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  • You know the feeling you get when you learn something new

  • about a health problem you've been trying to reverse?

  • Maybe high blood pressure, diabetes, or heart disease.

  • Well, there's nothing I like better than bringing you the information

  • that will help you do just that.

  • Welcome to the Nutrition Facts Podcast.

  • I'm your host, Dr. Michael Greger.

  • There are a variety of unique health issues that women face

  • that affect their quality of life.

  • And today we start with one way to treat

  • one of the most debilitating diseases that women face: endometriosis.

  • Endometriosis is a major cause of disability

  • and compromised quality of life among women — a chronic disease

  • which is under-diagnosed, under- reported, under-researched.

  • For patients it can be a nightmare of misinformation, myths, taboos,

  • lack of diagnosis, and problematic hit-and-miss treatments,

  • overlaid by a painful, chronic, stubborn disease.

  • Pain is what best characterizes the disease,

  • pain, painful intercourse, heavy irregular periods and infertility.

  • About one in a dozen young women suffer,

  • and it accounts for about half the cases of pelvic pain and infertility.

  • It's caused by what's called retrograde menstruation.

  • Instead of the blood going down, it goes up into the abdominal cavity,

  • where bleeding tissue of the uterine lining can implant onto other organs.

  • You can have the lesions surgically removed,

  • but the recurrence rate within five years is as high as 50%.

  • Now, endometriosis is an estrogen-dependent disease,

  • so might the anti-estrogenic effects of the phytoestrogens

  • in flaxseeds and soy foods help, as they appear to in breast cancer?

  • I couldn't find studies on flax, but soy food consumption may indeed

  • reduce the risk of endometriosis,

  • but I couldn't find any studies on treating the disease with soy.

  • There's another food, though, associated

  • with decreased breast cancer risk: seaweed.

  • Seaweeds have special types of fiber and phytonutrients

  • not found among land plants, so it's not like choosing

  • to get your beta-carotene from a carrot versus a sweet potato.

  • If you want these unique seaweed components,

  • some of which may have anti-cancer properties,

  • we need to find a way to incorporate sea vegetables into our diets

  • anti-cancer properties such as anti-estrogen effects.

  • Japanese women have among the lowest rates of breast,

  • endometrial, and ovarian cancers.

  • They have longer menstrual cycles and lower estrogen levels

  • circulating in their blood and that may help account

  • for their low risk of estrogen-dependent cancers.

  • We assumed this was their soy intake, but the seaweed might be helping as well.

  • You can drip seaweed broth on human ovary cells that make estrogen

  • and see estrogen levels drop, because it's either

  • inhibiting production or facilitating breakdown of estrogen,

  • and may even block estrogen receptors,

  • lowering the activity of the estrogen you do produce.

  • This is in a Petri dish, though, but it happens in women as well.

  • They estimate that an effective estrogen-lowering dose of seaweed

  • for an average American woman might be around 5 grams a day,

  • but no one has apparently tried testing it on cancer patients yet,

  • but it has been tried on endometriosis.

  • Three women with abnormal cyclestwo of which with endometriosis

  • volunteered to add a tiny amount of dried powdered bladderwrack,

  • a common seaweed, to their daily diet.

  • It effectively lengthened their cycles and reduced the duration of their periods.

  • And not just by a little. Check out subject number 1.

  • A 30-year history of irregular periods, averaging every 16 days,

  • but adding just a quarter teaspoon of this seaweed powder a day

  • added 10 days onto her cycle, up to 26 days,

  • and a half teaspoon a day brought her up to like 31,

  • nearly doubling the length of her cycle.

  • And they all experienced marked reductions in blood flow

  • and a decreased duration of menstruation.

  • Poor subject number 1 was having periods every 16 days

  • that lasted 9 days long. Can you imagine?

  • After 30 years of this kind of craziness, just a half teaspoon of seaweed a day

  • and she was having periods just once a month and only lasting about 4 days.

  • And most importantly, in the two women suffering from endometriosis,

  • they reported substantial alleviation of their pain.

  • How is that possible? Look at their drop in estrogen levels.

  • A 75% drop after just a quarter teaspoon of seaweed powder a day,

  • 85% after a half teaspoon.

  • Now obviously with just a couple women, no control group,

  • we have to do bigger better studies.

  • But look when this study was published: more than a decade ago

  • and not a single such study has been published since.

  • Does the research world just not care about women?

  • Millions of women are suffering with these conditions.

  • Who's going to fund it, though?

  • That much seaweed costs less than 5 pennies,

  • so a larger study may never be done.

  • But with no downsides, I would suggest endometriosis sufferers give it a try.

  • In our next story,

  • we look at how oxidized cholesterol found in eggs,

  • processed meat, and parmesan cheese

  • can have cancer-fueling estrogenic effects on human breast cancer.

  • In 1908, the presence of cholesterol crystals was noted

  • in the proliferating areas of cancers, suggesting that perhaps cholesterol,

  • in some way, was associated with the regulation of cancer proliferation.

  • A century later we now recognize the accumulation of cholesterol

  • as a general feature of cancer tissue,

  • and recent evidence suggests that cholesterol

  • may indeed play critical roles in the progression of cancers,

  • including breast, prostate, and colorectal cancers.

  • Perhaps that could explain why egg consumption was associated

  • with increased breast cancer risk.

  • And indeed, a systematic review of the evidence suggests

  • that dietary cholesterol intake increases risk of breast cancer,

  • and the more cholesterol you eat, the higher the risk appears to go.

  • But why?

  • One thought is that the prolonged ingestion of a cholesterol-enriched diet

  • induces a chronic auto- inflammatory response,

  • and we know that chronic inflammation can lead

  • to the initiation, promotion, and progression of tumor development.

  • It's true that sprinkling some cholesterol on white blood cells

  • in a test tube can trigger the release of inflammatory compounds,

  • and LDL cholesterol can induce breast cancer proliferation and invasion.

  • But again that's in vitro, where you can show that like breast cancer cells

  • can migrate nearly twice as far within a day in a petri dish

  • in the presence of LDL cholesterol.

  • But what about in people?

  • Well, the level of LDL cholesterol in the blood of women

  • diagnosed with breast cancer does appear to be

  • a predictive factor of tumor progression.

  • About two years after surgery/chemo/radiation,

  • not one of the women in the lowest third of LDL cholesterol levels

  • had a cancer recurrence.

  • The same could not be said for women with higher cholesterol.

  • We know cholesterol can cause inflammation in our artery walls.

  • Maybe it's also playing an effect on breast cancer initiation and progression?

  • They speculate that the high cholesterol levels may have a cancer-fueling effect.

  • And indeed, women with breast cancer

  • who happen to be taking cholesterol-lowering statin drugs

  • appear to live about 40% longer before the cancer comes back.

  • But the data isn't good enough to ensure the drug benefits outweigh the risks,

  • though lowering cholesterol with diet one may be able to get

  • the best of both worlds.

  • But what does that have to do with dietary cholesterol?

  • Sure, animal studies show that if you feed mice cholesterol

  • you can accelerate their cancers, but extrapolation to humans

  • is difficult as dietary cholesterol has limited effects

  • on blood cholesterol levels in humans.

  • Thus, dietary cholesterol might just be indicative of a lifestyle

  • prone to health-related problems, including cancer.

  • Maybe people are just more likely to chase bacon and eggs down

  • with a cigarette compared to oatmeal?

  • It's hard to imagine how dietary cholesterol alone

  • could promote cancer development.

  • But that all changed recently with the discovery that 27-Hydroxycholesterol,

  • a metabolite of cholesterol, can function as an estrogen

  • and increase the proliferation of most breast cancer cells.

  • Ah, so it's not the cholesterol itself, but what it turns into in the body.

  • Scientists have long struggled to understand why women

  • with heart disease risk factors are more likely to develop breast cancer.

  • Now, perhaps we know.

  • The discovery that the most abundant oxidized cholesterol metabolite

  • in our bloodstream can have estrogenic effects

  • may explain the link between high cholesterol and the development

  • and progression of breast cancer and prostate cancer.

  • Yes, 27-Hydroxycholesterol also stimulates the proliferation

  • of prostate cancer cells, boosting growth by about 50 percent.

  • I've explored before the role oxycholesterols may play

  • in mediating pro-oxidative and pro-inflammatory processes

  • in degenerative diseases such as Alzheimer's and heart disease,

  • but now it looks like oxidized cholesterol can play a role

  • in all three stages of tumor development as well:

  • initiation, promotion, and then the progression of the cancer.

  • Not just promoting the growth of breast cancer cells,

  • but also inducing their invasion and migration,

  • potentially facilitating breast cancer metastasis

  • through suppressing anti-cancer immunity,

  • and then inducing angiogenesis:

  • helping breast tumors hook up their blood supply.

  • This is all supported by several lines of evidence

  • that point to a pathologic role for this cholesterol metabolite.

  • Yeah, you can feed mice cholesterol,

  • their oxysterol levels go up and their tumors accelerate.

  • It also appears to dramatically hasten the spread, or metastasis,

  • of breast tumors to other organs.

  • But turning to human breast tissue samples,

  • they found that more aggressive tumors have higher levels

  • of the enzyme that converts cholesterol into 27-HC.

  • In breast cancer patients with estrogen receptor-positive tumors, the 27

  • Hydroxycholesterol content in their breast tissue is increased overall,

  • and especially within the tumor itself,

  • so much so that circulating oxysterol levels

  • in the blood may one day be used as a prognostic factor.

  • And breast cancer patients with low tumor levels of the enzyme that breaks down

  • 27-HC did not live as long as women who can detoxify it better.

  • The bottom line is that some estrogen- driven breast tumors may rely

  • on 27-HC to grow when estrogen isn't available.

  • And that may explain a second breast cancer mystery.

  • Over 80% of breast cancers start out responding to estrogen,

  • and so what we do is use hormone blockers,

  • either aromatase inhibitors to stop the formation of estrogen in the first place,

  • or tamoxifen to block its action.

  • Despite the efficacy of these drugs, many patients relapse with resistant tumors.

  • And that's where oxidized cholesterol can come in.

  • 27-HC can fuel breast cancer growth without estrogen,

  • which could explain why sometimes these estrogen blockers don't work.

  • And finally, 27-HC may explain why breast cancer patients

  • with higher vitamin D levels appear to live longer.

  • Vitamin D supplementation decreases 27-HC levels in the blood.

  • The best way, though, may be to just lower overall cholesterol.

  • Lower cholesterol, and you lower oxidized cholesterol.

  • So discovering this role of cholesterol is actually really good news,

  • since cholesterol is a highly amenable risk factor,

  • either by lifestyle, dietary, or pharmacologic interventions.

  • The implications of these findings, according to the principal investigator,

  • is that lowering cholesterol with dietary changes or drugs

  • could reduce a women's breast cancer risk or slow tumor growth.

  • Finally, when it comes to uterine fibroids,

  • is soy helpful, harmful, or harmless?

  • About 1 in 4 women will eventually suffer from fibroids,

  • most commonly manifesting as excessively

  • heavy periods and pain or pressure.

  • Why might you feel pressure?

  • Because you may be carrying around 26 pounds

  • of tumors in your uterus.

  • Fibroids are the most common reason women get hysterectomies

  • having their uterus removed completely,

  • a major surgery associated with disability and death,

  • but all surgery carries risk.

  • The chances of dying within a month of surgery

  • may only be about 1 in 1200,

  • which makes it among our safest surgeries,

  • safer than getting your gallbladder removed, for example.

  • But, of course, you lose the ability to bear children,

  • and costs billions of dollars a year.

  • Yet, despite the high prevalence,

  • significant pain and suffering, and huge economic impact,

  • relatively little is understood about the cause

  • and disease process that lead to fibroid tumors.

  • Avoiding atomic bomb blasts whenever you can

  • is probably a good idea in terms of decreasing fibroids risk,

  • but what about more easily modifiable risk factors?

  • Well, alcohol consumption is associated

  • with increased risk, particularly beer,

  • and whenever you hear that, whenever you hear beer specifically,

  • you think of the hormonal effects specific to beer,

  • specifically the powerful phytoestrogen found in hops.

  • Well, if that phytoestrogen is increasing fibroids risk,

  • what about the phytoestrogens in soy?

  • Well, this was looked at in the Black Women's Health Study.

  • Fibroids are 2 to 3 times more prevalent

  • among African-American women;

  • so, they thought maybe dairy intake

  • might be contributing to the disparity,

  • given their higher levels of lactose intolerance.

  • And indeed, dairy consumption

  • was associated with reduced risk.

  • They figured it was the calcium content

  • or maybe the vitamin D,

  • but perhaps the women were drinking soy milk

  • instead and that was increasing their risk?

  • No, soy intake was found to be unrelated,

  • same finding in a group of predominantly white women,

  • though they did note a protective association

  • with the amount of lignans flowing through their bodies.

  • Lignans are another class of phytoestrogens

  • found predominantly in flaxseeds,

  • but throughout the plant kingdom.

  • Hard to make any generalizations

  • about soy phytoestrogens, though,

  • as soy consumption was rather low across the board.

  • This was done in Washington state.

  • If you go to Japan,

  • where they have the highest per capita

  • soy consumption in the world,

  • you could get a bigger spread of intakes.

  • The researchers had previously found

  • that soy intake was inversely associated

  • with the risk of hysterectomy,

  • meaning women who ate more soy

  • had lower hysterectomy rates,

  • suggesting a potentially protective effect

  • of soy against uterine fibroids,

  • since that's the main reason

  • women have their uterus removed.

  • This would be consistent with in vitro studies

  • that found that the main soy phytoestrogen

  • seemed to inhibit fibroid tissue proliferation in a petri dish.

  • But, when they specifically looked,

  • there was no evidence of a link to soy at all,

  • protective or otherwise.

  • The same was found in one study out of China.

  • Fruit and vegetable intake was associated with

  • significantly lower risk of fibroids,

  • but soy food consumption was not.

  • But a second study out of China, published the same year,

  • found a significant association

  • between soymilk intake and fibroids.

  • That's consistent with the three alarming case reports

  • of women with symptomatic fibroids

  • reporting anunusuallyhigh intake of soymilk,

  • or regularly consumingexcessiveamounts of soy,

  • orextremely highintakes of soy

  • every day for decades.

  • It's hard to take these cases seriously

  • when nowhere do they actually say

  • how much they were consuming.

  • The only quantitative mention was 40 grams of isoflavones,

  • which roughly translates to 400 gallons

  • of soymilk every day

  • that would be excessive, but also impossible.

  • The only way to know for sure is to put it to the test.

  • Not just a population study or anecdotal reports

  • but randomize women to two years of soy phytoestrogens

  • the amount found in 3 to 5 cups of soymilk a day

  • and no significant effect

  • on the frequency or growth of fibroids was found.

  • We would love it if you could share with us your stories

  • about reinventing your health through evidence-based nutrition.

  • Go to nutritionfacts.org/testimonials.

  • We may share it on our social media to help inspire others.

  • To see any graphs, charts, graphics, images, or studies mentioned here,

  • please go to the Nutrition Facts Podcast landing page.

  • There you'll find all the detailed information you need

  • plus, links to all of the sources we cite for each of these topics.

  • My last two books areHow to Survive a Pandemic

  • and theHow Not to Diet Cookbook”.

  • Stay tuned for December 5, 2023

  • for the launch of my new one, How Not to Age.

  • And, of course, all the proceeds I receive from the sales

  • of all my books goes directly to charity.

  • NutritionFacts.org is a nonprofit, science-based public service,

  • where you can sign up for free daily updates

  • on the latest in nutrition research via bite-sized videos and articles.

  • Everything on the website is free.

  • There's no ads, no corporate sponsorship,

  • no kickbacks.

  • It's strictly non-commercial. I'm not selling anything.

  • I just put it up as a public service, as a labor of love,

  • as a tribute to my grandmother,

  • whose own life was saved with evidence-based nutrition.

You know the feeling you get when you learn something new

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B2 中高級 美國腔

Podcast: Women’s Health

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    林宜悉 發佈於 2023 年 07 月 17 日
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