Shedding Some Obesity Myths
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Let’s shed some obesity myths!
There are a lot of myths and misconceptions surrounding obesity… And then there are also reactive opposite myths and misconceptions, which can sometimes be just as harmful!
To tackle them all would take a book, but in classic 10almonds style, we’re going to put a spotlight on some of the ones that might make the biggest difference:
True or False: Obesity is genetically pre-determined
False… With caveats.
Some interesting results have been found from twin studies and adoption studies, showing that genes definitely play some role, but lifestyle is—for most people—the biggest factor:
- The body-mass index of twins who have been reared apart
- An adoption study of human obesity
- Using a sibling-adoption design to parse genetic and environmental influences on children’s body mass index
In short: genes predispose; they don’t predetermine. But that predisposition alone can make quite a big difference, if it in turn leads to different lifestyle factors.
But upon seeing those papers centering BMI, let’s consider…
True or False: BMI is a good, accurate measure of health in the context of bodyweight
False… Unless you’re a very large group of thin white men of moderate height, which was the demographic the system was built around.
Bonus information: it was never intended to be used to measure the weight-related health of any individual (not even an individual thin white man of moderate height), but rather, as a tool to look at large-scale demographic trends.
Basically, as a system, it’s being used in a way it was never made for, and the results of that misappropriation of an epidemiological tool for individual health are predictably unhelpful.
To do a deep-dive into all the flaws of the BMI system, which are many, we’d need to devote a whole main feature just to that.
Update: we have now done so!
Here it is: When BMI Doesn’t Measure Up
True or False: Obesity does not meaningfully impact more general health
False… In more ways than one (but there are caveats)
Obesity is highly correlated with increased risk of all-cause mortality, and weight loss, correspondingly, correlates with a reduced risk. See for example:
So what are the caveats?
Let’s put it this way: owning a horse is highly correlated with increased healthy longevity. And while owning a horse may come with some exercise and relaxation (both of which are good for the health), it’s probably mostly not the horse itself that conveys the health benefits… it’s that someone who has the resources to look after a horse, probably has the resources to look after their own health too.
So sometimes there can be a reason for a correlation (it’s not a coincidence!) but the causative factor is partially (or in some cases, entirely) something else.
So how could this play out with obesity?
There’s a lot of discrimination in healthcare settings, unfortunately! In this case, it often happens that a thin person goes in with a medical problem and gets treated for that, while a fat person can go in with the same medical problem and be told “you should try losing some weight”.
Top tip if this happens to you… Ask: “what would you advise/prescribe to a thin person with my same symptoms?”
Other things may be more systemic, for example:
When a thin person goes to get their blood pressure taken, and that goes smoothly, while a fat person goes to get their blood pressure taken, and there’s not a blood pressure cuff to fit them, is the problem the size of the person or the size of the cuff? It all depends on perspective, in a world built around thin people.
That’s a trivial-seeming example, but the same principle has far-reaching (and harmful) implications in healthcare in general, e.g:
- Surgeons being untrained (and/or unwilling) to operate on fat people
- Getting a one-size-fits-all dose that was calculated using average weight, and now doesn’t work
- MRI machines are famously claustrophobia-inducing for thin people; now try not fitting in it in the first place
…and so forth. So oftentimes, obesity will be correlated with a poor healthcare outcome, where the problem is not actually the obesity itself, but rather the system having been set up with thin people in mind.
It would be like saying “Having O- blood type results in higher risks when receiving blood transfusions”, while omitting to add “…because we didn’t stock O- blood”.
True or False: to reduce obesity, just eat less and move more!
False… Mostly.
Moving more is almost always good for most people. When it comes to diet, quality is much more important than quantity. But these factors alone are only part of the picture!
But beyond diet and exercise, there are many other implicated factors in weight gain, weight maintenance, and weight loss, including but not limited to:
- Disrupted sleep
- Chronic stress
- Chronic pain
- Hormonal imbalances
- Physical disabilities that preclude a lot of exercise
- Mental health issues that add (and compound) extra levels of challenge
- Medications that throw all kinds of spanners into the works with their side effects
…and even just those first two things, diet and exercise, are not always so correlated to weight as one might think—studies have found that the difference for exercise especially is often marginal:
Read: Widespread misconceptions about obesity ← academic article in the Journal of the College of Family Physicians of Canada
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Foam Rolling – by Karina Inkster
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If you’ve ever bought a foam roller only to place it under your lower back once and then put it somewhere for safekeeping and never use it again, this book will help fix that.
Karina Inkster (what a cool name) is a personal trainer, and the book also features tips and advice from physiotherapists and sports medicine specialist doctors too, so all bases are well and truly covered.
This is not, in case you’re wondering, a book that could have been a pamphlet, with photos of the exercises and one-liner explanation and that’s it. Rather, Inkster takes us through the anatomy and physiology of what’s going on, so that we can actually use this thing correctly and get actual noticeable improvements to our health from it—as promised in the subtitle’s mention of “for massage, injury prevention, and core strength”. To be clear, a lot of it is also about soft tissue mobilization, and keeping our fascia healthy (an oft-underestimated aspect of general mobility).
We would mention that since the photos are pleasantly colorful (like those on the cover) and this adds to the clarity, we’d recommend springing for the (quite inexpensive) physical copy, rather than a Kindle edition (if your e-reader is a monochrome e-ink device like this reviewer’s, anyway).
Bottom line: this book will enable your foam roller to make a difference to your life.
Click here to check out Foam Rolling, and get rolling (correctly)!
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Mouthwatering Protein Falafel
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Baking falafel, rather than frying it, has a strength and a weakness. The strength: it is less effort and you can do more at once. The weakness: it can easily get dry. This recipe calls for baking them in a way that won’t get dry, and the secret is one of its protein ingredients: peas! Add to this the spices and a tahini sauce, and you’ve a mouthwatering feast that’s full of protein, fiber, polyphenols, and even healthy fats.
You will need
- 1 cup peas, cooked
- 1 can chickpeas, drained and rinsed (keep the chickpea water—also called aquafaba—aside, as we’ll be using some of it later)
- ½ small red onion, chopped
- 1 handful fresh mint, chopped
- 1 tbsp fresh parsley, chopped
- ½ bulb garlic, crushed
- 1 tbsp lemon juice
- 1 tbsp chickpea flour (also called gram flour, besan flour, or garbanzo bean flour) plus more for dusting
- 2 tsp red chili flakes (adjust per heat preferences)
- 2 tsp black pepper, coarse ground
- 1 tsp ground turmeric
- ½ tsp MSG or 1 tsp low-sodium salt
- Extra virgin olive oil
For the tahini sauce:
- 2 tbsp tahini
- 2 tbsp lemon juice
- ¼ bulb garlic, crushed
- 5 tbsp aquafaba (if for some reason you don’t have it, such as for example you substituted 1 cup chickpeas that you cooked yourself, substitute with water here)
To serve:
- Flatbreads (you can use our Healthy Homemade Flatbreads recipe if you like)
- Leafy salad
Method
(we suggest you read everything at least once before doing anything)
1) Preheat the oven to 350℉ / 180℃.
2) Blend the peas and chickpeas in a food processor for a few seconds. You want a coarse mixture, not a paste.
3) Add the rest of the main section ingredients except the olive oil, and blend again for a few more seconds. It should still have a chunky texture, or else you will have made hummus. If you accidentally make hummus, set your hummus aside and start again on the falafels.
4) Shape the mixture into balls; if it lacks structural integrity, fold in a little more chickpea flour until the balls stay in shape. Either way, once you have done that, dust the balls in chickpea flour.
5) Brush the balls in a little olive oil, as you put them on a baking tray lined with baking paper. Bake for 15–18 minutes until golden, turning partway through.
6) While you are waiting, making the tahini sauce by combining the tahini sauce ingredients in a high-speed blender and processing on high until smooth. If you do not have a small enough blender (a bullet-style blender should work for this), then do it manually, which means you’ll have to crush the garlic all the way into a smooth paste, such as with a pestle and mortar, or alternatively, use ready-made garlic paste—and then simply whisk the ingredients together until smooth.
7) Serve the falafels warm or cold, on flatbreads with leafy salad and the tahini sauce.
Enjoy!
Want to learn more?
For those interested in some of the science of what we have going on today:
- Tahini vs Hummus – Which is Healthier?
- Our Top 5 Spices: How Much Is Enough For Benefits? ← we scored 4/5 today!
Take care!
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The Diabetes Drugs That Can Cut Asthma Attacks By 70%
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Asthma, obesity, and type 2 diabetes are closely linked, with the latter two greatly increasing asthma attack risk.
While bronchodilators / corticosteroids can have immediate adverse effects due to sympathetic nervous system activation, and lasting adverse effects due to the damage it does to metabolic health, diabetes drugs, on the other hand, can improve things with (for most people) fewer unwanted side effects.
Great! Which drugs?
Metformin, and glucagon-like peptide-1 receptor agonists (GLP-1RAs).
Specifically, researchers have found:
- Metformin is associated with a 30% reduction in asthma attacks
- GLP-1RAs are associated with a 40% reduction in asthma attacks
…and yes, they stack, making for a 70% reduction in the case of people taking both. Furthermore, the results are independent of weight, glycemic control, or asthma phenotype.
In terms of what was counted, the primary outcome was asthma attacks at 12-month follow-up, defined by oral corticosteroid use, emergency visits, hospitalizations, or death.
The effect of metformin on asthma attacks was not affected by BMI, HbA1c levels, eosinophil count, asthma severity, or sex.
Of the various extra antidiabetic drugs trialled in this study, only GLP-1 receptor agonists showed a further and sustained reduction in asthma attacks.
Here’s the study itself, hot off the press, published on Monday:
JAMA Int. Med. | Antidiabetic Medication and Asthma Attacks
“But what if I’m not diabetic?”
Good news:
More than half of all US adults are eligible for semaglutide therapy ← this is because they’ve expanded the things that semaglutide (the widely-used GLP-1 receptor agonist drug) can be prescribed for, now going beyond just diabetes and/or weight loss 😎
And metformin, of course, is more readily available than semaglutide, so by all means speak with your doctor/pharmacist about that, if it’s of interest to you.
Take care!
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The Many Faces Of Cosmetic Surgery
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Cosmetic Surgery: What’s The Truth?
In Tuesday’s newsletter, we asked you your opinion on elective cosmetic surgeries, and got the above-depicted, below-described, set of responses:
- About 48% said “Everyone should be able to get what they want, assuming informed consent”
- About 28% said “It can ease discomfort to bring features more in line with normalcy”
- 15% said “They should be available in the case of extreme disfigurement only”
- 10% said “No elective cosmetic surgery should ever be performed; needless danger”
Well, there was a clear gradient of responses there! Not so polarizing as we might have expected, but still enough dissent for discussion
So what does the science say?
The risks of cosmetic surgery outweigh the benefits: True or False?
False, subjectively (but this is important).
You may be wondering: how is science subjective?
And the answer is: the science is not subjective, but people’s cost:worth calculations are. What’s worth it to one person absolutely may not be worth it to another. Which means: for those for whom it wouldn’t be worth it, they are usually the people who will not choose the elective surgery.
Let’s look at some numbers (specifically, regret rates for various surgeries, elective/cosmetic or otherwise):
- Regret rate for elective cosmetic surgery in general: 20%
- Regret rate for knee replacement (i.e., not cosmetic): 17.1%
- Regret rate for hip replacement (i.e., not cosmetic): 4.8%
- Regret rate for gender-affirming surgeries (for transgender patients): 1%
So we can see, elective surgeries have an 80–99% satisfaction rate, depending on what they are. In comparison, the two joint replacements we mentioned have a 82.9–95.2% satisfaction rate. Not too dissimilar, taken in aggregate!
In other words: if a person has studied the risks and benefits of a surgery and decides to go ahead, they’re probably going to be happy with the results, and for them, the benefits will have outweighed the risks.
Sources for the above numbers, by the way:
- What is the regret rate for plastic surgery?
- Decision regret after primary hip and knee replacement surgery
- A systematic review of patient regret after surgery—a common phenomenon in many specialties but rare within gender-affirmation surgery
But it’s just a vanity; therapy is what’s needed instead: True or False?
False, generally. True, sometimes. Whatever the reasons for why someone feels the way they do about their appearance—whether their face got burned in a fire or they just have triple-J cups that they’d like reduced, it’s generally something they’ve already done a lot of thinking about. Nevertheless, it does also sometimes happen that it’s a case of someone hoping it’ll be the magical solution, when in reality something else is also needed.
How to know the difference? One factor is whether the surgery is “type change” or “restorative”, and both have their pros and cons.
- In “type change” (e.g. rhinoplasty), more psychological adjustment is needed, but when it’s all over, the person has a new nose and, statistically speaking, is usually happy with it.
- In “restorative” (e.g. facelift), less psychological adjustment is needed (as it’s just a return to a previous state), so a person will usually be happy quickly, but ultimately it is merely “kicking the can down the road” if the underlying problem is “fear of aging”, for example. In such a case, likely talking therapy would be beneficial—whether in place of, or alongside, cosmetic surgery.
Here’s an interesting paper on that; the sample sizes are small, but the discussion about the ideas at hand is a worthwhile read:
Does cosmetic surgery improve psychosocial wellbeing?
Some people will never be happy no matter how many surgeries they get: True or False?
True! We’re going to refer to the above paper again for this one. In particular, here’s what it said about one group for whom surgeries will not usually be helpful:
❝There is a particular subgroup of people who appear to respond poorly to cosmetic procedures. These are people with the psychiatric disorder known as “body dysmorphic disorder” (BDD). BDD is characterised by a preoccupation with an objectively absent or minimal deformity that causes clinically significant distress or impairment in social, occupational, or other areas of functioning.
For several reasons, it is important to recognise BDD in cosmetic surgery settings:
Firstly, it appears that cosmetic procedures are rarely beneficial for these people. Most patients with BDD who have had a cosmetic procedure report that it was unsatisfactory and did not diminish concerns about their appearance.
Secondly, BDD is a treatable disorder. Serotonin-reuptake inhibitors and cognitive behaviour therapy have been shown to be effective in about two-thirds of patients with BDD❞
~ Dr. David Castle et al. (lightly edited for brevity)
Which is a big difference compared to, for example, someone having triple-J breasts that need reducing, or the wrong genitals for their gender, or a face whose features are distinct outliers.
Whether that’s a reason people with BDD shouldn’t be able to get it is an ethical question rather than a scientific one, so we’ll not try to address that with science.
After all, many people (in general) will try to fix their woes with a haircut, a tattoo, or even a new sportscar, and those might sometimes be bad decisions, but they are still the person’s decision to make.
And even so, there can be protectionist laws/regulations that may provide a speed-bump, for example:
Take care!
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How Science News Outlets Can Lie To You (Yes, Even If They Cite Studies!)
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Each Monday, we’re going to be bringing you cutting-edge research reviews to not only make your health and productivity crazy simple, but also, constantly up-to-date.
But today, in this special edition, we want to lay out plain and simple how to see through a lot of the tricks used not just by popular news outlets, but even sometimes the research publications themselves.
That way, when we give you health-related science news, you won’t have to take our word for it, because you’ll be able to see whether the studies we cite really support the claims we make.
Of course, we’ll always give you the best, most honest information we have… But the point is that you shouldn’t have to trust us! So, buckle in for today’s special edition, and never have to blindly believe sci-hub (or Snopes!) again.
The above now-famous Tumblr post that became a meme is a popular and obvious example of how statistics can be misleading, either by error or by deliberate spin.
But what sort of mistakes and misrepresentations are we most likely to find in real research?
Spin Bias
Perhaps most common in popular media reporting of science, the Spin Bias hinges on the fact that most people perceive numbers in a very “fuzzy logic” sort of way. Do you?
Try this:
- A million seconds is 11.5 days
- A billion seconds is not weeks, but 13.2 months!
…just kidding, it’s actually nearly thirty-two years.
Did the months figure seem reasonable to you, though? If so, this is the same kind of “human brains don’t do large numbers” problem that occurs when looking at statistics.
Let’s have a look at reporting on statistically unlikely side effects for vaccines, as an example:
- “966 people in the US died after receiving this vaccine!” (So many! So risky!)
- “Fewer than 3 people per million died after receiving this vaccine!” (Hmm, I wonder if it is worth it?)
- “Half of unvaccinated people with this disease die of it” (Oh)
How to check for this: ask yourself “is what’s being described as very common really very common?”. To keep with the spiders theme, there are many (usually outright made-up) stats thrown around on social media about how near the nearest spider is at any given time. Apply this kind of thinking to medical conditions.. If something affects only 1% of the population (So few! What a tiny number!), how far would you have to go to find someone with that condition? The end of your street, perhaps?
Selection/Sampling Bias
Diabetes disproportionately affects black people, but diabetes research disproportionately focuses on white people with diabetes. There are many possible reasons for this, the most obvious being systemic/institutional racism. For example, advertisements for clinical trial volunteer opportunities might appear more frequently amongst a convenient, nearby, mostly-white student body. The selection bias, therefore, made the study much less reliable.
Alternatively: a researcher is conducting a study on depression, and advertises for research subjects. He struggles to get a large enough sample size, because depressed people are less likely to respond, but eventually gets enough. Little does he know, even the most depressed of his subjects are relatively happy and healthy compared with the silent majority of depressed people who didn’t respond.
See This And Many More Educational Cartoons At Sketchplanations.com!
How to check for this: Does the “method” section of the scientific article describe how they took pains to make sure their sample was representative of the relevant population, and how did they decide what the relevant population was?
Publication Bias
Scientific publications will tend to prioritise statistical significance. Which seems great, right? We want statistically significant studies… don’t we?
We do, but: usually, in science, we consider something “statistically significant” when it hits the magical marker of p=0.05 (in other words, the probability of getting that result is 1/20, and the results are reliably coming back on the right side of that marker).
However, this can result in the clinic stopping testing once p=0.05 is reached, because they want to have their paper published. (“Yay, we’ve reached out magical marker and now our paper will be published”)
So, you can think of publication bias as the tendency for researchers to publish ‘positive’ results.
If it weren’t for publication bias, we would have a lot more studies that say “we tested this, and here are our results, which didn’t help answer our question at all”—which would be bad for the publication, but good for science, because data is data.
To put it in non-numerical terms: this is the same misrepresentation as the technically true phrase “when I misplace something, it’s always in the last place I look for it”—obviously it is, because that’s when you stop looking.
There’s not a good way to check for this, but be sure to check out sample sizes and see that they’re reassuringly large.
Reporting/Detection/Survivorship Bias
There’s a famous example of the rise in “popularity” of left-handedness. Whilst Americans born in ~1910 had a bit under a 3.5% chance of being left handed, those born in ~1950 had a bit under a 12% change.
Why did left-handedness become so much more prevalent all of a sudden, and then plateau at 12%?
Simple, that’s when schools stopped forcing left-handed children to use their right hands instead.
In a similar fashion, countries have generally found that homosexuality became a lot more common once decriminalized. Of course the real incidence almost certainly did not change—it just became more visible to research.
So, these biases are caused when the method of data collection and/or measurement leads to a systematic error in results.
How to check for this: you’ll need to think this through logically, on a case by case basis. Is there a reason that we might not be seeing or hearing from a certain demographic?
And perhaps most common of all…
Confounding Bias
This is the bias that relates to the well-known idea “correlation ≠ causation”.
Everyone has heard the funny examples, such as “ice cream sales cause shark attacks” (in reality, both are more likely to happen in similar places and times; when many people are at the beach, for instance).
How can any research paper possibly screw this one up?
Often they don’t and it’s a case of Spin Bias (see above), but examples that are not so obviously wrong “by common sense” often fly under the radar:
“Horse-riding found to be the sport that most extends longevity”
Should we all take up horse-riding to increase our lifespans? Probably not; the reality is that people who can afford horses can probably afford better than average healthcare, and lead easier, less stressful lives overall. The fact that people with horses typically have wealthier lifestyles than those without, is the confounding variable here.
See This And Many More Educational Cartoons on XKCD.com!
In short, when you look at the scientific research papers cited in the articles you read (you do look at the studies, yes?), watch out for these biases that found their way into the research, and you’ll be able to draw your own conclusions, with well-informed confidence, about what the study actually tells us.
Science shouldn’t be gatekept, and definitely shouldn’t be abused, so the more people who know about these things, the better!
So…would one of your friends benefit from this knowledge? Forward it to them!
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What Does “Balance Your Hormones” Even Mean?
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Hormonal Health: Is It Really A Balancing Act?
Have you ever wondered what “balancing your hormones” actually means?
The popular view is that men’s hormones look like this:
Testosterone (less) ⟷ Testosterone (more)
…And that women’s hormones look more like this:
♀︎ Estrogen ↭ Progesterone ⤵︎
⇣⤷ FSH ⤦ ↴ ☾ ⤹⤷ Luteinizing Hormone ⤦
DHEA ↪︎ Gonadotrophin ⤾
↪︎ Testosterone? ⥅⛢
Clear as mud, right?
But, don’t worry, Supplements McHerbal Inc will sell you something guaranteed to balance your hormones!
How can a supplement (or dietary adjustment) “balance” all that hotly dynamic chaos, and make everything “balanced”?
The truth is, “balanced” in such a nebulous term, and this is why you will not hear endocrinologists using it. It’s used in advertising to mean “in good order”, and “not causing problems”, and “healthy”.
In reality, our hormone levels depend on everything from our diet to our age to our anatomy to our mood to the time of the day to the phase of the moon.
Not that the moon has an influence on our physiology at all—that’s a myth—but you know, 28 day cycle and all. And, yes, half the hormones affect the levels of the others, either directly or indirectly.
Trying to “balance” them would be quite a game of whack-a-mole, and not something that a “cure-all” single “hormone-balancing” supplement could do.
So why aren’t we running this piece on Friday, for our “mythbusting” section? Well, we could have, but the more useful information is yet to come and will take up more of today’s newsletter than the myth-busting!
What, then, can we do to untangle the confusion of these hormones?
Well first, let’s understand what they do, in the most simple terms possible:
- Estrogen—the most general feminizing hormone from puberty onwards, busiest in the beginning of the menstrual cycle, and starts getting things ready for ovulation.
- Progesterone—secondary feminizing hormone, fluffs the pillows for the oncoming fertilized egg to be implanted, increases sex drive, and adjusts metabolism accordingly. Busiest in the second half of the menstrual cycle.
- Testosterone—is also present, contributes to sex drive, is often higher in individuals with PCOS. If menopause is untreated, testosterone will also rise, because there will be less estrogen
- (testosterone and estrogen “antagonize” each other, which is the colorfully scientific way of saying they work against each other)
- DHEA—Dehydroepiandrosterone, supports production of testosterone (and estrogen!). Sounds self-balancing, but in practice, too much DHEA can thus cause elevated testosterone levels, and thus hirsutism.
- Gonadotrophin—or more specifically human chorionic gonadotrophin, HcG, is “the pregnancy hormone“, present only during pregnancy, and has specific duties relating to such. This is what’s detected in (most) pregnancy test kits.
- FSH—follicle stimulating hormone, is critical to ovulation, and is thus essential to female fertility. On the other hand, when the ovaries stop working, FSH levels will rise in a vain attempt to encourage the ovulation that isn’t going to happen anymore.
- Luteinizing hormone—says “go” to the new egg and sends it on its merry way to go get fertilized. This is what’s detected by ovulation prediction kits.
Sooooooo…
What, for most women, most often is meant by a “hormonal imbalance” is:
- Low levels of E and/or P
- High levels of DHEA and/or T
- Low or High levels of FSH
In the case of low levels of E and/or P, the most reliable way to increase these is, drumroll please… To take E and/or P. That’s it, that’s the magic bullet.
Bonus Tip: take your E in the morning (this is when your body will normally make more and use more) take your P in the evening (it won’t make you sleepy, but it will improve your sleep quality when you do sleep)
In the case of high levels of DHEA and/or T, then that’s a bit more complex:
- Taking E will antagonize (counteract) the unwanted T.
- Taking T-blockers (such as spironolactone or bicalutamide) will do what it says on the tin, and block T from doing the jobs it’s trying to do, but the side-effects are considered sufficient to not prescribe them to most people.
- Taking spearmint or saw palmetto will lower testosterone’s effects
- Scientists aren’t sure how or why spearmint works for this
- Saw palmetto blocks testosterone’s conversion into a more potent form, DHT, and so “detoothes” it a bit. It works similarly to drugs such as finasteride, often prescribed for androgenic alopecia, called “male pattern baldness”, but it affects plenty of women too.
In the case of low levels of FSH, eating leafy greens will help.
In the case of high levels of FSH, see a doctor. HRT (Hormone Replacement Therapy) may help. If you’re not of menopausal age, it could be a sign something else is amiss, so it could be worth getting that checked out too.
What can I eat to boost my estrogen levels naturally?
A common question. The simple answer is:
- Flaxseeds and soy contain plant estrogens that the body can’t actually use as such (too incompatible). They’ve lots of high-quality nutrients though, and the polyphenols and isoflavones can help with some of the same jobs when it comes to sexual health.
- Fruit, especially peaches, apricots, blueberries, and strawberries, contain a lot of lignans and also won’t increase your E levels as such, but will support the same functions and reduce your breast cancer risk.
- Nuts, especially almonds (yay!), cashews, and pistachios, contain plant estrogens that again can’t be used as bioidentical estrogen (like you’d get from your ovaries or the pharmacy) but do support heart health.
- Leafy greens and cruciferous vegetables support a lot of bodily functions including good hormonal health generally, in ways that are beyond the scope of this article, but in short: do eat your greens!
Note: because none of these plant-estrogens or otherwise estrogenic nutrients can actually do the job of estradiol (the main form of estrogen in your body), this is why they’re still perfectly healthy for men to eat too, and—contrary to popular “soy boy” social myths—won’t have any feminizing effects whatsoever.
On the contrary, most of the same foods support good testosterone-related health in men.
The bottom line:
- Our hormones are very special, and cannot be replaced with any amount of herbs or foods.
- We can support our body’s natural hormonal functions with good diet, though.
- Our hormones naturally fluctuate, and are broadly self-correcting.
- If something gets seriously out of whack, you need an endocrinologist, not a homeopath or even a dietician.
In case you missed it…
We gave a more general overview of supporting hormonal health (including some hormones that aren’t sex hormones but are really important too), back in February.
Check it out here: Healthy Hormones And How To Hack Them
Want to read more?
Anthea Levi, RD, takes much the same view:
❝For some ‘hormone-balancing’ products, the greatest risk might simply be lost dollars. Others could come at a higher cost.❞
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