Monday, October 27, 2014

Zucchini pasta with red sauce


2 TBSP olive oil
1/4 pound ground beef
2 zucchinis, whole
6 large tomatoes, quartered or chopped
1 yellow bell pepper
1 orange bell pepper

1 1/4 cup yellow onion, diced
1 cup of mushrooms, chopped
6 cloves of garlic, chopped
2/3 oz fresh basil leaves(8 leaves), chopped
2/3 oz fresh oregano, chopped
2 teaspooons of ground black pepper
Salt to taste


Place cast iron skillet on medium heat and add olive oil.  Once heated, add spices and stir.  Add onion, peppers, and mushrooms and continue to stir until coated with oil.  As the veggies soften, add in the meat and cook until browned.  Place tomatoes in a crockpot on low heat and add contents of skillet.  Leave on low heat for 6 hours, stir occasionally to break up quartered tomatoes or you can puree in a blender once finished.  Once finished, use a vegetti or julienne slicer to make "noodles" out of the zucchini.  Serve sauce over zucchini noodles.

Nutrition information

Makes 2 servings, each with 6 cups of vegetables
513 cals
21g fat
70g carbs
19g fiber
24g protein
3000mg potassium
1236mg sodium (Assuming 1 tsp of salt)

Monday, October 20, 2014

Asian Hash


1lb of ground turkey sausage
2 TBSP of coconut oil
1/2 large onion, diced
12oz bag of Asian slaw or Rainbow salad  OR
     1/2 cup of broccoli, shredded
     1/2 cup of cauliflower, shredded
     1/2 cup of carrots
     1/2 cup of red cabbage
4 cloves of garlic
1 teaspoon of roasted red pepper
1 teaspoon of black pepper
2 teaspoons of coconut aminos


Place large cast iron skillet on medium heat and add 1 TBSP of coconut oil and add garlic, roasted red pepper and black pepper, coating with oil.  Add sausage and brown.  Once sausage is brown, add in other TBSP of coconut oil, Asian slaw, and onions and stir, slowly adding in coconut aminos.  Cover for 5-10 mins or until veggies are soft.  Salt to taste.

Nutrition information

Makes 2 servings
519 cals
29g fat
19g carbs
7g fiber
47g protein
1188mg potassium
1451mg sodium

Thursday, October 16, 2014

Spanish Fries


2 TBSP of bacon grease
1/2 large onion, diced
1 large jalapeno pepper, cut in half length-wise and sliced into half discs
2 peeled potatoes, cut with a fry cutter
Garlic powder to taste


Preheat oven to 425F.  Place large cast iron skillet on low heat and add bacon grease.  Place cut potatoes in a container with a lid, pour half of grease over fries, add garlic powder, cover, and shake.  Place fries on a baking sheet and put in preheated oven.  Add onions and peppers to the skillet once its hot and stir.  At 10 minutes, shake the fries and put back in for 10 more minutes.  When the fires are finished, dump on plate and put onions and peppers on top.  Salt to taste.

Nutrition information

Makes 2 servings
270 cals
13g fat
35g carbs
3g fiber
4g protein
669mg potassium
10mg sodium

Monday, October 13, 2014

Candida albicans and its effect on hormonal balance

In my previous blog, found here, I went over some of the research on Candida albicans.  This opportunistic fungus is the leading cause of fungal infection in humans and can cause issues ranging from mild skin and connective tissue irritation to vaginal yeast infections and hormonal disturbances in those with a candida overgrowth.  In this blog I will show the connection behind all 3 of these issues.

To better understand how Candida albicans can cause a hormonal imbalance, it's important to understand the basic physiology of the stress response.  The stress response is carried out by the HPA axis.  HPA is an acronym for Hypothalamus-Pituitary-Adrenal.

Stress 101

The stress response begins when stress is perceived, which causes the hypothalamus, a part of your brain that is essentially the master control center, to release something called corticotropin releasing hormone(CRH).  CRH, in turn, triggers a projection off of your hypothalamus called the the pituitary gland to release adrenocorticotropic hormone (ACTH).  ACTH travels in the bloodstream until it reaches an area on top of the kidneys called the adrenal glands and signals them to produce corticosteroids such as cortisol and aldosterone.  In turn, as cortisol is pumped out by the adrenals, it eventually makes its way back to the hypothalamus via the bloodstream and shuts off CRH production, which causes the pituitary to reduce production of ACTH which reduces cortisol production by the adrenal glands.  This is called a negative feedback loop as higher levels of cortisol help tell the hypothalamus to chill out with requesting more cortisol.  While the stress response is far more complicated than this, this is all you need to know to understand Candida albicans' role in causing hormonal disturbances.

Recall from my last blog that Candida albicans possesses a corticosteroid receptor capable of binding corticosterone and cortisol.  When Candida albicans binds cortisol, it prevents cortisol from binding to cells that need it, while at the same time blocking the negative feedback loop cortisol has on CRH production by the hypothalamus.  This can cause the hypothalamus to pump out more and more CRH as it never receives the "Cool it" signal which, in hormonal terms, means the perception of chronic stress.  It doesn't end here for the impact on hormonal balance, however.  By causing something called pregnenonlone steal, HPA axis mis-signaling due to Candida albicans can cause problems with sex hormones and, therefore, reproductive success.

Pregnenolone-hormonal stem cell

As far as hormones go, pregnenolone is the last common ancestor of all hormones.  All steroids begin as pregnenolone and are created based on the body's needs.

Pregnenolone is synthesized from cholesterol and becomes whichever steroid the body needs based on hormonal signaling. When cortisol is bound by Candida albicans and the negative feedback loop it has on the HPA axis is broken, CRH sends the signal to the adrenal glands via ACTH that pregnenolone should be converted in to the corticosteroids, particularly cortisol.  As pregnenolone is directed towards the corticosteroids, less can be used for formation of sex/reproductive hormones causing a hormonal imbalance.  In men, this can cause low testosterone and in women it can cause low testosterone and low levels of estrogens.  Estrone, estriol, and estrogen are estrogens and Candida albicans can directly bind estrogen.  Ironically, you really don't have to learn anything else to understand how Candida albicans can affect the skin and GI tract because it is by the same mechanism.

The HPA axis in the skin

In addition to the central HPA axis that regulates the stress response, humans have a peripheral HPA axis within the skin and hair follicles that actively produce the same hormones and contains the same negative feedback system of the central HPA axis(1, 2, 3, 4) with the only difference being that the end product of the skin HPA axis is corticosterone instead of cortisol.  The skin and hair follicles are also rich sources of collagen which is high in the amino acid L-Proline, the amino acid of choice for the conversion of yeast to hypha in Candida albicans.  When you look at the effect of unmitigated CRH secretion in the skin and GI tract, you can see how Candida albicans can wreak havoc in these tissues.

By binding corticosterone in the skin, Candida albicans can break the negative feedback loop in the skin's HPA axis which may cause CRH levels in the skin to increase.  CRH causes mast cells in the skin to release histamine, an immune compound that increases inflammation and the primary target of antihistamines, pharmaceuticals used to decrease allergic responses(3, 5).  Unfettered stimulation of mast cells by CRH could cause skin inflammation to grow out of control and cause major skin hypersensitivity reactions.  Increased levels of CRH in the skin are thought to play a role in skin conditions such as eczema, psoriasis, hypersensitivity to chemicals, poison ivy reactions, urticaria, acne, and certain types of hair loss.

Effects of CRH outside of the skin

High levels of CRH activate mast cells and cause them to release histamine in the intestinal tract, increasing intestinal(6, 7) permeability.  CRH is thought to have a major role in IBS(8, 9) which would jibe with the relationship between a exaggerated stress response and IBS.  Finally,  CRH activates mast cells in the brain and increase permeability of the blood brain barrier(10).  An additional effect of chronically high CRH levels in the brain is impaired function of the hippocampus(11), an area of the brain crucial for consolidating information from short-term to long-term memory as well as spatial memory. It is interesting that brain fog is often listed as a potential symptom of candida overgrowth as impaired hippocampal function would certainly be a mechanism for brain fog.


Above I have laid out possible mechanisms for the symptoms associated with overgrowth of Candida albicans.  It is important to point out that this doesn't mean that if you have one of these symptoms that you have an overgrowth of Candida albicans.  If Candida were disrupting signaling within the HPA axis, you wouldn't have a single symptom, you would have a suite of them.

It is interesting to note that many of the symptoms of a Candida overgrowth overlap with symptoms of what was once referred to as adrenal fatigue and is now more appropriately labeled HPA axis dysregulation.  Another interesting thing that pops up is that many of the symptoms of HPA dsyregulation are caused by an electrolyte imbalance.  It is important to note that the adrenal hormone aldosterone is one of the chief regulators of electrolyte balance, and corticosterone is the precursor to aldosterone.  Candida could only play a role here if it invaded the adrenal gland directly.

If these mechanisms turn out to be correct, overgrowth of Candida albicans causes HPA axis dysregulation.  That is not to say it is the only cause or even the most common cause, other commensal organisms could potentially bind hormones that are part of the HPA axis and could, therefore, cause it to function improperly if they grow out of whack.  The important thing to realize if this is the case is that nutrient deficiencies aren't causing the problem, blocking steps in a tightly regulated system is.  Therefore, taking high doses of nutrients that are used to manufacture cortisol won't fix the problem until you fix the signaling issue.

***I will likely follow this up with a blog on therapeutic approaches to fixing the problem.  However, I need a break from writing these super long, heavily referenced blogs as they take a ton of time and I am currently working on something work related.  Please stay patient and hopefully I will get to it soon if that was what you were waiting for.  I know, it sucks, but there are only so many hours in the day.

Thursday, October 9, 2014

Candida Albicans: Fact vs Fiction

The internet is filled with tons of information on the fungus Candida albicans.  While I love that information is much more accessible now than it has been in the past thanks to the internet, there is a problem with being able to put out and receive any information you like: It's difficult to determine fact from fiction.  In this blog I will go over some of the intricacies of Candida albicans and help create a better understanding of what this crazy commensal critter is up to.

What is Candida albicans?

Candida albicans is often referred to as a yeast because overgrowth in the vaginal wall is referred to as a yeast infection, but this is a misnomer.  Candida albicans is a fungus that can grow as either single cell yeast or multicelluar filamentous cells.  Since it's found in 80% of the human population(1) and more often than not causes no harm to us, it's considered a commensal organism.  Candida albicans can convert back and forth between both yeast and hypha depending on the environment it's in, thus it is highly adaptable.  The yeast form of Candida albicans is typically benign, it's the filamentous cells that more often than not tend to become problematic, but conversion to filamentous hypha doesn't necessarily have to occur for Candida albicans to cause problems.  It is believed that the ability to switch forms and, therefore, adapt to the environment may be the most important factor in the ability of Candida albicans to infect a host rather than just one specific form(2).

Since the yeast form is unicellular, it typically spreads out within an environment which causes cells to compete with daughter cells as well as other bacteria found there for real estate and nutrients.  Filamentous cells, on the other hand, form hypha that are able to invade host tissues, find nutrients, and help grow biofilms(3).  This allows the cells to grow out in to what is more or less a root network, meaning real estate isn't as big of an issue and it can acquire resources in remote areas where other bacteria can't.  Even though Candida albicans is considered a commensal organism, it is a frequent cause of infection in patients with a compromised immune system.  Below is a picture of Candida albicans in yeast(L) and hyphal(R) form.

Yeast to hypha conversion

While conversion from yeast to filamentous hyphae is not necessary for invasion, this is the most common route due to high expression of the hyphal wall protein-1 gene.  When activated, this gene allows the filamentous cells to bind heavily to host tissues, providing stability so that they can form filaments that can puncture and invade host tissues, primarily to scrounge for nutrients.  Think of it like outriggers on a drill, without outriggers the drill will topple as it tries to drill in to the ground.  When anchored to the ground, stability allows the drill to puncture the ground and the same happens with Candida hyphae.  Without adhering to tissue, the hypha would merely push itself away from the tissue rather than puncture through it.  Hyphal wall protein-1 is either non-existent or barely expressed in the yeast form of the fungus, but highly expressed in the hyphal form(4).

Many people believe high sugar/carbohydrate intake to be the primary culprit in Candida albicans invasion, but the science doesn't support this.  In fact, high levels of glucose tend to prevent conversion of yeast to hypha while increased amino acid availability tends to promote it(5).  Another factor that tends to promote yeast to hypha conversion is an increased environmental pH, which is promoted through the formation of ammonia when hypha metabolize amino acids.  When the yeast form metabolizes glucose, this increases acidity which lowers pH and makes the environment less hospitable to the hyphal form.

If sugar intake is involved at all, it may increase the amount of yeast found within the GI tract.  This could indirectly increase the risk of hyphal conversion if the proper conditions present themselves by providing more yeast that could turn in to hyphae, but it doesn't in and of itself promote virulence of Candida albicans under most conditions. Another indirect way sugar intake can promote virulence is through inflammation, which animal models show promotes colonization of Candida albicans(6).  This wouldn't be a result of carbohydrate intake, per se, but more likely caused by specific types of food. 

Gluten and Candida

When you look at potential dietary issues that may promote Candida albicans invasion, carbohydrate intake does not appear to be directly linked.  However, something often found in foods that contain carbohydrate may have a direct effect on Candida albicans yeast to hypha conversion, which increases the likelihood of invasion.  Gluten, a protein found in grains, is not completely digested by humans because of it's high content of the amino acids L-Proline and L-Glutamine.  This allows gluten to interact with the resident flora within our digestive tract, of which Candida albicans is a member.

Studies have shown L-Proline(7, 8) and L-Glutamine(8) to be potent drivers of yeast to hypha conversion, with L-Proline having the biggest effect of any amino acid(9).  Candida albicans is also able to bind to free amino acids as well as amino acids that are part of larger proteins(10), as would be the case for a large protein like gluten.  Since Candida albicans makes the enzyme needed to break apart proteins high in L-Proline, it could bind to larger proteins and take in L-Proline to induce conversion from yeast to hypha.  In addition, gluten is also known to cause inflammation in the GI tract which is another way it may promote the virulence of Candida albicans. 

Candida and the immunocompromised

For the most part, the assumption has been that people who are not immunocompromised don't tend to have issues with Candida albicans or other Candida species.  However, this is not necessarily true.  First, Candida albicans may team up with Streptococcus mutans to form biofilms and cause cavities in the mouths of children(11).  Second, a recent study looking post mortem at people who died of heart disease found fungi of the species Candida in plaques from the blood vessel walls during autopsy(12).  Another study found significant levels of Candida albicans in the healthy wall of the aorta in patients with coronary artery disease and in the aorta of those with aortic valve stenosis (13).  This by no means implies that Candida albicans causes any of these issues, but to say that it is benign in people with a functioning immune system isn't quite true.

Up until recently, the model for Candida albicans invasion has required the host to be immunocompromised.  However, in 80% of people with disseminated Candida albicans, there is no evidence that they are immunocompromised.  In most people, Candida disseminates due to a break down in the permeability of the skin or GI tract or via a change in the gut microbiota.  These changes can come about due to surgery, nutrition, and/or antibiotic/antimicrobial usage(14). Even within the GI tract, Candida can become problematic if it overgrows due to its ability to alter hormonal status.  This is due to its ability to bind endogenous hormones. 

Candida and hormones

Candida albicans can bind female sex hormones, including estrogen(15, 16), and possesses a receptor for corticosteroids that can bind endogenous hormones as effectively as the native corticosteroid receptor(17, 18).  Corticosteroids are steroid hormones such as cortisol, corticosterone, and aldosterone that play a significant role in human physiology.  Cortisol and corticosterone are glucocorticoids, hormones that prepare the body to deal with stress by increasing blood glucose and suppressing the immune system, among other things.  While cortisol is the primary glucocorticoid in humans, corticosterone has a limited role in the human stress response but plays a role in human skin physiology that is just recently being explored.  It is also a precursor to aldosterone, a mineralocorticoid that helps regulate electrolyte balance by causing sodium and water to be retained.  In addition to binding corticosteroids, the same receptor is capable of binding to progesterone, a precursor to aldosterone and cortisol(19). 


The ability of Candida albicans to bind to hormones indicates it may have the ability to alter hormonal balance if it overgrows and invades a host.  In part 2 of this blog, I will go over how an overgrowth of Candida albicans can cause symptoms ranging from:

  1. HPA axis dysregulation
  2. Skin sensitivity reactions(Cosmetic sensitivities, hair loss, fungal nail infections)
  3. Digestive issues
  4. Hormonal issues
 From there, we will explore therapeutic strategies for fixing an overgrowth of Candida Albicans.  

Monday, October 6, 2014

Chicken Kima




1 lb of ground chicken
1 large onion, diced
2 medium tomatoes, diced
2 purple sweet potatoes, diced
2 orange sweet potatoes, diced
2 cups of asparagus, cut 2" long
2 TBSP coconut oil
5 cloves of garlic, diced
1 1/4 tsp curry powder
1 tsp of salt, pepper, ground ginger, and turmeric
3/4 tsp of cinnamon


Place large cast iron skillet on medium heat and add coconut oil.  Once the oil is hot, add the onion and garlic and cook until soft and pliable.  Add in ground chicken and spices and stir.  Once the chicken is browned, add in the tomatoes, asparagus, and sweet potatoes and cook covered until desired firmness, typically no more than 10-15 minutes.

Nutrition information

Makes 2 servings
22g fat
52g carbs
11g fiber
33g protein
2115mg potassium
934mg sodium

Thursday, October 2, 2014

Chicken Tikka Masala (Grain-free, dairy-free)

Paleo Chicken Tikka Masala


4 chicken thighs, pre-roasted and chopped
2 tbsp coconut oil
1/8tsp ground ginger
1tsp turmeric
1tsp ground coriander
1tsp cumin
1tsp cayenne powder
1tsp chili powder
dash of cinnamon
5 cloves of garlic, chopped
2 medium vine ripe tomatoes, pureed
1 medium onion, chopped
1 yellow bell pepper, chopped
1 orange bell pepper, chopped
4oz baby bella mushrooms, chopped
1/2 can of lite coconut milk
2tbsp shredded coconut
Salt to taste


Place a large cast iron skillet on medium heat and add the coconut oil.  Once the oil is melted, add the yellow pepper, onion, garlic, and mushrooms to the skillet and cook until the onions are caramelized.  Mix the spices and add to the skillet.  Stir the contents of the skillet for a couple of minutes and add the pureed tomatoes, continue to stir.  Add the coconut milk and shredded coconut and let simmer for a few minutes.  Remove the contents, puree in a blender, and add back to the skillet.  Add the chopped chicken thighs and let simmer for 5-10 more minutes.

Nutrition information

Makes 2 servings
25g fat
37g carbs
8g fiber
38g protein
1515mg potassium
478mg sodium