TPV Episode 24 Show Notes: Advice From a Single Lady

February 1, 2013 in Show Notes

Our twenty-fourth show!
Ep. 24: Advice From a Single Lady

In this episode, Stacy and Sarah are joined by the much requested Juli from PaleOMG! She’s the proprietor of an excellent and entertaining blog and she’s an authority on how to make paleo work when you are living by yourself as a single girl. Have questions on cooking and living by yourself? She’s the authority!

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The Paleo View (TPV), Episode 24: Advice From a Single Lady

0:00 – Introduction
1:19 – News and Views
- Juli is from PaleOMG where she has a terrific blog where she shares great recipes. Follow her on Twitter, Like her on Facebook, Follow her Pinterest, Buy her book!
- Congratulations to Sarah for a great launch of her book, as well!
- Go check out Sarah’s giveaway, too!
- Chitterlings!
- And one more book, Beyond Bacon!
- Scrapple!
- Sarah’s organ meat recipes
- Sarah’s explanation of why organ meats are important
17:19 – Science with Sarah: What to eat post workout
- Wait… what’s glycogen?
- Glycogen replenishment with water
- 24 hour increased protein synthesis
- 24 hour increased insulin production
- Sardines!
- Stacy’s gym is NOVA Crossfit
- Check out Stacy’s workout pictures on Instagram and Facebook!
39:38 – Questions and Answers
- Juli’s Facebook Page
- 40:17 – What are some quick and easy paleo snack?
  - Apple Cinnamon Muffins, Simple Blueberry Muffins
  - Plantain Chips, Sweet Potato Chips
  - Banana Chips
  - Sunbutter, Almond Butter
  - Wholly Guacamole
  - Applegate Farms
  - Clothes Make the Girl’s Caramelized Coconut Chips
- 46:21 – What is a good protein snack for close personal contact?
  - Applegate Farms Chicken Apple Sausages
  - Egg Muffins
  - Mint Teas
- 49:21 – What inspires you to cook for only one?
- 55:56 – Any tips for a single mom?
- 1:06:54 – How did you learn to cook paleo style?
  - Morning Glory Muffins
  - Our favorite food shows: Alton Brown, Aarti Party
  - Our “paleoize-this” Pinterest walls: Paleo Parents, The Paleo Mom, PaleOMG
- 1:19:41 – Do you bring your crushes food attempting to lure them in with your cooking skills?
  - Check out Primal Palate, who started their blog together shortly after they started dating
  - Caramel Coffee Bars
1:31:44 – Outro

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Tags: approach, bacon, bauer, beyond, Food, glycogen, insulin, juli, management, meal, Nutrition, organ, paleo, Paleolithic, paleOMG, post-workout, pre-workout, primal, Protein, shakes, snacks, time, window
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The Hormones of Hunger

January 29, 2013 in Hormone Regulation

I want to delve into the effects of diet and lifestyle on hunger and satiety signals in a series of upcoming posts. I am mostly interested in the hormone dysregulation that occurs during metabolic syndrome, but also in how to optimize diet, exercise, sleep and stress management to achieve an ideal weight.

The feeling of hunger is regulated by a complex system of hormones that interact with neurotransmitters and neurotransmitter receptors within the hypothalamus region of the brain. These hormones essentially activate or deactivate specific neurons in the hypothalamus that control hunger. These neurons have receptors to Neuropeptide Y (NPY), the essential neurotransmitter in regulating hunger. The hormones can increase or decrease hunger either through binding the receptors for NPY or increasing or decreasing NPY itself. Essentially a hormone will increase hunger if its expression activates these NPY neurons whereas you will feel satiated if a hormone’s expression deactivates the NPY neurons. The interplay between these hormones and your brain is complex and only partially understood. However, what scientists do know about these hormones can help inform our decisions and compulsions regarding diet and other lifestyle factors.

New hormones continue to be discovered and their roles in regulating appetite, satiety, metabolism and digestion continue to be studied. As the full list of hunger hormones grows, understanding the complex interplay between these hormones, the types of food you eat, and the amount of muscle and fat on your body quickly becomes overwhelming. I have tried to summarize the key players (at least as scientists currently understand them):

Hormones that tell your body you’re satiated:

Cholecystokinin (CCK) is secreted by the cells that line the duodenum (the first segment of the small intestine) when they detect the presence of fat. This causes the release of digestive enzymes from the pancreas and bile from the gallbladder. Increased levels of CCK signals to the stomach to slow down the speed of digestion so the small intestine can effectively digest the fats. CKK is also a neuropeptide similar to NPY and has a direct action on neurons in the brain to signal satiety. This is the most immediate hunger suppressing signal and is the reason why eating fat with your meals is so important.

Oxyntomodulin is released in response to protein and carbohydrates in the stomach and signals a change in energy status to the brain. Oxyntomodulin enhances digestion by delaying gastric emptying and decreasing gastric acid secretion.

Peptide YY (PYY) is released by cells that line the jejunum, ileum (the next two segments of the small intestine) and colon in response to feeding and is especially sensitive to protein. PYY signals to the gallbladder and pancreas to stop producing digestive enzymes. PYY is important in increasing the efficiency of digestion and nutrient absorption after meal by slowing down gastric emptying, slowing down the speed of digestion, and increasing water and electrolyte absorption in the colon. PYY interacts directly with NPY receptors in the hypothalamus in an inhibitory fashion, thereby turning off hunger signals.

Glucagon-Like Peptide-1 (GLP-1) is secreted in the ileum in response to carbohydrate, protein and fat. It rapidly enters the circulation and is one of the fastest and shortest-lived satiety signals. It inhibits acid secretion and gastric emptying in the stomach. GLP-1 also increases insulin secretion and decreases glucagon secretion. GLP-1 decreases hunger signals by reducing the amount of NPY.

Leptin plays a key role in regulating energy intake and energy expenditure, including appetite and metabolism. Leptin is released both by adipocytes (fat cells) and by the cells that line the stomach, so it signals both that the body is fed and that there is sufficient energy storage. This appetite inhibition is long-term, in contrast to the rapid inhibition of eating by CCK and the slower suppression of hunger between meals mediated by PYY. Leptin both rapidly inhibits NPY production and deactivates NPY neurons in the brain to signal that the body has had enough to eat, producing a feeling of satiety. It is one of the most important adipose derived hormones (read more in this post).

Adiponectin is secreted from adipose tissue into the bloodstream where it signals decreased gluconeogenesis (when the body converts fats and proteins into glucose for energy), increased glucose uptake, lipid catabolism (breaking down of fats), triglyceride clearance (storage of fats), increased insulin sensitivity, and control of energy metabolism. Adiponectin acts directly on NPY neurons similarly to leptin but with additive effects.

Hormones that tell your body you’re hungry:

Ghrelin is considered the main hunger hormone. It is secreted by the cells that line the stomach when the stomach is empty and also by the pancreas when it detects low blood sugar. Also, the liver secretes ghrelin when its glycogen storage runs low (and glucagon is high). When ghrelin is released into the circulation, it directly activates NPY neurons to stimulate appetite. Increased levels of ghrelin are directly associated with the sensation of hunger. It is considered the counterpart of the hormone leptin. Importantly, ghrelin is a potent stimulator of growth hormone (GH) secretion and regulates nutrient storage, thereby linking nutrient partitioning with growth and repair processes. Ghrelin activates several anti-inflammatory pathways in the body and promotes cell regeneration thereby promoting healing, especially within the gastrointestinal tract. Ghrelin regulates glucose homeostasis through a direct action on the pancreatic islet cells (the cells that secrete insulin). It is also important for memory function and gastrointestinal motility.

Cortisol is well-known as a stress hormone, but it has key roles in regulating metabolism and hunger. Cortisol levels determine whether the body uses glycogen stores or triglyceride stores for energy (stored carbohydrate or stored fat). Cortisol can also stimulate gluconeogenesis, the process of converting amino acids (proteins) and lipids (fats) into glucose in the liver. It is believed that cortisol directly influences food consumption by acting on NPY neurons in the brain as well as affecting the levels of NPY and leptin. Cortisol seems to have a particular effect on the desire to eat foods high in fat and sugar. This is why stress management (which really means controlling any factor that might mess with your natural cortisol levels) is so important.

Glucagon is a hormone secreted by the pancreas when it detects low blood glucose levels (typically between meals, but this can also happen as part of that “sugar crash” after eating something very high carbohydrate). Glucagon signals the liver to convert stored glycogen into glucose, which is released into the bloodstream, a process known as glycogenolysis. When glycogen stores are low, high glucagon levels drive gluconeogenesis, the process of creating glucose from amino acids and fatty acids. Increased glucagon amplifies the hunger sensation.

Insulin is secreted by the pancreas in reaction to high blood glucose levels (for more on insulin, see this post). Insulin causes cells in the liver, muscle, and fat tissue to take up glucose (and fatty acids in the case of adipocytes) from the blood, storing it as glycogen. While insulin is released as a result of eating carbohydrates, it paradoxically increases hunger as opposed to decreasing it. This is caused by direct action on the NPY neurons and is the reason why eating a carbohydrate-rich meal is not as satiating as eating a meal that includes fats and proteins. It also explains how quickly we feel hungry again after a high-sugar snack.

These hormones have important roles both in regulating aspects of digestion and signaling to the brain whether or not you need to eat. Many of these hormones are also critical in regulating your blood sugar both after a meal and between meals (fed and fasted states). Some of these hormones also affect other systems in the body, for example, interacting with the immune system and controlling inflammation. Understanding how your diet and lifestyle affect these hormones will help you make choices that regulate these hormones properly, allowing yourself to listen to your hunger cues and trust that your body knows what it’s doing. And regulating hunger hormones is a key part of healing and being healthy.

Tags: adiponectin, amino acid, appetite, carbohydrate, cholecystokinin, CKK, colon, cortisol, digestion, duedenum, eat, Fat, full, ghrelin, GLP-1, glucagon, glucgon-like, gut, hormone, hunger, hungry, ileum, insulin, intestine, jejunum, leptin, lipid, meal, metabolism, oxyntomodulin, paleo, Paleolithic, peptide, peptide-1, Protein, PYY, satiety, stomach, Sugar, why, YY
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The Great Dairy Debate

October 13, 2012 in FAQ, Foods in Moderation, The WHYs of the AIP

The value (or lack thereof) of dairy products is the second most fiercely debated topic within the paleo community (after carbohydrate intake). Opinions vary dramatically from consumption of no dairy whatsoever, to only consuming dairy fat (such as ghee, butter and heavy cream), to only consuming raw grass-fed dairy, to only consuming fermented dairy or aged cheeses, to including any dairy on a regular basis.

The reason for this diversity of opinions is that the science is not clear cut. There are strong arguments to be made both for and against.

Let’s start with the arguments against dairy. Prof. Loren Cordain dedicates an entire well-cited chapter in his most recent book The Paleo Answer (a fantastic book for describing the nitty gritty scientific details behind the paleo diet) to the many reasons why milk should not be consumed in any form. To summarize, what I view the strongest parts of this argument:

Milk is not as nutrient-dense as meat, fruits and vegetables.
Milk is highly insulinogenic, meaning it causes a large spike in blood insulin levels, disproportional to the amount of sugar and protein in milk. This may contribute to the development on insulin resistance, at least in the context of a high carbohydrate diet. Insulin is also pro-inflammatory.
Milk contains active bovine (cow) hormones which have the potential to alter our hormone levels. The effects of dietary intake of most of these hormones have not been studied. However, other hormones have been studied. For example, the milk hormone Insulin-like Growth Factor-1 (IGF-1) has been linked to risk of breast, colorectal and prostate cancer, with the strong indication that consumption of dairy protein is a large contributor to blood IGF-1 levels ¹.
Milk contains protease inhibitors which may contribute to the development of a leaky gut (see this post for a more in depth explanation as to why)
Milk increases mucus production. This may aggravate conditions such as asthma but also creates excess mucus in the gastrointestinal tract which may irritate the gut lining and inhibit nutrient and mineral absorption.
Lactose is poorly tolerated by adults. Approximately 25% of Caucasians (American and European) are lactose intolerant. 97% of Native Americans are lactose intolerant. This argument does not apply to drinking raw milk since raw milk contains enzymes to help digest lactose.
Dairy is highly allergenic. This is where I believe the chief argument against dairy lies and I will discuss this further below.

There are also some very compelling arguments for including dairy products in our diets. Studies have shown that consumption of dairy, especially full-fat dairy products and fermented dairy products, can protect against Metabolic Syndrome (cheese, full-fat dairy, and fermented dairy), Type II Diabetes (fermented dairy only) and Cardiovasular Disease (cheese, full-fat dairy, and fermented dairy) ^2-6.

Grass-fed dairy, especially the fat from grass-fed dairy, is an excellent source of fat-soluble vitamins and Conjugated Linoleic Acid, an anti-inflammatory and healing fat. Fermented dairy is an excellent source of probiotics. There are also some valuable proteins in dairy, such as glutathione (very important for reducing inflammation and protecting against oxidative stress) and whey (which may help prevent cancer).

There is also evidence that dairy proteins are beneficial for children due to their growth-promoting effects. Traditionally, children would have received some breast milk until approximately 5 years of age. In our current society, most children are weaned by age 1. The current scientific view is that, provided cow’s milk is not introduced too early, it is a good substitute for human milk in terms of its growth promotion ⁷.

Yes, the science is not clear, although there seems to be a good case for including dairy fat in our diets. This is why the standard paleo diet allows for ghee and butter, and in many cases heavy cream and full-fat sour cream. Many people also include fermented dairy in their diets with great success.

However, one thing that is abundantly clear is that milk allergy is common. Beyond lactose-intolerance, which can be treated with the aid of digestive enzymes or consumption of raw milk, allergy to milk proteins is very common. Epidemiological reports of cow’s milk allergy (IgE antibody reactions to cow’s milk proteins) range between 1 and 17.5% in preschoolers, 1 and 13.5% in children ages 5 to 16 years, and 1 to 4% in adults ⁸. It is not known how prevalent cow’s milk sensitivities are (IgA and IgG antibody reactions to cow’s milk proteins). It’s important to note that goat’s milk is not as allergenic as cow’s milk.

Cow’s milk proteins are also known gluten cross-reactors, which means that those with gluten intolerance may produce antibodies against gluten that also recognize dairy proteins. For these people, eating dairy is the same as eating gluten (more information in this post). Very importantly, for people with allergy, intolerance or gluten cross-reactions to dairy proteins, even the trace dairy proteins in ghee can be a problem.

So, what do I recommend? Caution. I believe that dairy is probably okay for many healthy adults, especially full-fat, grass-fed dairy. In fact, for healthy individuals, the benefits likely outweigh the risks. However, for those battling autoimmune disease or other conditions where a leaky gut is a potential contributing factor, it makes the most sense to omit dairy from your diet for now. As is my standard recommendation for all of the gray-area foods, I suggest leaving it out of your diet for at least 1 month, then try reintroducing it and see if you notice any obvious symptoms (this is the best way to determine if you are allergic or sensitive).

I am still trying to gauge my own tolerance for grass-fed butter. My daughters both seem to do better without cow’s dairy in their diets (except grass-fed butter, which seems okay), but I have reintroduced grass-fed goat mineral whey protein powder into their diets and they seem to do really well with that (especially my oldest). I also have intentions to try them with some grass-fed goat’s whole milk. This is another highly individual aspect of a paleo diet and you really don’t know whether or not milk is good for you until you try living without and then try living with.

1. Crowe FL et al “The association between diet and serum concentrations of IGF-I, IGFBP-1, IGFBP-2, and IGFBP-3 in the European Prospective Investigation into Cancer and Nutrition.” Cancer Epidemiol Biomarkers Prev. 2009 May;18(5):1333-40.

2. Louie JC et al “Higher regular fat dairy consumption is associated with lower incidence of metabolic syndrome but not type 2 diabetes.” Nutr Metab Cardiovasc Dis. 2012 Sep 26. pii: S0939-4753(12)00193-7. doi: 10.1016/j.numecd.2012.08.004. [Epub ahead of print]

3. Warensjö E, et al. “Biomarkers of milk fat and the risk of myocardial infarction in men and women: a prospective, matched case-control study.” Am J Clin Nutr. 2010 Jul;92(1):194-202. Epub 2010 May 19.

4. Sonestedt E et al. “Dairy products and its association with incidence of cardiovascular disease: the Malmö diet and cancer cohort.” Eur J Epidemiol. 2011 Aug;26(8):609-18. doi: 10.1007/s10654-011-9589-y. Epub 2011 Jun 10.

5. Sluijs I et al “The amount and type of dairy product intake and incident type 2 diabetes: results from the EPIC-InterAct Study.” Am J Clin Nutr. 2012 Aug;96(2):382-90. Epub 2012 Jul 3.

6. Bonthuis M et al. “Dairy consumption and patterns of mortality of Australian adults” European Journal of Clinical Nutrition (2010) 64, 569–577; doi:10.1038/ejcn.2010.45; published online 7 April 2010

7. Agostoni C and Turck D. “Is cow’s milk harmful to a child’s health?” J Pediatr Gastroenterol Nutr. 2011 Dec;53(6):594-600.

8. http://www.worldallergy.org/publications/WAO_DRACMA_guidelines.pdf

Chris Kresser has a terrific post Dairy: food of the Gods or neolithic agent of disease?

The Paleo Answer by Prof. Loren Cordain is an excellent resource.

Tags: ancestral, Autoimmune Disease, babies, bad, benefit, blood, butter, cancer, children, con, cream, dairy, detriment, Diet, Fat, fermented, ghee, good, inflammation, insulin, kefir, kids, leaky gut, metabolic syndrome, milk, okay, paleo, Paleolithic, primal, pro, protect, Protein, Sugar, yogurt
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TPM Tidbit: AMRAP Nutrition Refuel Bars are Here! And They are Awesome!

October 2, 2012 in Product Reviews, TPM Tidbits

Have you heard about the new AMRAP Nutrition Refuel Bar? It is the first 100% paleo meal replacement/protein bar on the market. I have two words to describe these bars: convenient and delicious.

The loss of convenience foods are one of the biggest challenges of following a paleo diet. Until now, Larabars and Tankabars were the only options for quick non-perishable snack/meal bars for those on the go. This makes the launch of the Refuel Bar that much more exciting!

These are the ingredients: Raw Almond Butter, Unsweetened Coconut, Egg White Protein Powder*, Raw Sesame Seeds, Raw Almond Chunks, Raw Honey, Ground Cinnamon, Sea Salt. (*Derived from chickens not treated with growth hormone)

How exciting to see such a clean ingredient list! No weird chemicals. No psyllium husk. Just the kind of ingredients that I might have in my kitchen. All in a convenient non-perishable package, easy to grab, easy to keep in the bottom of your purse or glove compartment for emergencies, easy to pack in your kid’s lunchbox. Even better, this is just the first of several flavors that AMRAP Nutrition is working on.

And these bars are delicious! Not too sweet, but sweet enough that my kids loved them, a perfect balance of flavors with a wonderful slightly chewy with just a bit of crunch texture. Not sticky, not crumbly, just awesome.

Where can you get these AMRAP Nutrition Refuel Bars? You can order them online (they are priced at $3.00/bar). And CrossFit Gyms across the country will be selling them.