How Do We Know That Cholesterol Causes Heart Disease?

“It is well accepted that coronary atherosclerosis is a chronic progressive disease that begins early in life and slowly progresses over several decades” before symptoms arise. However, the average age in cholesterol-lowering drug trials is 63; therefore, people have already been exposed to a lifetime of circulating LDL cholesterol. It’s no wonder pharmaceutical therapies typically reduce cardiovascular disease risk by only 20 to 30 percent.

We know LDL, the so-called bad cholesterol, plays “a central role” in the “initiation, development, and progression” of our number-one killer. In fact, more than 100 prospective studies involving more than a million people have demonstrated that those with higher LDL levels are at higher risk.

“It seems reasonable to assume, therefore, that if lowering LCL-C [cholesterol] levels beginning later in life can slow the progression of advanced atherosclerotic plaques…then keeping LDL-C levels low, beginning much earlier in life” might prevent our arteries from getting clogged in the first place. A reasonable assumption, certainly—but let’s not just assume.

“It would be…unethical to set up a controlled clinical trial in which young adults with elevated serum cholesterol levels were treated or not treated over their lifetime”—just as we couldn’t ethically set up a study in which half the young adults are made to start smoking to see if smoking really does cause lung cancer. That’s where observational studies come in. We can follow people who already smoke and compare their disease rates to those who don’t.

Young men 18 through 39 years of age were followed for up to 34 years, and their cholesterol levels, even when they were young, predicted long-term risk of heart disease and death. Men in their 20s and 30s who have a total cholesterol just under 200 have a “substantially longer estimated life expectancy”—around 4 to 9 years longer—than those with levels over 240.

“Evidence from observational studies, however, [is] vulnerable to confounding” factors. Eating a diet that is plant-based enough to lower cholesterol below average, for example, may add years to our lives regardless of what our cholesterol actually is. Ideally, we’d have a long-term, randomized, controlled trial.

Nature may have actually set one up for us. Each of us, at conception, gets a random assortment of genes from our mother and our father, and some of those genes may affect our cholesterol levels. Just like there are rare genetic mutations that result in unusually high cholesterol levels, there are rare genetic mutations that lead to unusually low cholesterol levels, “provid[ing] an ideal system in which to assess the consequences of low LDL cholesterol levels independently of other factors that may modify disease progression,” such as confounding diet and lifestyle factors.

Starting at 3:14 in my video, you can see what I mean. About 1 in 40 African Americans have a mutation that drops their LDL cholesterol from around 130 down toward more optimal levels. Now, this group didn’t eat healthy to achieve that drop. It’s just in their genes. More than half had high blood pressure and there were a lot of smokers and diabetics in the group, yet those with genetically low LDL levels still had a significant reduction in the incidence of coronary heart disease even in the presence of all those other risk factors. How significant? How much less heart disease? A remarkable 88 percent of heart disease was simply gone.

The astounding finding was that the risk of heart disease in these individuals was reduced by more than 80 percent, whereas the same 20- to 40-point decrease in LDL from drugs only reduces risk around 30 percent. Makes sense, though, because the folks with the mutation had low levels their entire life. They didn’t simply start taking a pill when they were 60.

“The magnitude of the effect of long-term exposure to lower LDL-C [cholesterol] concentrations observed in each of these studies represents a threefold greater reduction in the risk of CHD,” or coronary heart disease, compared to drug treatment started later in life. (As an aside, for all of my fellow research nerds, check out that p value shown in my video at the 4:30 mark. You’d have to do a quintillion studies to get that kind of result by chance.)

“Therefore, a primary prevention strategy that promotes keeping LDL [cholesterol] levels as low as possible, beginning as early in life as possible, and sustaining those low levels of LDL [cholesterol] throughout the whole of one’s lifetime has the potential to dramatically reduce the risk of CHD,” coronary heart disease.

If you don’t know your cholesterol level, you should get it checked—maybe even starting in childhood.

In health,
Michael Greger, M.D.

PS: If you haven’t yet, you can subscribe to my free videos here and watch my live, year-in-review presentations—2015: Food as Medicine: Preventing and Treating the Most Dreaded Diseases with Diet, and my latest, 2016: How Not to Die: The Role of Diet in Preventing, Arresting, and Reversing Our Top 15 Killers.

Related on Care2:

43 comments

Peggy B
Peggy Byesterday

Congrats wisdom.

SEND
Lesa D
Lesa D2 days ago

thank you Dr Michael...

SEND
John W
John W9 days ago

TYFST

SEND
Carole R
Carole R9 days ago

Interesting. I agree with Nancy Adams and her late husband. Your genes play a major role in health and long life.

SEND
Nancy Adams
Nancy Adams9 days ago

Looks like my late husband (who, incidentally, died of heart disease) was right: The best way to ensure a long life is to choose the right grandparents.

SEND
Camilla Vaga
Camilla Vaga9 days ago

thx

SEND
Janis K
Janis K9 days ago

Thanks for sharing.

SEND
Gino C
Gino C9 days ago

Thank you.

SEND
Ruth S
Ruth S9 days ago

Thanks.

SEND
Ruth S
Ruth S9 days ago

Thanks.

SEND