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Teaser Excerpt from The Paleo Approach: Histamine Intolerance

June 3, 2013 in Beyond Paleo, Gut Health, Paleo Modifications, The Paleo Approach Excerpts

There are many topics that I am researching and writing about for the book that I’ve been meaning to write about for the blog for ages (the book just gives me a firm deadline). I have decided take some of these topics (especially the more blog-sized ones) and publish them as teaser excerpts for the book (also because I think this information should be here too).

This excerpt is from Chapter 9, which is the troubleshooting Chapter. Chapter 9 discusses confounding factors, such as: additional food sensitivities and allergies, micronutrient deficiencies, gut-brain axis problems, severe cases of SIBO, digestive difficulties and severely leaky guts, persistent infections and parasites, and the need for organ function support. Many supplements are also discussed throughout this chapter, both supplements that might be helpful and supplements that are commonly taken that may be hindering healing. Most of Chapter 9 is designed to give you extra information to help you start a dialogue with a healthcare professional and this information should not be used for the purpose of self-diagnosis.

This section on histamine intolerance comes after a more general discussion of food allergies, intolerances and sensitivities.

So, forgive the references to other chapters and page numbers with no number. While you’ll have to wait until the book is out in October to read those sections, in the meantime, please enjoy this part of Chapter 9: Troubleshooting

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Histamine intolerance is a condition caused by a disequilibrium of accumulated histamine and the capacity of histamine degradation, i.e., when there is more histamine in your body (generally, consumed in the foods you eat and/or produced within your body) than your body can effectively handle. Histamine (which you will recognize as the key chemical produced by your body during an allergic reaction, see page ##) is a type of molecule called a biogenic amine, which is created by removing the carboxyl group off of an amino acid (see page ##). In the case of histamine, the amino acid that is “decarboxylated” is histidine. Histamine is a normal part of the diet (at least in small amounts) and also a normal product of the bacteria in our guts. In healthy people, histamine and other biogenic amines are rapidly detoxified by enzymes in the gut. In the case of histamine intolerance however, either production of histamine is unusually high or activity of these detoxification enzymes is unusually low (or both).

Histamine can be inactivated by two different enzymes. Diamine oxidase (DAO) is secreted by enterocytes and works outside of the cells and even in the lumen of the gut to convert histamine into imidazole acetaldehyde, thereby inactivating the histamine. DAO forms the primary barrier for intestinal absorption of histamine. A second enzyme, found within enterocytes and called histamine N-methyltransferase (HMT), converts histamine into N4-methylhistamine, also thereby inactivating the histamine. While most studies implicate insufficient levels of DAO as the problem in histamine intolerance, insufficient HMT may also be a contributor. Histamine intolerance may also be related to certain genetic mutations in the gene for DAO that impair the efficiency of DAO activity (these mutations appear to be much more frequent in Caucasians compared to other ethnicities, although more studies are required).

If the gut barrier is damaged, DAO is not secreted in adequate quantities by the gut enterocytes. Furthermore, a leaky gut can allow histamine to enter the body without passing through enterocytes where it would normally be degraded by HMT. Also, HMT inactivates histamine via a methylation process, so micronutrient deficiencies may contribute to reduced activity of HMT (see page ##). For histamine to cause adverse reactions and symptoms, it has to be absorbed and enter the bloodstream without being inactivated by DAO or HMT. This seems likely in those with severely leaky guts.

Furthermore, histamine production may be substantially higher in those with gut dysbiosis, especially SIBO. Histamine production in food is generally the result of food handling, processing or fermentation. Certain foods are particularly susceptible to developing significant amounts of histamine through processing/packaging, including: fish, processed and fermented meats, cheeses, fermented vegetables and soy products, and alcoholic beverages. A wide variety of bacteria are capable of metabolizing histidine into histamine. These are called decarboxylasepositive microorganisms and they can typically produce other biogenic amines in addition to histamine. As a general rule, these bacteria are associated with food spoiling, although their activity can generate problematic amounts of histamine long before a food is considered rotten. Histamine-producing bacteria include many species from the following genera: Lactobacillus, Clostridium, Morganella, Klebsiella, Hafiia, Proteus, Enterobacter, Vibro, Acinetobacter, Pseudomonas, Aeromonas, Plesiomonas Staphylococcus, Pediococcus, Streptococcus and Micrococcus. Even Escherichia coli are histamine-producing bacteria. You may recognize many of these as normal residents of the gut (likely why we need a DAO barrier in the first place) and even more importantly, several of these are likely to be present in excessive numbers during SIBO (see page ##). This means that not only can these types of bacteria cause increased levels of histamine in your food before you eat it, but they may also be creating large amounts of histamine in your gut.

How do these histamine-producing bacteria get into certain foods? Generally, these are bacteria ubiquitously present in the environment. For example, the vast majority of these bacteria are native to aquatic environments, so they are already present on and even in fish before the fish are ever taken out of the water. They tend to be inactive below 15°C so histamine production in fish is typically the result of fish not being handled properly (i.e., not chilled quickly enough after being removed from the water and/or not being kept at sufficiently low temperatures through handling/processing/packaging) or being refrigerated for a long time (most fish have negligible histamine levels if you measure fresh out of the ocean/lake). Histamine production in foods is considered a contaminant, or indicator of food spoilage. It is actually a source of food poisoning, especially in fish. Although, in some cases histamine-producing bacteria are deliberately added to foods, such as in the context of cheese and fermented sausages, soy products and vegetables (although clearly the goal of adding these bacteria is not to produce histamine, but rather to jump start the fermentation process).

There are some other factors that contribute to histamine intolerance. If basal cells and mast cells are activated as part of you autoimmune disease or as a result of an undiagnosed allergy (food allergy or environmental allergy), this may increase your sensitivity to histamine from foods, simply because your basal level of histamine production is higher. A variety of drugs inhibit the activity of DAO, including some commonly-prescribed muscle relaxants, narcotics, analgesics, local anesthetics, antihypertensive drugs, diuretics, antibiotics, H2 blockers (see page ##), and antidepressants, among others. Alcohol also inhibits the activity of DAO plus both wine and beer contain significant levels of histamine (red wine being especially high).

Symptoms of histamine intolerance resemble allergy symptoms, and may include: diarrhea, headache, sinus symptoms, asthma, low blood pressure, rapid, slow or irregular heart rate, hives, rashes, flushing, and any other symptom typically associated with allergies (see page ##). Typically, symptoms are felt relatively quickly after consumption of high-histamine foods. Keeping a food and symptom journal is the most common way in which histamine intolerance is diagnosed; however, histamine and DAO can both be measured using blood tests which may help confirm diagnosis (there is some controversy over whether serum DAO is truly indicative of gut DAO). It is estimated that 1% of the general population has histamine intolerance, most of whom are middle-aged. However, many researchers believe that this is a gross underestimation since recognition of histamine intolerance as a pathology is very recent.

The typical recommendation for those with histamine intolerance is to follow a histamine-free diet. This can be challenging since the histamine content of foods can be highly variable (since it is so dependent on handling and processing but also the specific bacteria strains which might be used in fermentation). Furthermore, histamine content is not typically labeled by food manufacturers, and only measured to ensure food safety (since high levels of histamine cause food poisoning). Antihistamines are only recommended when high amounts of histamine are accidentally consumed, and not for long-term therapy. DAO supplementation is available (typically with encapsulated pig kidney enzyme); however, controlled clinical trials demonstrating the efficacy of DAO supplementation have not been performed.

Many of the foods that frequently contain high levels of histamine are already omitted on The Paleo Approach. This includes: yogurt, sour cream, cheeses (gouda, camembert, cheddar, emmental, Swiss, harzer, talsiter, and parmesan), cured meats (fermented sausage, dry cured sausage, salami, fermented ham) which are only omitted if they contain nightshade- and/or seed-based spices, alcoholic beverages (white wine, red wine, champagne, sherry and beer), tomatoes, ketchup, eggplant, coffee, chocolate, cocoa and soy products, especially fermented soy products. Foods that are likely to contain significant levels of histamine but are normally included on The Paleo Approach:

Fermented cured meats (normally included if only “safe” spices are used, see page ##)
Fermented sausages
Dry cured sausages
Fermented ham
Sauerkraut (and potentially other lacto-fermented fruits and vegetables)
Fish
- Mackerel
- Herring
- Sardines (amount varies, some contain no histamine)
- Tuna (amount varies, some contain no histamine)
- Anchovy
- Scad
- Dried milkfish
- Bonito
- Pilchards
- Marlin
- Saury
- Butterfly King Fish
- Smooth-tailed Trevally
- Other fish if stored for excessive periods of time or improperly handled
Fish sauce
Fish paste (e.g. anchovy paste)
Shrimp paste
Pork
Spinach
Green Tea
Orange
Banana
Tangerine
Grape
Strawberry
Pineapple
White wine (even if alcohol is cooked off, see page ##)
Red wine (even if alcohol is cooked off, see page ##)
Champagne (even if alcohol is cooked off, see page ##)
Sherry (even if alcohol is cooked off, see page ##)

The histamine content of each food varies (often dramatically), depending on how the foods were handled and/or processed before histamine levels were measured. Plus, different foods are more or less susceptible to histamine formation. Of the above foods, the average histamine content ranges from 2mg/kg to 4000mg/kg, so some foods might be tolerated (lower histamine content foods from this list are pineapple, strawberry, grape, tangerines and banana) whereas others might not (the highest concentration histamine foods from this list tend to be sausage, herring, mackerel, pork and spinach, but vary with handling procedures).

A variety of foods have also been implicated to have histamine-releasing capacities, meaning that while they do not contain histamine, once they are ingested they can stimulate the release of histamine from mast cells. Several of these foods are already omitted on The Paleo Approach, including: egg white, chocolate, cocoa, tomatoes, nuts, a variety of food additives, and some spices (not defined, but likely nightshades given the high amount of histamine in sausages, salami, tomatoes and eggplant). However, some foods that are normally included on The Paleo Approach may also have histamine-releasing capacities, including:

Citrus fruits
Papaya
Strawberries
Pineapple
Spinach
Fish
Crustaceans
Pork
Licorice Root

Because the exact contribution that gut bacteria (especially in the context of bacterial overgrowth) make to the production of histamines in those with histamine intolerance is unknown (and likely highly variable), it is also unknown to what degree dietary intake of foods rich in the amino acid histidine should be avoided. If you have been diagnosed with histamine intolerance and have had some (but incomplete) relief of your symptoms from avoidance of histamine-rich foods, eating smaller portions of meat, fish, and shellfish (all the highest dietary sources of histidine) may be worth discussing with a healthcare professional. Certainly, following the recommendations already detailed (at great length!) in this book to restore both normal gut flora and the integrity of the gut barrier are important. Because histamine intolerance reflects both a damaged and leaky gut and gut dysbiosis (except perhaps in the context of gene mutations), it is a sensitivity that is likely to diminish and eventually disappear completely while following The Paleo Approach.

Bodmer, S., et al., Biogenic amines in foods: histamine and food processing, Inflamm Res. 1999 Jun;48(6):296-300

Chung, B.Y., et al., Treatment of Atopic Dermatitis with a Low-histamine Diet, Ann Dermatol. 2011 Sep;23 Suppl 1:S91-5

Ferreira, I.M. & Pinho, O., Biogenic amines in Portuguese traditional foods and wines, J Food Prot. 2006 Sep;69(9):2293-303

Kung, H.F., et al., Biogenic amine content, histamine-forming bacteria, and adulteration of pork in tuna sausage products, J Food Prot. 2012 Oct;75(10):1814-22

Maintz, L & Novak, N., Histamine and histamine intolerance, Am J Clin Nutr. 2007 May;85(5):1185-96

Masson, F., et al., Histamine and tyramine production by bacteria from meat products, Int J Food Microbiol. 1996 Sep;32(1-2):199-207

Papavergou, E.J., et al., Levels of biogenic amines in retail market fermented meat products, Food Chem. 2012 Dec 15;135(4):2750-5

Shalaby, A.R., Significance of biogenic amines to food safety and human health, Food Research International 1996;29(7):675-90

Visciano, P., et al., Biogenic amines in raw and processed seafood, Front Microbiol. 2012;3:188

Wantke, F., et al., Histamine-free diet: treatment of choice for histamine-induced food intolerance and supporting treatment for chronic headaches, Clin Exp Allergy. 1993 Dec;23(12):982-5

Tags: allergy, amine, anchoive, approach, autoimmune, Avocado, bacteria, beer, biogenic, broth, citrus, crustaceans, disease, dysbiotis, fermented, fish, Food, fruit, grape, green tea, gut, histamine, histidine, illness, intolerance, kind, leaky, licorice, modification, orange, paleo, Paleolithic, papaya, pineapple, pork, primal, probiotics, producing, protocol, root, sensitivity, shrimp, SIBO, soy, spinach, spoilage, tangerine, types, Vegetables, Wine
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What is Salicylate Sensitivity/Intolerance?

October 11, 2012 in Paleo Modifications

What are salicylates? Salicylates are the salts and esters of salicylic acid, an organic acid that is a key ingredient in aspirin and other pain medications, is frequently found in cosmetics and beauty products, and is also naturally occurring in varying concentrations in plants. In plants, salicylates act as a natural immune hormone and preservative, protecting the plants against diseases, insects, fungi, and bacterial infection. Why does it always come down to plants’ natural protective mechanisms!?

Salicylic acid is toxic to everyone in high doses. In the case of salicylate sensitivity/intolerance, much smaller doses produce symptoms of toxicity. Salicylate sensitivity/intolerance was initially described in terms of adverse drug reactions; and to date, most of the studies regarding salicylate sensitivity are performed in the context of drugs and medications that contain salicylates and/or salicylic acid. Although the research into this intolerance is still limited, the definition has expanded to a more inclusive definition including sensitivity to foods and to cleaning and beauty products that contain high levels of salicylates^1,2. The typical reactions are gastrointestinal and/or asthma-related and/or what is called pseudoanaphylaxis (the symptoms of anaphylaxis through a non-IgE antibody mediated pathway). Symptoms of salicylate sensitivity include:

Itchy skin, hives or rashes
Stomach pain, nausea and/or diarrhea
Asthma and other breathing difficulties, such as persistent cough
Headaches
Swelling of hands, feet, eyelids, face and/or lips (angioedema)
Changes in skin color
Fatigue
Sore, itchy, puffy or burning eyes
Nasal Congestion or sinusitis
Memory loss and poor concentration (linked to ADHD)
Ringing in the ears
Depression and anxiety

Salicylate Intolerance may be a key player in many gastrointestinal disorders, such as Inflammatory Bowel Disease, Colitis and Crohn’s Disease ^3,4,5,6. It is also deeply implicated in asthma (the reason why aspirin and other NSAIDs are not recommended for asthmatics) ^4,6,7 and may be linked to Attention Deficit and Hyperactivity Disorder ⁴. There also seems to be an important link to inflammation since supplementation with high doses of omega-3 fatty acids (in the form of fish oil) reduces symptoms dramatically ⁸.

There is no diagnostic test for salicylate sensitivity. The only method to determine whether or not you are intolerant to salicylates is to dramatically reduce your exposure from both your diet and your environment and see if you improve. If you do, then the typical recommendation is to consume salicylates and see if your symptoms return.

So, where are salicylates in your environment? I recommend the website www. salicylatesensitivity.com for complete lists of products, medications, and foods which contain salicylates. The following products often contain salicylates (yeah, this list is not fun):

Acne products
Air fresheners
Alka Seltzer
Breath savers
Bubble baths
Cleaning products
Cosmetics
Detergents
Fragrances and perfumes
Gum
Hair sprays, gels and mousse
Lipsticks and Lip glosses
Lotions

Lozenges
Medications (including aspirin and other NSAIDs)
Mouthwash
Muscle pain creams
Pain relievers
Shampoos and Conditioners
Shaving cream
Skin cleansers or exfoliants
Soaps
Sunscreens and tanning lotions
Toothpaste
Topical creams
Wart or callus removers

Given how readily salicylic acid can be absorbed through the skin and lungs and enter the bloodstream, these environmental sources can potentially add up to a significant dose. There seems to be good evidence that those with salicylate sensitivity should avoid exposure to skin care and cleaning products that contain even moderate concentrations of salicylic acid.

Where are salicylates in your food? These lists are only those paleo foods that are highest in salicylates. There are many others with moderate to high amounts that may also need to be eliminated; however this is probably the best place to start. Many seasonings (especially nightshades) also contain salicylates; although it is debatable the contribution to total exposure given how little is typically used when cooking. It’s also important to note that it’s very controversial whether or not restriction of salicylates from food is important, especially when compared to the much larger doses typically found in medications and possible with environmental exposure.

Paleo Foods High in Salycilates:

All dried Fruits
Most berries
Apricot
Avocado
Blackberry
Cherries
Date
Grape
Guava
Orange
Pineapple
Plum/Prune
Tangelo
Tangerine

Green Olives
All Nightshades (peppers, eggplant, tomato, chili)
Endive
Gherkin
Radish

Almond
Water chestnut

Coconut Oil
Olive Oil
Honey

It’s important to mention that salicylic acid is actually believed to be an essential micronutrient in the human diet, potentially even qualifying it as a vitamin. It also has potential cancer-fighting properties. Does it just come down to dose? Or source (food versus drugs versus environment)? There just aren’t answers to these questions, yet.

There is no doubt that salicylate sensitivity exists but the extent to which diet modifications are necessary is still a contentious issue. Given the role that omega-3 fatty acids (and potentially zinc ⁹) plays in the severity of symptoms, there is likely a strong correlation between severity of symptoms other health factors (such as insulin sensitivity, leaky gut, inflammation, micronutrient deficiencies, stress and potentially autoimmunity).

Do I recommend eliminating salicylates from your diet and environment? It is worth strong consideration if you suffer the symptoms above after following a standard paleo diet and particularly if you are not seeing improvement with a more restricted version like the autoimmune protocol. In fact, limiting chemical exposure in general is one of the recommendations for all people with autoimmune disease in Practical Paleo. Addressing intake of salicylates from medications is definitely the first step (as these are concentrated and hit the stomach and duodenum with quite a punch, and I mean that literally as these drugs increase intestinal permeability!). Concentrated topical applications such as acne creams, wart removal treatments, and muscle pain creams is definitely the next step. How sensitive you are will determine to what extent you will want to remove salicylates from your environment and potentially even diet.

1. Fitzsimon M et al “Salicylate sensitivity in children reported to respond to salicylate exclusion.” Med J Aust. 1978 Dec 2;2(12):570-2.

2. Fernando SL and Clarke LR. “Salicylate intolerance: a masquerader of multiple adverse drug reactions” BMJ Case Rep. 2009;2009. pii: bcr02.2009.1602..

3. Raithel M et al “Significance of salicylate intolerance in diseases of the lower gastrointestinal tract” J Physiol Pharmacol. 2005 Sep;56 Suppl 5:89-102.

4. Perry CA et al “Health effects of salicylates in foods and drugs.” Nutr Rev. 1996 Aug;54(8):225-40.

5. Pearson DJ et al. “Proctocolitis induced by salicylate and associated with asthma and recurrent nasal polyps.” Br Med J (Clin Res Ed). 1983 Dec 3;287(6406):1675.

6. Sivagnanam P et al “Respiratory symptoms in patients with inflammatory bowel disease and the impact of dietary salicylates.” Dig Liver Dis. 2007 Mar;39(3):232-9. Epub 2006 Sep 18.

7. Kawane H. “Aspirin-induced asthma and artificial flavors.” Chest. 1994 Aug;106(2):654-5.

8. Healy E et al “Control of salicylate intolerance with fish oils.” Br J Dermatol. 2008 Dec;159(6):1368-9. Epub 2008 Sep 15.

9. Wecker, H.; Laubert, A. (2004). “Reversible hearing loss in acute salicylate intoxication” (in German). HNO 52 (4): 347–51

10. Food lists are from: http://salicylatesensitivity.com

Tags: aspirin, beauty products, beyond, chemical, Food, intolerance, modification, NSAIDS, paleo, Paleolithic, primal, salicylate, salicylic acid, sensitivity, toxins
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Modifying Paleo for FODMAP-Intolerance (a.k.a. Fructose Malabsorption)

August 7, 2012 in FAQ, Paleo Modifications

One of the many challenges that people face when adopting a paleo diet is dealing with the confounding factor of additional food sensitivities. Sometimes these sensitivities are known (perhaps you had allergy testing done at some point or react so violently to certain foods that it was a no-brainer). Sometimes these sensitivities are unknown and make it frustrating when we don’t experience the instant improvements to our health touted by so many paleo enthusiasts. One such sensitivity is FODMAP-intolerance (also referred to as fructose malabsorption). This isn’t a food sensitivity in the sense that there is any sort of immune reaction to these foods. Instead, it is a case of a person who cannot properly digest the fructose (and longer sugar molecules containing fructose) in these foods.

The term FODMAP is an acronym, derived from “Fermentable, Oligo-, Di-, Mono-saccharides and Polyols”. FODMAPs are short chain carbohydrates rich in fructose molecules which, even in healthy people are inefficiently absorbed in the small intestine. I know you’ve heard the limerick “beans, beans, the magical fruit…”; the punchline refers to the large amount of FODMAP carbohydrates in beans (or any of other vegetable that has a reputation for being “gassy”) that are only partially absorbed in the small intestine. When this excess fructose enters the large intestine, which is full of those wonderful beneficial bacteria we love so much, they feed the bacteria allowing for overgrowth of bacteria and excess production of gas. The presence of FODMAPs in the large intestine can also decrease water absorption (one of the main jobs of the large intestine). This causes a variety of digestive symptoms, most typically: bloating, gas, cramps, diarrhea, constipation, indigestion and sometimes excessive belching. In individuals with FODMAP-intolerance, a far greater portion of these sugars enter the large intestine unabsorbed, causing exaggerated symptoms. In fact, some researchers believe that Irritable Bowel Syndrome is purely a case of FODMAP-intolerance ^1,2.

Carbohydrates, which are just chains of sugar molecules, are broken down into individual monosaccharides (a single sugar molecule) by digestive enzymes in the small intestine (actually, this sugar digestion process begins with the salivary amylase enzyme in the mouth when you chew, but it continues all the way through the small intestine). Monosaccharides are then absorbed into the blood stream by first being transported through the cells that line the small intestine, the enterocytes. Enterocytes have specialized transporters, or carriers, embedded into the membrane that faces the inside of the gut. These carriers bind to specific sugar molecules and transport them into the cell (where the cell can either use those sugars for energy or transport those sugars to the other side of the cell where they can easily enter the blood stream). FODMAP-intolerance may be due to lack of digestive enzymes required to break longer chains of carbohydrates down to their individual monosaccharides and/or due to an insufficient amount of these carbohydrate carriers, specifically the carrier called GLUT5, which is the specific carbohydrate carrier for fructose (why this is also called fructose malabsorption).

FODMAP-intolerance means that large amounts of dietary fructose and longer carbohydrate chains that are rich in fructose are problematic. These longer, fructose-rich carbohydrate chains are called fructans (inulin, which is a type of fiber, is also rich in fructose and problematic for those with FODMAP-intolerance). Sugar alcohols, called polyols, (sorbitol is an example) are additionally problematic because these sugars have the ability to block GLUT5 carriers (and if you’re working with a deficiency, that’s really not helpful!). Why do some people develop FODMAP-intolerance? Researches don’t know yet. It may be a reaction of the body to high fructose and fructan consumption with the Standard American Diet. It may be a side effect of a very distressed and/or leaky gut. There are also very likely to be genetic factors at play. The good news is that, for many, as their gut and bodies heal, their ability to digest and absorb these sugars improves.

When it comes to modifying your diet to address a suspected FODMAP-intolerance, dose is the key. The type of FODMAP may be important for some people. Some people are more sensitive to the fructose and polyols (due to GLUT5 carrier deficiency) while some are more sensitive to fructans (due to digestive enzyme deficiency). Some people are sensitive to both. How much you can handle is very individual and is likely to change as your gut heals. There are medical tests available to diagnose fructose malabsorption, however an elimination diet approach is more reliable. Research has shown that the removal of FODMAPs from the diet is beneficial for sufferers of irritable bowel syndrome and other functional gut disorders ¹.

The following table was created by Aglaée the Paleo Dietitian, and is posted with her permission. It breaks down common foods into three categories: safe (very low to no FODMAP), be careful (low to moderate FODMAP), and avoid (high FODMAP). It also contains which kind of FODMAP is richly present in each food in parentheses (helpful for those who are more sensitive to one versus the other). (Aglaée told me that this table is likely to be updated in the near future. I will repost the edited version when it becomes available. You can see the original table here: http://www.eat-real-food-paleodietitian.com/support-files/paleo-fodmap-food-list.pdf)

As you can see from this table, many of the moderate to high FODMAP foods are foods that we typically increase consumption of when adopting a paleo diet. How frustrating for those who experience an increase in gastrointestinal symptoms when they adopt a paleo diet compared to so many who find instant alleviation of symptoms! If you suspect (or know you have) FODMAP-intolerance, I recommend eliminating all food sources of FODMAPs from your diet for a couple of weeks. If you are sensitive, you should notice a fairly dramatic effect on your digestive symptoms. You can try reintroducing some of the lower FODMAP fruits and veggies and see if your symptoms return. In many cases, following a gut-healing protocol (as outlined in this post, this post or in the book Practical Paleo) will improve digestion of FODMAPs and they can be reintroduced carefully but successfully.

It is very important to note that the symptoms of FODMAP-intolerance are virtually identical to the symptoms of Small Intestinal Bacterial Overgrowth (SIBO). The reason for this is that these two conditions are highly related. The difference is simply a matter of location, larger versus small intestine. Without testing it can be difficult to discern which of these paleo diet modifications to try first (for more information on SIBO, read this post and this post). Even more confusing, FODMAP-intolerance may or may not be linked to Small Intestinal Bacterial Overgrowth. In some cases, the unabsorbed sugars caused by FODMAP-intolerance will lead to an environment in the small intestine where bacteria will grow, thus causing SIBO. So, you may have SIBO without FODMAP-intolerance, you may have FODMAP-intolerance without SIBO, or you may also have both. If you have digestive symptoms and are unsure which condition is the problem, then, I’m sorry to say that you’ll need to either have some tests done or follow the diet restrictions for both. After a period of a couple of weeks, you can try adding in either the starchy vegetables eliminated in the modification for SIBO or some of the FODMAP fruits and veggies (choose whichever food you miss the most). It should be clear fairly quickly which foods are problematic. Also note that both of these conditions are likely to resolve completely with continued elimination of these foods (although in some cases this will take 6-12 months or even longer), so you may find that you can add everything back in and your symptoms don’t return (fingers crossed!)

¹ Gibson PR and Shepherd SJ. Evidence-based dietary management of functional gastrointestinal symptoms: The FODMAP approach. J Gastroenterol Hepatol. 2010. 25(2):252-8.

² Born P Carbohydrate malabsorption in patients with non-specific abdominal complaints World Journal of Gastroenterology, 2007, 13(43): 5687-5691

Tags: ancestral, bloating, constipation, diarrhea, Diet, digestion, fermentable, FODMAP, Fructose, gas, IBS, intolerence, malabsorbtion, oligosaccharide, paleo, Paleolithic, primal, sensitivity, Sugar, symptom
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Modifying Paleo for Small Intestinal Bacterial Overgrowth

July 3, 2012 in FAQ, Gut Health, Paleo Modifications

Small Intestinal Bacterial Overgrowth (or SIBO) is a chronic bacterial (and/or yeast) infection of the small intestine, characterized by excessive number and/or abnormal type of bacteria (and yeast) growing in a part of the gastrointestinal tract that normal contains relatively few microorganisms. These bacteria can cause a variety of problems by interfering with digestion and absorption of nutrients and by damaging the lining of the gut, causing a “leaky gut” (I addressed the many health problems that can arise from a leaky gut in this post).

The most common symptoms of bacterial overgrowth include abdominal pain, nausea, bloating, gas, belching, flatulence, chronic diarrhea, and chronic constipation. These symptoms are due to the large volume of bacteria the digestive tract (alive and dead, as they read the end of their lifecycle) and the large amount of gas and metabolic waste that they produce. Many more symptoms of SIBO are a direct effect of nutrient malabsorption. This arises either from the bacteria metabolizing those nutrients before we can absorb them or by the bacteria causing enough inflammation in the lining of the gut that it the gut can’t work properly anymore. For example, the bacteria preferentially consume iron and vitamin B12, causing anemia. The bacteria decrease fat absorption by deconjugating bile leading to deficiencies of vitamins A & D and causing steatorrhea (fatty stools). As the gut lining becomes increasingly inflamed and leaky, larger and not fully digested food particles enter the body, causing an immune reaction which leads to food allergies and food sensitivities. Bacteria themselves can enter the blood stream causing systemic inflammation and immune reactions that can lead to autoantibody formation and autoimmune diseases (for a comprehensive review article see the footnote).

SIBO was only described in the late 1990s and is still grossly underdiagnosed. This is partly because many patients don’t seek medical attention for their SIBO symptoms, because many doctors aren’t aware of its prevalence and don’t consider it in their differential diagnostics, and because the tests for SIBO still have fairly high false negative rates (where you have the disease but the test says you don’t). As SIBO becomes more recognized, it is also becoming inextricably linked with many other diseases. Many physicians and scientists now believe that Irritable Bowel Syndrome (the cause of which has never been properly defined) is actually a group of symptoms caused by SIBO (see the book The New IBS Solution). SIBO is also often associated with Crohn’s disease, Celiac disease, short bowel disease, various liver diseases, fibromyalgia, some autoimmune diseases (such as scleroderma, diabetes, lymphoma, and chronic lymphocytic leukemia and the aforementioned Crohn’s disease and Celiac Disease) and even rosacea (for a fantastic summary of confirmed related diseases, see http://www.siboinfo.com/associated-diseases.html). Whether SIBO is a causal factor or a symptom of these diseases remains to be determined. Given how new all of this science is (and how prevalent SIBO actually is!), I suspect that over the next few years many more health conditions will linked with SIBO.

How do you know if you have SIBO? If you have digestive symptoms, especially if they persist after adopting a strict paleo diet, SIBO is a possibility. You can opt to get tested (there are several different test options which can be ordered by your primary care physician), however know that the current testing methods are not 100% reliable. One of the easiest ways to determine whether you have SIBO is to see if diet modifications aimed at treating it make you feel better.

How can you fix SIBO? There are two diets (very similar to each other) that have been developed with the intention of starving the bacteria in the small intestine and healing the damaged lining of the gut. These are the GAPS (Gut and Psychology Syndrome) diet(see Gut and Psychology Syndrome) and the SCD (SpecificCarbohydrate Diet) diet (see Breaking the Vicious Cycle). The general approach to these diets is to eliminate any dietary sugars that are not monosaccharides. Monosaccharides are simple sugars like glucose and fructose and are the most easily absorbed in the digestive tract. More complex sugar molecules like sucrose (i.e., table sugar which is a disaccharide) and starches have to be broken down into monosaccharides before they can be absorbed. This means that the sugar takes longer to be digested, which means it travels farther down the digestive tract before being completely absorbed, which means that some of it reaches the abnormal bacteria growing in the small intestine and provides a food source for them. These diets also focus on consuming healing foods such as bone broth, conjugated linoleic acid found in the fats from grass-fed animals, and coconut oil. I recommend combining one of these diets with a paleo diet for the most rapid and effective reversal of SIBO.

A standard paleo diet is typically not enough to treat and reverse SIBO. Attention also needs to be paid to the amount and types of carbohydrates being consumed. I recommend following a paleo diet with modifications disallowing starchy vegetables and high sugar foods as per the SCD and GAPS diets (see my post Fruits and Starchy Vegetables with SmallIntestinal Bacterial Overgrowth). Many people may find taking Apple Cider Vinegar before meals (as outlined in TheStomach Acid Connection) is helpful. For more severe cases digestive supplements may be beneficial (I am not familiar enough with these to recommend a particular brand, type or dose. Recommendations can be found in The Paleo Solution, It Starts With Food, and this post from Chris Kresser. If you need personalized recommendations, I suggest contacting Diane Sanfilippo at www.balancedbites.com). You may also find some good information in my posts Repairing the Gut and What Should You Eat to Heal a Leaky Gut? I also want to mention that stress management is very important (see my post How Mood and Gut Health Are Linked). Homemade bone broth and a source of Vitamin D(sunshine, liver, supplement) are particularly important to promote healing. A source of diverse probiotics (from fermented foods like Sauerkraut,coconut milk kefir, or Kombucha and/or from a high quality supplement) help to restore normal gut microflora (it’s better to keep the dose of these beneficial bacteria on the low side, at least at first, since they can add to the high volume of bacteria and increase symptoms if you’re too aggressive). In extreme cases, a doctor may recommend a course of potent antibiotics followed by a gut-healing protocol (exactly what is outlined above) and probiotics. For those with symptoms indicating the early phases of autoimmune conditions (see my post You May Have an Autoimmune Disease But Don’t Know It), following the Autoimmune Protocol for the first 1-3 months may be very beneficial.

Correcting SIBO can take up to 2 years. However, you should see improvement in your symptoms fairly quickly with gradual and continuous improvement (if you don’t, it’s worthwhile considering a FODMAP sensitivity as a confounding factor, which I will be discussing in my an upcoming post). Stress, poor sleep, infections and poor diet choices can all create setbacks. It is always difficult to commit to more restrictive forms of a paleo diet (which can be tough enough as it is!). I have what I believe is a mild case of SIBO. Because I follow the Autoimmune Protocol, I rarely have issues now. However if I slip and eat a high carbohydrate food, I fairly rapidly suffer intense bloating followed by days of gas pains and constipation. It’s not fun to follow such a restrictive diet, but is it worth it!