
Figs vs Strawberries – Which is Healthier?
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Our Verdict
When comparing figs to strawberries, we picked the figs.
Why?
Both are great! But…
In terms of macros, figs have more fiber, carbs, and protein, winning this round.
In the category of vitamins, figs have more of vitamins A, B1, B2, B3, B5, B6, B7, and K, while strawberries have more of vitamins B9, C, E, and choline. A 7:4 win for figs.
Looking at minerals, figs have more calcium, copper, magnesium, potassium, and zinc, while strawberries have more iron, manganese, phosphorus, and selenium, making a marginal 5:4 win for figs this time.
In other considerations, strawberries have a much higher polyphenol content, so that’s a point in their favor.
Adding up the sections makes for a clear overall win for figs, but by all means enjoy either or both; diversity is good!
Want to learn more?
You might like:
From Apples to Bees, and High-Fructose Cs: Which Sugars Are Healthier, And Which Are Just The Same?
Enjoy!
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The Common Hair-Loss Remedy Linked With Depression & Suicide
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In saving your hair, you might lose more than that:
Finasteride & your brain
Finasteride is a commonly-prescribed hair-loss remedy.
How it works:
- It’s a 5α-reductase inhibitor
- That means it inhibits 5α-reductase
- 5α-reductase is an enzyme that helps convert testosterone to dihydrogen testosterone (DHT), its much more potent form
- DHT is the one that tells your head hair to fall out, and your body hair to grow thicker
- So reducing DHT means increasing head hair and decreasing body hair, which is usually what someone taking finasteride wants
There are other reasons finasteride is prescribed, of which the main one is the treatment of benign prostatic hyperplasia (BPH).
We’ve talked about its use as a hair loss remedy, here: Hair-Loss Remedies, By Science
We’ve talked about its use to treat BPH, here: Prostate Health: What You Should Know
It works very well for both of those things. However…
New analyses of old data reveals that finasteride has been consistently linked to depression and suicide for more than two decades.
The increase in risk depends on which data we use, which analytical method we use, and which risk factor we’re looking at (depression, suicidal ideation, suicide attempts, completed suicide), but doing some rough math of our own looking at their data table, we can say the overall increase in risk of these adverse psychiatric events appears to be around 533%.
So, why is this the first we’re hearing about it? According to the recently-published work that we’ll link below, it’s because the manufacturer, Merck, and the FDA repeatedly ignored warning signs in order to keep selling the product.
The FDA only recognized depression as a possible side effect in 2011 and added suicidal thoughts to the label in 2022, despite internal evidence from 2010 suggesting wider harm.
You may be wondering: is the depression/suicidality perhaps incidental to the midlife age at which finasteride is commonly prescribed?
And the answer is: no, this was controlled for using data from 8 large studies; the association remains regardless of age:
❝Assuming a null hypothesis (finasteride does not affect mood) and a 50% chance of 1 result against this hypothesis, the probability of getting all 8 studies concluding against the null hypothesis by chance is 0.58 = 0.0039.❞
Furthermore, the mechanism of harm appears to be unrelated to its hormonal effects, so the DHT-blocking activity itself doesn’t seem to be the issue either. Rather, it’s believed to be because inhibiting 5α-reductase enzyme also disrupts neurosteroids like allopregnanolone, which are crucial for mood regulation and cognitive function.
Further studies cited in this research show long-term brain effects such as neuroinflammation and adverse hippocampal changes, too, but the science is younger for that.
You can find the paper itself, here: Failing Public Health Again? Analytical Review of Depression and Suicidality From Finasteride
Want a different approach?
Check out:
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What Diabetes Does To Your Heart
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We’ll get straight to it: researchers (Dr. Jasmine Khor et al.) have found that type 2 diabetes physically remodels the human heart by disrupting energy production, weakening muscle structure, and increasing fibrous tissue (that is also bad), which, together, push the heart towards failure.
So, how does it do that and how can we avoid that unfortunate outcome?
At the heart of things
Type 2 diabetes reshaping the heart fits neatly into the bigger picture of metabolic syndrome, which absolutely bears mentioning because people tend to talk a lot about the parts, without talking about how it all comes together.
Metabolic syndrome is the name given to a cluster of energy-handling (thus: metabolic) problems—high blood sugar, insulin resistance, abdominal fat, abnormal lipids, and high blood pressure—which all strain the same biological systems. And yes, the effect compounds, with each part making the others worse, unless reversed.
In metabolic syndrome, cells across the body become less responsive to insulin, and the heart is no exception: it struggles to switch fuels efficiently, overworks its mitochondria, and gradually stiffens as fibrous tissue builds up. Over time, this energy mismatch and low-grade inflammation quietly remodel the heart muscle, making it less flexible and less efficient at pumping blood.
With that in mind, metabolic syndrome is not just a collection of risk factors on a checklist, but rather also a slow-motion metabolic stress test for the heart—one that can, if neglected, tip the heart from adaptation (i.e. dealing with problems better) into failure (i.e. literally, heart failure).
The aforementioned researchers at the University of Sydney analyzed donated human heart tissue from transplant recipients and compared it with tissue from (formerly)* healthy donors, allowing direct observation in humans rather than merely non-human animal models.
*Formerly healthy because, of course, the donors are dead. But what this means is that they died in otherwise good health, as can happen if accident or incident should befall.
What they found is that diabetes alters how heart cells generate energy by reducing insulin sensitivity in glucose transporters, increasing stress on mitochondria, and worsening the metabolic profile seen in advanced heart failure.
As part of this, diabetes also reduces key proteins involved in contraction and calcium regulation while promoting fibrosis, making the heart muscle stiffer and thus less efficient at pumping blood. These direct, tissue-level changes help explain why people with type 2 diabetes face a much higher risk of heart failure, beyond the shared risk factors alone.
You can read the paper in full, here: Left ventricular myocardial molecular profile of human diabetic ischaemic cardiomyopathy
What to do about it?
Here are some very good starting points:
- What Matters Most For Your Heart? ← perhaps not coincidentally, this is also what matters most for avoiding/reversing type 2 diabetes
- The Two Worst Things For Cardiac Aging
- Three Tweaks To Cut Diabetes Risk By 1/3
Want to learn more?
For a much deeper dive, you might like this excellent book we reviewed a while back:
Why We Get Sick – by Dr. Benjamin Bikman ← the title doesn’t really give it away, but we promise this book is very much specifically about this very topic, the science of how insulin resistance (not even the blood sugar imbalances that may result, but the insulin resistance itself already) leads to an increase in most other health risks (especially of the cardiometabolic variety), and why it’s a bigger problem sooner than people think from blood sugar tests alone, and what to do about it
Take care!
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Bamboo Shoots vs Cabbage – Which is Healthier?
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Our Verdict
When comparing bamboo to cabbage, we picked the bamboo.
Why?
Bamboo shoots… And scores!
In terms of macros, bamboo has 2x the protein for the same fiber and carbs; an easy first-round win for bamboo.
In the category of vitamins, bamboo has more of vitamins B1, B2, B3, B6, and E, while cabbage has more of vitamins A, B5, B9, C, and K, for a 5:5 tie in this round.
Looking at minerals, bamboo has more copper, iron, manganese, phosphorus, potassium, selenium, and zinc, while cabbage has more calcium and magnesium, adding up to a tidy 7:2 win for bamboo here.
Adding up the sections makes for a clear overall win for bamboo, but by all means enjoy either or both, as diversity is best!
Want to learn more?
You might like:
Don’t Be Bamboozled By Bamboo! ← including how to eat bamboo, for those unfamiliar with such, as we have been asked about it 🙂
Enjoy!
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L-Theanine: What’s The Tea?
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L-Theanine: What’s The Tea?
We’ve touched previously on l-theanine, when this newsletter was new, and we had only a few hundred subscribers and the carefully organized format wasn’t yet what it is today.
So now it’s time to give this potent dietary compound / nutritional supplement the “Monday Research Review” treatment…
What is it?
L-theanine is an amino acid found in tea. The human body can’t produce it, and/but it’s not essential for humans. It does have a lot of benefits, though. See for example:
L-Theanine as a Functional Food Additive: Its Role in Disease Prevention and Health Promotion
How does it work?
L-theanine works by moderating and modulating the brain’s neurotransmitters.
This sounds fancy, but basically it means: it doesn’t actually add anything in the manner of a drug, but it changes how we use what we have naturally.
What does it do? Read on…
It increases mental focus
It has been believed that l-theanine requires the presence of caffeine to achieve this (i.e., it’s a combination-only effect). For example:
But as it turns out, when a group of researchers actually checked… This isn’t true, as Foxe et al. write:
❝We asked whether either compound alone, or both in combination, would affect performance of the task in terms of reduced error rates over time, and whether changes in alpha-band activity would show a relationship to such changes in performance. When treated with placebo, participants showed a rise in error rates, a pattern that is commonly observed with increasing time-on-task, whereas after caffeine and theanine ingestion, error rates were significantly reduced. The combined treatment did not confer any additional benefits over either compound alone, suggesting that the individual compounds may confer maximal benefits at the dosages employed❞
It promotes a calmly wakeful feeling of serenity
Those are not words typically found in biopharmaceutical literature, but they’re useful here to convey:
- L-theanine promotes relaxation without causing drowsiness
- L-theanine promotes mental alertness without being a stimulant
Here is where l-theanine really stands out from caffeine. If both substances promote mental focus, but one of them does it by making us “wired” and the other does it while simultaneously promoting calm, it makes the choice between them clearer!
Read more: L-theanine, a natural constituent in tea, and its effect on mental state
It relieves stress and anxiety
Building on from the above, but there’s more: l-theanine relieves stress and anxiety in people experiencing stressful situations, without any known harmful side effects… This is something that sets it apart from a lot of anxiolytic (antianxiety) drugs!
Here’s what a big systematic review of clinical trials had to say:
Theanine consumption, stress and anxiety in human clinical trials: A systematic review
L-theanine has other benefits too
We’ve talked about some of the most popular benefits of l-theanine, and we can’t make this newsletter too long, but research also suggests that it…
- Supports healthy weight management
- Reduces inflammation
- Supports immune health
- Helps fight cancer
- May extend lifespan ← this one’s a C. elegans study, but despite being a tiny worm, they actually function very similarly to humans on a cellular level; it’s why they’re used so much for anti-aging research
If you’re interested in this topic, we recommend also reading our previous article on l-theanine—pardon that we hadn’t really nailed down our style yet—but there’s a bunch of useful information about how l-theanine makes caffeine “better” in terms of benefits. We also talk dosage, and reference some other studies we didn’t have room to include today!
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For women with antenatal depression, micronutrients might help them and their babies – new study
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Getty Images Julia J Rucklidge, University of Canterbury; Elena Moltchanova, University of Canterbury; Roger Mulder, University of Otago, and Siobhan A Campbell, University of Canterbury
Antenatal depression affects 15% to 21% of pregnant women worldwide. It can influence birth outcomes and children’s development, as well as increase the risk of post-natal depression.
Current treatments like therapy can be inaccessible and antidepressants can carry risks for developing infants.
Over the past two decades, research has highlighted that poor nutrition is a contributing risk factor to mental health challenges. Most pregnant women in New Zealand aren’t adhering to nutritional guidelines, according to a longitudinal study. Only 3% met the recommendations for all food groups.
Another cohort study carried out in Brazil shows that ultra-processed foods (UPF) accounted for at least 30% of daily dietary energy during pregnancy, displacing healthier options.
UPFs are chemically manufactured and contain additives to improve shelf life, as well as added sugar and salt. Importantly, they are low in essential micronutrients (vitamins and minerals).
The consumption of these foods is concerning because a nutrient-poor diet during pregnancy has been linked to poorer mental health outcomes in children. This includes depression, anxiety, hyperactivity, and inattention.
Increasing nutrients in maternal diets and reducing consumption of UPFs could improve the mental health of the mother and the next generation. Good nutrition can have lifelong benefits for the offspring.
However, there are multiple factors that mean diet change alone may not in itself be sufficient to address mental health challenges. Supplementing with additional nutrients may also be important to address nutritional needs during pregnancy.
Micronutrients as treatment for depression
Our earlier research suggests micronutrient supplements for depression have benefits outside pregnancy.
But until now there have been no published randomised controlled trials specifically designed to assess the efficacy and safety of broad-spectrum micronutrients on antenatal depression and overall functioning.
The NUTRIMUM trial, which ran between 2017 and 2022, recruited 88 women in their second trimester of pregnancy who reported moderate depressive symptoms. They were randomly allocated to receive either 12 capsules (four pills, three times a day) of a broad-spectrum micronutrient supplement or an active placebo containing iodine and riboflavin for a 12-week period.
Micronutrient doses were generally between the recommended dietary allowance and the tolerable upper level.
Based on clinician ratings, micronutrients significantly improved overall psychological functioning compared to the placebo. The findings took into account all noted changes based on self-assessment and clinician observations. This includes sleep, mood regulation, coping, anxiety and side effects.
Adding micronutrients to the diet of pregnant women with antenatal depression significantly improved their overall psychological functioning. Getty Images Both groups reported similar reductions in symptoms of depression. More than three quarters of participants were in remission at the end of the trial. But 69% of participants in the micronutrient group rated themselves as “much” or “very much” improved, compared to 39% in the placebo group.
Participants taking the micronutrients also experienced significantly greater improvements in sleep and overall day-to-day functioning, compared to participants taking the placebo. There were no group differences on measures of stress, anxiety and quality of life.
Importantly, there were no group differences in reported side effects, and reports of suicidal thoughts dropped over the course of the study for both groups. Blood tests confirmed increased vitamin levels (vitamin C, D, B12) and fewer deficiencies in the micronutrient group.
Micronutrients were particularly helpful for women with chronic mental health challenges and those who had taken psychiatric medications in the past. Those with milder symptoms improved with or without the micronutrients, suggesting general care and monitoring might suffice for some women.
The benefits of micronutrients were comparable to psychotherapy but with less contact. There are no randomised controlled trials of antidepressant medication to compare these results.
Retention in the study was good (81%) and compliance excellent (90%).
Beyond maternal mental health
We followed the infants of mothers enrolled in the NUTRIMUM trial (who were therefore exposed to micronutrients during pregnancy) for 12 months, alongside infants from the general population of Aotearoa New Zealand.
This second group of infants from the general population contained a smaller sub-group who were exposed to antidepressant medication for the treatment of antenatal depression.
We assessed the neuro-behavioural development of each infant within the first four weeks of life, and temperament up to one year after birth.
These observational follow-ups showed positive effects of micronutrients on the infants’ ability to regulate their behaviour. These results were on par with or better than typical pregnancies, and better than treatments with antidepressants.
Micronutrients during pregnancy improved the neurological and behavioural development of infants. Getty Images Infants exposed to micronutrients during pregnancy were significantly better at attending to external stimuli. They were also better able to block out external stimuli during sleep. They showed fewer signs of stress and had better muscle tone compared to infants not exposed to micronutrients.
They also displayed greater ability to interact with their environment. They were better at regulating their emotional state and had fewer abnormal muscle reflexes than infants exposed to antidepressant medication in pregnancy.
Reassuringly, micronutrients had no negative impact on infant temperament.
These findings highlight the potential of micronutrients as a safe and effective alternative to traditional medication treatments for antenatal depression.
The prenatal environment sets the foundation for a child’s future. Further investigation into the benefits of micronutrient supplementation would gives us more confidence in their use for other perinatal (from the start of pregnancy to a year after birth) mental health issues. This could provide future generations with a better start to life.
We would like to acknowledge the contribution of Dr Hayley Bradley to this research project.
Julia J Rucklidge, Professor of Psychology, University of Canterbury; Elena Moltchanova, Professor of Statistics, University of Canterbury; Roger Mulder, Professor of Psychiatry, University of Otago, and Siobhan A Campbell, Intern Psychologist, Researcher – Te Puna Toiora (Mental Health and Nutrition Research Lab), University of Canterbury
This article is republished from The Conversation under a Creative Commons license. Read the original article.
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Pistachios vs Pine Nuts – Which is Healthier?
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Our Verdict
When comparing pistachios to pine nuts, we picked the pistachios.
Why?
First looking at the macros, pistachios have nearly 2x the protein while pine nuts have nearly 2x the fat. The fats are healthy in moderation (mostly polyunsaturated, a fair portion of monounsaturated, and a little saturated), but we’re going to value the protein content higher. Also, pistachios have approximately 2x the carbs, and/but nearly 3x the fiber. All in all, we’ll call this section a moderate win for pistachios.
When it comes to vitamins, pistachios have more of vitamins A, B1, B5, B6, B9, and C, while pine nuts have more of vitamins B2, B3, E, K, and choline. All in all, pistachios are scraping a 6:5 win here, or we could call it a tie if we want to value pine nuts’ vitamins more (due to the difference in how many foods each vitamin is found in, and thus the likelihood of having a deficiency or not).
In the category of minerals, pistachios have more calcium, copper, potassium, and selenium, while pine nuts have more iron, magnesium, manganese, and zinc. This would be a tie if we just call it 4:4, but what’s worth noting is that while both of these nuts are a good source of most of the minerals mentioned, pine nuts aren’t a very good source of calcium or selenium, so we’re going to declare this section a very marginal win for pistachios.
Adding up the moderate win, the scraped win, and the barely scraped win, all adds up to a win for pistachios. However, as you might have noticed, both are great so do enjoy both if you can!
Want to learn more?
You might like to read:
Why You Should Diversify Your Nuts
Take care!
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