Week 14: Enzymes and Food - Foundational Health

Enzymes are substances which make life possible. They are needed for every chemical reaction that occurs in our body. When it gets to the point that you can't make certain enzymes, then your life ends.

This macabre statement is an excerpt from a long interview with Dr. Edward Howell, who is considered one of America's pioneering biochemists and nutrition researchers. While his colleagues were studying vitamins and minerals, Dr. Howell spent his 50-year career strictly researching enzymes, identifying them via analogy - as early as the 1930's - as the body's 'work force'. In his words, 'You may have all the necessary building materials and lumber [his analogy for the vitamins and minerals that his colleagues were studying], but to build a house with them you need workers.' The results of his research, much of which still frames the scientific community's understanding of enzymes today, was the field of enzyme therapy

But just what are these tiny construction workers, and why haven't we heard more about them? If they're so central to life, why isn't everyone talking about them?

First, we will look briefly at how modern medical science has judged Dr. Howell's research, before getting into 'enzyme basics', including where prevailing nutritional dogma is split over his ultimate conclusion.

Encyclopedia.com's defines enzyme therapy as 'a plan of dietary supplements of plant and animal enzymes used to facilitate the digestive process and improve the body's ability to maintain balanced metabolism.'  It goes on to say that in traditional medicine, enzyme supplements are often prescribed for patients suffering from digestion-related diseases, such as celiac disease, Gaucher's disease, diabetes and cystic fibrosis. If you have any of these, there's a good chance your doctor has prescribed supplements. However, the entry then lists twenty-seven other ailments that 'can be treated by enzyme therapy', from AIDS to obesity to colitis to cancer to hepatitis to gastritis. Beyond ailments of the digestive system, the efficacy of enzyme therapy to the other modern ailments that proliferate today - like cancer, obesity, heart disease, food allergies and autoimmune diseases - are a hotly debated topic between thoroughly western practitioners, who largely favor the drug-and-technology approach of 'evidence-based medicine', and their eastern holistic counterparts, who favor a systemic approach that includes your psychological state, millennia of pre-modern medicine, use of Nature's own resources and a dose of modern science. The only thing that these two often mutually disparaging camps can agree on is that enzymes catalyze every single one of your body's biological functions, and without them, we could not live. 

But we've entered Act IV's battle without introducing its warriors - the enzymes themselves. 

Dr. Joseph Mercola, MD is a controversial character: his website garners as many new visitors per month (nearly 2 million) as that of the National Institutes of Health. He promotes alternative medicine therapies, and has been criticized and disparaged by business, regulatory and scientific communities across the board. He and another holist, Dr. Andrew Weil - more than any other American practitioners - provide a rare and powerful counter-perspective to the entrenched promotion of 'Big Pharma', and because of that alone, their research and advice are worth considering, if we value a broad perspective with respect to achieving optimal health. On both sides, as with anything, we must always separate efficacy from marketing, because politics or not, the body doesn't care who makes money. To that end, Dr. Mercola has an excellent primer on enzymes that is worth reading in full - linked here. Toward the end of his post, he draws conclusions about enzymes and health that are debated and debatable. But the information is excellent regardless, and I'll discuss some of the salient points below.

As mentioned earlier, enzymes are central to every one of the body's processes. Enzymes are first and foremost catalysts, spurring the processes that build raw materials, circulate nutrients, remove toxins, produce energy, break down fats, regulate hormones and slow down aging. There are three types: the first two, digestive and metabolic enzymes, are produced by the body (mostly in the pancreas, but also in the mouth and small intestine) to catalyze the processes within each system. Digestive enzymes break down food into nutrients your body can use, and metabolic enzymes run your metabolism, which is to say, your entire body, since these include your circulatory, cardiac, endocrine, neurologic, renal, lymphatic, hepatic and reproductive systems, in addition to your skin, bones, joints and muscle tissue. Put simply, enzymes are the work force that allows nutrients to reach their target, and to maintain the overall functionality of your body's systems. It's appropriate to mention here that Dr. Howell's most contentious assertion is that we are born with limited enzyme potential, meaning that we 'use up' the body's enzymes, and that once they are depleted, we cease to exist, because the body cannot function. He posits, therefore, that we must be parsimonious with our use of internal enzymes by relying on external enzymes (from foods, which we will discuss in a moment) to supplement and safeguard our internal supply. The notion of limited enzyme potential has been in no way proven, and is the focus of much passion-driven online ink and scientific debate. The fact is, we don't know. Dr. Howell presents compelling arguments. If you'd like, you can read some of them here (warning: it's on a website that sells supplements). If you want to 'geek out' and read a compelling set of counter-arguments - presented by the website 'beyond vegetarianism' - you can do so here. They, like many others, refute Howell's 'limited supply' theory and assert that the body produces what we need, without limit, and irrespective of how much we supplement our diets with external enzymes, triggering the other great enzyme debate.

That would be about the third and final type: food enzymes. These are the only enzymes our body does not produce but which we receive from external sources - the foods we eat. All raw plant and animal foods contain enzymes, as we humans do, in order to grow and function. So when we eat foods, we are by default introducing enzymes into our own digestive system. 

But.

There are other factors at play. We've seen in past weeks that some 90% of the foods that make up the average American diet are processed - i.e.: altered from their raw, natural state. Enzymes, as central as they are, are extremely fragile, and as such as prone to being 'denatured' - which means inactivated, and thus useless from a biological point of view. Several things decrease or destroy enzyme content (by which we mean active enzymes) in the foods we eat, with the two prime influences being heat and age.

Heat

Food enzymes are 100% denatured at 118°F (if wet heat) or 150°F (if dry heat). This applies to all foods, since heat is heat. Take one of our favorite subjects: pasteurization. As we discussed in Week 4, the US government strongly recommends this process (states have jurisdiction over regulation) in order to kill potentially harmful pathogens - aka bacteria - notwithstanding the fact that raw milk is naturally anti-microbial. In tests like those described here, when large amounts of pathogens are added to raw milk, it has been shown to kill them on its own. Pasteurization regulation, which requires milk products to be exposed to temperatures exceeding 160°F for 15 seconds, exists - if we are honest - because of the extreme pathogen-rich environment of industrial cattle factories, called CAFOs (Confined Animal Feeding Operations), where bacterial risks to cattle and human alike are rampant. Because of the festering conditions in which CAFO's raise and process beef, cattle are administered staggering amounts - 29 million pounds in 2009 alone - of antibiotics. This is a problem for two reasons: first, antibiotics denature enzymes. Second, and even more troubling, antibiotics wreak havoc on your gut's micro-biome. Your gut, as we'll discuss more below, is comprised of 100 trillion bacteria that control both your immune system (90% of which lives in your gut) and your overall health, via the nutrients that are released there and sent to your body's organs. For that reason more than any, we recommend that if you're going to eat red meat, you do so from animals that were raised hormone- and antibiotic-free (aka organic), and grass-fed (aka pastrure-raised). Not only are enzymes preserved, and risks lower, but nutrient content is far higher.

Beyond enzymes, no less than the CDC (Centers for Disease Control) wrote a paper on CAFOs, and on page 13 they state that people who live near them - to say nothing of the cattle inside of them - are subject to high risk of respiratory irritants, chronic lung disease, chemical burns to eyes, nose, throat and skin, olfactory neuron loss, bronchitis and even death. To say it again, pasteurization does not exist because raw milk is harmful, since most - if not all - raw milk enterprises pasture their animals - meaning, they graze outside on grass, in low densities and healthy physical environments, and thus the pathogens that pasteurization is supposed to mitigate are simply not present, enough to overcome dairy's own anti-microbial defenses. The regulations simply exist to mitigate the risk of raw milk produced in CAFOs that can be easily contaminated in these horrific environments. Thus most Americans are deprived from dairy in its most nutritious form, while in Europe, one can buy it in a vending machine, underlining starkly the preposterousness of the American position. Worse still, studies show that the majority of the 65% among us who have become lactose-sensitive or intolerant - over the past 50 years alone - have become that way because by pasteurizing and homogenizing dairy, we have killed enzymes like lactase that allow us to break down milk's lactose (sugars). In fact, the non-profit Weston A. Price Foundation (WAPF) conducted a survey in 2007 and found that among Michigan residents who had been diagnosed with lactose intolerance, 82% stated they could drink raw milk without a problem. Adding to the issue, the calcium in pasteurized milk is rendered insoluble by the fact that the enzyme phosphatase, which aids the absorption of calcium into our bones, is also denatured with heat. Further still, the lipase in raw milk that exists to help break down its fats is, like every other enzyme, deactivated with heat. And all this is to say nothing of pasteurization's effect on vitamin and mineral content in milk. For some reason, this article boasts that 'only' 20% of vitamins and minerals are lost through pasteurization. It goes on to add that the removal of milk's fat (i.e.: low- or no-fat) also leads to a loss of most or all of its vitamin A and D. Ah, well. We've used milk as an example of heat's impact on enzymes. The same holds true of all commonly pasteurized products: fruit juices, all dairy, vinegar, eggs, and almonds. Many of these are available in non-pasteurized versions. Needless to say, for reasons explained, we highly recommend you opt for the latter. Lastly, it is not only enzymes that suffer; vitamins A, B-complex (except B3), C, D and E are all diminished, or eliminated, by heat. 

But enough about dairy and pasteurization.

Digestive Enzymes

Digestion is initiated in the mouth, where a combination of food enzymes and salivary enzymes amylase and lipase initiate the process of digestion, on carbohydrates and fats, respectively. Once this pre-digested food enters our stomachs, hydrochloric acid catalyzes other enzymes, like pepsin, which begins the digestion of proteins. 1-2 hours later, food passes through the duodenum, which sits between our stomachs and our small intestines, where a flurry of enzymes of all types - protease (proteins), amylase (carbs) and lipase (fats) - that are produced in the pancreas mix with the digestive food slurry. The small intestine - which is alkaline - produces 90% of digestion, according to Dr. Mercola, and is where foods' 'micro-nutrients are absorbed into your bloodstream through millions of tiny villi in the wall of your gut'

Copyright FFFL

Copyright FFFL

Raw Foods

I mentioned enzymes are present only in raw foods. As we've seen, heat denatures / deactivates enzymes. This includes cooking, and is one reason some health professionals champion a raw food diet. They assert that raw foods are enzyme-rich, and consuming them decreases your body's burden to produce its own. Central to the argument is the fact that as we've seen, enzymes are used for every metabolic function in the body. When our enzymes are not being used to digest food, they are being applied toward other metabolic processes, like flushing toxins, repairing skin, bones and tissue, catalyzing the brain's activity, etc. etc. etc. Thus, as the theory goes, consuming enzymes externally, from raw foods or enzyme supplements, allows our bodies' own internal enzymes to 'build our house' and keep it clean - to borrow Dr. Howell's analogy. That is to say, the more enzymes you consume externally, the more you body's own enzymes can focus on repairing and maintaining itself, instead of digesting foods. Enzyme supplements, it should be noted, are often encapsulated in an enteric coating, which is a polymer that is immune to the stomach's acids, but releases them in the alkaline small intestine, where the majority of digestion occurs. So if you take them, make sure they are enteric-coated. Another area of concern is the universally accepted fact that enzyme production diminshes with age. This is due to the fact that the organs that produce enzymes age, the same way the rest of you does, and with it, their capacity for production. A good explanation on aging and enzyme production can be found here. Thus, as the enzymes' efficacy diminishes, a vicious cycle of aging acceleration occurs, since enzymes are key to the maintenance of our bodies' systems. If they can't do their job, the health of our systems declines, in a downward spiral. This line of thinking is consistent with the quote with which we began this post: 'when your body can no longer produce enzymes, then your life ends'. If so, then the addition of digestive enzymes gains an added importance as we age - as both a supplement and a prophylactic - as our own bodies begin to lose their ability to produce them naturally. Enzyme production peaks - and starts to diminish... at the tender age of 27.

So, science lesson aside, how do I get enzymes from foods?

Even within the world of raw foods, the amount and density of enzymes varies greatly. A good list of foods that are high in enzyme content is included here. Four of them - papayapineapplebananas and avocado - top everyone's list. Interestingly, they are also all tropical fruits. Sprouting is another food process that spurs enzyme content greatly in the host plant. We spoke briefly about sprouting in Week 12. Because of its relevance to this subject, I will re-post some of our own content here:

According to nutrition expert Dr. Mercola, young plant foods - called sprouts or shoots, and commonly referred to as 'raw' or 'living foods' - contain up to 100 times as many enzymes as adult plants, and up to 30 times the density of vitamins and essential fatty acids. Let's repeat that: up to 100 times the enzymes and 30 times the vitamins and fatty acids as the world's otherwise healthiest foods. This is why they are often referred to as miracle foods. In addition, according to Dr. Mercola, the nutrients in sprouts are often more bioavailable than those in adult plants, which means the body can more readily absorb them, instead of simply passing them through your system, unused. 

It's clear for a number of reasons that including sprouts in your diet is a good idea. From an enzyme perspective, it's hard to do better. Sprouted vegetables and grains can be found in farmer's markets around the country and in health food or health-minded groceries everywhere; and are far more varied than the alfalfa-blooming Chia Pet that may come to mind, if you're old enough to remember that fad. My own shopping cart regularly includes sprouted radish, pea shoot, broccoli, alfalfa and sunflower. Equally prevalent are sprouted mung beans, clover, wheat grass and lentils. Dr. Mercola has an excellent article on nutrient content in sprouts - and how to grow them yourself, for pennies.

Sprouted, whole-grain breads is another important source of enzymes. As we wrote in Week 8, this resource by the Whole Grains Council allows you to find whole grain breads in a searchable database, either to find good products or to see how the ones you use measure up. In general, we highly recommend replacing wheat breads (i.e.: any flour product) with their less processed counterpart. A good article by Weston A. Price on the effect of modern milling processes can be found here. In it, they discuss modern milling's destruction of a grain's most nutritious parts - the bran and the germ. This high-speed milling also heats the wheat to 400°F in the process, destroying nutrients like vitamin E. Before the advent of modern milling, bread was our most readily available source of vitamin E, according to to the article. By contrast, sprouted grains are especially valuable since beyond comprising whole grains, the act of sprouting lowers their gluten and starch content while preserving valuable enzymes and amino acids. These breads are often referred to as 'live' foods, and can be found easily in national grocery chains, in addition to specialty food shops - sometimes in the freezer section. A good resource that lists and grades sprouted grain-type breads is here

Fermented (Cultured) Foods

In a quasi-exception to the 'raw rule', enzymes are very much present in fermented (or cultured) foods. While these are often raw, they are nonetheless somewhat processed, insofar as they combine source foods to allow a natural catalytic process to induce fermentation. In fact, it is enzymes that cause fermentation, as discovered by German chemist Eduard Buechner, who in addition to being considered the founding father of biochemistry, his discoveries related to enzymes and fermentation won him a 1907 Nobel Prize. 

Fermented foods have the added benefit of being rich in probiotics - that is to say, they help regulate and normalize the micro-flora (aka 'good bacteria') among the 100 trillion (!) that inhabit your gut. It's widely believed - buoyed by strong and pervasive clinical evidence - that probiotic foods ease many of the digestive problems that so many people on enzyme-poor western diets experience. You need look no further than the yogurt, kefir, kimchi, sauerkraut, lassi and pickled cucumbers, beets, relishes and ginger in your supermarket - foods that were central to your grandparents' traditional diets. These fermented or 'live culture' foods are great sources of digestive enzymes, and have been intuitively used for centuries in cultures across the globe to palliate all manner of gastro-intestinal malaise. In fact, there are few traditional cultures where fermented products of some kind are not found. Commonly consumed as far back as Ancient Rome, Emperor Tiberius himself used to carry a barrel of sauerkraut with him on long voyages to the Middle East, since he (like many Romans) knew that the lactic acid it contained protected him from intestinal infections. 

Putting a modern spin on natural, historic fermented foods, now-widely available and hyper-trendy probiotics proliferate the high-end cold-pressed juice market. A daily $12 juice and $2 probiotic shot? Welcome to the world of the one percenters. But it works.

Nuts, Seeds, Grains and Legumes

Now for the bad news. Nuts, seeds and legumes are extremely important and dense sources of plant-based proteins, vitamins and minerals that are often rare in the plant world outside of these food groups. As such, we have encouraged you to include them in your diet in a number of posts. On the flip side, they also all contain significant enzyme inhibitors. As reported by FoodMatters here, enzyme inhibitors 'clog, warp or denature an active site of an enzyme' - not just those in raw foods, but those your body produces. They further explain that grains - rice, corn, bran, wheat and oats, chiefly - contain toxic phytates like phytic acid, which when present combine with calcium, zinc, magnesium, iron and copper to block their absorption, leading to serious mineral deficiencies and bone loss.

In all cases, with the exception of brown rice, soaking these foods neutralizes their enzyme inhibitors and eliminates the phytic acidAn added benefit to soaking, nuts, seeds and grains begin to germinate - that is, sprout - which carries the additional benefits we have already discussed above, increasing their density of vitamins (especially B-complex) and enzymes. Yet another added benefit to soaking is that gluten, to which so many people have a modern intolerance, is partially broken down, and thus easier to tolerate. So while we are used to soaking our oats overnight, and rinsing our rice, the practice of overnight soaking - in warm water - should be applied to the nuts and legumes (like beans) that we consume. The major difference is that in the case of nuts, grains and legumes, an acid like citrus or vinegar should be added to the soaking solution, to neutralize the phytic acid that blocks the body's absorption of minerals. A good Wikihow article on soaking is included here.

Cooking

One of the most controversial aspects of enzyme debate is what role cooked foods do and should play in your diet. It's a fact that enzymes die when heated. But there are other benefits to cooked food, in spite of nutrient density, which is often diminished with heat. Often, cooked foods are easier to digest, since heat is one way of breaking down foods' structure; in the case of bacteria and meats, it's necessary in all but the cleanest of sourcing and preparation techniques, like sushi. But there are other, non-scientific reasons to cook foods. Food, after all, is a culture; it's a social contract. Meals are planned, prepared, shared and savored with friends and family, creating common experiences and bonding us. At FFFL, we personally advocate a balance to pretty much everything, both in our attitudes and in our 'rules', which should be broken often enough not to become unbearable dogma. This includes a large dose of cooked meals - especially at dinner, which is often the most social meal of the day. The point here - always - is to make good choices in your selection and/or preparation of foods, but to eat in a way that is reasonable and realistic, because it'll be easier to maintain a diet if it is straightforward and satiates your palate. But cook healthy: use heart-healthy oils, like coconut (in high heat), olive (in medium or low/no heat), and walnut (without heat). Or use none at all, and steam vegetables, as we do near-nightly (broccoli, romanesco, cauliflower, snap or snow peas, green beans, etc...) We even steam our eggs, since learning that trick from our friends at Cook's Illustrated, here. Use oil in lieu of butter when cooking pasta or fish. Use spices liberally (with the exception of salt), which pack flavor and potent anti-oxidants, are easy to store, and are long-lived. Lastly, don't overcook your meals. Cooking animal products in particular at high heat have been shown to transform the animals' DNA into mutative carcinogenic amines and hydrocarbons, thus increasing your risk of cancer. The National Cancer Institute posted a good article on the subject, here

Packaged Foods

It should go without saying that cooked or not, packaged foods are a major no-no. We've posted in nearly every article about the extreme toll packaged foods take on your body, and so will not repeat the long list of illnesses and the disease that they promote. In Week 2, we introduced the context of Big Food; in Week 3, the modern diet and disease. In Week 7, how our food choices make us sick; in Week 8, food's relationship to a specific illness - cancer; and in Week 11 - GMOs. In all cases, packaged or processed foods are the the root cause of most modern illnesses, as we've discussed heavily. Thus unlike cooked whole foods, which - enzymes aside - can still deliver loads of nutrients, the packaged foods that comprise a staggering 90% of our collective food dollars have no place in our houses or bodies. 

One more censure: the modern food industry is driven by finance, not health; and the fact is that the two exist at opposite ends of the spectrum. Nature, on the other hand, is firmly in the camp of health, since we don't just depend on her, our 200,000-year-old biological systems (6 million, if you count our ancestors) exist because of it. 

Luckily, there is a dawning renaissance underway that is focused once again on true health, in spite of the near-monopoly of industrial farming.

Conclusions

Eat a healthy diet full of raw, unprocessed foods for a host of reasons, inclusive of their critical enzymes. Introduce foods that are enzyme-rich into your daily diet, like papaya, banana, avocado and pineapple. They're all full of key nutrients and carry health benefits beyond their enzyme potential. Buy - or make - sprouted vegetables, and make them part of your salads, snacks or garnishes. They're brimming with enzymes, which are naturally produced to protect the young plant. Replace your wheat breads with sprouted-grain breads, which are 'live' and often in the freezer section to preserve their enzymes and vitamins. Include fermented foods in your diet; they're easy to find, and are full of enzymes and enzyme-catalyzed probiotics / live cultures - delivering a boon to your guts, where the majority of digestion occurs, and where 90% of your immune system resides. Soak foods containing enzyme inhibitors: nuts, grains and legumes. And cook! But ensure you strike a dietary balance of raw and cooked foods, favoring the raw (or near-raw) and most minimally processed foods, as enzymes are delicate, prone to denaturing, and as we saw, critical to every facet of human biology. And if for some reason we need to say it again, avoid anything in a box, or with source ingredients you could neither pronounce nor point to in Nature.

Week 12: Greens - Everything you don't know

Our bodies are our gardens - our wills are our gardeners.

The author of this statement - none other than William Shakespeare - was one of the world's greatest stewards of language and western culture. While certainly not known as a nutritionist, he has nonetheless created two powerful metaphors in a single sentence, linking us decisively to the Nature from which we were created at the same time as admonishing us that our health is determined by how well we honor that relationship.

When we think of 'greens', most of us think of listless leaves of a vague sickly hue that taste like cardboard and are as exciting as the slow-moving herbivores who eat them, like rabbits, cows, goats and manatees. By contrast, it is the carnivores that we find most potent: lions, crocodiles, wolves and sharks, to name a few. After all, these are the flesh-devouring animals who hunt, kill and dominate the animal kingdom - and to whose 'winningness' we aspire, whether tackling a spreadsheet, kicking a ball through posts or watching an actor avenge someone's honor, guns blazing. 

In short, few of us aspire to the role of the quiet gardener, preferring instead the (d)elusive dream of the triumphant gladiator. Except that in the world of nutrition, this basic misconception about fortitude can be quite literally deadly. We have posted here week after week about ever-increasing rates of obesity, diabetes, heart disease and cancer, all of which are caused, improved or exacerbated - in large part - by our modern, industrial, western diet. In Week 2 we dipped our toe into the murky waters of the food industry, using the heavily misleading, industry-friendly food pyramid to help you separate business enterprise from truth. Week 3 provided an overview of our modern diet and its relationship to disease; Week 4 parsed food words, focusing on those which are actually healthy from those which are designed to sound healthy but in truth are not. In Week 5 we explained the dangers of dieting. In Week 7 we 'saw the enemy', and it was us, due to our ever-decreasing expenditure on food. In Week 8, we addressed diet's relationship to cancer directly. And we will continue to explore the relationship of diet to health until we have exhausted every angle of this extremely complex - and incredibly contentious - subject. 

This week, we aim to get back to foundations. In the case of human diet, from our earliest days as foragers, that foundation was - and should ever be - that which blankets the Earth's surface more than any other substance: plants; and in particular, green, leafy plants.

Part of the problem is our narrow definition of the word. 'Greens' - which are not a food group, or even a color, so much as a visual categorization of leafy vegetables - are more varied than any other food group, in terms of composition, flavor and nutritional value. In fact, 'greens' - or leaf vegetables - are the single most varied and plentiful food source on Earth. This Wikipedia listing alone tabulates over 400 edible leaf vegetables, many of which are neither leafy nor green, like Brussels Sprouts (spheroid), Cauliflower (white) and Radicchio (red-purple), to name just three. And while you cannot find all 400 of them easily in the US, dozens of the healthiest among them are available at every supermarket, every farmer's market and every specialty storeYou simply need to understand what to buy, and why. And once you've mastered the basics, you can branch out to more exotic flora, where things get really interesting, as we will discuss below.

The ABCs of Greens

  • Let's start with the (near) obvious. Green leafy vegetables are full of vitamins, which maintain healthy cell tissue and organs, and minerals, which fuel the bio-chemical processes of metabolism. Spinach, kale, Swiss chard and collard greens alone each provide the body with over 20 of these key nutrients, with spinach topping the list. Ounce for ounce, no foods are denser or broader than greens in terms of what the body needs to function properly. But you knew this already, which is why your wise parents always nagged you to eat them.
  • Less obvious, and worth an in-depth explanation, green leafy vegetables are full of antioxidants that - as put beautifully by Sophia Breene in this article - are not so much a substance as a behavior. Perhaps unbeknownst to you, our bodies' cells need an even numbers of electrons in order to be considered stable (inert). When they don't, they behave erratically and steal electrons from adjacent cells, which in turn become unstable and rob yet others, causing a chain reaction of 'free radicals' (cells with unpaired electrons) that quickly cause cellular damage called oxidative stress. Oxidative stress degrades and 'ages' your body's proteins, DNA and lipids, which have been shown in studies to catalyze or exacerbate most modern diseases, including cancer, Alzheimer's, heart disease, stroke, Parkinson's, fibromyalgia, diabetes, aging, cognitive decline, and macular degeneration. Vitamins C and E are the body's chief source of water-soluble and fat-soluble antioxidants, respectively. Antioxidants are self-stable molecules that roam the body, donating electrons to unstable molecules without impact to themselves, thereby ending the free radical chain reaction. Broccoli, Brussels sprouts, cauliflower, kale, cabbage, bok choy, parsley and turnip greens - in descending order - all provide between 135% and 50% of your DRI (daily recommended intake) of vitamin C, while beet- mustard- and collard greens follow close behind. Only bell peppers, papayas and guavas rank higher. In terms of vitamin E, spinach, Swiss chard, turnip- beet- and mustard greens all provide, in descending order, between 25% and 17% of your DRI - second only to almonds and sunflower seeds. In short, greens are important, commonly available antioxidants that are easy to incorporate into your daily intake.
  • Green leafy vegetables are anti-inflammatory. If antioxidants roam the body preventing cellular damage, then anti-inflammatories keep your body's own immune system from overtaxing itself, due to chronic inflammation. 'Regular' inflammation is the cornerstone of the body's own defense system, which targets infected sites and sends additional nourishment and immune activity to its rescue. Think of inflammation as a SWAT team. But chronic inflammation is different. All soldiers need rest. If you keep pushing them without down time, eventually they collapse, and things break down. In the case of your body, chronic inflammation is not a localized immune response: it is instead an environment of ill-health in which the body is denied its 'pause', and is therefore in a constant state of aroused defense. Stress and lack of exercise are part of the cause; but diet is a major contributor, as well. Chronic inflammation has been directly linked to many cancers, Alzheimer's and heart disease. As we reported in the second part of Week 3's post, our ancestral, pre-modern diet comprised a balance of anti-inflammatory omega-3 fatty acids and pro-inflammatory omega-6's - a 1:1 ratio. Today, the typical western diet is tremendously pro-inflammatory, skewing the ratio to a staggering 25:1 in favor of omega-6's. This difference is the primary cause of the spike in chronic inflammation over the past half-century and the ensuing raft of modern diseases. The food culprits that cause unchecked inflammation? In descending order, they are: sugars, common cooking oils (in commercially prepared foods), trans fats (same), dairy, red meat, feedlot-raised meat (red or otherwise), refined grains (anything flour-based) and artificial food additives (in nearly every processed food). You can read more detail about each one here. And green leafy vegetables? They are the base of the anti-inflammatory food pyramid, as beautifully illustrated by wellness guru Dr. Andrew Weil, here. While nuts (esp. walnuts) and cold water fish are omega-3 royalty, green leafy vegetables are no slouches, with Brussels sprouts, cauliflower, broccoli, collard greens, spinach and kale offering healthy omega-3's in addition to everything else they do.  

What is in a name?

Unfortunately, our problems extend beyond the simple choice of plant foods over industrial products. Even those among us who want to eat healthy food, and who do their best to reach for a salad over a burger, have large knowledge gaps when it comes to the plant world, and so parsing what sounds good (like 'salad') vs. what is good (the actual ingredients behind the name 'salad') is a challenge.

Which brings us to the inexplicable, and unfortunate, story of Iceberg lettuce. Iceberg is the most common leafy green (white, really) consumed in the United States, with each of us eating on average 17 lbs. of it every year, according to Jill Nussinow, a California-based culinary educator and author. It's likely the root cause of many people's perception of salad as being as exhilarating as a manatee. The problem with Iceberg lettuce, which is the foundation of the nutritional disaster called a Caesar's salad, is that it is mostly water, and almost devoid of nutrition. (We'll leave aside the dressing, which is an effective delivery method for adding empty calories, fat, sodium and cholesterol to your diet; not to mention those croutons...) In fact, the difference in nutritional value is so varied among 'greens', that it's worth taking three commonly eaten leaves and comparing them here for you, in detail. The chart below shows the DRI (daily recommended intake) of each vitamin, mineral and other key nutrients present in all three. Percentages show the amount of the average person's DRI that a single 100g serving of leaves provides. The last column shows the number of times higher in each nutrient the spinach is over the iceberg (with common romaine consistently in between the two). The discrepancy between leaves is staggering:

Copyright FFFL

Copyright FFFL

At the root of it (no pun intended), and in every single measurable nutrientspinach contains roughly 2-45 times the concentration of 21 different essential nutrients as iceberg lettuce. You can find a fully detailed comparison here - one you can also customize to compare foods against one another, beyond the greens we have contrasted.

It gets better. The nutrient profile of the plant world's 'it' girl - kale - reaches close (but not quite) to that of spinach; as does nearly unknown but omnipresent Swiss chard; ditto mustard greenscollard greensbok choy and broccoli - all leafy greens and all among the healthiest foods on the planet. Individually, they deliver significant amounts of roughly 40 essential vitamins, minerals and amino acids. The best part? There's so much choice when it comes to vegetables in general, and leafy greens in particular (think thyme, sage, rosemary, mint, parsley, cilantro, basil and oregano, which are common flavor bombs in tiny doses; or perilla, sorrel, mustard greens, mizuna, radicchio and arugula, which are far less common, but widely available and pack strong and highly distinctive flavors as additions to - or substitutions for - other everyday salad leaves), that there's really no excuse to think of greens as rabbit food.

Salads - the way we should think of them

Leaves are simply a base for other ingredients - and should be thought of as such, much the way that the Italians consider pasta to be a vehicle for delivering what's on it. As I remember fondly from my year-plus spent living there, they eat pasta every day, and often in multiple meals each day, without getting sick of it. Why? It's what's on it that counts, and provides the flavor. Unlike pasta, the flavor variation in greens is infinitely broader, and so the richness of variety allows for less repetition, if you pay attention and vary your greens. 

In the world of food, salad as a category has morphed as much as the the martini has in the drinking world - where the term now applies to a broad set of vaguely related concoctions as unlimited as the minds that think them up. Salads these days - to the benefit of your well-being - can include aspects from every food group, from vegetables, fruits, meats, dairy, grains and nuts. Thus you can dress the 'plate' (i.e.: greens) however you want, and feel extremely good about feeding your body well. Beyond the near-infinite choice of vegetables that can and should make up a large proportion of your meal - not to mention some fruits that pair well (think spinach and dried cranberries or arugula and pear) - there are rich, flavorful and healthy unsaturated fats like those in avocados, olives, and heart-healthy oils like olive, coconut and walnut; proteins like nuts, seeds, beans and eggs (all of which also deliver excellent doses of heart-healthy fats and minerals); and animal products such as cheese (though this should be used sparingly and in its raw state, if possible, as we detail in the second half of Week 4's post), cold water fish (like wild Alaskan salmon), and the occasional piece of lean, pasture-raised beef or chicken (Week 4 covers this at length). In the case of salad, leaves should always comprise the lion's share of the bulk, followed in descending order by other vegetables; fruits; plant proteins; plant fats; and finally animal products - as represented in illustrations like Dr. Weil's pyramid. If your 'salad' looks like a grass-fed steak with a few leaves underneath it, it's not a salad.

If you lack the creative impulse to figure out what works, just look to indigenous cultures who have been combining ingredients for health and for taste since before agri-businesses existed, like these examples, to name just a few: French salade niçoise (greens; tuna; olives; haricots; potato; egg; anchovy); classic Greek salad (greens; cucumber; tomato; feta); Lebanese tabouleh (tomato; parsley; mint; bulgur; onion); Italian caprese (tomato; basil; mozzarella); Vietnamese 'Thanksgiving' salad (fennel; cabbage; cashew); and Mexican black bean salad (beans; peppers; tomatoes; corn; cilantro; onion; lime). Just make sure greens are the literal base of everything you do - even if the traditional salads listed above don't call for them. They'll combine well with any classic recipe, and will add tons of heart-healthy nutrition to your diet. 

To paraphrase the duc d'Uzès during the 14th C accession of Charles VII, 'Salad is dead! Long live salad!

Spices and herbs

It's not just fresh leafy greens that provide your antioxidant needs. Sometimes, it's as simple as sprinkling some dried oregano or marjoram on your pasta. One pinch of oregano doubles the antioxidant value of a bowl of whole wheat pasta with a marinara sauce, according to Dr. Michael Greger, physician, author and Stephen Colbert / Dr. Oz guest. In his eccentric video, he walks you through visual aids that show how you can add nutrition value with dried spices and herbs. Basil, parsley, oregano, thyme and rosemary are all 'leafy greens' that one can easily store dry, for months on end, and which you can simply sprinkle onto the foods you already eat to up their antioxidant value dramatically, which - as we've seen - has a material effect on modern diseases like cancer, diabetes and heart disease. 

Let's review what we've learned so far:

  1.  All leafy greens are not created equal. Some of the healthiest foods on Earth include spinach, kale, Swiss chard, bok choy, tatsoi (chinese spinach), mustard greens, collard greens, arugula, cabbage, watercress and turnip greens. Iceberg and other red-or-green lettuces, while not devoid of nutrition, should be substituted where possible with those listed above, since the difference is substantial.
  2. Some leafy greens are neither green nor leafy. They are, however, as (or nearly as) nutritious as their forebears, especially the cruciferous vegetable family, which includes broccoli, cauliflower, romanesco (a delightfully tasty 'fractal' vegetable), Brussels sprouts, cabbage, kohlrabi, radish and turnips. Bonus: crucifers, which also includes kale and bok choy, are the food world's champion cancer-fighters. See the second half of Week 8's post for more detail on glucosinates and indoles).
  3. Leafy greens should be thought of as a base for your culinary creativity. Vary the ingredients. Add vegetables; fats; proteins; dairy; grains... these things are limited only by your imagination - or your ability to conduct Google searches on sites like EpicuriousGourmetBon Appétit and AllRecipes
  4. Leafy greens are incredibly flavorful, and varied. Venture beyond the lettuce aisle and pick up one of the leaves listed above; or go to a specialty market in Chinatown, or where the ethnic minorities in your area shop: the Indians, Vietnamese or Japanese, to name three cuisines that heavily feature leafy greens that are as flavorful as they are exotic and unexpected.
  5. Spice it up. Spices are dried leaves. They're used to make tea; add flavor to foods; and are nutritious ways of including nutrients in your diet. The Indians - who use spices of greater depth and breadth than any other culture - are not just predominantly vegetarian, but understand spices' healing properties, like turmeric, which is one of the most powerful anti-inflammatories in Nature. It has been used for centuries by the Chinese and Indians - and increasingly modern medicine - to treat everything from IBSrheumatoid arthritisalzheimer's and cystic fibrosis, and has been shown in numerous studies to inhibit the growth of cancer cells significantly - to name just one of countless spices with real, measurable medicinal value.

Now that we've mastered the basics, let's move on to some lesser-known fare.

Sprouts - a Master's degree in 'greens'

The young of every living creature carries within its tiny package the genetic material for it to grow into maturity, whether in animal or plant form. The sheer density of healing, growth-promoting elements they contain makes them dwarf their adult counterparts' healthfulness because they represent a life form in its most vital state. In humans, children heal more quickly than adults; their skin is more supple; their systems are more robust; and the number of synaptic connections in their brains - and the speed at which they learn - run circles around those of grown-ups. The same is true in the plant world. According to nutrition expert Dr. Mercola, young plant foods - called sprouts or shoots, and commonly referred to as 'raw' or 'living foods' - contain up to 100 times as many enzymes as adult plants, and up to 30 times the density of vitamins and essential fatty acids. Let's repeat that: up to 100 times the enzymes and 30 times the vitamins and fatty acids as the world's otherwise healthiest foods. This is why they are often referred to as miracle foods. In addition, according to Dr. Mercola, the nutrients in sprouts are often more bioavailable than those in adult plants, which means the body can more readily absorb them, instead of simply passing them through your system, unused. 

Better still? A wide variety of them are easy to find in both farmer's markets and specialty markets, including sprouts from broccoli, sunflower, pea shoots, alfalfa, clover, radish, lentils, wheatgrass and mung beans. On a walk through New York's Union Square last Saturday, I counted over a dozen purveyors of sprouts, alongside their usual greenmarket fare.

Best of all? Though this requires a commitment, and/or if you have trouble finding them where you live, it's extremely easy to grow them yourself, and to therefore not just save tons of money (they're pennies on the dollar) but to eat them within minutes of harvesting, regularly, when nutrient levels are highest. Here are links to growing many of the sprouts listed above, complete with videos: sunflower; broccoli; wheatgrass; mung beans and lentils; radish; pea shoots.

Matcha - Doctorate-level 'greens'

We will leave the subject of green, leafy nutrition with the story of matcha - my own newest discovery. While I'm decidedly late to the party, Japanese Zen buddhist monks and Shogun warriors have been sipping this beverage since the 12th Century - when they perfected a process invented by the Chinese some 300 years earlier. The monk Eisai - the man responsible for bringing it to Japan - referred to matcha as 'The Elixir of the Immortals', and its drinkers swore by its sustained energy and mental clarity. 

Under the lens of modern science, the traditional endorsement not only holds up but becomes even more interesting. As measured on the Oxygen Radical Absorbance Capacity (ORAC) scale - which was developed the the National Institute of Aging (NIA) and venerable National Institutes of Health (NIH) - on a per-gram basis, matcha is one of the greatest antioxidants on the planet, matched or exceeded only by turmeric, dried oregano, sorghum, cinnamon, sumac and cloves - the last being the world's reigning champion. Moreover, the form of matcha's antioxidants - EGCGs, a form of the phenol catechin - have been shown to aid in the management or risk and severity reduction of both HIV-1 and cancer - the latter because EGCGs are chemopreventive. None other than the National Center for Biotechnology Information (NCBI), one of the nation's decisive authorities on molecular biology, lists EGCGs present in green tea as playing a potent role in cancer cell death. You can read their study here. And keep in mind that matcha has 30% more catechins (EGCGs) than regular green tea, making them even more effective in managing cancer cells.   

In addition to its antioxidant and anti-cancer properties - and the fact that it is a good source of vitamins A, B-complex, C, E and K - matcha's particular caffeine, called theophylline, has been shown to release more slowly into the body than that of coffee, thereby sustaining energy levels longer without the spikes. Better still, L-theanine, an amino acid unique to matcha, is known to boost alpha waves in the brain, creating a paradoxically calm alertness. It is this alertness that attracted the monks to it all those centuries ago. I can attest to a (very uncharacteristic) calm that follows my own morning cupful, while those who know me well understand just how remarkable an outcome that is. Let's just say I've been encouraged to keep it up...

So to revisit what we've discussed just one more time:

  • Greens are the most varied food source in the world, with over 400 types, many widely available
  • Greens are calorie for calorie the most nutritious foods, with a number of standouts, listed above
  • The flavor of greens is far more complex than most people realize; the key is to experiment
  • We must select our greens carefully, since nutritional profiles vary widely, and avoid 'empty' ones
  • We should think of greens as a 'base' for other foods, the way Italians use pasta
  • To wit: greens don't replace other foods; they complement them and are essential to optimal health
  • Dried greens - aka spices and herbs - are nutritional powerhouses that are easy to incorporate
  • Sprouts are the plant world's champions, delivering unmatched nutrition
  • Matcha is a great substitute for coffee, and offers many of the benefits of 'other greens'

I'll leave you with some of my own favorite greens, in no particular order, with hyperlinks given for informational purposes only (FFFL does not endorse or have any commercial relationships with anyone):

  1. Breakaway matcha: the quality of matcha is key to its efficacy
  2. Red-veined sorrel: a lemon-flavored herb-leaf that makes a fantastic addition to any salad
  3. Shiso (aka perilla): a minty, pungent, grassy herb as an accent to fish (used in Korea, Japan, Vietnam)
  4. Sunflower sprouts: one of the tastiest sprouts, with a decidedly nutty flavor; add it to salads
  5. Radish (aka Daikon) sprouts: for a wonderful little 'tang' in your salad
  6. Romanesco: the most beautiful - and tastiest - among its siblings broccoli and cauliflower (I simply steam it for 4-5 minutes and drizzle with a high-quality olive oil and sea salt (fleur de sel)
  7. Mustard Greens: want proof that greens can knock you off your feet? Try these amazing decongestants in your salad. Just don't say I didn't warn you. Or try this recipe.
  8. Spinach: okay, so it's obvious, but it's the #1 world's healthiest food, surprisingly tasty and neutral, and as such able to be blended, eaten raw or cooked and combined with nearly anything. But skip the supermarket greens and get them from the farmer's market. They will not only be far tastier and stiffer (meaning less decomposed), but as such will last twice as long before beginning to wilt 
  9. Pea shoots: Peas are one of the most nutritious foods on the planet. And the sprouts? 7x the vitamin C content of blueberries; 8x the folic acid of bean sprouts; and 4x the vitamin A of tomatoes
  10. Brussels sprouts: when I make them, they always disappear like popcorn. Half-fill a gallon-sized Ziploc with halved sprouts; add 3 tbsp. olive oil and 1 pinch sea salt; inflate/close the bag and shake vigorously until mixed. Place in a single layer in a 425F oven on a baking sheet, and flip each one every ten minutes; repeat the flipping until they're charred - usually 3-4 total times. Your friends and body will thank you.

 

Week 4: Food Words - Science or Snake Oil?

What's in a name?

Aside from being one of Shakespeare's most famous lines, it's also one of the most vexing questions for a modern eater who is looking beyond the price tag for food that best supports their family's health.

Let's start with eggs. Farm fresh. All Natural. Cage-Free. Free-range. Vegetarian Diet. No antibiotics/hormones. Omega-3 enriched. Organic. Pasture-Raised. All of these terms can be found on egg cartons, alongside friendly fonts, colorful logos, photographs of hens on lawns and even 'personal letters' written by farm owners, folded and inserted into the carton, like a message in a bottle. The underlying message: We're family farmers. You can trust us. 

So which words matter, and which have been devised simply to move product?

The truth is likely murkier than you think, so the first order of business is to help parse words dreamt up in a boardroom from those that are legally regulated. The fact is that in all cases, regulation is minimal. As a result, a large contingent of poultry farmers who practice a holistic, pre-industrial approach to their craft have established their own grass-roots terms to distinguish the trade's highest quality product - to the benefit of health-minded eaters - at least for the time being. More on that shortly.

Let's start with a statistic. According to the Coalition for Sustainable Egg Supply, 95% of all eggs sold in the US are from chickens raised in so-called battery cages that provide 67 square inches of floor space per bird - roughly the size of an iPad. In their lives, these chickens never see sunlight; will never walk or spread their wings; are fed a mixture of cornmeal and animal byproducts (the heads, intestines, gizzards and feet of of other chickens) and live in 'houses' numbering tens of thousands of birds, amid the roar of giant fans whose job is to minimize the overwhelming stench of ammonia and feces. Unlike their cage-free friends, chickens that cannot move do not need to be de-beaked, since they can't reach around to attack one another. Thus, according to Janice Swanson, an animal scientist at Michigan State University, 'only' 5% of egg-laying hens die prematurely in battery cages, versus 11% in cage-free environments.

Let's visit the life of the typical US commercial chicken. Those raised as meat are commonly referred to as broilers, portending their end state. PETA cites a 2006 Consumer Reports study in which an overwhelming majority - 83% - of grocery store broilers tested positive for salmonella, campylobacter or both - which is not surprising, given their living conditions. This is in spite of the fact that each broiler is given ungodly amounts of antibiotics during its short 5-7 week life in an attempt to minimize risk of dying from the diseases caused by their 'living' conditions before reaching optimal slaughter weight. Each 5 1/2 lb. broiler is administered four times the dose that is typically given to a 150 lb. human or a 1,200 lb. steer. The comparison is staggering, and the high percentage of bacteria-infected grocery chickens is yet more troubling. Egg-laying hens don't fare much better. On average, the comparatively longer-lived laying hens spend a year in similar conditions to broilers, unable to move, before being slaughtered and fed to other hens. From a human health standpoint, we needn't worry about males: they neither lay eggs nor become food. Thus the 250 million that are born each year to hens are thrown upon hatching into large grinders called macerators and thus efficiently culled, alongside slow-hatching or defective eggs of either sex.

The conditions listed above, and the bacterial risks passed from chicken to meat or chicken to egg - and from them to us - makes sourcing this food and understanding the different labels they wear all the more pressing. Let's start with eggs.

Farm FreshPaul Shapiro, Vice President of Farm Animal Protection at the Humane Society, says "It literally means nothing." Ditto All Natural, which he says is ironic, "because conventional chickens live in the least natural conditions imaginable."

Cage Free and Free Range. The first of these two designations mandates removal of the battery cages and doubles the space available per hen - to that of a large laptop. This gives hens just enough room to stand, move, spread wings and peck at each other, which accounts for the 6% increase in deaths of cage-free hens when measured against caged birds. The conditions within the thousands-strong hen houses are no different from conventional ones: full of disease, ammonia, feces, feathers, dust and dead birds. The term Free Range is, in practice, no different. It is not regulated by the US Government for egg-laying hens, apart from the need to provide them with access to the outdoors. According to Mark Kastel of the Cornucopia Institute, the vast majority of hens never go outside, because of the wind tunnel effect at the hen doors caused by the industrial fans we have already discussed.

Eggs from hens fed a Vegetarian Diet are fed corn - often fortified with amino acids. Given that chickens are natural omnivores, getting much of their nutrition from worms and insects in addition to grasses and seeds in the wild, the term is perplexing, and doesn't provide the optimal diet for hen or egg. Omega-3 enriched eggs are from hens whose corn feed generally includes a flaxseed supplement, since flaxseeds are Nature's single best source of these important anti-inflammatory nutrients, or krill oil. This provides dietary advantages to us, since a chicken's feed does influence the nutrient composition of its eggs, the benefits of which we reap when we eat them. However, let's keep in mind that 95% of hens whose eggs carry these labels alone live in the conditions described above. Thus, to our minds, without additional classifications like organic or pasture-raised (see below), it's a small leap to say that we should be concerned about how the rampant disease, ammonia-laden atmosphere, industrial feed and antibiotics affects the eggs that we consume, and in turn our own health, omega-3's or otherwise.

Up to this point, no term we've looked at establishes a healthy living environment for hens, a healthy diet for their eggs, and therefore optimal nutrition for us.

Which brings us to the first term that carries a legal definition - OrganicOrganic is regulated by the USDA and requires hens to receive organic feed - itself free of synthetic pesticides, receive no hormones and receive no antibiotics. This implies - although not legally mandated - that their living conditions that are less prone to rampant bacterial infection that would require antibiotics. In practice, Kastel says, organic hens are subject to similarly crowded densities, since farmers are free to determine their own practices, as long as they comply with these three criteria. Thus, while certainly better from a chemical standpoint, organic poultry farming is a bit of a Wild West, in terms of health, organic is an important term but on its own is no guarantee of a quality product.

Our final term - Pastured (or Pasture-Raised) - comes closest to what we all imagine when we think of eating eggs (or for that matter, hens): chickens exhibiting natural characteristics, in a natural environment and density, eating what they evolved to eat. Nicknamed beyond organicthis is a purely grass-roots term and carries no regulation, though it is endorsed by the American Pastured Poultry Producers' Association (APPPA). The term was championed by 'star' farmer Joel Salatin of Polyface Farms who is heavily featured in Michael Pollan's seminal book, The Omnivore's Dilemma. Since then, it has been adopted broadly by other farmers hoping to emulate pre-industrial practices: by rotating crops and livestock across poly-cultured landscapes in a symbiotic relationship of 'eat, clear, fertilize, grow'. A phenomenal resource exists here - courtesy of the Cornucopia Institute, in which egg producers across the country have been rated on a number of practices and given a star - or egg - rating. You can find out exactly what your favorite egg producers are doing at the farm, and find out whose eggs carry the least risk and greatest benefit to your health - to say nothing of humane treatment of the animals.

The bottom line: if you can afford them, seek out and buy pastured eggs. They're tastier than conventional eggs (we've done our own side by side taste tests), their yolks more colorful, and their nutrient and micro-nutrient levels higher. In fact, according to this study, pastured eggs trounce conventional eggs with 1/3 less cholesterol, 1/4 less saturated fat, 2/3 more vitamin A, two times more omega-3 fatty acids, three times more vitamin E and seven times more beta-carotene. For the cost of a single Starbucks latte, you can eat good eggs for a week. So drink water. Skip the overpriced brew. And eat good eggs. 

No fat, low fat, full fat... raw fat? 

It won't become a new Dr. Seuss book anytime soon, but it's a good starting point to explore these terms from the standpoint of marketing and successful infiltration into the American diet. We've already seen in Week 3 that fats are essential to your health, and that without an adequate intake of both saturated and unsaturated fats we would (or do) suffer from significant health problems.

In 1976, Senator George McGovern called a hearing to 'raise awareness to the links between diet and disease'. Two of the luminaries he summoned - a longevity guru and a Harvard Professor - suggested that lowering intake of dietary fat could reverse heart disease. The latter claimed in their 1977 'McGovern Report' that ever-increasing amounts of Americans were gorging on fat-rich, cholesterol-rich and sugar-rich meals, thereby increasing their waistlines. These observations posted a direct threat to the egg, dairy, sugar and beef associations, which for the first time banded together and rejected the findings, demanding a rewrite. The US Government caved to the pressures, removing the words 'reduced intake' from the report's recommendations. Instead, they advised Americans to buy more food that was lower in fat. Two things resulted: first, the creation of an entirely new market: the low-fat, fat-free and other variants of existing food product that drove sales up; and second, the widespread substitution of fats by the now fat-averse American consumers with carbohydrates, which were lower in calories and still provided us with fuel. Gary Taubes, author of Why We Get Fatsays, "In retrospect, it's kind of amazing, but this was the thinking at the time."

Food companies began researching ways to remove saturated fats - which are solid at room temperature - from their products. They turned to unsaturated fats from vegetable oils, but these weren't solid and didn't provide the same mouthfeel or taste, so the process of hydrogenation was applied in order to (semi-) solidify them as suitable alternatives for the processing of food product. Thus trans-fats were born. Trans-fats, as we now know, raise your LDL (bad) cholesterol and lower the HDL (good). They're found in baked goods, fried foods, most snack foods, margarine and commercial dough. But since trans-fats still don't adequately substitute the mouthfeel of animal fats on their own, large amounts of sugar and salt are often added to trans-fats foods to augment their taste. The combination of these - and their market saturation in the United States and abroad - is perhaps the single greatest cause of the increase in obesity rates and epidemic chronic illness we face.

The reality of saturated fat is much more nuanced. Often, they are present in animal-based foods that contain other important nutrient sources like vitamins B12 and D, choline, protein and calcium. Thus, the avoidance of saturated fats in non-engineered foods robs your body of important nutrients.

Take milk. For a period of over fifteen years at the dawn of the 20th Century, no less than the co-founder of the Mayo Foundation (the future Mayo Clinic) - Dr. J.R. Crewe, M.D. - regularly prescribed raw milk (AKA unpasteurized) as a cure for a host of conditions, from cancer to weight loss to allergies to kidney disease to many, many more. He noted in a 1929 article how diseases that had no similarity improved rapidly on raw milk. His patients loved it because it worked and obviated the need for drugs and other medical procedures. Eventually, he stopped treating patients with it, because his colleagues were overwhelmingly in favor of 'modernizing' our approach to health. In his own words, "The chief fault of the treatment is that it is too simple... and it does not appeal to the modern medical man."

A word on raw milk. Almost all commercially available milk today is pasteurized to remove risk of harmful bacteria like E. Coli, lysteria and salmonella. Raw milk is illegal to sell across state lines, and each state sets its own rules for intra-state sale, both in retail stores and on farms, listed here. Raw milk is what was being prescribed by Dr. Crewe, from cows that fed on pasture before the invention of pesticides.  According to Dr. Mercola in a great web entry on the subject, several studies show that the consumption of raw full-fat milk may reduce your risk of heart disease, diabetes, bowel and colon cancer and may help prevent weight gain - a claim that comes up time and again with regard to unsaturated fats, since fats feed metabolic processes and muscle production. He goes on to say that saturated fats are the preferred fuel for your heart, and that different acids contained in full-fat, raw milk lower one's overall cholesterol, are anti-viral, anti-fungal and anti-plaque, and prevent some cancers. Lastly, raw milk is high in omega-3 and low in omega-6 fatty acids, helping to restore your body's balance of these essential nutrients. A good resource for finding raw milk is here.

Pasteurization, on the other hand, requires that raw milk heated (161°F) for at least 15 seconds to neutralize its bacteria. Beyond its bacteria, heat 'impairs the biological value of the food, destroys enzymes, diminishes vitamins, denatures fragile milk proteins, destroys vitamin B12 and vitamin B6, kills beneficial bacteria, and actually promotes pathogens,' according to Dr. Mercola. In his opinion, there is no reason to consume pasteurized dairy, ever. Beyond destroying many of milk's vitamins and our ability to absorb the few that remain, pasteurization deactivates enzymes that assist in the absorption of calcium in your bones as well as those that help you to digest it (aka tolerance). These enzymes break down above 120°F and are almost fully inactive at 150°F. To wit: lactose intolerance, which affects about 65% of us, may well disappear in those who consume raw dairy products in place of pasteurized ones, according to Dr. Mercola. 

Read this article for a 1938 British piece on the subject - before industrial farming existed.

With all of the foregoing said, there is an equally vociferous lobby on the side of pasteurization that includes no less than the United States Centers for Disease Control (CDC), as well as popular food sites such as chef Marcus Samuelsson's Food Republic, which aggressively promotes pasteurization in this web article. The chief argument is one of safety from bacterial infection. Like any form of artificial processing, heat treatment kills those bacteria. What we also know is that while some bacteria are harmful, many others are helpful or invaluable, such as lactobacillus and acidophilus, to name just two. These are commonly added to yogurt and kefir, or found naturally in fermented foods like kimchi and pickles, and produce 'good' micro-flora in your gut. According to the American Journal of Clinical Nutrition here, these bacteria 'show promising health benefits for certain gastrointestinal conditions, including lactose intolerance, constipation, diarrheal diseases, colon cancer, inflammatory bowel disease, heliobacter pylori infection, and allergies.' These bacteria are also completely absent in pasteurized milk, though plentiful in raw milk. Mark McAfee, CEO of Organic Pastures Dairy and internationally recognized expert on raw milk production and safety, has continued to petition the CDC to recognize both raw milk's safety and nutritional superiority, which he and others believe is highly vested in the protection of CAFOs (confined animal feeding operations - AKA industrial milk production farms). Raw milk producers often pasture their cows (you know this by the label grass-fed), adopt stricter safety standards than CAFOs and product both healthier animals and milk. The CDC's (and FDA's) chief concerns derive from industrial farming practices, which lead to diseased animals, which may in turn produce contaminated milk. Says McAfee in a 2012 letter to the CDC:

"As a grade A producer of retailed-approved raw milk in California, I find your raw milk page filled with highly erroneous and very misleading information... In California, we have legal retail-approved raw milk in 400 stores consumed by 75,000 consumers each week. This retail legal raw milk is tested and state inspected and far exceeds pasteurized milk product standards without any heat or processing.

It is clean raw milk from a single source dairy. There have been no deaths from raw milk in California in 37 years. Two years ago, I submitted a FOIA request to the CDC to request data on the two deaths that the CDC database claims were from raw milk. The data I received back from the CDC showed that in fact there had been no death from raw milk at all.

The two deaths had been from illegal Mexican bath tub cheese and not raw milk from any place in America. Why does the CDC persist in publishing this erroneous information? ...The last people to die from milk died from pasteurized milk at Whittier farms in 2007, not from raw milk."

Copyright FFFL

Wherever the truth lies, research, empirical evidence and nutritional chemistry all favor the healthfulness of raw milk, but that milk also carries risks, since as with all raw foods, its 'prime' consumption period is highly limited. In short, it spoils, and must be consumed in an unspoiled state. Raw milk is also extremely hard to find in some states, though easier in others - as it is in Europe, where it is legal across the European Union and even sold in vending machines.

Leaving the debate aside for a moment, let's examine the sub-category of whole vs. low-fat or non-fat, which is unsurprisingly related. All three products are in abundance in the typical American supermarket. Time Magazine published an article this past March that largely echoes an overwhelming number of scientific studies and related articles: that full-fat dairy is in fact better for you than low-fat or lack thereof. A key reason, which should sound familiar by this point: dairy's fatty acids play a [positive] role in hormone regulation and metabolism, which govern how much fat your body stores. Studies have shown that the fewer fats we eat, the more carbohydrates we consume to make up for it. This is consistent with a 50-year trend toward eating more carbohydrates in place of fats (remember Senator McGovern?). When that happens, insulin levels rise. Insulin regulates nutrient partitioning, telling nutrients where to go. Lowering insulin levels allows your body to access fat stores and use them up as energy. 

Our recommendation for dairy: include raw milk/cheese products in your diet if you can find them from a clean, reputable source in lieu of pasteurized, and use them dligently, as you would with other highly perishable foods - like fish. If you cannot or prefer not to 'eat raw', opt for full-fat, organic, grass-fed (pastured) dairy, since low-fat or non-fat anything strips these dietary sources and our bodies of key nutrients.

If there is a consistency to food's story here, it is a simple one: the more that scientists alter a food source - whether an animal's natural habitat (in the case of hens) or its byproduct's chemical make-up (in the case of milk) - the more we are upending that which millions of years of natural selection kept in balance and deemed successful, allowing both consumer and consumed to thrive in a closed loop. In no way does this suggest that farming per se - the practice of creating favorable growing environments to maximize yield - is bad. In harnessing nature, agriculture has broadened the human diet and allowed both our number and our longevity to increase. But when a food is consistently exposed to controlled chemicals, an unnatural habitat and/or compositional manipulation, we are the ones left paying the price for the experiment - an experiment designed to drive business profits, our waistlines and our medical expenses ever upward.

Week 2: The Food Pyramid and Food Policy - Big Business

Everyone’s a food expert.

In the Information Age, there are few things more difficult than divining truth from opinion on the internet – or just as commonly and more insidiously, willful deception buoyed by companies with a vested interest in swaying your beliefs, and earning your dollars. The proliferation of accessible online nutritional data means that companies can be highly selective in what they present, and find an abundance of ‘studies’ that support their agenda.

Just try Googling food pyramid. There are as many versions of it as there are individuals and companies vying for your food and nutrition-related dollars. Often these companies masquerade as independent institutes – institutes that upon closer inspection are funded by companies with vested interests in the outcome, or whose executive body has (or will have) ties to those companies. [A separate post will cover the alarming and complex ‘revolving door’ relationship between the USDA, FDA, Monsanto, the dairy industry and other cash crops.]

 From Dr. Oz to the mighty USDA itself and every author and health-related commercial business in between, everyone has a pyramid.

The worst of them are aimed at moving unhealthy product, little better than thinly veiled advertisements. Let’s take just one example. The USDA's most recent pyramid recommends 2-3 servings of dairy per day, depending on which version you read. Pasteurized dairy does provide a valuable source of calcium and is often fortified with vitamin D; however, there are many other sources of both. Moreover, current science overwhelmingly shows the link between consumption of pasteurized dairy and a host of risks and illnesses: osteoporosis, cardiovascular disease, several types of cancer, diabetes, Vitamin D toxicity and so on [the second half of Week 4's blog explores raw vs. pasteurized dairy in detail}. Yet unless you prepare your own food with an eye toward vigilance, dairy is almost unavoidable and is present in an overwhelming percentage of both processed and prepared foods across the United States - ultimately because of the USDA and its pyramid. In commercial breakfast dishes, salads, sandwiches, burritos, pasta sauces and coffee - just to name a few - dairy is nearly unavoidable without a special request to 'leave it off'. 

Beyond the general health risks associated with pasteurized dairy, much of what is available today contains rBGH (also known as rBST), a synthetic growth hormone created by Monsanto to increase milk production by 11-16% and approved by the FDA in 1993, in spite of the fact that independent international studies have shown that its use raises the risk of mastitis in both the cows and the humans who consume it significantly. Beyond the reach of the USDA and FDA, Canada, New Zealand, Australia, Japan, Israel and the European Union have banned the use of rBGH since 2000. In the Back in Washington, DC, the dairy lobby is making headway toward legislation that would make it illegal for dairy farmers to label their milk 'rBGH-free', even though producers currently do so of their own free will - whether out of health concerns or market differentiation - since doing so would suggest that rBGH was in fact harmful. 

Even the best food pyramids don't fully explain the picture (though imperfect, Dr. Weil’s is a good one). For example: the nutritional difference between spinach and iceberg lettuce – both leafy greens – varies greatly per nutrient, but is on average ten-fold higher in spinach with respect to vitamin and mineral content. In other words, you’d have to eat ten heads of iceberg to glean (some of) the nutritional benefits in one serving of spinach. So telling someone to ‘eat your veg’ is frankly like telling them avoid getting hit by a truck. A good idea, surely, but success is in the details.

Moreover, even among those who eat the healthiest of foods, how is one to know if one’s diet includes, for example, enough omega-3 fatty acids, folate or iron? And how does one account for the differences in men's and women’s nutritional needs, which certainly vary? Or how should one adjust nutrient intake with regard to a specific health issue, like anemia or osteoarthritis? As good as they are for general guidance, food pyramids have limits.

In short, some pyramids are misleading and outright harmful to health, as we’ve seen. Others offer useful rules of thumb for those of us who want to avoid the pitfalls of highly processed or engineered foods, which are everywhere. But in the end, the optimal resource is one that takes into account the full spectrum and quantity of nutrients that your body needs – not just food types and numbers of servings – and uses it to determine whether you are in fact feeding your body properly. 

Easier said than done.  

So let’s start with what we know.

We know that we, like all living creatures, evolved over millennia alongside the rest of the planet and its food resources – in fact, because of it. We evolved to eat what grew naturally eons before we began to act on it, manipulate it, and sell it. We learned what made us stronger through trial and error, what to avoid, and we passed that knowledge on through the generations so that our progeny could flourish. In short, nature and humans are symbiotic, both biologically and evolutionarily. Our ancestral food pyramid looked something like this:

Copyright FFFL

Although agriculture has been practiced for roughly 10,000 years, it is only since the Second Industrial Revolution, which began in the 1850’s, that we who live in industrialized nations began the short transformation from largely producing our own food (or buying it from someone we knew, personally) to relying fully – as we do today – on the post-industrial food production complex to fuel us. The United States has led this revolution, owing in part to a desire to stabilize crop production and related costs, which ultimately translates to what shoppers pay at the checkout. Beginning with the 1960’s, as told by Greg Crister in his wonderful book Fat Land, President Nixon’s Secretary of Agriculture Earl Butz struck two historically consequential deals insofar as industrializing food. The first was with the Japanese, who had recently managed to create a new sugar-replacement from corn: high fructose corn syrup. This stabilized and dramatically lowered the price of sugar. The second deal was with the Malaysians, who had found a way to produce a cheap preservative and flavor-enhancer from palm trees: palm oil, which as Crister says, has a saturated fat content equal to that of 'pig lard'. Between the two, food became cheap, tasty, and longer-lived, paving the way for the fast food industry to flourish. Crister argues that the birth of that industry was a turning point in our relationship to food. Cheap, quick food led the increasing outsourcing of food preparation from our own kitchens to those of food businesses.

Beyond these two historic deals, Butz was known for his ‘get big or get out’ policies towards farming, which initiated the paradigm shift from small family-run farms to commodity mega-farming. The 'Henry Ford of crops' did for farming what the assembly line did for the auto industry. Butz incited farmers to plant corn ‘fencerow to fencerow’, and created the subsidies that moved growers away from their traditional produce toward commodity crops like corn, soy and wheat to maximize production and drive prices down. Butz, more than any other individual, is ultimately responsible for the demise of the small farm and the rise of Big Ag, the according shift from food to commodity and the resulting plunge in the price of food production, with Big Ag companies overtaking the whole business of feeding the nation.

To wit: in the 1980’s, Monsanto shifted from its historic focus on creating and selling some of the world's deadliest chemicals (Saccharin, PCBs, DDT and Agent Orange, to name just four) to re-engineering nature, and in 1994 began to sell product to farmers through its acquisition of Calgene, the first company to market a genetically modified (GM) food: the slow-to-ripen, rot-resistant Flavr Savr tomato. Since then, through a series of acquisitions and mergers, Monsanto has grown over the past 30 years into the world’s largest producer and seller of crop seeds, holding 27% of the global market. With its competitors and occasional collaborators – Dow Chemical Company, Dupont and Switzerland's Syngenta – these companies create the seeds, chemicals and processes that in turn grow the vast majority of the world’s food resources. Said another way, these companies sell the source ingredients to the world’s largest retail food production companies: General Mills, Kellog, Mars, Coca-Cola, Danone, Kraft, Nestle, PepsiCo, Unilever and Mondelez, who between them create and sell the vast majority of things we buy from the shelves of our supermarkets. The graphic below lists names of individuals who have held positions - including top leadership roles - with both Monsanto and the USDA, FDA and US Government - often multiple times.

Okay. Back to our stomachs. 

Nature created synergistic relationships between that which eats and that which is eaten. Grazing animals such as cows and sheep have rumens which break down otherwise indigestible grasses. Salmon are carnivores and eat other sea creatures, such as plankton, small fish and shrimp. Chickens are foraging omnivores and eat berries, insects, worms and seeds. In addition to photosynthesis, fruit and vegetable, plants pull nutrients directly from the soil and water beneath them, osmosing whatever directly lands on, or is dissolved in, those two nutrient sources.

Nowhere in the past 2.3 billion years, when the Earth’s atmosphere shifted from a methane to oxygen base and nature as we know it began to evolve, were there plants who fed on weed killer and industrial sludge; cows and chickens who ate brewer’s spent grain, silage, and pesticides (or spent lives in an atmosphere of ammonia and fecal matter); or salmon who ate corn, soy and canola, or chicken feathers, necks and intestines.

Likewise, we did not evolve to ingest any of those byproducts either, through the source foods we eat, to say nothing about the proliferation of sugar, salt, oils and grains that we ingest daily, unlike our ancestors.

And yet here we are.  

The bottom line for achieving nutritional health is that we need to return to the nutrient sources we evolved to eat, in the proportions and quality levels of pre-industrial food. Doing so takes substantial effort in today's context of fast, cheap, industrial food product, but it is readily achievable, since real foods are still widely available, close to your home, at reasonable cost, that carry a minimal industrial footprint.

The blogs that follow will begin to dissect specific food groups, nutrients, common questions and misconceptions, and provide detailed charts of nutrient values in the world’s truly healthiest, naturally occurring everyday foods.

Stay tuned.