Cannabis Myths vs Reality

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Cannabis Myths vs Reality

We asked you for your (health-related) opinion on cannabis use—specifically, the kind with psychoactive THC, not just CBD. We got the above-pictured, below-described, spread of responses:

  • A little over a third of you voted for “It’s a great way to relax, without most of the dangers of alcohol”.
  • A little under a third of you voted for “It may have some medical uses, but recreational use is best avoided”.
  • About a quarter of you voted for “The negative health effects outweigh the possible benefits”
  • Three of you voted for “It is the gateway to a life of drug-induced stupor and potentially worse”

So, what does the science say?

A quick legal note first: we’re a health science publication, and are writing from that perspective. We do not know your location, much less your local laws and regulations, and so cannot comment on such. Please check your own local laws and regulations in that regard.

Cannabis use can cause serious health problems: True or False?

True. Whether the risks outweigh the benefits is a personal and subjective matter (for example, a person using it to mitigate the pain of late stage cancer is probably unconcerned with many other potential risks), but what’s objectively true is that it can cause serious health problems.

One subscriber who voted for “The negative health effects outweigh the possible benefits” wrote:

❝At a bare minimum, you are ingesting SMOKE into your lungs!! Everyone SEEMS TO BE against smoking cigarettes, but cannabis smoking is OK?? Lung cancer comes in many forms.❞

Of course, that is assuming smoking cannabis, and not consuming it as an edible. But, what does the science say on smoking it, and lung cancer?

There’s a lot less research about this when it comes to cannabis, compared to tobacco. But, there is some:

❝Results from our pooled analyses provide little evidence for an increased risk of lung cancer among habitual or long-term cannabis smokers, although the possibility of potential adverse effect for heavy consumption cannot be excluded.❞

Read: Cannabis smoking and lung cancer risk: Pooled analysis in the International Lung Cancer Consortium

Another study agreed there appears to be no association with lung cancer, but that there are other lung diseases to consider, such as bronchitis and COPD:

❝Smoking cannabis is associated with symptoms of chronic bronchitis, and there may be a modest association with the development of chronic obstructive pulmonary disease. Current evidence does not suggest an association with lung cancer.❞

Read: Cannabis Use, Lung Cancer, and Related Issues

Cannabis edibles are much safer than smoking cannabis: True or False?

Broadly True, with an important caveat.

One subscriber who selected “It may have some medical uses, but recreational use is best avoided”, wrote:

❝I’ve been taking cannabis gummies for fibromyalgia. I don’t know if they’re helping but they’re not doing any harm. You cannot overdose you don’t become addicted.❞

Firstly, of course consuming edibles (rather than inhaling cannabis) eliminates the smoke-related risk factors we discussed above. However, other risks remain, including the much greater ease of accidentally overdosing.

❝Visits attributable to inhaled cannabis are more frequent than those attributable to edible cannabis, although the latter is associated with more acute psychiatric visits and more ED visits than expected.❞

Note: that “more frequent” for inhaled cannabis, is because more people inhale it than eat it. If we adjust the numbers to control for how much less often people eat it, suddenly we see that the numbers of hospital admissions are disproportionately high for edibles, compared to inhaled cannabis.

Or, as the study author put it:

❝There are more adverse drug events associated on a milligram per milligram basis of THC when it comes in form of edibles versus an inhaled cannabis. If 1,000 people smoked pot and 1,000 people at the same dose in an edible, then more people would have more adverse drug events from edible cannabis.❞

See the numbers: Acute Illness Associated With Cannabis Use, by Route of Exposure

Why does this happen?

  • It’s often because edibles take longer to take effect, so someone thinks “this isn’t very strong” and has more.
  • It’s also sometimes because someone errantly eats someone else’s edibles, not realising what they are.
  • It’s sometimes a combination of the above problems: a person who is now high, may simply forget and/or make a bad decision when it comes to eating more.

On the other hand, that doesn’t mean inhaling it is necessarily safer. As well as the pulmonary issues we discussed previously, inhaling cannabis has a higher risk of cannabinoid hyperemesis syndrome (and the resultant cyclic vomiting that’s difficult to treat).

You can read about this fascinating condition that’s sometimes informally called “scromiting”, a portmanteau of screaming and vomiting:

Cannabinoid Hyperemesis Syndrome

You can’t get addicted to cannabis: True or False?

False. However, it is fair to say that the likelihood of developing a substance abuse disorder is lower than for alcohol, and much lower than for nicotine.

See: Prevalence of Marijuana Use Disorders in the United States Between 2001–2002 and 2012–2013

If you prefer just the stats without the science, here’s the CDC’s rendering of that:

Addiction (Marijuana or Cannabis Use Disorder)

However, there is an interesting complicating factor, which is age. One is 4–7 times more likely to develop a substance abuse disorder, if one starts use as an adolescent, rather than later in life:

See: Likelihood of developing an alcohol and cannabis use disorder during youth: Association with recent use and age

Cannabis is the gateway to use of more dangerous drugs: True or False?

False, generally speaking. Of course, for any population there will be some outliers, but there appears to be no meaningful causal relation between cannabis use and other substance use:

Is marijuana really a gateway drug? A nationally representative test of the marijuana gateway hypothesis using a propensity score matching design

Interestingly, the strongest association (where any existed at all) was between cannabis use and opioid use. However, rather than this being a matter of cannabis use being a gateway to opioid use, it seems more likely that this is a matter of people looking to both for the same purpose: pain relief.

As a result, growing accessibility of cannabis may actually reduce opioid problems:

Some final words…

Cannabis is a complex drug with complex mechanisms and complex health considerations, and research is mostly quite young, due to its historic illegality seriously cramping science by reducing sample sizes to negligible. Simply put, there’s a lot we still don’t know.

Also, we covered some important topics today, but there were others we didn’t have time to cover, such as the other potential psychological benefits—and risks. Likely we’ll revisit those another day.

Lastly, while we’ve covered a bunch of risks today, those of you who said it has fewer and lesser risks than alcohol are quite right—the only reason we couldn’t focus on that more, is because to talk about all the risks of alcohol would make this feature many times longer!

Meanwhile, whether you partake or not, stay safe and stay well.

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  • Is thirst a good predictor of dehydration?

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    Water is essential for daily functioning and health, and we can only survive a few days without it. Yet we constantly lose water through sweat, urination and even evaporation when we breathe.

    This is why we have evolved a way to regulate and maintain water in our bodies. Like other animals, our survival relies on a strong biological drive that tells us to find and drink water to balance fluid loss.

    This is thirst – a sensation of dryness in the mouth signalling we need to have a drink. This basic physiological mechanism is controlled mainly by part of the brain’s “control centre”, called the hypothalamus. The hypothalamus receives signals from various regions of the body and in return, releases hormones that act as a messenger to signal the thirst sensation.

    KieferPix/Shutterstock

    What is dehydration?

    Staying hydrated (having enough water in our bodies) is important for several reasons, including:

    • regulating body temperature through sweat and respiration
    • lubricating joints and eyes
    • preventing infections
    • digesting and absorbing nutrients
    • flushing out waste (via the kidneys)
    • preventing constipation
    • brain function (including memory and concentration)
    • mood and energy levels
    • physical performance and recovery from exercise
    • skin health.

    Dehydration occurs when our body doesn’t have enough water. Even slight drops in fluid levels have noticeable consequences, such as headaches, feeling dizzy, lethargy and struggling to concentrate.

    Chronic dehydration can pose more serious health risks, including urinary tract infections, constipation and kidney stones.

    What does the evidence say?

    Despite thirst being one of the most basic biological drivers for good hydration, science suggests our feelings of thirst and subsequent fluid intake don’t always correlate with hydration levels.

    For example, a recent study explored the impact of thirst on fluid intake and hydration status. Participants attended a lab in the morning and then later in the afternoon to provide markers of hydration status (such as urine, blood samples and body weight). The relationship between levels of thirst in the morning and afternoon hydration status was negligible.

    Further, thirst may be driven by environmental factors, such as access to water. For example, one study looked at whether ample access to water in a lab influenced how much people drank and how hydrated they were. The link between how thirsty they felt and how hydrated they were was weak, suggesting the availability of water influenced their fluid intake more than thirst.

    Exercise can also change our thirst mechanism, though studies are limited at this stage.

    A man standing in a kitchen drinking a glass of water.
    Being thirsty doesn’t necessarily mean we’re dehydrated. puhhha/Shutterstock

    Interestingly, research shows women experience thirst more strongly than men, regardless of hydration status. To understand gender differences in thirst, researchers infused men and women with fluids and then measured their thirst and how hydrated they were. They found women generally reported thirst at a lower level of fluid loss. Women have also been found to respond more to feeling thirsty by drinking more water.

    Other ways to tell if you need to drink some water

    While acknowledging some people will need to drink more or less, for many people, eight cups (or two litres) a day is a good amount of water to aim for.

    But beyond thirst, there are many other ways to tell whether you might need to drink more water.

    1. urine colour: pale yellow urine typically indicates good hydration, while darker, concentrated urine suggests dehydration

    2. frequency of going to the toilet: urinating regularly (around four to six times a day) indicates good hydration. Infrequent urination can signal dehydration

    3. skin turgor test: gently pinching the skin (for example, on the back of the hand) and observing how quickly the skin returns to its normal position can help assess hydration. Slow return may indicate dehydration

    A woman's index finger and thumb pinch the skin on the back of her other hand.
    If skin stays elevated after pinching it may be a sign of dehydration. SusaZoom/Shutterstock

    4. mouth and lips: a dry mouth or cracked lips can be early signs of dehydration

    5. headaches and fatigue: frequent headaches, dizziness, or unexplained fatigue can be signs of inadequate hydration

    6. sweating: in physically active people, monitoring how much they sweat during activity can help estimate fluid loss and hydration needs. Higher levels of sweat may predispose a person to dehydration if they are unable to replace the fluid lost through water intake

    These indicators, used together, provide a more comprehensive picture of hydration without solely depending on the sensation of thirst.

    Of course, if you do feel thirsty, it’s still a good idea to drink some water.

    Lauren Ball, Professor of Community Health and Wellbeing, The University of Queensland and Kiara Too, PhD candidate, School of Human Movement and Nutrition Sciences, The University of Queensland

    This article is republished from The Conversation under a Creative Commons license. Read the original article.

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  • Debunking the vitamin D fad

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    Throughout the pandemic, many unproven miracle COVID-19 “cures” emerged, and vitamin D claims have been one of the most persistent. This is not new for the vitamin. It’s been touted in recent decades as a way to “boost” the immune system, improve overall health, prevent a host of diseases, and allegedly even substitute for vaccines. 

    But as with many internet-popular health “remedies,” the reality is far less flashy and far more nuanced.

    What is vitamin D, and why is it important?

    Vitamin D is a nutrient that helps the body absorb calcium, which is essential for bone health. In the sunlight, your skin naturally produces vitamin D that is then stored in fat cells until it is used.

    The skin pigment melanin absorbs the UV rays necessary for vitamin D production, meaning that more highly pigmented or darker skin produces less vitamin D than lighter skin with the same amount of sun exposure. Thus, people with darker skin are at higher risk of vitamin D deficiency.

    Most of our vitamin D comes from the sun. An additional 10 percent to 20 percent of our vitamin D comes from foods like fatty fish (such as salmon), eggs, and mushrooms. Vitamin D supplements are another source of the nutrient for people who are unable to get enough from sun exposure and diet.

    Vitamin D deficiency is real, but there’s no epidemic

    Some people who promote vitamin D supplements claim that vitamin D deficiency is an epidemic causing widespread health issues. There is little evidence to support this claim. A 2022 analysis of 2001-2018 data found that 2.6 percent of people in the U.S. had severe vitamin D deficiency. 

    Severe vitamin D deficiency can cause serious health issues, such as muscle weakness, bone loss in adults, and rickets (weak bones) in children. Some people are at higher risk for the deficiency, including individuals with certain disorders that prevent the body from absorbing or processing vitamin D or those with a family history of vitamin D deficiency. 

    Black Americans have the highest rates of severe vitamin D deficiency at nearly 12 percent. Severe vitamin D deficiency is also slightly higher in the U.S. during the winter when people get less sun exposure. Rates of moderate vitamin D deficiency are higher at 22 percent overall and are highest among Black Americans (49 percent) and Mexican Americans (35 percent). 

    Although severe vitamin D deficiency exists in the U.S., it is far from common. Most tellingly, conditions that are directly linked to vitamin D deficiency are not widespread. There is no epidemic of rickets, for example, or bone loss in adults. 

    There’s little evidence that vitamin D supplements improve overall health

    Vitamin D supplements have clear, proven positive effects for people with vitamin D deficiency. Other health benefits of vitamin D supplements are less certain. 

    There is some evidence that the supplement may reduce the risk of fracture in adults with osteoporosis, a condition that causes weak, fragile bones. However, the benefit appears to be limited to people who have low vitamin D levels. In adults with normal vitamin D levels, supplements have no effect on fracture risk.

    The largest randomized controlled trial of vitamin D, called VITAL, investigated the effects of vitamin D supplementation in people without an existing deficiency. The study found that vitamin D supplements had no effects on the risk of cancer, diabetes, or cardiovascular disease, including heart attack and stroke. The study concluded that more research is necessary to determine who may benefit from vitamin D supplements. 

    Independent analyses found that vitamin D supplementation may be associated with a long-term decrease in cancer mortality, but results are mixed and also require more investigation.

    A 2021 analysis of past vitamin D trials found no overall health benefits from vitamin D supplements in people with normal vitamin D levels. Most large-scale studies have found no link between vitamin D supplements and lower all-cause mortality (deaths from any cause), except in older adults and those with vitamin D deficiency.

    Vitamin D provides modest protection against respiratory infections

    Vitamin D is important for immune function, but this is often misconstrued as vitamin D “boosting” the immune system. 

    Some people falsely believe that taking vitamin D supplements will keep them healthy and prevent infections like the flu or COVID-19. In reality, clinical trials and large-scale studies of vitamin D have found only minimal protective effects against respiratory infections. 

    A 2021 analysis of 46 trials found that 61.3 percent of participants who took daily vitamin D supplements got respiratory infections during the study periods—compared to 62.3 percent of people who did not take the supplements. A 2024 meta-analysis of 43 trials found no overall protective effect against respiratory infections, but it detected a slight decrease in risk among people who took specific doses daily. 

    In young children, there is some evidence that vitamin D supplementation may reduce the length of respiratory infections. However, it does not affect the number or severity of infections that children have.

    Despite claims that taking vitamin D can protect against COVID-19, two clinical trials found that taking daily vitamin D supplements did not reduce the risk or severity of COVID-19 infections, even at high doses. 

    Context is key when considering vitamin D’s benefits

    None of these studies contradict the well-established evidence that people with vitamin D deficiency benefit from vitamin D supplements. But it’s important to remember that many of the most popular health claims about vitamin D’s benefits are based on research in people with vitamin D deficiency.

    Research in vitamin D-deficient populations is important, but it tells us little about how vitamin D will affect people with normal or close to normal vitamin D levels. A closer look at vitamin D research in people without low levels reveals little evidence to support the idea that the general population benefits from taking vitamin D supplements. 

    For more information, or to learn about your vitamin D levels, talk to your health care provider.

    This article first appeared on Public Good News and is republished here under a Creative Commons license.

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  • Build Muscle (Healthily!)

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    What Do You Have To Gain?

    We have previously promised a three-part series about changing one’s weight:

    1. Losing weight (specifically, losing fat)
    2. Gaining weight (specifically, gaining muscle)
    3. Gaining weight (specifically, gaining fat)

    And yes, that last one is also something that some people want/need to do (healthily!), and want/need help with that.

    There will be, however, no need for a “losing muscle” article, because (even though sometimes a person might have some reason to want to do this), it’s really just a case of “those things we said for gaining muscle? Don’t do those and the muscle will atrophy naturally”.

    Here’s the first part: How To Lose Weight (Healthily!)

    While some people will want to lose fat, please do be aware that the association between weight loss and good health is not nearly so strong as the weight loss industry would have you believe:

    Shedding Some Obesity Myths

    And, while BMI is not a useful measure of health in general, it’s worth noting that over the age of 65, a BMI of 27 (which is in the high end of “overweight”, without being obese) is associated with the lowest all-cause mortality:

    BMI and all-cause mortality in older adults: a meta-analysis

    Body weight, muscle mass, and protein:

    That BMI of 27, or whatever weight you might wish to be, ignores body composition. You’re probably aware that volume-for-volume, muscle weighs more than fat.

    You’re also probably aware that if we’re not careful, we tend to lose muscle as we get older. This is known as age-related sarcopenia:

    Protein, & Fighting Sarcopenia

    Dr. Gabrielle Lyon, our featured expert in the above article, recommends getting at least 1.6g of protein per kg of body weight per day (Americans, divide your weight in pounds by 2.2 to get your weight in kg).

    So for example, if you weigh 165lb, that’s 75kg, that’s 1.6×75=120g of protein per day.

    There is an upper limit to how much protein per day is healthy, and that limit is probably around 2g of protein per kg of body weight per day:

    Protein: How Much Do We Need, Really?

    You may be wondering: should we go for animal or plant protein? In which case, the short version is:

    • If you only care about muscle growth, any complete sources of protein are fine
    • If you care about your general health too, then avoiding red meat is best, but other common protein sources are all fine
    • Unprocessed is (unsurprisingly) better than processed in either case

    Longer version: Plant vs Animal Protein: Head to Head

    What exercises are best for muscle-building?

    Of course, different muscles require different exercises, but for all of them, resistance training is what builds muscle the most, and it’s pretty much impossible to build a lot of muscle otherwise.

    Check out: Resistance Is Useful! (Especially As We Get Older)

    Prepare to fail!

    No, really, prepare to fail. Because while resistance training in general is good for maintaining strong muscles and bones, you will only gain muscle if your current muscle is not enough to do the exercise:

    • If you do a heavy resistance exercise without undue difficulty, your muscles will say to each other “Good job, team! That was hard, but luckily we were strong enough; no changes necessary”.
    • If you do a heavy resistance exercise to the point where you can no longer do it (called: training to failure), then your muscles will say to each other “Oof, what a task! What we’ve got here is clearly not enough, so we’ll have to add more muscle for next time”.

    Safety note: training to failure comes with safety risks. If using free weights or weight machines, please do so under well-trained supervision. If doing it with bodyweight (e.g. press-ups until you can press no more) or resistance bands, please check with your doctor first to ensure this is safe for you.

    You can also increase the effectiveness of your resistance training by doing it in a way that “confuses” your muscles, making it harder for them to adapt in the moment, and thus forcing them to adapt more in the long term (e.g. get bigger and stronger):

    HIIT, But Make It HIRT: High Intensity Resistance Training

    Make time for recovery

    While many kinds of exercise can be done daily, exercise to build muscle(s) means at the very least resting that muscle (or muscle group) the next day.

    For this reason, a lot of bodybuilders have for example a week’s schedule that might look like:

    • Monday: Upper body training
    • Wednesday: Lower body training
    • Friday: Core strength training

    …and rest on other days. This gives most muscles a full week of recovery, and every muscle at least 48 hours of recovery.

    Note: bodybuilders, like children (who are also doing a lot of body-building, in their own way) need more sleep in order to allow for this recovery and growth to occur. Serious bodybuilders often aim for 12 hours sleep per day. This might be impractical, undesirable, or even impossible for some people, but it’s a factor to be borne in mind and not forgotten.

    See also:

    Overdone It? How To Speed Up Recovery After Exercise (According To Actual Science)

    Anything else that can (safely and healthily) be done to promote muscle growth?

    There are a lot of supplements on the market; some are healthy and helpful, other not so much. Here are some we’ve written about:

    Take care!

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  • Walnuts vs Brazil Nuts – Which is Healthier?

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    Our Verdict

    When comparing walnuts to Brazil nuts, we picked the walnuts.

    Why?

    Talking macros first, they are about equal in protein, carbs, fats, and fiber; their composition is almost identical in this regard. However, looking a little more closely at the fats, Brazil nuts have more than 2x the saturated fat, while walnuts have nearly 2x the polyunsaturated fat. So, we’ll declare the macros category a moderate win for walnuts.

    The category of vitamins is not balanced; walnuts have more of vitamins A, B2, B3, B5, B6, B9, C, and choline, while Brazil nuts have more of vitamins B1 and E. A clear and easy win for walnuts.

    The category of minerals is interesting, because of one mineral in particular. First let’s mention: walnuts have more iron and manganese, while Brazil nuts have more calcium, copper, magnesium, phosphorus, potassium, and selenium. Taken at face value, this is a clear win for Brazil nuts. However…

    About that selenium… Specifically, it’s more than 391x higher, and a cup of Brazil nuts would give nearly 10,000x the recommended daily amount of selenium. Now, selenium is an essential mineral (needed for thyroid hormone production, for example), and at the RDA it’s good for good health. Your hair will be luscious and shiny. However, go much above that, and selenium toxicity becomes a thing, you may get sick, and it can cause your (luscious and shiny) hair to fall out. For this reason, it’s recommended to eat no more than 3–4 Brazil nuts per day.

    There is one last consideration, and this is oxalates; walnuts are moderately high in oxalates (>50mg/100g) while Brazil nuts are very high in oxalates (>500mg/100g). This won’t affect most people at all, but if you have pre-existing kidney problems (including a history of kidney stones), you might want to go easy on oxalate-containing foods.

    For most people, however, walnuts are a very healthy choice, and outshine Brazil nuts in most ways.

    Want to learn more?

    You might like to read:

    Why You Should Diversify Your Nuts

    Take care!

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  • Sometimes, Perfect Isn’t Practical!

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    It’s Q&A Day at 10almonds!

    Have a question or a request? We love to hear from you!

    In cases where we’ve already covered something, we might link to what we wrote before, but will always be happy to revisit any of our topics again in the future too—there’s always more to say!

    As ever: if the question/request can be answered briefly, we’ll do it here in our Q&A Thursday edition. If not, we’ll make a main feature of it shortly afterwards!

    So, no question/request too big or small

    ❝10 AM breakfast is not realistic for most. What’s wrong with 8 AM and Evening me at 6. Don’t quite understand the differentiation.❞

    (for reference, this is about our “Breakfasting For Health?” main feature)

    It’s not terrible to do it the way you suggest It’s just not optimal, either, that’s all!

    Breakfasting at 08:00 and then dining at 18:00 is ten hours apart, so no fasting benefits between those. Let’s say you take half an hour to eat dinner, then eat nothing again until breakfast, that’s 18:30 to 08:00, so that’s 13½ hours fasting. You’ll recall that fasting benefits start at 12 hours into the fast, so that means you’d only get 1½ hours of fasting benefits.

    As for breakfasting at 08:00 regardless of intermittent fasting considerations, the reason for the conclusion of around 10:00 being optimal, is based on when our body is geared up to eat breakfast and get the most out of that, which the body can’t do immediately upon waking. So if you wake and get sunlight at 08:30, get a little moderate exercise, then by 10:00 your digestive system will be perfectly primed to get the most out of breakfast.

    However! This is entirely based on you waking and getting sunlight at 08:30.

    So, iff you wake and get sunlight at 06:30, then in that case, breakfasting at 08:00 would give the same benefits as described above. What’s important is the 1½ hour priming-time.

    Writer’s note: our hope here is always to be informational, not prescriptive. Take what works for you; ignore what doesn’t fit your lifestyle.

    I personally practice intermittent fasting for about 21hrs/day. I breakfast (often on nuts and perhaps a little salad) around 16:00, and dine at around 18:00ish, giving myself a little wiggleroom. I’m not religious about it and will slide it if necessary.

    As you can see: that makes what is nominally my breakfast practically a pre-dinner snack, and I clearly ignore the “best to eat in the morning” rule because that’s not consistent with my desire to have a family dinner together in the evening while still practicing the level of fasting that I prefer.

    Science is science, and that’s what we report here. How we apply it, however, is up to us all as individuals!

    Enjoy!

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  • A Deeper Dive Into Seaweed

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    We wrote briefly about nori yesterday, when we compared it with well-known superfood spirulina. In nutritional terms, it blew spirulina out of the water:

    Spirulina vs Nori – Which Is Healthier?

    We also previously touched on it here:

    21% Stronger Bones in a Year at 62? Yes, It’s Possible (No Calcium Supplements Needed!) ← nori was an important part of the diet enjoyed here

    What is nori?

    Nori is a seaweed, but that can mean lots of different things. In nori’s case, it’s an aggregate of several kinds of red algae that clump together in the sea.

    When dried and/or toasted (which processes improve* the nutritional value rather than diminishing it, by the way), it looks dark green or dark purple to black in color.

    *Effects of pan- and air fryer-roasting on volatile and umami compounds and antioxidant activity of dried laver (Porphyra dentata) ← this is nori, by another name

    If you enjoy sushi, nori is the dark flat sheety stuff that other things are often wrapped in.

    The plant that has animal nutrients

    As established in the head-to-head we linked above, nori is a nutritional powerhouse. But not only is it very full of the perhaps-expected vitamins and minerals, it also contains:

    Omega-3 fatty acids, including EPA, which plants do not normally have (plants usually have just ALA, which the body can convert into other forms including EPA). While ALA is versatile, having EPA in food saves the body the job of converting it, and thus makes it more readily bioavailable. For more on the benefits of this, see:

    What Omega-3 Fatty Acids Really Do For Us

    Iodine, which land plants don’t generally have, but seaweed usually does. However, nori contains less iodine than other kinds of seaweed, which is (counterintuitively) good, since other kinds of seaweed often contain megadoses that go too far the other way and can cause different health problems.

    • Recommended daily amount of iodine: 150µg ← note that’s micrograms, not milligrams
    • One 10g serving of dried nori contains: 232µg ← this is good
    • Tolerable daily upper limit of iodine: 1,100µg (i.e: 1.1mg)
    • One 10g serving of dried kombu (kelp) contains: 13,270µg (i.e: 13.3mg) ← this is far too much; not good!

    So: a portion of nori puts us into the healthiest spot of the range, whereas a portion of another example seaweed would put us nearly 13x over the tolerable upper limit.

    For why this matters, see:

    As you might note from the mentions of both hypo- and hyperthyroidism, (which are exacerbated by too little and too much iodine, respectively) hitting the iodine sweet spot is important, and nori is a great way to do that.

    Vitamin B12, again not usually found in plants (most vegans supplement, often with nutritional yeast, which is technically neither an animal nor a plant). However, nori scores even higher:

    Vitamin B12-Containing Plant Food Sources for Vegetarians

    Beyond nutrients

    Nori is also one of the few foods that actually live up the principle of a “detox diet”, as it can help remove toxins such as dioxins:

    Detox diets for toxin elimination and weight management: a critical review of the evidence

    It’s also been…

    ❝revealed to have anti-aging, anti-cancer, anti-coagulant, anti-inflammatory, anti-microbial, anti-oxidant, anti-diabetic, anti-Alzheimer and anti-tuberculose activities.❞

    ~ Dr. Şükran Çakir Arica et al.

    Read: A study on the rich compounds and potential benefits of algae: A review

    (for this to make sense you will need to remember that nori is, as we mentioned, an aggregate of diverse red algae species; in that paper, you can scroll down to Table 1, and see which species has which qualities. Anything whose name starts with “Porphyra” or “Porphridum” is found in nori)

    Is it safe?

    Usually! There are two potential safety issues:

    1. Seaweed can, while it’s busy absorbing valuable minerals from the sea, also absorb heavy metals if there are such pollutants in the region. For this reason, it is good to buy a product with trusted certifications, such that it will have been tested for such along the way.
    2. Seaweed can, while it’s busy absorbing things plants don’t usually have from the sea, also absorb allergens from almost-equally-small crustaceans. So if you have a seafood allergy, seaweed could potentially trigger that.

    Want to try some?

    We don’t sell it, but here for your convenience is an example product on Amazon 😎

    Enjoy!

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