The Promise of (Omega-3) DHA

From heart disease to joint pain, the conditions shown to benefit from increased omega-3 fatty acid intake are diverse. The cardioprotective and anti-inflammatory benefits of omega-3s are well established in scientific literature. The heavy skewing of polyunsaturated fats toward omega-6 in relation to omega-3 in the modern Western diet is a contributing factor that exacerbates many chronic conditions regularly seen in clinical practice. With docosahexaenoic acid (DHA) serving as a structural component of cell membranes—particularly in the brain—and also recognized as a precursor to inflammation-resolving molecules, sufficient intake of DHA via marine foods or supplements can have far-ranging effects. Obvious and well-documented benefits from DHA are conditions involving inflammation, chronic pain, and ocular health. However, recent research is bringing to light new potential for this fatty acid.

A promising study in rats demonstrated that DHA may minimize neuronal damage due to traumatic brain injury (TBI). Researchers gave test animals DHA doses equivalent to 3, 12, and 40mg/kg for 30 days before inducing TBI. They observed that DHA at the highest dose resulted in positive changes to all markers of axonal and cellular injury studied. Lower doses had more selective effects on individual markers, but were still beneficial. The same researchers had also shown that omega-3 supplements can be helpful for repair following a TBI, but the former study is one of the first to suggest that DHA might actually have prophylactic effects when serum levels are replete prior to injury. Considering how devastating the physical, emotional, and financial effects of TBI can be for the military’s ‘wounded warriors’ and their families, researchers have suggested the Department of Defense prioritize research into regular supplementation with omega-3 fatty acids to establish a protective baseline for those at greatest risk for TBI. The same beneficial effects could also be expected to carry over to others at risk for head injuries, such as young athletes engaged in contact sports.

Another expanding role for DHA is in sleep quality. In a study from Oxford University, children ages 7-9 who were given a 600mg DHA supplement (from algae) for 16 weeks slept close to one hour longer than children taking a placebo. They also had fewer episodes of waking during the night, which could positively impact learning and academic performance. The authors suggest this could be because omega-3 status—especially DHA—seems to influence melatonin production and pineal gland function.   

DHA repletion has also been shown to benefit learning and behavior in children. This makes sense, given DHA’s key role in the physical structure of the brain, but in light of the newer research, perhaps it’s also the result of improved sleep quality. Although the study subjects were children, most adults are only too aware that insufficient sleep makes it difficult to focus and retain new information.  Children given 600mg DHA/day showed improvement in reading ability as measured on standardized tests, and improvement in behavior (attention, impulsivity, opposition, hyperactivity) as rated by parents.

Correlation Between Food and Joint Pain

Patients with autoimmune diseases such as, rheumatoid arthritis, systemic lupus erythematosus, or Sjogren’s disease are typically given protocol-driven treatments with limited success because the symptoms are treated instead of the underlying problem. 

The problem with this is everyone has their own unique biochemical individuality. This is a common problem with almost all autoimmune diseases. There is endless research on intestinal permeability, aka leaky gut. The gastrointestinal tract is 80% of our immune system. When inflammation is present, the tight junctions and intestinal mucosa can become damaged, causing gaps or “pores” in the lining of intestinal mucosa. Toxic byproducts in the digestive tract are then absorbed into the bloodstream and transported on to the liver. The molecules of food and toxins are “leaked” through the GI lining and then eventually affect systems throughout the body, causing inflammation in our joints and expressing toxins in autoimmune conditions and food sensitivities.

Patients with rheumatoid arthritis (RA) often have an association between food intake and rheumatoid disease severity. In 2008, in looking at this immunological link between gut immunity and RA, food IgG, IgA and IgM antibodies were measured. In the intestinal fluid of many RA patients, all three immunoglobulin classes showed increased food specific activities, including gliadin antibodies.

There are some tests to consider for those with an autoimmune disease, as great strides have been made in regards to what labs can test for today. There are labs that assess food sensitivities, which is different than the IgE RAST test performed by traditional allergists. There is also a lab that can test for intestinal permeability. Through the serum they are able to detect antibodies to LPS, occludin/zonulin and the actomyosin network to identify the breakdown of a healthy intestinal barrier. In addition, a comprehensive digestive stool analysis is essential for healing the gut.

It is also very important to check vitamin D levels and to test for gluten-associated antibodies and cross-reactive foods since they play a large role in inflammatory and autoimmune processes.

Hormones and Chronic Stress

Underlying Causes of Adrenal/Hormone Problems

Unhealthy lifestyle habits (poor diet, inadequate exercise, insufficient sleep, lack of relaxation, and internalizing emotional stress) are sources of chronic stress that may be underlying causes of adrenal fatigue and hormone imbalance. Other common sources of chronic stress include: food sensitivities, heavy metals, environmental toxins, radiation exposure, and regular use of prescription drugs. Chronic stress slowly erodes health and compromises longevity.

Under chronic stress, the adrenal glands increase their output of cortisol—often referred to as the “stress hormone.” The principal hormones produced by the adrenal glands—cortisol, DHEA, aldosterone, testosterone, estrogens, and progesterone—share a common precursor, the master hormone pregnenolone. When under stress, the adrenal glands are hyperstimulated and pregnenolone is diverted (stolen) from other pathways to produce cortisol.

Pregnenolone Steal

This increase in the production of cortisol (and the resulting diversion ofpregnenolone) causes fatigue and the general aches and pains associated with chronic stress. However, with time, pregnenolone steal has a much broader damaging effect on health. It exacerbates any developing or existing health problems because pregnenolone is not being adequately converted to other essential hormones. Refer to the following chart to see the dynamic of pregnenolone steal:

What stresses have become chronic, causing the body to divert pregnenolone to provide for the production of cortisol? The sooner you identify and deal with the offenders, the sooner you restore your patients’ health. Consider the following sources as a logical starting point:

  • Lifestyle: Diet, Sleep, Exercise, Mental
  • Environmental: Pathogen infections, chemicals, heavy metals, food sensitivities, mold, radiation.

The Agility Training Fallacy

This video explains why foot turnover speed is impressive but has no transfer of training to agility. Here it is explained in depth so as to put an end to pointless ladder drills that are not making you a better athlete. Video courtesy of Sport Science Collective

 
 
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