Blessed are the Flexible

Reading Time: 4 Minutes – Blessed Are The Flexible…

…For they shall not be broken.

All humans, if they live long enough will eventually dance with cancer. I did at an earlier age than some. It is a dance in which I elected to take the lead. And I choose to remain in that position. PERIOD. There is no until in my dance manual. There is no finishing this dance in my estimation; only a lack of will and vitality to continue.

I will outpace this partner because I have nothing left to lose and life to gain. I choose to overcome this limitation on life that is seeming plagued my life for many years. I have overcome illness and I am overcoming aging at the same time. They are seemingly one and the same. I choose to live a longer, much fuller life. I have adapted and I will continue to remain flexible.

Continued education, observation, and interpretation of my body messages have taught me that there will be a continual readjusting of dietary requirements as the body see’s fit according to ITS needs with no concern for my so-called desires.

At this point in my journey, I believe it is smart for me to stop telling people what, how, and when they should eat because my own experience and obedience to my body has taught me that my best thinking needs to remain in the back seat where it belongs. The only thing my body has confirmed to me is that its need for sufficient hydration is unwavering. There is no ambiguity, and any derivation from sufficient hydration will be outside of the will of my body and ITS best interest, which should also be mine.

Sufficient hydration or Euhydration is the goal of the human body. There is no room in this statement for opinion. If we want the longest, fullest life, to our body’s uttermost potential, this is how it is to be attained. And anything going into our body that falls below 80% H2O content will ultimately lead to a painful and pitiful end.

Below is a table that has helped me enter into being my best self. Personally, I don’t foresee anything animal ever being a part of my diet moving forward considering it is not needed for a sufficient nutrient base. We now live in a world of plenty and easy access to all things nourishing if we choose.

Be blessed on your journey…

  • 100% Distilled Water
  • 90–99% Fat-free milk, cantaloupe, strawberries, watermelon, lettuce, cabbage, celery, spinach, cucumber, squash (cooked)
  • 80–89% Fruit juice, yogurt, apples, grapes, oranges, carrots, broccoli, pears, pineapple
  • 70–79% Bananas, avocados, cottage cheese, ricotta cheese, potato, corn, shrimp
  • 60–69% Pasta, legumes, salmon, ice cream, chicken breast
  • 50–59% Ground beef, hot dogs, feta cheese, tenderloin steak (cooked)
  • 40–49% Pizza
  • 30–39% Cheddar cheese, bagels, bread
  • 20–29% Pepperoni sausage, cake, biscuits
  • 10–19% Butter, margarine, raisins
  • 1–9% Walnuts, peanuts (dry roasted), chocolate chip cookies, crackers, cereals, pretzels, taco shells, peanut butter
  • 0% Oils, sugars

    Michael J. Loomis | Editor at Chew Digest | Scribe at Terrain Wiki

What is Underhydration?

Have you ever heard the word euhydration?

Noun. euhydration (uncountable) (medicine) Normal level of hydration; absence of hyperhydration or dehydration.-euhydration – Wiktionary

Even though dehydration describes the state of body water deficit, some scientists have suggested that dehydration refers to the process of losing water, while hypohydration is the state of water deficit, and rehydration is the process of gaining water from a hypohydrated state towards euhydration.


Michael J. Loomis | Editor at Chew Digest | Scribe at Terrain Wiki

Hydration, dehydration, underhydration, optimal hydration: are we barking up the wrong tree?

Stavros Kavouras, is an assistant dean of graduate education and professor of nutrition at Arizona State University.

Here are a few words from him on the topic of underhydration.

The topic of hydration and health is new and under researched. At this point, we probably have more questions than answers and theories on potential mechanisms associating low water intake with various unexplored pathologies, including cancer and longevity. However, it is time to concentrate our efforts on the health implications of being a low-drinker rather than examining the acute effects of dehydration (water deficit). We need large scale studies and randomized control trials to investigate how increased water intake impacts health and well-being.

According to the Medical Subject Headings of the US National library of medicine “dehydration is the condition that results from excessive loss of water from a living organism.” Even though dehydration describes the state of body water deficit, some scientists have suggested that dehydration refers to the process of losing water, while hypohydration is the state of water deficit, and rehydration is the process of gaining water from a hypohydrated state towards euhydration.

The majority of research on water homeostasis and its effects on the human body has focused on how water deficit impacts exercise performance, mainly in hot environments.

Edward Adolf in his classic work “Physiology of Man in the Desert” was one of the first to study the effect of water intake on thermoregulation and performance. He also introduced the term voluntary dehydration when he observed that during “rapid sweating”, humans do not drink enough to maintain body water. He concluded that: “…when he is active and needs much water his thirst sensations are inadequate.”

During the last 30 years we have learned that even a mild degree of dehydration (< 2% of body weight) can impair exercise performance and increase heat strain, especially in the heat. The degree of exercise-induced dehydration often ranges between 2 and 5% of body weight and it is accompanied by elevated plasma osmolality, decreased plasma volume, and increased urinary biomarkers (i.e. urine osmolality).

Influenced by this observation and based on the mathematical symmetric property stating that if A = B, then B = A, we have mistakenly assumed that the backward association is also true. Thus, if exercise-induced dehydration leads to increased urine biomarkers, then elevated urinary biomarkers should correspond with water deficit and dehydration. So, when we read data indicating that a majority of children, adults, and athletes have elevated levels of urinary osmolality or specific gravity we mistakenly conclude that a large portion of the population is dehydrated. Furthermore, when we read data indicating that a majority of people across the world do not meet the dietary guidelines for water intake we also conclude that most people are dehydrated.

Is it possible that people with free access to water when they do not meet the water intake guidelines or when they have elevated urinary biomarkers are dehydrated? Probably not.


Kavouras, S.A. Hydration, dehydration, underhydration, optimal hydration: are we barking up the wrong tree?. Eur J Nutr 58, 471–473 (2019). https://doi.org/10.1007/s00394-018-01889-z


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