WHY Sugar is as Bad as Alcohol (Fructose, The Liver Toxin)

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To alcohol!

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The cause of and solution to all of life's problems.

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We’re all familiar with the dangers of alcohol and the fact that frequent alcohol consumption

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can fry your liver.

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Anyone who has had alcohol before will not doubt that it is a toxin, even if they are

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not familiar with what it specifically does inside your body.

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This is because you can experience the immediate or “acute” effects of alcohol exposure

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in a single night after just a few drinks.

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You might not notice your heart rate becoming irregular, your blood vessels dilating, or

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your loss of fine motor control, but you will notice something is different as you become

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“drunk” or “intoxicated”.

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Then if the pleasant feeling of being drunk had you doubting whether or not alcohol is

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a toxin, the hangover that comes the next day will surely confirm that it is.

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So you don’t really need much education or convincing about whether or not frequent

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consumption of alcohol has some potentially serious effects on your health.

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The reason you can feel the effects of alcohol right away and get “drunk” is because

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a little bit of the alcohol is metabolized by the brain.

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Actually what goes to the brain is less than 10% of the alcohol.

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The majority of it- about 80% gets metabolized by the liver.

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This is why you can develop all sorts of serious liver issues quite quickly if you’re drinking

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on a daily basis.

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However, your liver is a very powerful organ that can handle various toxins relatively

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well, so one night of celebrating your birthday at the bar isn’t going to have you trying

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to get on the liver transplant list.

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But what if we could make an alcoholic drink with a special type of alcohol that didn’t

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get metabolized in the brain, so you wouldn’t experience the acute effects of alcohol toxicity?

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You could have several beers at lunch and still be sharp as a tack during the company

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meeting at 2PM.

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Maybe you’d even be allowed to drink and drive because it wouldn’t impair your motor

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skills.

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Companies might even get away with marketing this special alcohol to kids.

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"I present to you... kid beer" Hey I mean if the kid isn’t slurring his words and

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falling down, it should be OK right?

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...Of course not, no parent in their right mind would give their kid alcohol simply because

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they don’t appear drunk.

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So here are the immediate health effects, and the long term health effects that come

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with alcohol consumption.

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How would you feel about a substance that doesn’t get metabolized in the brain, so

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you get none of these and you only have to worry about 8 of these 12 problems from frequent

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consumption?

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...Still not OK that, I’m guessing.

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Well we already have a substance like this that is consumed on a daily basis.

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Like alcohol, it’s not necessary for any biochemical reaction in the body, you don’t

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need it to survive.

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It’s not metabolized in the brain so it doesn’t get you drunk, but like alcohol

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and other toxins, it’s processed primarily in the liver.

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And frequent consumption of it leads to all sorts of health problems.

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This substance is fructose.

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Table sugar, sucrose, is made up of one molecule of glucose and one molecule of fructose.

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Fructose is in honey, it’s in fruit juice, it’s in high fructose corn syrup - it’s

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what makes the really sweet stuff sweet.

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"Okay, now you wouldn't think twice about not giving your kid a budweiser.

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But you don't think twice about giving your kid a can of coke.

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But they're the same."

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This is Robert Lustig, he is one of the biggest factor in bringing the detrimental effects

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of sugar to light.

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At first, he can sound a bit over the top when talking about sugar- "Sugar is a poison,

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it is a chronic, dose dependent hepato- liver toxin."

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However, he can back all his statements up with more than 16 years of medical research,

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academic discourse, policy analysis, data analysis, a whole lot of patient care and

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maybe most important: the biochemistry of how sugar is processed in the body.

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There's all sorts of compelling statistics we could talk about, but the actual mechanisms

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that cause sugar to have such bad effects on the body paint a much clearer picture.

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Once you understand how it is processed in the body, it leaves very little debate as

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to whether or not sugar could be considered a toxin, and you start to see how a lot of

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modern health issues are caused by sugar.

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Let’s look at how sugar is metabolised,But first we’ll look at glucose or “starch”

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to see how a non-toxic carbohydrate is metabolized.

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By the way, it’s not necessary to remember all these specific terms that come up.

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Just pay attention to how glucose flows through the cell so we can see how it’s different

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from alcohol and sugar.

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So here is what’s happening in your liver when you eat something like a slice of white

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bread.

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First off, only 20% of the glucose you ate will actually hit the liver because the other

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80% is metabolised by all the other cells in your body.

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Before glucose can get into the liver cell, it needs to stimulate the pancreas to make

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insulin.

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The insulin will stimulate this insulin receptor IRS-1, which causes a series of reactions

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to then stimulate SREBP1 and activate this enzyme called glucokinase.

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Glucokinase takes glucose to Glucose 6-Phosphate which mostly gets stored in the liver as Glycogen.

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Glycogen is a good thing because it acts as a reserve tank of energy that your body can

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access when necessary.

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This is why runners will “carb load” before a race- to completely fill up their glycogen

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stores and have more energy during the race than what is just sitting in their gut.

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What doesn’t go to glycogen gets metabolized down to pyruvate.

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Pyruvate enters the mitochondria, Mitochondria is like the coal furnace of your cell because

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it converts the Pyruvate to Acetyl-CoA then burns that in the TCA cycle to produce a bunch

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of energy in the form of ATP.

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Not all of this is gonna get burned off so a little bit may be left over as citrate.

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The SREBP1 from before activates these three enzymes start a process called de novo lipogenesis.

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De novo “new” lipo “fat” genesis “making”.

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So the cell is taking this leftover citrate and converting it into fat.

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The liver really doesn’t want the fat sitting around inside it, so it gets converted down

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to something called VLDL which is stored in your fat tissue.

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Not only can this make you fat, but VLDL is actually a big contributor to heart disease.

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While this might sound bad, it’s actually not that big of a deal because remember: only

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20% of the glucose made it to the liver, then half of that went to glycogen, then alot of

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that is burned off for energy, so maybe 1/50th of what you ate will actually turn into VLDL.

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So could a farmer whose eating rice and vegetables at every meal die of a heart attack?

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Maybe.

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But it’s gonna happen when they're about age 90, so that’s not too bad.

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So now let’s look at ethanol, which is “drinking alcohol” to see what makes it so different

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from glucose.

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Here’s what happens in the liver when you have an alcoholic drink.

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As you can guess, ethanol is not necessary for any biological process, so a majority

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of is processed like a toxin in the liver.

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10% will get processed in the stomach and intestines and another 10% gets processed

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by the kidneys, muscle and the brain.

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This is the first big difference between glucose and ethanol, the liver has to work 4 times

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as hard because it processes 80% of the ethanol that comes in.

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Ethanol doesn’t need insulin to get into the cell, it just diffuses in there and is

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converted to acetaldehyde.

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Acetaldehyde generates something called reactive oxygen species.

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Reactive oxygen species damage proteins in the body, can cause cancer and are thought

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to be the key factor in aging.

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This is how anti oxidants are supposed to combat aging, because they deal with these

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ROS’s.

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The acetaldehyde then gets converted to acetate and goes into the mitochondria like last time.

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With glucose, only 20% of the substrate went to the liver and then maybe half of that went

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to the liver mitochondria because the rest went to glycogen.

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So what alcohol is doing is overloading your mitochondria.

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So A bunch of acetate comes in, goes through the TCA cycle and you’re left with a ton

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of citrate.

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The same three enzymes start “new fat making” are stimulated and you end up with a lot of

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bad fat.

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This will go to your fat stores, primarily your visceral fat.

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This is the stuff that causes a lot of health issues and surrounds your organs, giving you

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a big gut.

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This is why people get “beer bellies” because that’s the area that gets filled

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with the fat produced by alcohol.

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So the liver has all this fat being produced that it doesn’t want sitting around inside

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it so it will also export some of the fat out in the form of free fatty acids.

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These can get into the muscle, causing muscle insulin resistance which is very problematic.

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Some of it won’t even be able to get out, so you have a fat droplet sitting around in

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the liver and now you have your alcoholic fatty liver disease.

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So the excess of Acyl-CoA, the ethanol and the ROS species activate an enzyme called

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JNK1 which is the bridge between metabolism and inflammation.

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This ends up further damaging the liver and it promotes insulin resistance within the

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liver by inactivating IRS-1, that insulin receptor from before.

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This means your pancreas has to work a lot harder and pump more insulin out to do its

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job.

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Now let’s look at sugar.

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Sugar is made up of equal parts glucose and fructose.

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Fructose is what causes the problems so let’s see how it’s metabolized very similarly

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to ethanol.

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Here’s what’s going on in the liver when you have a glass of something sweet like orange

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juice.

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So first off - like Ethanol, Fructose is not necessary to the body so it’s treated like

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a foreign substance and almost 100% of it is processed in the liver.

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It comes in, gets metabolized down to pyruvate and enters the mitochondria.

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Now we have the same situation where everything goes straight to the liver, does not get stored

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in glycogen and overloads your liver cell’s mitochondria.

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The pyruvate goes through TCA cycle, produces a bunch of citrate and that gets converted

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down to VLDL.

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This leads to increased risk of heart disease and visceral fat accumulation.

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Now you’ve got a “soda belly”.

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Like before, it exits the cell as free fatty acids leading to muscle insulin resistance.

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Not all of the fat can get out of the cell so fat accumulates in the liver and you get

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non alcoholic fatty liver disease.

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The same JNK1 gets stimulated which promotes inflammation and JNK1 acts on the same IRS-1

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insulin receptor causing insulin resistance in the liver.

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All of this is actually illustrated really well in the movie “That Sugar Film.”

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Damon Gameau goes on a diet with plenty of low fat and so called “healthy” foods

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like yogurt, whole grain cereals, fruit juice and fruit smoothies.

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The aim is to eat foods marketed as “healthy” while reaching the average sugar intake of

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a typical Australian which is about 40 teaspoons.

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His results demonstrate all of these biochemical processes we just talked about.

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He gained 8.5kg and an extra 7% total body fat mainly in the form of visceral fat, his

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heart disease risk went up, he’s developed insulin resistance and after only 18 days

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he developed non alcoholic fatty liver disease.

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What I thought was interesting was that he didn’t change the amount of calories he

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was consuming yet he packed on such a significant amount of fat.

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Actually there’s another element to fructose metabolism that makes it generate so much

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fat.

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Fructose forms something called Xylulose 5-Phosphate, and this further stimulates the de novo lipogenesis

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enzymes, leading to even more fat making.

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That explains the obesity epidemic.

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Also, when it’s getting converted to Fructose 1-Phosphate it produces Uric Acid.

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Uric Acid raises your blood pressure and now you get hypertension too.

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Oh and Coca Cola still wants to pretend that obesity is all about calories and a calorie

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is just a calorie no matter where it comes from.

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One thing I should mention is that fiber helps prevent the sugar in fruit from becoming a

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problem.

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Fiber reduces the rate of intestinal absorption meaning your liver can easily handle the steady

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stream of sugar from a piece of fruit.

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The fiber will also fill you up.

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So 4 apples might be actually a lot of food to take in in one sitting, but you can get

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4 whole apple’s worth of sugar delivered to your liver in a few seconds from one glass

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of apple juice.

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One night of tequila shots isn’t going to cause your liver to explode, but having a

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shot of whiskey with every meal and for a snack would do some serious damage.

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By the same token, having a big piece of cake with ice cream at a birthday party isn’t

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that big of a deal, but most of us are loading up on sugar all throughout the day without

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noticing it.

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We’ll have a breakfast of cereal and juice, then a starbucks pseudo-milkshake thing on

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the way to work, have a sandwich with low fat yogurt for lunch, a granola bar for a

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snack, then some pasta with a salad for dinner.

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But we’re not realizing that that the yogurt has as much sugar as candy, the granola bar

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has as much sugar as a package of oreos, and even your pasta sauce and salad dressing has

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sugar pumped into it.

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80% of the 600,000 packaged food items on the market have added sugar in them.

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By the way, they’re not gonna have any of that protective fiber you find in whole fruits

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or vegetables.

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The fiber has been removed to improve shelf life of the products.

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The average American child sees 30,000 TV commercials a year advertising fast food or

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candy.

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While something like kid beer sounds joke-ish-ly evil, maybe it’s not all that different

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from these fun, colorful sugar packed items kids have access to wherever they go.

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"Alright, I'm hanging up."

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"You know what's the most destructive force in the universe?"

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"Sugar?"