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Get Enough Amino Acids: The Essential & The Conditionally Essential
Plus: tight hamstrings? Here's a test to know if it's actually your sciatic nerve (and what to do about it)
❝Courage is like a muscle; we strengthen it by use❞
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Today’s 30-Second Summary
If you don’t have time to read the whole email today, here are some key takeaways:
Amino acids are the building blocks of protein; as humans, we need 20, and 9 of them we can’t synthesize and must get from our diet.
Today’s main feature examines what happens if you don’t, and also which “non-essential” amino acids are actually “conditionally essential”, and you may need more of at certain times in your life.
Wish you had a doctor who takes your menopause symptoms seriously?
Today’s sponsor Winona’s board-certified physicians are offering personalized, bioidentical HRT tailored to your needs and delivered to your door.
Today’s featured book is about overcoming tendonitis (and it’s mostly not about inflammation, and no, hot/cold therapies don’t work either; it’s a very misunderstood condition, but this book sets the record straight with an abundance of high-quality evidence)
Read on to learn more about these things, or click here to visit our archive
A Word To The Wise
Watch and Learn
Tight Hamstrings? Here’s A Test To Know If It’s Actually Your Sciatic Nerve
Tight hamstrings are often not actually due to hamstring issues, but rather, are often being limited by the sciatic nerve. This video offers a home test to determine if the sciatic nerve is causing mobility problems (and how to improve it, if so):
Prefer text? The above video will take you to a 10almonds page with a text-overview, as well as the video!
Saturday Life Hacks
Why You Can’t Skimp On Amino Acids
Our body requires 20 amino acids (the building blocks of protein), 9 of which it can’t synthesize (thus called: “essential”) and absolutely must get from food. Normally, we get these amino acids from protein in our diet, and we can also supplement them by taking amino acid supplements if we wish.
Specifically, we require (per kg of bodyweight) a daily average of:
Histidine: 10 mg
Isoleucine: 20 mg
Leucine: 39 mg
Lysine: 30 mg
Methionine: 10.4 mg
Phenylalanine*: 25 mg
Threonine: 15 mg
Tryptophan: 4 mg
Valine: 26 mg
*combined with the non-essential amino acid tyrosine
Why this matters
A lot of attention is given to protein, and making sure we get enough of it, especially as we get older, because the risk of sarcopenia (muscle mass loss) increases with age:
However, not every protein comes with a complete set of essential amino acids, and/or have only trace amounts of of some amino acids, meaning that a dietary deficiency can arrive if one’s diet is too restrictive.
And, if we become deficient in even just one amino acid, then bad things start to happen quite soon. We only have so much space, so we’re going to oversimplify here, but:
Histidine: is needed to produce histamine (vital for immune responses, amongst other things), and is also important for maintaining the myelin sheaths on nerve cells.
Isoleucine: is very involved in muscle metabolism and makes up the bulk of muscle tissue.
Leucine: is critical for muscle synthesis and repair, as well as wound healing in general, and blood sugar regulation.
Lysine: is also critical in muscle synthesis, as well as calcium absorption and hormone production, as well as making collagen.
Methionine: is very important for energy metabolism, zinc absorption, and detoxification.
Phenylalanine: is a necessary building block of a lot of neurotransmitters, as well as being a building block of some amino acids not listed here (i.e., the ones your body synthesizes, but can’t without phenylalanine).
Threonine: is mostly about collagen and elastin production, and is also very important for your joints, as well as fat metabolism.
Tryptophan: is the body’s primary precursor to serotonin, so good luck making the latter without the former.
Valine: is mostly about muscle growth and regeneration.
So there you see, the ill effects of deficiency can range from “muscle atrophy” to “brain stops working” and “bones fall apart” and more. In short, any essential amino acid deficiency not remedied will ultimately result in death; we literally become non-viable as organisms without these 9 things.
What to do about it (the “life hack” part)
Firstly, if you eat a lot of animal products, those are “complete” proteins, meaning that they contain all 9 essential amino acids in sensible quantities. The reason that all animal products have these, is because they are just as essential for the other animals as they are for us, so they, just like us, must consume (and thus contain) them.
However, a lot of animal products come with other health risks:
Do We Need Animal Products To Be Healthy? ← this covers which animal products are definitely very health-risky, and which are probably fine according to current best science
…so many people may prefer to get more (or possibly all) dietary protein from plants.
However, plants, unlike us, do not need to consume all 9 essential amino acids, and this may or may not contain them all.
Soy is famously a “complete” protein insofar as it has all the amino acids we need.
But what if you’re allergic to soy?
Good news! Peas are also a “complete” protein and will do the job just fine. They’re also usually cheaper.
Final note
An oft-forgotten thing is that some other amino acids are “conditionally essential”, meaning that while we can technically synthesize them, sometimes we can’t synthesize enough and must get them from our diet.
The conditions that trigger this “conditionally essential” status are usually such things as fighting a serious illness, recovering from a serious injury, or pregnancy—basically, things where your body has to work at 110% efficiency if it wants to get through it in one piece, and that extra 10% has to come from somewhere outside the body.
Examples of commonly conditionally essential amino acids are arginine and glycine.
Arginine is critical for a lot of cell-signalling processes as well as mitochondrial function, as well as being a precursor to other amino acids, including creatine.
As for glycine?
Check out: The Sweet Truth About Glycine
Enjoy!
Our Sponsors Make This Publication Possible
Searching for a doctor who takes your menopause symptoms seriously?
Winona believes every woman deserves to feel their best. Their board-certified doctors provide customized hormone therapy to address your unique needs, with free shipping and ongoing support:
Please do visit our sponsors—they help keep 10almonds free
This Or That?
Vote on Which is Healthier
Yesterday we asked you to choose between clams vs oysters—we picked the clams (click here to read about why), as did just 28% of you!
Now for today’s choice:
Click on whichever you think is better for you!
One-Minute Book Review
Overcoming Tendonitis: A Systematic Approach to the Evidence-Based Treatment of Tendinopathy – by Dr. Steven Low & Dr. Frank Skretch
If you assumed tendonitis to be an inflammatory condition, you’re not alone. However, it’s not; the “-itis” nomenclature is a misnomer, and while one can rarely go wrong with reducing chronic/systemic inflammation, it’s not the cure for tendonitis.
What, then, is tendonitis and what does cure it? It’s a non-inflammatory proliferation disorder, meaning, something is growing (or in this case, simply being replaced) in a way it shouldn’t. As to fixing it, that’s more complex.
This book does cover 20 interventions (sorted into “major” and “minor”), ranging from exercise therapies to surgery, with many things between. It also examines popular myths that do not help, such as rest, ice, heat, and analgesics.
The style of this book is hard science, but don’t worry, it explains everything along the way. It does however mean that if you’re not very accustomed to wading through scientific material, you can’t just dip into the middle of the book and be guaranteed to understand what’s going on. Indeed, before even getting to discussing tendonitis/tendinopathy, the first chapter is very reassuringly dedicated to “understanding the levels and classification of evidence in studies”, along with the assorted scales and guidelines of the Center for Evidence-Based Medicine.
The rest, however, is about the etiology, diagnosis, and treatment of tendonitis and tendinopathy more generally. One interesting thing is that, according to the abundant high-quality evidence presented in this book, what works for one body part’s tendonitis does not necessarily work for another body part, so we get quite a part-by-part rundown.
Bottom line: this book has a wealth of useful, applicable information about management of tendonitis, making it indispensable if you or a loved one suffer from such—but settle in, because it’s not a light read.
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Wishing you a wonderfully regenerative weekend,
The 10almonds Team