The Definitive Guide to Cholesterol
From Mark’s daily apple, a great resource.
Excuse me, have you met cholesterol?
Cholesterol is a waxy, charming lipid gracing every cell’s membrane and our blood plasma. Its jobs, which are many, include insulating neurons, building and maintaining cellular membranes, metabolizing fat soluble vitamins, producing bile, and kick-starting the body’s synthesis of many hormones, including the sex hormones. Cool stuff actually.
Given all the work cholesterol has to do, the liver is careful to ensure the body always has enough, producing some 1000-1400 milligrams of it each day. In comparison, the 300 milligram recommended limit for dietary cholesterol (your tax dollars at work in the USDA) is a drop in the bucket. And get this: our livers come with feedback mechanisms (at no additional cost) that regulate cholesterol production in response to our dietary intake. When we eat more, it makes less, and vice-versa. Imagine that!
(Interesting note: While animal products like meat, eggs and dairy, are far and away the primary source of dietary cholesterol, plants contain trace amounts of cholesterol and cholesterol-like substances called phytosterols, which may help lower blood or “serum” cholesterol. Not that that matters, as we shall soon see.
So, what’s with all the acronyms on my cholesterol profile, you ask. Let’s take a look. First, there are high density lipoproteins (HDL). (Lipoproteins are spherical fat particles with water-soluble proteins around their exterior. They transport cholesterol). HDL: everybody loves this guy. He has the popular job of transferring cholesterol from the body’s tissues back to the liver. It’s basically the end of the line with this route, and the liver then excretes it through bile. HDL is the one to naturally help get rid of excess cholesterol when the body’s done with it, hence his universal popularity. Some cholesterologists (just made that up) even refer to him as Nature’s garbage truck.
Next, there are low density lipoproteins, LDL. LDL is a lipoprotein and delivery man as well. He has the disgraced job of transporting cholesterol after production from the liver to the body’s tissues. Remember, this is an important job! That cholesterol has a honey-do list a mile long.
Ironically, it turns out that it’s not the cholesterol part of the LDL or HDL moiety that is dangerous, but the actual lipoprotein part. Unfortunately, once medicine had found a way to differentiate between the amount of HDL and LDL in a cost-effective blood test, it was the cholesterol part that got the short end of the deal.
The latest research into LDL shows that there are actually sub-categories of this cholesterol transporter and that some are more dangerous than others. The larger, more billowy LDL particles are now thought to have little or no significant role in heart disease. On the other hand, the smaller, dense LDL particles are the ones believed to be most involved in the process of inflammation that begins the atherosclerosis cascade. And wouldn’t you know it, but it’s a diet high in simple carbs that most readily promotes the formation of these small LDL particles! Unfortunately, this important distinction is probably something your doctor knows very little about, yet it’s the number of small particle LDL that might be the most important reading in any cholesterol test. So a total cholesterol of, say, 230 or even 250 might not be dangerous at all if your HDL is high and your small particle LDL is low.
Before we move on, let’s give brief mention to triglycerides. Triglycerides are essentially the form that fat takes as it travels to the body’s tissues through the bloodstream. The relationship between triglycerides and cholesterol is more of an association. A high triglyceride level, which is unequivocally fueled by a high carb diet, is very often a marker for other problems in the body, particularly insulin resistance (and accompanying risk of diabetes) as well as inflammation (with its risk of heart disease). High levels are often seen with low HDL cholesterol. Once again, the high carb diet wreaks havoc.
The Rise of Cholesterol Panic
Heart disease took off in the early part of the twentieth century, and doctors frantically searched for the cause throughout the next several decades. Tests in the fifties initially showed an association between early death by heart disease and fat deposits and lesions along artery walls. Because cholesterol was found to be present in those deposits (of course it would!) and because researchers had previously associated familial hypercholesterolaemia (hereditary high blood cholesterol) with heart disease, they concluded that cholesterol must be the culprit. In fact, what happens is that in response to an inflammatory situation, the body uses cholesterol as a “band-aid” to temporarily cover any lesions in the arterial wall. In the event the inflammation is resolved, the band-aid goes away and repair takes place. No harm, no foul. Unfortunately, in most cases, the inflammation proceeds, the cholesterol plaque is eventually acted on by macrophages and is oxidized to a point at which it takes up more space in the artery, slows arterial flow and eventually can break loose to form a clot. And all this time the cholesterol was just trying to be the good guy! Blaming cholesterol for all this is like blaming a cut finger on all the band-aids you have lying around your house.
Death from heart disease, according to the CDC, has declined over 50% since its peak in the 1950s. The success is attributed to a number of factors, including a decrease in smoking and better diagnosis and treatment of high blood pressure. Included in the list of factors was the opportunity for public education regarding the scientific findings/theories related to cholesterol; however, measures (including CDC estimates) of dietary saturated fat intake show that intake has generally stayed the same or risen.
But the dietary cholesterol message stuck.
Big Pharma To The Rescue!
Early drugs that “battled” high cholesterol prevented its absorption in the digestive tract. The side effects on the digestive system were unpleasant enough and the results modest enough that the drugs never garnered much support from either side of the prescription pad. Enter statins. Statins inhibited the natural production of cholesterol. Side effects were not as immediately noticeable or uncomfortable, and the results were quite good (at least at lowering cholesterol). (The recently beleaguered Vytorin and Zetia combined statin actions with a substance that reduces absorption of dietary cholesterol, preventing your body from trying to compensate for the lower natural cholesterol production.)
But what about the body’s natural impetus to produce a given and necessary amount of cholesterol? What happens to the parts of the body that need the cholesterol? What about the liver’s regulating mechanism? What happens when you mess with evolution? Exactly. Those are the sorts of questions that get thrown aside when you’re riding Big Pharma’s cholesterol hobby horse.
What Are the Problems With This (“Lipid”) Model?
Oh, boy. There’s the million dollar question.
First off, let’s go back to the evolutionary question. As a naturally self-regulating system, the body will react if it doesn’t have enough cholesterol (yes, the body’s definition of enough and not Merck’s). If there’s not enough cholesterol, the alarm goes off, strobe lights flash and the body goes into crisis mode. Corticoid hormones coordinate a redistribution of cholesterol, a triage of sorts in which cholesterol is rationed among the many areas of the body that need it. Nonetheless, the body is now working under hardship conditions.
Adequate cholesterol isn’t available for the body’s repair system, for the uptake of serotonin, for the full initiation of Vitamin D and hormone production and their regulation of blood sugar and inflammation, etc., etc. What does your logic tell you here? Yup, nothing is running the way it should.
Let me also add that everyone’s cholesterol profile is going to be different, no matter what. And I acknowledge that a very small percentage of people out there genuinely have *true* hereditary high blood cholesterol, familial hypercholesterolemia, a metabolic condition with impaired or even lack of ability to metabolize cholesterol. This condition can have serious health consequences. By the way, this condition, in its heterozygous form affects at most 1 in 500 people. Total serum cholesterol in these folks is in the 400 mg/dl range (as opposed to the 200 recommended). The homozygous form affects about 1 in 250,000. You likely don’t know anyone in this category because their disorder almost always ends their lives at a very young age.
I mention familial hypercholesterolemia because I want to distinguish it from the claim made by Big Pharma ads that you may have higher cholesterol because people in your family did, and – can you believe it – their company is here to help. Duh! Everyone’s family influences cholesterol profiles. It’s, in small part, genetic. No big worry there. Just because you come from a family with “elevated” cholesterol doesn’t mean you have the familial hypercholesterolemia metabolic disorder. You can pretty much bet a whole lot o’ money on the likelihood that your cholesterol profile – good or bad – has more to do with learned behaviors like diet and exercise. “Elevated” cholesterol doesn’t equate with metabolic disorder.
Officer, You Got the Wrong Guy!
I’ve said it before, and I’ll say it again. Sound and reliable medical research hasn’t proven that lowering (or low) cholesterol in and of itself reduces risk of death from heart disease across a population. Yes, there is always that single isolated guy who throws off the curve, but he (or she) is a statistical anomaly and doesn’t negate the legitimacy of the model. For instance, the Japanese people of Okinawa are among the healthiest in the world. Their heart disease rate is extremely low, but they tend to have “elevated” cholesterol levels.
The fact is, half of all first time heart attack sufferers have a perfectly “normal” cholesterol profile. What does this tell you? There must be some other piece here behind the “other half” and, I would solidly argue, behind the first half. Cholesterol is a red herring.
It all boils down to inflammation. Inflammation is the number one factor in heart disease. This is an accepted fact now, but it still gets little attention and no real prevention or treatment. Think about it: you have your cholesterol levels checked every five years or more if your profile is “problematic.” When do you have biomarkers for inflammation checked? Unless you’ve had a heart attack or been diagnosed with a serious medical condition, probably never.
Inflammation. What is it caused by? Not fat, but carbohydrates. Yes, sugars and processed carbs are highest on the list of perpetrators here, but grains and starches as a whole contribute to the problem. LDL rises directly not with the amount of saturated fat you eat but with rising levels of inflammation caused by carbs and trans fats.
Oxidation. Furthermore, nearly every study suggests that LDL is only a true threat when it’s oxidized. What oxidizes it? Free radicals. We’re talking trans fats primarily, that beast of an additive found in countless food products (as opposed to foods). What counteracts free radicals (because we all naturally have some in us)? Anti-oxidants: veggies and fruits, of course, as well as nuts, olive oil, etc. Consider also a broad-based multi-antioxidant supplement containing those nutrients shown to decrease oxidation.
Back to the red herring issue. Substantially “elevated” cholesterol, low HDL or high LDL might be reason to give you pause, but not for the reason you might think. The number can tell you that something is amiss, but they’re a symptom of the larger concern rather than the main issue itself. Cholesterol profile can be impacted by other conditions such as hypothyroidism, untreated diabetes or pre-diabetes, pregnancy (surprise!), lactation, stress, liver conditions, heart disease (symptom, not cause of), etc. Talk to your doctor about what your numbers mean in the grand scheme of your health. And see if you can get a read on other markers, like C-reactive protein (an inflammatory indicator) and those small particle LDL numbers.
How to Maintain True Heart Health
Now that we’ve conquered the cholesterol frenzy (because the frenzy itself is the real threat), let’s get to the genuine issue of maintaining heart health. Maintaining heart health is about keeping inflammation at bay. As we say here at MDA, that means an anti-inflammatory diet (with exercise), and primal nutrition fits the bill: copious amounts and variety of veggies, fruits, good quality meats, healthy fats and proteins.
Also, plenty of omega-3 fatty acids, particularly fish oil, will thin the blood and help prevent clotting, which along with atherosclerosis (inflammation related), is a serious set up for heart disease and stroke. Fish oil also happens to generally lower triglycerides and increase “good” HDL.
Read up in our MDA archives for additional info on inflammation and healthy living. Thanks for tuning in.