Acne Anecdotes

Thanks for all the interesting comments on the last post. Here are some highlights:

Methuselah:

I had bad acne as a teenager and although the worst of it did clear up for as I got older (this seems to be the pattern, so presumably there are hormones other than insulin involved,) I still had spotty skin into my 20s and 30s. When I went onto a Paleo diet my skin cleared up totally.

Neil:

I am lucky enough to have reasonable skin already, but reducing carbs and vegetable oils has at the least coincided with a notable improvement

Jeff:

I used to get... 2-3 pimples most months. Since I have gone Paleo I have had not a single pimple in 8 months.

Itsthewoo:

I had terrible acne that lasted from 9 yrs right up until 20 years - the same week I started the atkins diet. Then it stopped.

I see the skin as a barometer of health. A truly healthy person's skin is smooth, free of acne and has a gentle blush in the cheeks. Unhealthy skin is pale, puffy, pasty, dry, oily, or excessively red in the cheeks and face. It's no coincidence that what we perceive as attractive also happens to indicate health.

I'll add one more anecdote, from myself. In high school, my friends called me "the ghost" because my skin was so pale. I had mild but persistent acne and difficulty tanning. Over the past few years, as I've improved my diet, my skin has smoothed, I've regained the color in my cheeks, I've regained my ability to tan well and my acne has disappeared.

Sunscreen and Melanoma

Melanoma is the most deadly type of skin cancer, accounting for most skin cancer deaths in the US. As Ross pointed out in the comments section of the last post, there is an association between severe sunburn at a young age and later development of melanoma. Darker-skinned people are also more resistant to melanoma. The association isn't complete, however, since melanoma sometimes occurs on the soles of the feet and even in the intestine. This may be due to the fact that there are several types of melanoma, potentially with different causes.

Another thing that associates with melanoma is the use of sunscreen above a latitude of 40 degrees from the equator. In the Northern hemisphere, 40 degrees draws a line between New York city and Beijing. A recent meta-analysis found consistently that sunscreen users above 40 degrees are at a higher risk of melanoma than people who don't use sunscreen, even when differences in skin color are taken into account. Wearing sunscreen decreased melanoma risk in studies closer to the equator. It sounds confusing, but it makes sense once you know a little bit more about UV rays, sunscreen and the biology of melanoma.

The UV light that reaches the Earth's surface is composed of UVA (longer) and UVB (shorter) wavelengths. UVB causes sunburn, while they both cause tanning. Sunscreen blocks UVB, preventing burns, but most brands only weakly block UVA. Sunscreen allows a person to spend more time in the sun than they would otherwise, and attenuates tanning. Tanning is a protective response (among several) by the skin that protects it against both UVA and UVB. Burning is a protective response that tells you to get out of the sun. The result of diminishing both is that sunblock tends to increase a person's exposure to UVA rays.

It turns out that UVA rays are more closely associated with melanoma than UVB rays, and typical sunscreen fails to prevent melanoma in laboratory animals. It's also worth mentioning that sunscreen does prevent more common (and less lethal) types of skin cancer.

Modern tanning beds produce a lot of UVA and not much UVB, in an attempt to deliver the maximum tan without causing a burn. Putting on sunscreen essentially does the same thing: gives you a large dose of UVA without much UVB.

The authors of the meta-analysis suggest an explanation for the fact that the association changes at 40 degrees of latitude: populations further from the equator tend to have lighter skin. Melanin blocks UVA very effectively, and the pre-tan melanin of someone with olive skin is enough to block most of the UVA that sunscreen lets through. The fair-skinned among us don't have that luxury, so our melanocytes get bombarded by UVA, leading to melanoma. This may explain the incredible rise in melanoma incidence in the US in the last 35 years, as people have also increased the use of sunscreen. It may also have to do with tanning beds, since melanoma incidence has risen particularly in women.

In my opinion, the best way to treat your skin is to tan gradually, without burning. Use clothing and a wide-brimmed hat if you think you'll be in the sun past your burn threshold. If you want to use sunscreen, make sure it blocks UVA effectively. Don't rely on the manufacturer's word; look at the ingredients list. It should contain at least one of the following: titanium dioxide, zinc oxide, avobenzone (Parsol 1789), Mexoryl SX (Tinosorb). It's best if it's also paraben-free.

Fortunately, as an external cancer, melanoma is easy to diagnose. If caught early, it can be removed without any trouble. If caught a bit later, surgeons may have to remove lymph nodes, which makes your face look like John McCain's. Later than that and you're probably a goner. If you have any questions about a growth, especially one with irregular borders that's getting larger, ask your doctor about it immediately!

Interview with Chris Voigt of 20 Potatoes a Day

Introduction

Chris Voigt is the executive director of the Washington State Potato Commission, which supports and promotes the Washington state potato industry (1). On October 1st, Mr. Voigt began a two month, potato-only diet to raise awareness about the health properties of potatoes. It was partially in response to the recent decision by the federal WIC (Women, Infants and Children) low-income assistance program to remove potatoes from the list of vegetables it will pay for. Mr. Voigt's potato diet has been a media sensation, leading to widespread coverage in several countries. He maintains a website and blog called 20 Potatoes a Day.


Diet Facts

For 60 days, Mr Voigt's diet consisted of nothing but potatoes and a small amount of cooking oil (canola and olive), with no added nutritional supplements. Based on what he has told me, I estimate that 10-15% of his calories came from fat, 10% from protein and 75-80% from high-glycemic carbohydrate. His calorie intake ranged from 1,600 kcal (first 3 weeks) to 2,200 kcal (remaining 5.5 weeks) per day. Prior to the diet, he estimated that his calorie requirement was 2,200 kcal, so he attempted to stay as close to that as possible.

Health Markers

Mr. Voigt has posted the results of physical examinations, including bloodwork, from the beginning, middle and end of the diet. The change he experienced during that time is nothing short of remarkable. He shed 21 pounds, his fasting glucose decreased by 10 mg/dL (104 to 94 mg/dL), his serum triglycerides dropped by nearly 50%, his HDL cholesterol increased slightly, and his calculated LDL cholesterol dropped by a stunning 41% (142 to 84 mg/dL). The changes in his HDL, triglycerides and fasting glucose are consistent with improved insulin sensitivity (2, 3), and are not consistent with a shift of LDL particle size to the dangerous "small, dense" variety (4).

Interview

What was your diet like prior to the potato diet?

My best estimate is that it was probably a little better than the average US citizen only because of a high rate of produce consumption. I generally would eat about 10 servings of fruits and vegetables a day. But I ate everything else too. I would eat a wide range of food, a little bit of everything, including foods that aren’t considered “healthy”.

You essentially ate nothing but potatoes, fat and flavorings for two months. Can you give us an idea of how much fat you were eating? What kind of fat was it?

I averaged about 2 tablespoons of cooking oil a day over the span of the 60 days. Canola oil was used for frying and olive oil was used for roasting.

How was your digestion?

Potatoes are pretty easy on the digestive system. I actually got a lot of emails from people who suffer from severe digestive disorders and literally, potatoes are the only thing they can eat. My 60 days of potatoes was nothing compared to some folks with these digestive disorders. I was getting a lot of fiber so things were pretty regular, but not too regular :)

You lost 21 pounds during your two months of eating only potatoes. Do you have a sense of whether it came out of fat, muscle or both? For example, did your pants become looser?

Pants definitely became looser. I also noticed it in my neck size for shirts. I’m assuming most all of it was due to fat loss.

Do you think you were able to meet your calorie goal of 2,200 calories per day? Were you hungry during the diet?

I was not meeting the goal of 2,200 calories a day during the first 3 weeks of the diet. During the first three weeks of the diet I only ate until I was full. I didn’t realize that potatoes would give me such a high sense of fullness after each meal. So for those first 3 weeks, I was only consuming about 1,600 calories a day. After the third week I had lost 12 pounds and realized that I needed to change strategy. I then began to eat more potatoes despite the sense of fullness I was experiencing. So for the remaining 5 ½ weeks I was very diligent about eating the 2,200 calories. I continued to lose weight but at a slower place. I lost an additional 9 pounds over the course of those remaining 5 1/2 weeks. At the start of my diet I estimated, via a couple different on line calorie calculators, that I burn about 2,200 calories a day. Since I continued to lose weight, I’m assuming I actually burn closer to 2,800 calories a day. Something that may have also played a role in continued weight loss was the amount of resistant starch I was getting from potatoes. I ate a lot of cooked potatoes that had been refrigerated. These are generally higher in resistant starch. If I were to do the diet again, I would like to set up an experiment to gauge the effect of resistant starch.

What foods did you crave the most?

I craved mostly foods that had a “juicy crunch”, like an apple, or cucumbers, or carrots, or celery. I never acquired a taste for raw potatoes so virtually all the potatoes I consumed were cooked. No matter how you cook your potatoes, you always get that same soft cooked texture. I craved foods with a crisper texture.

How was your energy level?

My energy level was very good the entire time of the diet. I really didn’t notice a change in energy at the start of the diet so I assumed that the potato diet didn’t have a positive or negative effect on my energy level. It wasn’t until I finished the diet and started to consume other foods that I noticed my energy level has seemed to drop a bit.

How did you feel overall? Were there any unexpected effects of the diet?

I felt really good on the diet. I had lots of energy, slept good at night, and seemed to avoid the cold viruses that circulated at home and work.

The only unusual thing that occurred is what my wife told me. I’m a habitual snorer. The day I started eating only potatoes, my snoring stopped. It restarted the day I started to include other foods in my diet. I’m assuming it was just some weird coincidence but that’s what she tells me.

My doctor and I expected my cholesterol to drop but not at the level we saw. I’ve had borderline high cholesterol for the past decade. I started the diet at 214 and saw it drop to 147 at the end of 60 days. We anticipated a drop of maybe 10-25 points. It was a huge surprise to see a 67 point drop.

Your fasting glucose went from 104 mg/dL, which I consider high, to 94 mg/dL, which is on the high side for someone eating a high-carbohydrate diet, but within the clinically normal range. Do you have a family history of diabetes?

No history of diabetes. My parents are in their early eighties and their parents lived to their 70’s and 80’s with no history of type one or two diabetes.

Reading your blog posts, it seemed like you were having a hard time with the diet at first, but after a while you complained less and even seemed to enjoy it at times. Did you get used to it?

I would say that week 2 and 3 were probably the hardest. The first week was easy probably because of the novelty of the diet. Then reality set in for week 2 and 3. After that, I found my groove and it got easier. During the work week was easy but weekends, particularly Sunday’s, were the hardest. During the work week I did most of my eating at my desk so I wasn’t around a lot of other people eating or surrounded by other foods. Weekends were more difficult because I was around other people every meal and always had other foods in front of me at home.

What kinds of potatoes did you eat?

I literally ate every kind of potato I could get my hands on. I ate yellow skin/yellow flesh potatoes, red skin/white flesh, red skin/red flesh, purple skin/white flesh, purple skin/purple flesh, russet potatoes with white flesh, russet potatoes with yellow flesh, white potatoes, yellow potatoes with white flesh, purple fingerlings, yellow fingerlings, red fingerlings and numerous experimental varieties.

Did you peel them or eat the skin?

I ate the skin at least 90% of the time if not more. There is a myth that all the nutrition in a potato is in the skin or right under the skin. That’s not true, there are nutrients spread throughout the potato but most of the fiber is located in the skin.

What variety of potato is your favorite?

It really depended on the cooking method. For frying, I preferred russet potatoes. For baking, I preferred red potatoes. For mashed, I preferred yellow potatoes. For roasting, a toss-up between russets and reds.

How long did it take you after the diet ended to eat another potato?

As strange as it sounds, potatoes were my first two meals after my diet ended. I was saving my first non-potato meal for a special event that was planned at the local Head Start facility. The beef, dairy, apple, and potato producers put together a nice dinner event and nutrition workshop for all the kids and their parents at the Head Start center in Moses Lake. I still eat potatoes pretty regularly, but most of the time now I’m eating them with more than just seasonings.

Are there any other facts about potatoes you think Whole Health Source readers might find interesting?

Just a reminder that I’m not encouraging anyone to follow in my footsteps and eat just potatoes. This diet is not intended to be the next “fad” diet but was simply a bold statement to remind people that there is a tremendous amount of nutrition in a potato. There is no one food product that can meet all of your nutritional needs. I fully support a well balanced healthy diet, which potatoes can be a part of.

In 2008, the United Nations declared it to be the “Year of the Potato”. This was done to bring attention to the fact that the potato is one of the most efficient crops for developing nations to grow, as a way of delivery a high level of nutrition to growing populations, with fewer needed resources than other traditional crops. In the summer of 2010, China approved new government policies that positioned the potato as the key crop to feed its growing population. The Chinese government formed a partnership with the International Potato Center in Peru to help them facilitate this new emphasis on the potato.

Thanks Chris, for doing your experiment and taking the time to share these details with us!

In the next post, I'll give my interpretation of all this.

More Thoughts on Cold Training: Biology Chimes In

Now that the concept of cold training for cold adaptation and fat loss has received scientific support, I've been thinking more about how to apply it.  A number of people have been practicing cold training for a long time, using various methods, most of which haven't been scientifically validated.  That doesn't mean the methods don't work (some of them probably do), but I don't know how far we can generalize individual results prior to seeing controlled studies.

The studies that were published two weeks ago used prolonged, mild cold exposure (60-63 F air) to achieve cold adaptation and fat loss (1, 2).  We still don't know whether or not we would see the same outcome from short, intense cold exposure such as a cold shower or brief cold water plunge.  Also, the fat loss that occurred was modest (5%), and the subjects started off lean rather than overweight.  Normally, overweight people lose more fat than lean people given the same fat loss intervention, but this possibility remains untested.  So the current research leaves a lot of stones unturned, some of which are directly relevant to popular cold training concepts.

In my last post on brown fat, I mentioned that we already know a lot about how brown fat activity is regulated, and I touched briefly on a few key points.  As is often the case, understanding the underlying biology provides clues that may help us train more effectively.  Let's see what the biology has to say.

Biology of Temperature Regulation

Polyphenols, Hormesis and Disease: Part II

In the last post, I explained that the body treats polyphenols as potentially harmful foreign chemicals, or "xenobiotics". How can we reconcile this with the growing evidence that at least a subset of polyphenols have health benefits?

Clues from Ionizing Radiation

One of the more curious things that has been reported in the scientific literature is that although high-dose ionizing radiation (such as X-rays) is clearly harmful, leading to cancer, premature aging and other problems, under some conditions low-dose ionizing radiation can actually decrease cancer risk and increase resistance to other stressors (1, 2, 3, 4, 5). It does so by triggering a protective cellular response, increasing cellular defenses out of proportion to the minor threat posed by the radiation itself. The ability of mild stressors to increase stress resistance is called "hormesis." Exercise is a common example. I've written about this phenomenon in the past (6).

The Case of Resveratrol

Resveratrol is perhaps the most widely known polyphenol, available in supplement stores nationwide. It's seen a lot of hype, being hailed as a "calorie restriction mimetic" and the reason for the "French paradox."* But there is quite a large body of evidence suggesting that resveratrol functions in the same manner as low-dose ionizing radiation and other bioactive polyphenols: by acting as a mild toxin that triggers a hormetic response (7). Just as in the case of radiation, high doses of resveratrol are harmful rather than helpful. This has obvious implications for the supplementation of resveratrol and other polyphenols. A recent review article on polyphenols stated that while dietary polyphenols may be protective, "high-dose fortified foods or dietary supplements are of unproven efficacy and possibly harmful" (8).

The Cellular Response to Oxidants

Although it may not be obvious, radiation and polyphenols activate a cellular response that is similar in many ways. Both activate the transcription factor Nrf2, which activates genes that are involved in detoxification of chemicals and antioxidant defense**(9, 10, 11, 12). This is thought to be due to the fact that polyphenols, just like radiation, may temporarily increase the level of oxidative stress inside cells. Here's a quote from the polyphenol review article quoted above (13):

We have found that [polyphenols] are potentially far more than 'just antioxidants', but that they are probably insignificant players as 'conventional' antioxidants. They appear, under most circumstances, to be just the opposite, i.e. prooxidants, that nevertheless appear to contribute strongly to protection from oxidative stress by inducing cellular endogenous enzymic protective mechanisms. They appear to be able to regulate not only antioxidant gene transcription but also numerous aspects of intracellular signaling cascades involved in the regulation of cell growth, inflammation and many other processes.

It's worth noting that this is essentially the opposite of what you'll hear on the evening news, that polyphenols are direct antioxidants. The scientific cutting edge has largely discarded that hypothesis, but the mainstream has not yet caught on.

Nrf2 is one of the main pathways by which polyphenols increase stress resistance and antioxidant defenses, including the key cellular antioxidant glutathione (14). Nrf2 activity is correlated with longevity across species (15). Inducing Nrf2 activity via polyphenols or by other means substantially reduces the risk of common lifestyle disorders in animal models, including cardiovascular disease, diabetes and cancer (16, 17, 18), although Nrf2 isn't necessarily the only mechanism. The human evidence is broadly consistent with the studies in animals, although not as well developed.

One of the most interesting effects of hormesis is that exposure to one stressor can increase resistance to other stressors. For example, long-term consumption of high-polyphenol chocolate increases sunburn resistance in humans, implying that it induces a hormetic response in skin (19). Polyphenol-rich foods such as green tea reduce sunburn and skin cancer development in animals (20, 21).

Chris Masterjohn first introduced me to Nrf2 and the idea that polyphenols act through hormesis. Chris studies the effects of green tea on health, which seem to be mediated by polyphenols.

A Second Mechanism

There is a place in the body where polyphenols are concentrated enough to be direct antioxidants: in the digestive tract after consuming polyphenol-rich foods. Digestion is a chemically harsh process that readily oxidizes ingested substances such as polyunsaturated fats (22). Oxidized fat is neither healthy when it's formed in the deep fryer, nor when it's formed in the digestive tract (23, 24). Eating polyphenol-rich foods effectively prevents these fats from being oxidized during digestion (25). One consequence of this appears to be better absorption and assimilation of the exceptionally fragile omega-3 polyunsaturated fatty acids (26).

What does it all Mean?

I think that overall, the evidence suggests that polyphenol-rich foods are healthy in moderation, and eating them on a regular basis is generally a good idea. Certain other plant chemicals, such as suforaphane found in cruciferous vegetables, and allicin found in garlic, exhibit similar effects and may also act by hormesis (27). Some of the best-studied polyphenol-rich foods are tea (particularly green tea), blueberries, extra-virgin olive oil, red wine, citrus fruits, hibiscus tea, soy, dark chocolate, coffee, turmeric and other herbs and spices, and a number of traditional medicinal herbs. A good rule of thumb is to "eat the rainbow", choosing foods with a variety of colors.

Supplementing with polyphenols and other plant chemicals in amounts that would not be achievable by eating food is probably not a good idea.


* The "paradox" whereby the French eat a diet rich in saturated fat, yet have a low heart attack risk compared to other affluent Western nations.

** Genes containing an antioxidant response element (ARE) in the promoter region. ARE is also sometimes called the electrophile response element (EpRE).

Acne: Disease of Civilization

I often focus on the bigger facets of the disease of civilization. Things like cardiovascular disease and cancer, which are major killers and the subject of intensive research. But the disease of civilization is a spectrum of disorders that affects the body in countless ways, large and small.

I recently read an interesting paper written by an all-star cast, including Loren Cordain, Staffan Lindeberg and Boyd Eaton. It's titled "Acne Vulgaris: A Disease of Western Civilization". The paper presents data from two different groups, the Kitavans of Papua New Guinea and the Ache hunter-gatherers of Paraguay. Both were systematically examined by doctors trained to diagnose acne. Out of 1,200 Kitavans and 115 Ache of all ages, not a single case of acne was observed. Hunter-gatherers and other healthy non-industrial cultures have nice skin. I dare you to find a pimple in Nutrition and Physical Degeneration.

In Western societies, acne is a fact of life. The paper states that 79 to 95% of modern adolescents suffer from some degree of acne, along with about 50% of young adults. That's an enormous difference.

The paper presents a very Cordain-esque hypothesis to explain the high incidence of acne in Western societies. In sum, they state that the Western diet causes hyperinsulinemia, which is thought to promote acne. This is due to insulin's effects on skin cell proliferation, its interference with the retinoid (vitamin A) signaling pathway, and its effect on sebum production.

They then proceed to point the finger at the glycemic index/load of the Western diet as the culprit behind hyperinsulinemia. It's an unsatisfying explanation because the Kitavans eat a diet that has a high glycemic load due to its high carbohydrate content, low fat content, and relatively high-glycemic index foods. I think the answer is more likely to reside in the specific types of carbohydrate (processed wheat) rather than their speed of digestion, with possible contributions from refined vegetable oil and an excessive sugar intake.

What Puts Fat Into Fat Cells, and What Takes it Out?

Body fatness at its most basic level is determined by the rate of fat going into vs. out of fat cells. This in/out cycle occurs regardless of conditions outside the cell, but the balance between in and out is influenced by a variety of external factors.  One of the arguments that has been made in the popular media about obesity goes something like this:  


A number of factors can promote the release of fat from fat cells, including:

Epinephrine, norepinephrine, adrenocorticotropic hormone (ACTH), glucagon, thyroid-stimulating hormone, melanocyte-stimulating hormone, vasopressin, and growth hormone

 But only two promote fat storage:

Insulin, and acylation-stimulating protein (ASP)*

Therefore if we want to understand body fat accumulation, we should focus on the latter category, because that's what puts fat inside fat cells.  Simple, right?

Can you spot the logical error in this argument?

Lower Blood Pressure Naturally

Recently, Chris Kresser published a series on dietary salt (sodium chloride) and health (1).  One of the issues he covered is the effect of salt on blood pressure.  Most studies have shown a relatively weak relationship between salt intake and blood pressure.  My position overall is that we're currently eating a lot more salt than at almost any point in our evolutionary history as a species, so I tend to favor a moderately low salt intake.  However, there may be more important factors than salt when it comes to blood pressure, at least in the short term. 

Beyond Ötzi: European Evolutionary History and its Relevance to Diet. Part II

In previous posts, I described how Otzi was (at least in large part) a genetic descendant of Middle Eastern agriculturalists, rather than being purely descended from local hunter-gatherers who adopted agriculture in situ.  I also reviewed evidence showing that modern Europeans are a genetic mixture of local European hunter-gatherers, incoming agricultural populations from the Middle East, neanderthals, and perhaps other groups.  In this post, I'll describe the evidence for rapid human evolution since the end of the Paleolithic period, and research indicating that some of these changes are adaptations to the Neolithic (agricultural/horticultural/pastoral) diet.

Humans have Evolved Significantly Since the End of the Paleolithic

Evolution by natural selection leaves a distinct signature in the genome, and geneticists can detect this signature tens of thousands of years after the fact by comparing many genomes to one another.  A landmark paper published in 2007 by Dr. John Hawks and colleagues showed that humans have been undergoing "extraordinarily rapid recent genetic evolution" over the last 40,000 years (1).  Furthermore:

Is Sugar Fattening?

Buckle your seat belts, ladies and gentlemen-- we're going on a long ride through the scientific literature on sugar and body fatness.  Some of the evidence will be surprising and challenging for many of you, as it was for me, but ultimately it paints a coherent and actionable picture.

Ancestral Health Symposium

Last weekend I attended the Ancestral Health Symposium at the University of California, Los Angeles, organized by Aaron Blaisdell, Brent Pottenger and Seth Roberts with help from many others.  It was a really great experience and I'm grateful to have been invited.  I was finally able to meet many of the people who I respect and admire, but knew only through the internet.  I'm not going to make a list because it would be too long, but if you take a look at the symposium schedule, I think you'll understand where I'm coming from.  I was also able to connect with a number of Whole Health Source readers, which was great.  I recognized some of them from the comments section.  Now I know it wasn't just my mom with 57 Google accounts.

The symposium was the first of its kind, and represented many facets of the ancestral health community, including "Paleolithic" diet and exercise patterns, low-carbohydrate diets, Weston Price-style diets, traditional health-nutrition researchers as well as other camps.  For the most part they coexisted peacefully and perhaps even learned a thing or two from one another. 

I was very impressed by the appearance of the attendees.  Young men and women were fit with glowing skin, and older attendees were energetic and aging gracefully.  It would be hard to come up with a better advertisement for ancestrally-oriented diets and lifestyles.  I saw a lot of people taking the stairs rather than the elevator.  I like to say I'll take the elevator/escalator when I'm dead.  I think integrating exercise into everyday life is healthy and efficient.  Escalators and elevators of course make sense for people with physical disabilities or heavy suitcases.

The first talk was by Dr. Boyd Eaton, considered by many to be the grandfather of the paleolithic diet concept.  I was very impressed by his composure, humility and compassionate attitude.  Half his talk was dedicated to environmental and social problems.  Dr. Staffan Lindeberg gave a talk titled "Food and Western Disease", which covered his paleolithic diet clinical trials as well as other evidence supporting ancestral diets.  I like Dr. Lindeberg's humble and skeptical style of reasoning.  I had the great pleasure of having dinner with Dr. Lindeberg and his wife, Dr. Eaton, Pedro Bastos, Dr. Lynda Frassetto, Dr. Guy-Andre Pelouze and his son Alexandre.  Pedro gave a very nice talk on the complexities of traditional and modern dairy.  The following night, I was able to connect with other writers I enjoy, including Chris Masterjohn, Melissa McEwen, John Durant, and Denise Minger. 

Dr. Pelouze is a french cardiovascular surgeon who strongly supports the food reward/palatability concept of obesity.  We had a conversation the evening before the conference, during which he basically made the same points I was going to make in my talk.  He is particularly familiar with the research of Dr. Michel Cabanac, who is central to the food reward idea.  He eats an interesting diet: mostly raw, omnivorous, and extremely simple.  If I understood correctly, he mostly eats raw meat, fish, fruit and vegetables with little or no preparation.  He sometimes cooks food if he wants to, but most of it is raw.  He believes simple, raw food allows the body's satiety systems to work more effectively.  He has been eating this way for more than twenty years, and his son was raised this way and is now about my age (if I recall correctly, Alexandre has a masters and is studying for an MD, and ultimately wants to become an MD/PhD).  Both of them look very good, are full of energy and have a remarkably positive mental state.  Alexandre told me that he never felt deprived growing up around other children who ate pastries, candy et cetera.  They woke up early and ran six miles before the conference began at 8 am. 

I gave my talk on Friday.  Giving a talk is not like writing a blog post-- it has to be much more cohesive and visually compelling.  I put a lot of work into it and it went really well.  Besides the heat I got from from Gary Taubes in the question and answer session, the response was very positive.  The talk, including the questions, will be freely available on the internet soon, as well as other talks from the symposium.  Some of it will be familiar to people who have read my body fat setpoint and food reward series, but it's a concise summary of the ideas and parts of it are new, so it will definitely be worthwhile to watch it.  

We have entered a new era of media communication.  Every time someone sneezed, it was live tweeted.  There are some good aspects to it-- it democratizes information by making it more accessible.  On the other hand, it's sometimes low quality information that contains inaccurate accounts and quotes that are subsequently recirculated. 

It was a great conference and I hope it was the first of many.

A Gluten-free January

Are You Gluten Sensitive?

Many people are totally unaware of the fact that they react poorly to gluten. Because they've been eating wheat, barley and/or rye products every day for virtually their entire lives, they don't know what their bodies feel like without gluten. In susceptible people, eating gluten is linked to a dizzying array of health problems that stem from an immune reaction to gliadins and other proteins in gluten (1). Are you a susceptible person? How do you know?

The gold standard way to detect a gluten sensitivity is to do a gluten "challenge" after a period of avoidance and see how you feel. People who react poorly to gluten may feel better after a period of avoidance. After a gluten challenge, symptoms can range from digestive upset, to skin symptoms, to fatigue or irritability within minutes to days of the gluten challenge.

With 2011 approaching, why not make your new year's resolution to go gluten-free for a month? A man named Matt Lentzner e-mailed me this week to ask if I would help with his (non-commercial) project, "A Gluten-free January". I said I'd be delighted. Although I don't typically eat much gluten, this January I'm going 100% gluten-free. Are you on board? Read on.

A Message from Matt Lentzner

Hi There.

My name is Matt Lentzner. I'm just some guy who lifts weights on his patio and tries to eat healthy. That's not important, but I have an idea that just might be.

I am trying to get as many people as possible to go gluten-free for one month - this January 2011.

I've considered this whole ancestral diet thing and I've come to a conclusion. If you could only do just one thing to improve your health then not eating gluten would be it. This is not to say that avoiding other nasty things like fructose or industrial vegetable oil is not important. They are, but you'd get the most bang for your buck from not eating gluten.

"Eat No Gluten" is simple and easy to remember. I think that sometimes the rules get so complicated and overwhelming and people just give up on it. We're keeping it simple here. Even at this simplified level I see that it's difficult for a lot of folks. I think people, Americans especially, tend not to pay much attention to what they're eating - what it is, where it came from, etc.

Getting people to get out of their eating ruts and think a little about what goes into their mouths is a valuable exercise. It sets the stage for better choices in the future. I hope that some success with the simple step will encourage people to further improve their diets.

I have a website at www.glutenfreejan.com. If you want to sign up just send an email with your first name, last initial, and town of residence to glutenfreejan@gmail.com. If you are on Facebook there's a community you can 'Like' called: Gluten Free January. So far I have over 120 people all over the world signed up. If you are already gluten-free then I still want you to sign up - the more the merrier. You can also use this opportunity to spread the word and sign up your family and friends.

Merry Christmas - Looking forward to a gluten-free New Year.

Matt

Interview with a Kitavan

Kitava is a Melanesian island that has maintained an almost entirely traditional, non-industrial diet until very recently. It was the subject of a study by Dr. Staffan Lindeberg and colleagues, which I have written about many times, in which they demonstrated that Kitavans have a very low (undetectable) rate of heart attack, stroke, diabetes and overweight. Dr. Lindeberg described their diet as consisting mostly of yam, sweet potato, taro, cassava, coconut, fruit, fish and vegetables. Over the seven days that Dr. Lindeberg measured food intake, they ate 69% of their calories as carbohydrate, 21% as fat (mostly from coconut) and 10% as protein.

I recently received an e-mail from a Kitavan by the name of Job Daniel. He's working at the Papua New Guinea Institute of Medical Research in Madang, studying the social and economic impacts of malaria and related health issues in Papua New Guinea. He recalls many details of Dr. Lindeberg's visit to Kitava, which Dr. Lindeberg has confirmed are correct. Job generously offered to answer some of my questions about the traditional Kitavan diet. My questions are in bold, and his responses are below.

How many meals a day do Kitavans eat?
People on the island eat mostly two meals a day. But nowadays, breakfast is mainly comprised of tubers (yam and sweet potato and greens all cooked in coconut cream and salt) and dinner is the same with the inclusion of fish as protein most often. In between these two meals, lunch is seen as a light refreshment with fruits or young coconut only to mention these two popular ones. In between the morning and the evening, we mostly eat fruits as snack or lunch. Generally speaking, there are only two main meals per day, i.e breakfast and dinner.

Do Kitavans eat any fermented food?
There are fermented fruits and nuts like you've said for breadfruit, nuts, yams and not forgetting fish. We ferment them by using the traditional method of drying them over the fire for months. And this fermented foods last for almost one to two years without getting stale or spoiled. Food preservation is a skill inherited from our great grand fathers taking into consideration the island's location and availability of food. Foods such as bread fruit and fish are fermented and preserved to serve as substitutes to fresh food in times of trouble or shortage. Otherwise, they're eaten along the way.

Is this really fermentation or simply drying?
To your query about the fermentation methods we use, apart from drying food over the fire, we also use this method like the Hawaiians do with taro [poi- SJG]. For our case we bury a special kind of fruit collected from the tree and buried in the ground to ripen, which takes about 2 - 3 days. I don't really know the English name, but we call it 'Natu' in vernecular. There's also a certain nut when it falls from the tree, women collect them and peel off the rotten skin, then mumu [earth oven- SJG] them in the ground covered with leaves to protect them from burning from the extreme heat of the fire, both from the open fire on top and hot stones underneath. After a day, the nuts are removed from the mumu and loaded into very big baskets which are then shifted to the sea for fermentation. This takes a week (minimum) to ferment or be ready for consumption at last. After the fermentation period is over, i.e one week some days or two
weeks to be exact, then the nuts are finally ready for eating. The length of time it takes before the nuts are no longer edible is roughly one week.

What parts of the fish are eaten?
As islanders, we eat almost every creature and body part of a sea creature. Especially fish eggs, it is one of the favorites of children. They always prefer it burnt on the fire and consumed greedily. Every part of the fish is eaten except for the feces, gall bladder, bones and the scales.

Is food shortage really rare on Kitava?
Generally speaking it is rare. BUT sometimes we run out of food only if there is a drought and the sea is useless. Otherwise, we tend to use the preserved or fermented foods on the dryer in the kitchen. As you would understand, we have seasons and they affect the type and availability of food on the island. In the beginning of the year, we eat sweet potato, cassava and mostly tuna for protein. During mid year, before yam comes in to replace sweet potato and cassava, taro is then ready for harvest. And then yams are ready for harvesting so the food supply is continued on. OK when yams are harvested, some are eaten, some are stored away for reserve and seedlings. In this way, we don't run out food towards the end of the year before sweet potato would be ready for harvest. So as you can see, the food supply on the island is somewhat planned by our ancestral economists where it continues throughout the year without stopping.

Do Kitavans traditionally eat pork, and if so, how often?
We do eat pork but not that often because pork meat is chiefly regarded important on the island. We only eat pork on special occasions so I'd rather say that pork is only eaten occasionally. In most cases in the middle of the year when the yams are harvested (yam harvest celebrations and towards the end of the year for certain rites and activities). Otherwise the everyday meal is always topped with fish.

How long are infants breast fed on Kitava?
Women breast feed for a minimum of 2 years. But breast feeding is again determined by the size and health situation of the baby. If the baby is looking healthy and big, it is most likely that this baby would be adopted temporarily by someone else so as to be removed from breast milk after two years of age minimum. Child care nowadays is paramount as people start to realize the importance of health and hygiene in general. But Kitavans are well known in that part of the country for their hygiene practices. They also got the provincial and district awards for a 'clean community' in early 90s and right now, they still maintain their hygiene level and awareness.

Are there any other foods that are commonly eaten on Kitava that I might not be aware of?
Bananas, pineapple, corn and watermelons. For watermelon and corn, they are plentiful especially at this time of the year.

Thanks for your help, Job! I know many people will appreciate reading these responses.

Observations from France

I recently got back from a trip to the UK and France visiting family and friends. It was great to see everyone, eat great food and even do some unexpected foraging (chestnuts, mushrooms, walnuts, blackberries). French people are in better general health than most industrialized nations. The obesity, diabetes and heart disease rates are all considerably lower than in the US, although still much higher than in non-industrial cultures. Here are a few of my observations about French food:

1. The French diet generally contains a lot of fat, mostly from traditional animal sources such as dairy and pork fat. Industrial seed oils have crept into the diet over the course of the 20th century, although not to the same degree as in most affluent nations. People seem to think that eating a lot of fat is unhealthy, particularly the younger generation, but they do it anyway. I had dinner with my family at a traditional restaurant in Lyon (a "bouchon Lyonnais" called Stepharo) last week. Before we ordered, they immediately brought out crispy fried chunks of pork skin and fat (I'm not claiming this is healthy!). The entree was a salad: a bed of lettuce piled high with chicken livers, herring, and "pig's feet". The pigs feet were essentially gobs of pork fat. It was a very good meal that I'll continue describing later in the post. I think it's worth pointing out that Lyon is in Southern France. Is this the "Mediterranean diet"?
   
2. French people eat organs. Yes, they never got the memo that muscle meat is the only edible tissue. A typical butcher or even grocery store will have liver, tripe, kidney and blood sausage on full display next to the meat. If you want to make a French person angry, try selling them a chicken or a rabbit without the liver, gizzard and heart. The main course at Stepharo was a large "andouilette", or tripe sausage, baked in mustard sauce. This was a typical traditional restaurant, not a hangout for gastronauts.
   
3. French people fiercely defend the quality of their food. Have you heard of the abbreviation AOC? It stands for "Appellation d’Origine Contrôlée", or controlled designation of origin. A familiar example is Champagne, which has the AOC label. You can't call your sparkling wine Champagne unless it comes from the region Champagne. However, that's only half the story. AOC also designates a specific, traditional production method, in this case called the "méthode champenoise." The AOC label can apply to a variety of food products, including wine, butter, cheese, honey, mustard and seafood, and is a guarantee of quality and tradition. 44 cheeses currently have the AOC designation, and these are commonly available in markets and grocery stores throughout the country (1). These are not fancy products that only the wealthy can afford-- many of them are quality foods that are accessible to nearly everyone. AOC defines many aspects of cheese production, often requiring a minimum amount of pasture time and specifying livestock breeds. The US has a few products that are regulated in a similar fashion, such as Bourbon whiskey, but generally we are far behind in assuring food quality and transparency.
4. French people cook. There is less outsourcing of food processing in France, for several reasons. One reason is that restaurants are generally expensive. That trend is changing however.

I don't think the French diet is optimal by any means. They eat a lot of white flour, some sugar, seed oils and other processed foods. But I do think the French diet has many good qualities, and it certainly poses a number of problems for the mainstream concept of healthy food. Hence the "French paradox."

Potatoes and Human Health, Part II

Glycoalkaloids in Commonly Eaten Potatoes

Like many edible plants, potatoes contain substances designed to protect them from marauding creatures. The main two substances we're concerned with are alpha-solanine and alpha-chaconine, because they are the most toxic and abundant. Here is a graph of the combined concentration of these two glycoalkaloids in common potato varieties (1):

We can immediately determine three things from this graph:

• Different varieties contain different amounts of glycoalkaloids.
• Common commercial varieties such as russet and white potatoes are low in glycoalkaloids. This is no accident. The glycoalkaloid content of potatoes is monitored in the US.
  
• Most of the glycoalkaloid content is in the skin (within 1 mm of the surface). That way, predators have to eat through poison to get to the flesh. Fortunately, humans have peelers.

I'll jump the gun and tell you that the generally accepted safe level of potato glycoalkaloids is 200 mcg/g fresh weight (1). You can see that all but one variety are well below this level when peeled. Personally, I've never seen the Snowden variety in the store or at the farmer's market. It appears to be used mostly for potato chips.

Glycoalkaloid Toxicity in Animals

Potato glycoalkaloids are undoubtedly toxic at high doses. They have caused many harmful effects in animals and humans, including (1, 2):

• Death (humans and animals)
  
• Weight loss, diarrhea (humans and animals)
  
• Anemia (rabbits)
• Liver damage (rats)
  
• Lower birth weight (mice)
  
• Birth defects (in animals injected with glycoalkaloids)
  
• Increased intestinal permeability (mice)

However, it's important to remember the old saying "the dose makes the poison". The human body is designed to handle a certain amount of plant toxins with no ill effects. Virtually every plant food, and a few animal foods, contains some kind of toxic substance. We're constantly bombarded by gamma rays, ultra violet rays, bacterial toxins, free radicals, and many other potentially harmful substances. In excess, they can be deadly, but we are adapted to dealing with small amounts of them, and the right dose can even be beneficial in some cases.

All of the studies I mentioned above, except one, involved doses of glycoalkaloids that exceed what one could get from eating typical potatoes. They used green or blemished potatoes, isolated potato skins, potato sprouts or isolated glycoalkaloids (more on this later). The single exception is the last study, showing that normal doses of glycoalkaloids can aggravate inflammatory bowel disease in transgenic mice that are genetically predisposed to it (3)*.

What happens when you feed normal animals normal potatoes? Not much. Many studies have shown that they suffer no ill effects whatsoever, even at high intakes (1, 2). This has been shown in primates as well (4, 5, 6). In fact, potato-based diets appear to be generally superior to grain-based diets in animal feed. As early as 1938, Dr. Edward Mellanby showed that grains, but not potatoes, aggravate vitamin A deficiency in rats and dogs (7). This followed his research showing that whole grains, but not potatoes, aggravate vitamin D deficiency due to their high phytic acid content (Mellanby. Nutrition and Disease. 1934). Potatoes were also a prominent part of Mellanby's highly effective tooth decay reversal studies in humans, published in the British Medical Journal in 1932 (8, 9).

Potatoes partially protect rats against the harmful effects of excessive cholesterol feeding, when compared to wheat starch-based feed (10). Potato feeding leads to a better lipid profile and intestinal short-chain fatty acid production than wheat starch or sugar in rats (11). I wasn't able to find a single study showing any adverse effect of normal potato feeding in any normal animal. That's despite reading two long review articles on potato glycoalkaloids and specifically searching PubMed for studies showing a harmful effect. If you know of one, please post it in the comments section.

In the next post, I'll write about the effects of potatoes in the human diet, including data on the health of traditional potato-eating cultures... and a curious experiment by the Washington State Potato Commission that will begin on October 1.


*Interleukin-10 knockout mice. IL-10 is a cytokine involved in the resolution of inflammation and these mice develop inflammatory bowel disease (regardless of diet) due to a reduced capacity to resolve inflammation.

Dinner with Taubes, Eades and Hujoel

Gary Taubes gave a lecture at UW last Thursday. Thanks to all the Whole Health Source readers who showed up. Gary's talk was titled "Why We Get Fat: Adiposity 101 and the Alternative Hypothesis of Obesity". He was hosted by Dr. Philippe Hujoel, the UW epidemiologist and dentist who authored the paper "Dietary Carbohydrates and Dental-Systemic Diseases" (1).

Gary's first target was the commonly held idea that obesity is simply caused by eating too much and exercising too little, and thus the cure is to eat less and exercise more. He used numerous examples from both humans and animals to show that fat mass is biologically regulated, rather than being the passive result of voluntary behaviors such as eating and exercise. He presented evidence of cultures remaining lean despite a huge and continuous surplus of food, as long as they stayed on their traditional diet. He also described how they subsequently became obese and diabetic on industrial foods (the Pima, for example).

He then moved into what he feels is the biological cause of obesity: excessive insulin keeping fat from exiting fat cells. It's true that insulin is a storage hormone, at the cellular level. However, fat mass regulation involves a dynamic interplay between many different interlacing systems that determine both overall energy intake and expenditure, as well as local availability of nutrients at the tissue level (i.e., how much fat gets into your fat tissue vs. your muscle tissue). I think the cause of obesity is likely to be more complex than insulin signaling.

He also offered the "carbohydrate hypothesis", which is the idea that carbohydrate, or at least refined carbohydrate, is behind the obesity epidemic and perhaps other metabolic problems. This is due to its ability to elevate insulin. I agree that refined carbohydrate, particularly white flour and sugar, is probably a central part of the problem. I'm also open to the possibility that some people in industrial nations are genuinely sensitive to carbohydrate regardless of what form it's in, although that remains to be rigorously tested. I don't think carbohydrate is sufficient to cause obesity per se, due to the many lean and healthy cultures that eat high carbohydrate diets*. Gary acknowledges this, and thinks there's probably another factor that's involved in allowing carbohydrate sensitivity to develop, for example excessive sugar.

I had the opportunity to speak with Gary at length on Thursday, as well as on Friday at dinner. Gary is a very nice guy-- a straightforward New York personality who's not averse to a friendly disagreement. In case any of you are wondering, he looks good. Good body composition, nice skin, hair and teeth (apologies to Gary for the analysis). Philippe and his wife took us out to a very nice restaurant, where we had a leisurely four-hour meal, and Dr. Mike Eades was in town so he joined us as well. Mike has a strong Southern accent and is also a pleasant guy. Philippe and his wife are generous and engaging people. It was a great evening. The restaurant was nice enough that I wasn't going to be picky about the food-- I ate everything that was put in front of me and enjoyed it.


* I'm talking about prevention rather than cure here. I acknowledge that many people have had some success losing fat using low-carbohydrate diets, including two gentlemen I met on Thursday.

Low Vitamin D: Cause or Result of Disease?

Don Matesz at Primal Wisdom put up a post a few days ago that I think is worth reading. It follows an e-mail discussion between us concerning a paper on magnesium restriction in rats (executive summary: moderate Mg restriction reduces the hormone form of vitamin D by half and promotes osteoporosis). In his post, Don cites several papers showing that vitamin D metabolism is influenced by more than just vitamin D intake from the diet and synthesis in the skin.

Celiac disease patients have low 25(OH)D3, the circulating storage form of vitamin D, which spontaneously corrects on a gluten-free diet. There are numerous suggestions in the medical literature that overweight and sickness cause low vitamin D, potentially confounding the interpretation of studies that find lower levels of illness among people with low vitamin D levels.

Don't get me wrong, I still think vitamin D is important in preventing disease. But it does lead me to question the idea that we should force down huge doses of supplemental vitamin D to get our 25(OH)D3 up to 60, 70 or even 80 ng/mL. When the dosage of supplemental D goes beyond what a tan Caucasian could conceivably make on a day at the beach (4,000 IU?), that's when I start becoming skeptical. Check out Don's post for more.

Vitamin D May Prevent Flu and Asthma

The AJCN just published a new controlled trial evaluating the effectiveness of vitamin D supplements on flu and asthma (1). Dr. Hiroyuki Ida's group gave Japanese schoolchildren (10 years average age) 1,200 IU of vitamin D3 or placebo per day from December through March. They found that children taking vitamin D had a significantly lower incidence of influenza A but not influenza B. These are two strains of flu that each accounted for roughly half the flu incidence in this population. Sadly, if you add the total flu incidence for A and B together (which the authors don't do in their tables), vitamin D supplementation didn't reduce total flu incidence significantly.

They also found that in the subset of children not already taking vitamin D supplements, the effect was greater, with unsupplemented children contracting nearly three times as many influenza A infections as children receiving vitamin D. They didn't analyze the influenza B or total influenza incidence in that way, so we don't know if prior supplementation makes a difference there.

The most striking finding of the paper is that the vitamin D group suffered from 6 times fewer asthma attacks than the placebo group. This needs to be repeated but it's consistent with other data and I find it very encouraging.

The paper did have some limitations. They didn't measure vitamin D status so they have no way to know exactly how effective their pill-based supplements were.

Another problem is that they began collecting data immediately after beginning supplementation. Vitamin D is a fat-soluble vitamin that can take 3 months to reach maximum concentration in the body following supplementation. By the time the children were reaching their maximum serum concentration of vitamin D, the trial was over. It would be nice to see the next trial begin supplementation in the fall and look at flu incidence in the winter.

This paper comes on the heels of another showing that vitamin D is necessary for the activation of an immune cell called the killer T cell (2). These are important for resistance to infections and cancer. Overall, these papers add to the accumulating evidence that vitamin D is important for the proper functioning of the human immune system. However, mice may not be the best model for use in studying vitamin D biology. From the first paper:

The evolution of different mechanisms for the regulation of PLC-γ1 activity in human and mouse T cells parallels the development of divergent VDR-dependent and VDR-independent antimicrobial pathways in human and mouse macrophages31, respectively, and may reflect the fact that mice are nocturnal animals with fur and humans are daytime creatures that synthesize vitamin D in the skin after exposure to ultraviolet light.

In other words, mice don't use vitamin D in the same way as humans because they have a different evolutionary relationship to it.

Impressions of Hawai'i

I recently went to Hawai'i for the American Society of Human Genetics meeting in Waikiki, followed by a one-week vacation on Kaua'i with friends. It was my first time in Hawai'i and I really enjoyed it. The Hawai'ians I encountered were kind and generous people.

Early European explorers remarked on the beauty, strength, good nature and exellent physical development of the native Hawai'ians. The traditional Hawai'ian diet consisted mostly of taro root, sweet potatoes, yams, breadfruit, coconut, fish, occasional pork, fowl including chicken, taro leaves, seaweed and a few sweet fruits. It would have been very low (but adequate) in omega-6, because there simply isn't much of it available in this environment. Root crops and most fruit are virtually devoid of fat; seafood and coconut contain very little omega-6; and even the pork and chicken would have been low in omega-6 due to their diets. Omega-3 would have been plentiful from marine foods, and saturated fats would have come from coconut. All foods were fresh and unrefined. Abundant exercise and sunlight would have completed their salubrious lifestyle.

The traditional Hawai'ian diet was rich in easily digested starch, mainly in the form of poi, which is fermented mashed taro. I ate poi a number of times while I was on Kaua'i, and really liked it. It's mild, similar to mashed potatoes, but with a slightly sticky consistency and a purple color (due to the particular variety of taro that's traditionally used to make it).

I had the opportunity to try a number of traditional Polynesian foods while I was on Kaua'i. One plant that particularly impressed me is breadfruit. It's a big tree that makes cantaloupe-sized starchy green fruit. Breadfruit is incredibly versatile, because it can be used at different stages of ripeness for different purposes. Very young, it's like a vegetable, at full size, it's a bland starch, and fully ripe it's starchy and sweet like a sweet potato. It can be baked, boiled, fried and even dried for later use. It has a mild flavor and a texture similar to soft white bread. It's satisfying and fairly rich in micronutrients. On the right are breadfruit, coconut and sugarcane, three traditional Hawai'ian foods.

I find perennial staple crops such as breadfruit very interesting, because they're much less destructive to soil quality than annual crops, and they're a breeze to maintain. I could walk into the backyard of the apartment I was renting and pick a breadfruit, soak it, throw it in the oven and I had something nutritious to eat in just over an hour. It's like picking a bag of potatoes right off a tree. Insects and birds didn't seem to like it at all, possibly because the raw fruit exudes a bitter, rubbery sap when damaged. Unfortunatley, breadfruit is a tropical plant. Temperate starchy staples that were exploited by native North Americans include the majestic American chestnut in the Appalachians, and acorns in the West. These are both more work than breadfruit to prepare, particularly acorns which must be extensively soaked to remove bitter tannins.

One of the foods Polynesian settlers brought to Hawai'i was sugar cane. I had the opportunity to try fresh sugar cane for the first time while I was on Kaua'i. You cut off the outer skin, then cut it into strips and chew to get the sweet juice. It was mild but tasty. I don't know if it was a coincidence or not, but I ended up feeling unwell after eating several pieces. It may simply have been too much sugar for me.

Modern Hawai'i is a hunter-gatherer's dream. There are fruit trees everywhere, including papayas, wild and cultivated guavas, mangoes, avocados, passion fruit, breadfruit, bananas, citrus fruits and many others. Many of those fruits did not predate European contact however. Even pineapples were introduced to Hawai'i after European contact. Coconuts are everywhere, and we could pick one up for a drink and snack on almost any beach. The forests are full of wild chickens (such as the one at left) and pigs, both having resulted from the escape and subsequent mixing of Polynesian and European breeds. Kaua'ians frequently hunt the pigs, which are environmentally damaging due to their habit of rooting through topsoil for food. Large areas of forest on Kaua'i look like they've been ploughed due to the pigs' rooting. Humans are their only predators and their food is abundant.

While I was on Kaua'i, I ate mostly seafood (including delicious raw tuna poke), poi, breadfruit, coconut and sweet fruits-- a real Polynesian style hunter-gatherer diet! I swam every day, hiked in the lovely interior, and kayaked. It was a great trip, and I hope to return someday.

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FiveFingers in the Alpine Lakes Wilderness

I recently bought a pair of Vibram FiveFingers Sprint (pictured). They're minimal, lightweight shoes with "toes". They're designed to mimic barefoot walking as closely as possible, while protecting the feet from punctures and abrasion. The soles are thin, flexible and offer no padding whatsoever.

I've always been a barefoot walker, because I enjoy it and our feet evolved to be nude (or close to it). Besides feeling amazing, walking barefoot may allow the body to express better biomechanics. My feet have become tougher over time, but I still can't handle a rough trail barefoot.

When I first put the FiveFingers on, my initial thought was "these don't feel as much like being barefoot as I wish they did". Simply having something between your skin and the ground makes your feet much less sensitive. But I got used to them quickly, eventually using them for my parkour training.

I had a few converstions with my parkour instructor Rafe Kelley, during which I realized I had to re-teach myself how to walk and run correctly. Rafe is well-versed in natural human movement due to his background in MovNat, gymnastics, martial arts, strength training, parkour and anthropology. Modern shoes allow us to walk and run in a way that our bodies did not evolve to tolerate. The padding in shoes allows us to take large steps, in which we overshoot our center of gravity and contact the ground in a jarring manner. It also allows us to strike with our heels when we run, which is not comfortable when you're barefoot.

I took the FiveFingers on a 13-mile hike in the Alpine Lakes wilderness with a few friends last weekend. The Pacific Northwest has to be one of the most beautiful places in the world. I was expecting to use the shoes for a few miles and then swap them for my lightweight hiking shoes (Inov8 Flyroc trail runners). The beginning of the trail was really rocky and I thought I was going to have to take them off in the first few hundred yards. Surprisingly, my feet adapted, and although the trail stayed rocky, it became fairly comfortable by the time we had walked a mile.

I found myself thinking about Rafe's advice, and taking smaller steps that strike closer to my center of gravity. Although my strides were shorter, I had no trouble keeping up, and in fact going up the hills was remarkably easy. We gained 3,000 feet of elevation but I never got winded. I had to pay close attention to foot placement, which kept me from looking around much but was actually kind of fun.

After a few miles, I switched to my hiking shoes, with the idea that I should switch before my feet really started to hurt, rather than after. I immediately noticed that going up hills was harder, especially on my calves. My feet felt more cumbersome as well.

Here's me foraging for mushrooms on the trail. This is Laetiporus sulphureus, also known as "chicken of the woods". It's widely eaten in this area. However, my mushroom guide All That the Rain Primises, and More, had this to say about it:

"If you eat and enjoy this moushroom, always cook it thoroughly and do not serve it to lawyers, landlords, employers, policemen, pit bull owners, or others whose good will you cherish!"

I didn't take my chances. If you're going to pick wild mushrooms, make sure you know what you're doing and carry a regional identification guide. "I recognize them from China/Russia/Europe" kills several people a year in the Pacific Northwest. If you're experienced, this area is a mushroom bonanza. I can't set foot outside without stepping on a king bolete (porcini, cep) in the fall.

I ended up switching back to the FiveFingers for the majority of the hike, about 9 miles of it. The soles of my feet were a bit sore by the end (due to stepping on sharp rocks for miles), but my joints and muscles felt remarkably good! I had no joint pain or muscle tightness. I also felt pretty energetic. This was a big surprise, since I haven't done much hiking this year. The next day, my calves were sore, but that was it.

All in all, I really like the FiveFingers. I can wear them in places that require shoes, yet remain nearly barefoot. One potential drawback is the price-to-durability ratio. They cost me $80 and I don't expect them to last a year [Update 2013-- they are surprisingly durable]. That being said, I'm putting a beating on them. Parkour training destroys shoes. The rubber seems to be excellent quality (which you'd expect from Vibram), but it's thin and it has cuts in it for flexibility and grip, which will lower its lifespan. The upper is simply a piece of stretchy fabric that tears easily. I'm willing to deal with the durability issues because the advantages outweigh them [update- several FiveFingers wearers have commented that they actually last a surprisingly long time. See comments].