Donate Blood!

I am always offering ways to improve health and performance. Improvement in these areas is an admirable goal for any individual.

My number one recommendation for everyone is to first improve their diet –replacing packaged foods with vegetables, fruits, and local meat and eggs.

However, an ideal diet, high in nutrient density, can have one unfavorable outcome: elevated blood iron levels.

High iron levels become an issue when an individual starts eating adequate protein but doesn’t participate in activities that result in bleeding. Historically, we would risk injury during hunting, defending ourselves from prey, or just living life with fewer comforts than we have now.

This is more problematic for men than women, as women have a natural method for disposing of excess iron through blood on a regular basis.

High iron levels in the blood can pose as an oxidative stress for the body. And, if you recall the concern of fats becoming oxidized, you’ll remember that it’s the process of oxidation that causes most of our health problems.

Many studies that claim red meat causes cancer, actually examine iron levels in the blood. It is well accepted that unnaturally high iron levels can indeed be a precipitating event in the formation of different cancers.

So, if we are shooting for one gram of protein per pound of bodyweight, and understand that grass-fed beef is the second healthiest protein source after seafood, what can we do to avoid the risks of over consuming iron?

Donate blood regularly!

This is something I have started recently and recommend for most healthy individuals, particularly men.

Not only can you help an individual that may be in dire need of blood, but you will also reduce the oxidative stress in your own body.

The American Red Cross allows you to donate blood once every eight weeks. This is because most donations will take about one pint of blood, which takes the body four to six weeks to fully replace. However, the plasma in your blood will be replaced within 24 hours so symptoms of fatigue should not last longer than this.

Donating blood is a stressor for the body, so you will need to curtail your exercise schedule accordingly. I usually donate blood on the Saturday before a recovery week. This means that I won’t have any scheduled exercise within 2 days of donating blood, and even when I do return to the gym on Monday, my workouts will be at half intensity for the following week.

Even though eating after giving blood can be beneficial, make sure you are still making healthy choices! Some donation sites still offer juices, cookies, or candy. I would recommend coming prepared with a piece of fruit or a protein smoothie.

Anemia, often caused by low iron levels, is common in our country and may be more problematic than “high-normal” levels. For this reason, I recommend getting a ferritin blood test before donating blood on a regularly basis.

On average, 10% of women nationally have anemia, while only about 2% of men have it. Because of this, I believe a regular blood donation schedule is far more beneficial for males.

Take a look at the effort you put into exercise. Consider how much time you spend shopping, cooking, and eating. Add up how much you spend on health insurance. Now ask yourself: is donating blood every few months to improve your health and possibly save a life, worth 30 minutes of slight discomfort?

Not every step we take to improve our health will directly help a fellow human – but this one will!

Blood-Donation

Gluten

At this moment, there appears to be a “gluten-free” craze or fad.

By now, you all know that I recommend a gluten-free lifestyle. But, I advocate learning the reasons behind elimination first.

Imagine if, in 1949, when doctors were recommending cigarettes, that I came out of nowhere and just said “stop doing what your doctor tells you – it’s bad for you!”

Instead of just hoping that people will go against “conventional wisdom” to improve their health, I’d rather provide some facts about gluten.

First, let’s look at the actual plant that has the most gluten – wheat. The plant in the bottom of the picture is wild-grown wheat, while the top plant is commercially grown wheat.
Wheat
This picture is slightly deceiving because the “ancient einkorn wheat” is actually a modern day variation of wheat grown in the wild. Originally, the stem would continue even further and there would be far less seeds. But, even in this picture, you can see that the output (the size and amount of protective “hairs”) of the plant has changed.

While scientists tinkered with the genetics of the plant to increase profits, they also increased the protein content immensely. This was considered an added benefit but, unfortunately, no testing was done on human tolerance.

As acetaminophen (Tylonel) was developed, it had to be researched mechanistically, tested on animals, and finally on humans, before each generation of the product could be sold in stores. This was never done with wheat.

Next, let’s consider the role wheat played historically. For the last 10,000 years, grains helped humans develop villages, cities, and countries, allowing us to leave behind 2.6 million years of hunting and gathering.

Imagine life as a hunter-gatherer – traveling around in groups, moving your “home”, and collecting food.

Would it make sense to spend hours every day picking tiny seeds off a plant, that would then have to be soaked, sprouted, and ground to make one thin cracker? Or would it make sense to throw a spear into a herd of antelope and provide enough food for weeks?

Would you rather search for days to find a few grasses of wheat? Or would time be better spent picking berries and plucking leaves (requiring no preparation) as you travel?

Wheat, and other grains and seeds, would be stored for a time of famine…when a hunt was unsuccessful or in winter when plants were scarce.

Now we know the role wheat played historically and how the plant changed through recent genetic hybridization. But, what about the actual affects gluten has on humans?

It is predicted that 1% of the world population has celiac disease, an overt allergy to gluten, while about 10% report having “non-celiac gluten sensitivity”.

Gluten sensitivity can result in over 250 symptoms, including joint pain, dry skin, or indigestion.

There is no test for “gluten sensitivity”, as there is with celiac disease. The only way to discover sensitivity is to completely remove gluten from the diet and reintroduce after a few months. Finally, one microgram of gluten can change the gut chemistry for up to 6 months – therefore, an accidental exposure, or short-term elimination, may provide invalid results.

I don’t want to bore you by exploring every issue involved with gluten, so I’ll just mention the two most compelling facts:

Gliadin, one of two proteins that make up gluten, breaks down to polypeptides. These are small enough to travel through the gut lining, into the blood, and cross the blood-brain barrier. At this point, they bind to opiate-receptor sites, producing euphoria, similar to a tiny dose of morphine or heroin. Studies show that gluten stimulates appetite so much, through the reward/pleasure centers of the brain, that individuals eating gluten consume an extra 400 calories a day.

Finally, transglutaminase is the enzyme in that breaks down gluten. The more gluten one eats, the more transglutaminase their body must produce. The issue here is that transglutaminase has the ability to affect every cell in the body. This is one reason gluten sensitivity can manifest in hundreds of different symptoms. The literature shows that high levels of transglutaminase are present in individuals with neurological diseases such as Huntington’s, Parkinson’s, and dementia.

I could continue but I don’t want to make this post too dry or sound like I’m trying to make gluten into some boogey-man.

The takeaway points are:

We have genetically-altered the wheat plant to contain far more gluten than it should.

Humans are not meant to consume as much gluten as we have in the last 50 years.

Gluten has the potential to affect nearly every function within the body.

Considering these facts, it is no surprise that there is a “gluten-free” craze at this moment. As more people eliminate gluten from their diets, they discover that it was the cause of many different health issues, ranging from fat-gain to Type II diabetes to anxiety.

And with that, you know the risks of over-consuming gluten, and the benefits of opting for more nutritional foods.

The science is out there – why not give it a try and see if removing gluten from your diet for a few months improves your life in any way? What will you have to lose (besides a few pizza nights or conveniently packaged snack bars)?