat will actually starve, in this sense: that there are lacking from his diet certain necessary elements, notably fat, and it makes no difference how much he eats, he will be hungry at the end of each meal, and eventually he will lose strength or become actually ill. The Eskimo who have provided themselves in summer with bags of seal oil can carry them into a rabbit country and can live on rabbits satisfactorily for months.

Dr. Loren Cordain, in his excellent paper "Plant-Animal Subsistence Ratios and Macronutrient Energy Estimations in Worldwide Hunter-Gatherer Diets", argues based on calculated estimates that historical hunter-gatherers generally consumed between 19 and 35% of calories from protein:

This high reliance on animal-based foods coupled with the relatively low carbohydrate content of wild plant foods produces universally characteristic macronutrient composition ratios in which protein is elevated (19- 35% of energy) at the expense of carbohydrates (22- 40% of energy).

Later, he states that the most plausible range of fat intakes is 28- 58%. I agree with his assertion that hunter-gatherer diets tended to be relatively high in protein compared with contemporary diets, but I think his protein numbers are a bit high. Why? Because he calculates macronutrient composition based on the whole-carcass fat content of "representative" animals such as deer.

It's clear from the anthropological literature that hunter-gatherers did not go after representative animals. They went after the fattest animals they could find. They knew exactly which animals were fattest in which seasons, which individuals were likely to be fattest within a herd, and which bodyparts were fattest on an individual animal. For example, Stefansson describes how the Inuit relied on (extremely fat) seal in the spring, wolf in the summer, and caribou and bear in the fall and early winter. If necessary, they would discard lean meat in favor of tongue, marrow, internal organs, back fat and other fat-rich bodyparts. This was in order to obtain a minimum of 65% of calories from fat.

Hunter-gatherers would sometimes even provision themselves with enough fat in advance to last a lean season or two. This was true for dozens of tribes along the Northwest coast of North America that relied chiefly on animal foods. Here's another excerpt from My Life With the Eskimo:

...[spring] is the season which the Eskimo give up to the accumulation of blubber for the coming year. Fresh oil is not nearly so palatable or digestible as oil that has been allowed to ferment in a sealskin bag through the summer, and besides that it is difficult often to get seals in the fall... Each family will in the spring be able to lay away from three to seven bags of oil. Such a bag consists of the whole skin of the common seal... This makes a bag which will hold about three hundred pounds of blubber, so that a single family's store of oil for the fall will run from nine hundred to two thousand pounds.

That's a lot of oil! Some of it would have been used to light oil lamps, but much of it would have been eaten. I think Cordain's estimate of the protein intake of hunter-gatherers is a bit high due to his underestimating fat intake. His paper shows that if you break historical hunter-gatherer cultures into 10 groups based on their reliance on animal foods, the most numerous group (46 out of 229) obtained 85- 100% of their food from animal sources. In other words, approximately 20% of historical hunter-gatherers were carnivorous or nearly so. If the human protein ceiling is 35% of calories, that means roughly one fifth of hunter-gatherers ate 65% or more of their calories as fat. It also means carnivory and high-fat diets are not just anomalies, they are part of the human ecological niche. Zero out of 229 groups obtained less than 16% of calories from animal foods. Vegetarianism is not part of our niche.

Further, although the human body can theoretically tolerate up to 35% protein by calories, even that amount is probably not optimal in the long term. I think that's suggested by the fact that diverse cultures tend to find a source of fat and/or carbohydrate that keeps their protein intake roughly between 10 and 20%. I think it's fine to eat plenty of protein, and there's no need to deliberately restrict it, because your tastes will tell you if you're eating too much. However, "high-protein diet" as a euphemism for low-carbohydrate diet is a misnomer. Low-carbohydrate diets are, and have always been, high-fat diets.

The Inuit: Lessons from the Arctic

The Inuit (also called Eskimo) are a group of hunter-gatherer cultures who inhabit the arctic regions of Alaska, Canada and Greenland. They are a true testament to the toughness, adaptability and ingenuity of the human species. Their unique lifestyle has a lot of information to offer us about the boundaries of the human ecological niche. Weston Price was fascinated by their excellent teeth, good nature and overall robust health. Here's an excerpt from Nutrition and Physical Degeneration:

"In his primitive state he has provided an example of physical excellence and dental perfection such as has seldom been excelled by any race in the past or present...we are also deeply concerned to know the formula of his nutrition in order that we may learn from it the secrets that will not only aid in the unfortunate modern or so-called civilized races, but will also, if possible, provide means for assisting in their preservation."

The Inuit are cold-hardy hunters whose traditional diet consists of a variety of sea mammals, fish, land mammals and birds. They invented some very sophisticated tools, including the kayak, whose basic design has remained essentially unchanged to this day. Most groups ate virtually no plant food. Their calories came primarily from fat, up to 75%, with almost no calories coming from carbohydrate. Children were breast-fed for about three years, and had solid food in their diet almost from birth. As with most hunter-gatherer groups, they were free from chronic disease while living a traditional lifestyle, even in old age. Here's a quote from Observations on the Western Eskimo and the Country they Inhabit; from Notes taken During two Years [1852-54] at Point Barrow, by Dr. John Simpson:

These people [the Inuit] are robust, muscular and active, inclining rather to spareness [leanness] than corpulence [overweight], presenting a markedly healthy appearance. The expression of the countenance is one of habitual good humor. The physical constitution of both sexes is strong. Extreme longevity is probably not unknown among them; but as they take no heed to number the years as they pass they can form no guess of their own ages.

One of the common counterpoints I hear to the idea that high-fat hunter-gatherer diets are healthy, is that exercise protects them from the ravages of fat. The Inuit can help us get to the bottom of this debate. Here's a quote from Cancer, Disease of Civilization (1960, Vilhjalmur Stefansson):

"They are large eaters, some of them, especially the women, eating all the time..." ...during the winter the Barrow women stirred around very little, did little heavy work, and yet "inclined more to be sparse than corpulent" [quotes are the anthropologist Dr. John Murdoch, reproduced by Stefansson].

Another argument I sometimes hear is that the Inuit are genetically adapted to their high-fat diet, and the same food would kill a European. This appears not to be the case. The anthropologist and arctic explorer Vilhjalmur Stefansson spent several years living with the Inuit in the early 20th century. He and his fellow Europeans and Americans thrived on the Inuit diet. American doctors were so incredulous that they defied him and a fellow explorer to live on a diet of fatty meat only for one year, under the supervision of the American Medical Association. To the doctors' dismay, they remained healthy, showing no signs of scurvy or any other deficiency (JAMA 1929;93:20–2).

Yet another amazing thing about the Inuit was their social structure. Here's Dr. John Murdoch again (quoted from Cancer, Disease of Civilization):

The women appear to stand on a footing of perfect equality with the men, both in the family and the community. The wife is the constant and trusted companion of the man in everything except the hunt, and her opinion is sought in every bargain or other important undertaking... The affection of parents for their children is extreme, and the children seem to be thoroughly worthy of it. They show hardly a trace of fretfulness or petulance so common among civilized children, and though indulged to an extreme extent are remarkably obedient. Corporal punishment appears to be absolutely unknown, and children are rarely chided or punished in any way.

Unfortunately, those days are long gone. Since adopting a modern processed-food diet, the health and social structure of the Inuit has deteriorated dramatically. This had already happened to most groups by Weston Price's time, and is virtually complete today. Here's Price:

In the various groups in the lower Kuskokwim seventy-two individuals who were living exclusively on native foods had in their 2,138 teeth only two teeth or 0.09 per cent that had ever been attacked by tooth decay. In this district eighty-one individuals were studied who had been living in part or in considerable part on modern foods, and of their 2, 254 teeth 394 or 13 per cent had been attacked by dental caries. This represents an increase in dental caries of 144 fold.... When these adult Eskimos exchange their foods for our modern foods..., they often have very extensive tooth decay and suffer severely.... Their plight often becomes tragic since there are no dentists in these districts.

Modern Inuit also suffer from very high rates of diabetes and overweight. This has been linked to changes in diet, particularly the use of white flour, sugar and processed oils.

Overall, the unique lifestyle and diet of the Inuit have a lot to teach us. First, that humans are capable of being healthy as carnivores. Second, that we are able to thrive on a high-fat diet. Third, that we are capable of living well in extremely harsh and diverse environments. Fourth, that the shift from natural foods to processed foods, rather than changes in macronutrient composition, is the true cause of the diseases of civilization.

Mortality and Lifespan of the Inuit

One of the classic counter-arguments that's used to discredit accounts of healthy hunter-gatherers is the fallacy that they were short-lived, and thus did not have time to develop diseases of old age like cancer. While the life expectancy of hunter-gatherers was not as high as ours today, most groups had a significant number of elderly individuals, who sometimes lived to 80 years and beyond. Mortality came mostly from accidents, warfare and infectious disease rather than chronic disease.

I found a a mortality table from the records of a Russian mission in Alaska (compiled by Veniaminov, taken from Cancer, Disease of Civilization), which recorded the ages of death of a traditionally-living Inuit population during the years 1822 to 1836. Here's a plot of the raw data:

Here's the data re-plotted in another way. I changed the "bin size" of the bars to 10 year spans each (rather than the bins above, which vary from 3 to 20 years). This allows us to get a better picture of the number of deaths over time. I took some liberties with the data to do this, breaking up a large bin equally into two smaller bins. I also left out the infant mortality data, which are interesting but not relevant to this post:


Excluding infant mortality, about 25% of their population lived past 60. Based on these data, the approximate life expectancy (excluding infant mortality) of this Inuit population was 43.5 years. It's possible that life expectancy would have been higher before contact with the Russians, since they introduced a number of nasty diseases to which the Inuit were not resistant. Keep in mind that the Westerners who were developing cancer alongside them probably had a similar life expectancy at the time. Here's the data plotted in yet another way, showing the number of individuals surviving at each age, out of the total deaths recorded:


It's remarkably linear. Here's the percent chance of death at each age:


In the next post, I'll briefly summarize cancer data from several traditionally-living cultures other than the Inuit.

Cancer Among the Inuit

I remember coming across a table in the book Eat, Drink and Be Healthy (by Dr. Walter Willett-- you can skip it) a few years back. Included were data taken from Dr. Ancel Keys' "Seven Countries Study". It showed the cancer rates for three industrialized nations: the US, Greece and Japan. Although specific cancers differed, the overall rate was remarkably similar for all three: about 90 cancers per 100,000 people per year. Life expectancy was also similar, with Greece leading the pack by 4 years (the data are from the 60s).

The conclusion I drew at the time was that lifestyle did not affect the likelihood of developing cancer. It was easy to see from the same table that heart disease was largely preventable, since the US had a rate of 189 per 100,000 per year, compared to Japan's 34. Especially since I also knew that Japanese-Americans who eat an American diet get heart disease just like European-Americans.

I fell prey to the same logic that is so pervasive today: the idea that you will eventually die of cancer if no other disease gets you first. It's easy to believe, since the epidemiology seems to tell us that lifestyle doesn't affect overall cancer rates very much. There's only one little glitch... those epidemiological studies compare the sick to the sicker.

Here's the critical fact that modern medicine seems to have forgotten: hunter-gatherers and numerous non-industrial populations throughout the world have vanishingly small cancer rates. This fact was widely accepted in the 19th century and the early 20th, but has somehow managed to fade into obscurity. I know it sounds unbelievable, but allow me to explain.

I recently read Cancer, Disease of Civilization by Vilhjalmur Stefansson (thanks Peter). It really opened my eyes. Stefansson was an anthropologist and arctic explorer who participated in the search for cancer among the Canadian and Alaskan Inuit. Traditionally, most Inuit groups were strictly carnivorous, eating a diet of raw and cooked meat and fish almost exclusively. Their calories came primarily from fat, roughly 80%. They alternated between seasons of low and high physical activity, and typically enjoyed an abundant food supply.

Field physicians in the arctic noted that the Inuit were a remarkably healthy people. While they suffered from a tragic susceptibility to European communicable diseases, they did not develop the chronic diseases we now view as part of being human: tooth decay, overweight, heart attacks, appendicitis, constipation, diabetes and cancer. When word reached American and European physicians that the Inuit did not develop cancer, a number of them decided to mount an active search for it. This search began in the 1850s and tapered off in the 1920s, as traditionally-living Inuit became difficult to find.

One of these physicians was captain George B. Leavitt. He actively searched for cancer among the traditionally-living Inuit from 1885 to 1907. Along with his staff, he performed 50,000 examinations a year for the first 15 years, and 25,000 a year thereafter. He did not find a single case of cancer. At the same time, he was regularly diagnosing cancers among the crews of whaling ships and other Westernized populations. It's important to note two relevant facts about Inuit culture: first, their habit of going shirtless indoors. This would make visual inspection for external cancers very easy. Second, the Inuit generally had great faith in Western doctors and would consult them even for minor problems. Therefore, doctors in the arctic had ample opportunity to inspect them for cancer.

A study was published in 1934 by F.S. Fellows in the U.S Treasury's Public Health Reports entitled "Mortality in the Native Races of the Territory of Alaska, With Special Reference to Tuberculosis". It contained a table of cancer mortality deaths for several Alaskan regions, all of them Westernized to some degree. However, some were more Westernized than others. In descending order of Westernization, the percent of deaths from cancer were as follows:


Keep in mind that all four of the Inuit populations in this table were somewhat Westernized. It's clear that cancer incidence tracks well with Westernization. By "Westernization", what I mean mostly is the adoption of European food habits, including wheat flour, sugar, canned goods and vegetable oil. Later, most groups also adopted Western-style houses, which incidentally were not at all suited to their harsh climate.

In the next post, I'll address the classic counter-argument that hunter-gatherers were free of cancer because they didn't live long enough to develop it.