Scare tactics

"You're a walking time bomb."

"I can't be responsible for what happens to you."

"Your blockage is in the artery called the 'widow-maker.'"




Familiar lines? These are the well-rehearsed warnings commonly used by cardiologists to persuade a patient to undergo a procedure (heart catheterization and all that follow).

Something happens when you hear these words about your health. Most people's resolve to explore alternatives, get another opinion, think it over, promptly crumbles when they hear these words. These particular warnings have been time-tested and are surprisingly effective.

Unlike many other conditions, heart disease does indeed result in catastrophic events without warning. Unlike, say, cancer, heart disease can wreak damage suddenly. That's all true.

What bothers me is the vigor with which the opportunity for hospital procedures is pursued.

The thinking is that hospitals procedures = saving a life. In the vast majority of people, this is nonsense. Procedures like heart catheterization, stents, bypass, do save lives if someone is in the throes of a catastrophe. The problem is that most people who undergo procedures are not in the midst of catastrophe and have every hope of avoiding it altogether with some simple efforts towards prevention.

Imagine this conversation: "Yes, Mr. Smith, you do have heart disease, Even though you have no symptoms and your stress test is normal, I believe that we should 1) identify the causes of your heart disease, then 2) correct them. Of course, if you don't want to engage in this prevention process, then there may be a point at which heart procedures may be necessary. But I believe that you have great hopes of avoiding them and avoiding heart attack."

Self-Directed Testing

In the last Heart Scan Blog post, I listed the poll results on success vs. failure in trying to obtain requested blood work through doctors. The results of that informal poll revealed that a substantial number of people encounter resistance to one degree or another in trying to obtain blood tests.

But the world of self-directed testing is growing. In addition to your ability to circumvent your doctor by getting your own blood work done, you can now:

--Obtain many imaging tests on your own--Heart scans can be obtained without your doctor's involvement, for instance. The ultrasound screening services, like that offered by Lifeline, mobile services that provide carotid, abdominal aorta, and osteoporosis screening services; full body scans, and others.
--Identify and treat some conditions--Internet information has gotten quite powerful to assist individuals in recognizing when a condition might be present. (However, this is also a landmine for trouble if not properly used.)
--Genetic testing--While just in its infancy, direct-to-consumer genetic testing is now offered by two outfits that I'm aware of.
--Unusual laboratory tests--e.g., heavy metals, omega-3 fatty acid content, cancer markers.

One drawback to the emerging world of self-directed testing: There is no insurance coverage. However, this will become less and less of an issue as time passes, since it is clear that most Americans will need to bear a greater portion of healthcare costs in future, since some conventional services may even be rationed for cost containment; higher copays and the emergence of medical savings accounts, providing the individual with more control over how healthcare dollars are spent; competition in self-directed healthcare services, which will reduce costs. Imagine, for instance, several more direct-to-consumer services to obtain blood tests appear. They will need to compete on price and service.

While my colleagues are terrified of the potential for abuse of such tests, my reaction is the opposite: I am enormously excited by the potential for individuals to seize more and more control over their health.

Of course, with greater freedom comes greater responsibility. But the long-term net result will be, in my view, a healthier, more satisfied healthcare consumer with reduced healthcare costs.

Self-testing

Here are the results of the latest Heart Scan Blog poll (84 respondents):


When you ask your doctor to perform a specific blood test, does he/she:


Do it without question?
38 (44%)


Do it but express reservations?
25 (29%)


Do it very grudgingly?
13 (15%)


Refuse outright?
9 (10%)



I was encouraged that 44% of respondents are/were able to obtain the blood work they requested without resistance. Sadly, however, the majority do either encounter reluctance or outright resistance.

Why would your doctor impose barriers to your ability to obtain laboratory tests? Well, several potential reasons:

1) He/she feels that they are charged with your health safety, and you might be led down a misleading, potentially dangerous path.

2) He/she feels that the tests are truly unnecessary and that you will be wasting the money of the "system."

3) He/she doesn't understand the tests, or is unfamiliar with them.

4) He/she feels that the doctor should be in complete control, not you. How dare you try to usurp the doctor-as-dictator of your health!


In reality, number 1 is understandable but rarely occurs. I have indeed have had requests, though rare, for outrageously inappropriate tests for the issue at hand, usually due to a misinterpretation of some information by the patient.

I'm not sure how often number 2 truly is. For instance, it is not uncommon for the doctor to have an ownership stake in the laboratory. There are several large primary care groups in Milwaukee who are notorious over-users of laboratory tests, with extraordinary batteries of dozens of tests every few months on the flimsiest reasons , clearly motivated by . . . money. On the other hand, there are physicians who do consciously try and order tests rationally and cost-effectively. I suspect that this is a minority.

I feel quite confident that number 3--your doctor's ignorance--is probably the most common reason he/she is reluctant or refuses to allow you access to a test. Most respondents I suspect are referring to many of the tests that I have been advocating, such as lipoprotein testing, lipoprotein(a), and vitamin D blood levels. I am uncertain how any of these could be construed to be dangerous. But ignorance of the value of these tests is rampant and resistance is nearly always based on not having explored these issues and having no appreciation for their importance. Of course, the beleaguered primary care physician is, no surprise, inundated by so much information across such a wide range that he/she has become expert at nothing, barely able to even deliver the full scope of genuine up-to-date primary services any longer. My colleagues, the cardiologists. . . well, you know my feelings about their attitudes: If it doesn't make money, then why should I bother? Devote months or years studying something that doesn't ring the cash register?

I see this dilemma as yet more evidence of the growing disenchantment with the doctor-as-gatekeeper model, the centuries old paternalistic "I will tell you what to do and you will do it." It worked when the doctor was educated and had access to knowledge you could never realistically obtain because you couldn't read, or you were too poor to afford books and education, or because medical information was made privy only to select people.

It's not that way anymore: The information you have access to is the same information my colleagues and I have access to: a level playing field. Along with the changing rules of the game, the game itself must eventually change.

I believe that people should have access to self-testing. Indeed, there is a growing industry of direct-to-consumer laboratory testing, such as that offered by Life Extension and LabSafe . For the most part, these offer tests without potential insurance reimbursement.

But the landscape is changing: We are just beginning a new age of self-empowerment, self-directed healthcare.

Whenever I say this, some people are angered that the majority of people will be too lazy, stupid, or poor to join the movement. What I am not saying is that we should agitate to make the system a patient-only directed process and completely remove the doctor. What I am saying is that the patient should and will play an increasingly important role in determining the content and direction of his/her care, especially as the patient becomes far more knowledgeable about issues relevant to his/her health.


The new tools of health measurement

If there were a new mantra of the new science of insight into health and long life, it would be “measure, measure, and measure.”

Never before in history have we had access to the analytical, laboratory, imaging, quantifying health tools that we have today. We can locate, scan, measure, all down as far as the level of basic codons of the genetic sequence.

The health-inquiring public has so far been permitted just a tip-of-the-tongue taste of these quantitative phenomena in such things as cholesterol values (“know your numbers!”) and blood pressure. Women now discuss their bone density scores over coffee, men their PSAs (prostate specific antigen).

But a curious irony has emerged: Like early 20th century males uncomfortable with women battling for suffrage, healthcare professionals, themselves comfortable with measurements and numbers, are distinctly uncomfortable when some of the same information falls into the hands of the healthcare consumer.

These phenomena play out in especially dramatic fashion in the world of heart health. The public now has broad access (many without a doctor’s order) to an extraordinary array of health measurement tools that can potentially yield enormous benefits for prevention of the most common conditions, information that can be applied by tracking over time.

Measures like heart scan scores, vitamin D blood levels, lipoprotein(a)--measures that most doctors have little or no interest in obtaining, yet they serve crucial roles in maintaining and tracking your health.

The new paradigm is emerging: the tools are getting better and better, they are becoming more accessible.

Increasing sales, growing the business

I continue my portrayal of the fictional hospital, St. Matthews. Though fictional, it is based on real facts, figures, and situations.

Despite their success, administrators at St. Matthews’s Hospital continually fret over how to further expand their enterprise.

Market share can be increased, of course, by competing effectively with other hospitals, but that can be a tough arena. After all, St. Matthews’ competitors deliver pretty much the same services, and draw areas for patients overlap. The last thing the hospital wants is the appearance that heart care is a “cookie cutter” process, the same everywhere. In fact, this trend has hospital administrators wringing their hands. Two competing hospital systems in town recently launched multi-million dollar ad campaigns employing some of the same aggressive tactics St. Matthews’ marketers used successfully in past.

If St. Matthews is going to grow, new markets will need to be explored. What other strategies can a hospital system use to continue climbing the growth curve?

St. Matthews’ hospital administrators have drawn a number of lessons from other businesses. How about squeezing more procedures out of the population you already take care of? That’s an age-old rule of business: your easiest sales come from repeat customers. A former stent patient is going to “need” annual nuclear stress testing ($4000), more stents (about $25,000–39,000 per hospitalization), CT angiogram ($1800–2400), bypass surgery ($84,000), and so on. “Check-up” catheterizations, though clearly of little or not benefit to patients, are silently encouraged, yet another example of the bonanza of repeat procedures possible.

The lesson that “once a heart patient, always a heart patient” has been honed to an art form in business practices at St. Matthews and other hospitals like it. If you enter the system through your primary care physician or cardiologist, there’s an excellent chance you’ll end up with several procedures, diagnostic and therapeutic, over the ensuing years. Accordingly, St. Matthews provides a very attentive after-discharge follow-up program, complete with access to friendly people, phone centers, “support groups,” and even an occasional festive get-together, all in an effort to ensure future return to the system.

All in all, the St. Matthews Hospital System is a hugely successful operation. It provides jobs for thousands of area residents and provides high-tech, high-quality healthcare. Like any business—and no doubt about it, St. Matthews is a business with all the trappings of a profit-seeking enterprise—it grows to serve its own interests. The tobacco industry didn’t grow to its gargantuan proportions by doing good, but by selling a product to an unsuspecting public. So, too, hospitals.

Curiously, hospitals like St. Matthews continue to operate under the sheltered guise of not-for-profit institution with the associated tax benefits, ostensibly serving the public good. This means that all end-of-year excess revenues are re-invested and not distributed to investors. But non-profit does not mean that individuals within the system can’t benefit, and benefit handsomely. Under St. Matthews’ non-profit umbrella, many businesses thrive: 35 pharmacies, extended care facilities to provide care after hospital discharge, drug and medical device distributors, even a venture capital arm to fund new operations. The financial advantage conferred by “non-profit” status has permitted the hospital to compete with other, for-profit businesses, at a considerable advantage. For this reason, attempts have been made over the years to strip them of what some believe is an unfair advantage; all have failed.

While profits may not fall to the bottom line, money does indeed get paid out to many people along the way. Executives, for instance, pay themselves generous salaries and consulting fees, often from several of the entities in this complex business empire. Physicians are brought in as “consultants” or are awarded “directorships” for hundreds of thousands of dollars per year—Director of Research, Director of Cardiovascular Services, etc. Don’t forget the $3.7 million dollar annual salary paid to the CEO.

Hospitals and doctors have a vested interest in preserving this financial house of cards. They will fiercely battle anyone or anything that threatens the stream of cash. During a recent meeting of important doctors at St. Matthews Hospital, one cardiologist bravely voiced his concern that bypass surgery was performed too freely on too many patients in the hospital. The doctor was promptly and quietly asked to remove himself from the meeting. Several days later, he received a letter announcing his dismissal from the committee.

The silent conspiracy conducted by hospitals and cardiologists serves their own purposes better than the good of the public. Under the guise of good works, hospitals continue to promote strategies which are, for the most part, outdated, inefficient, inaccurate, and expensive. But that’s the rub. Expensive to you and your insurance company means more money for the recipient: your hospital and cardiologist, and the powers that support them. All this occurs while the real solutions that are of benefit to the public continue to be overlooked, hidden in the shadows.

Top Doctor

Dr. Robert Connors is the hospital’s most prized cardiologist.

Practically a fixture in the cath lab, he generates more revenues for the hospital than any of his colleagues. Last year alone, he performed over 1500 procedures, bringing in $18 million dollars to the cath lab, $27 million to the hospital. Dr. Connors is very good at what he does: 55-years old, he has been involved in high-tech heart care since the “early days,” 25 years ago, when hospital procedures really took off.

During his career, he has personally performed over 25,000 heart procedures and has built a reputation as a skilled operator of complex coronary procedures. Because of his skills, he enjoys a vigorous flow of referrals for procedures from dozens of primary care physicians. His skill has also earned him referrals from cardiologist colleagues who seek his abilities for difficult cases.

On any day, Dr. Connors typically schedules up to 12 procedures. His entire day is spent in the cath lab, usually from 7 am until 6 pm. He meets many patients for the first time on the catheterization laboratory table as staff shave their groin, preparing for the procedure. Much of the procedure itself is not even performed by Dr. Connors, but by one or another cardiologists-in-training, a “fellow,” or member of the fellowship the hospital proudly maintains as a clinical teaching institution. Nor will Dr. Connors talk to most patients at the close of the procedure. He leaves that to either the fellow or a nurse. Dr. Connors views himself as a procedural specialist, not someone who has to take care of patients. He gave up seeing patients in his office over 10 years ago.

Dr. Connors’ procedural enthusiasm gained him the attention of drug and medical device manufacturers. Because Dr. Connors lectures widely and advises colleagues, his comments can dramatically alter perceptions of the value of a technology. He has, on many occasions, catapulted an unpopular device to most-asked-for among colleagues, bringing millions in revenues to the manufacturer. One particularly lucrative arrangement he made around 10 years ago involved a “closure” device, a $400 single-use plug used to close the access site made during heart catheterizations. By swaying his colleagues at St. Matthews Hospital, 50 orders per day (one per procedure) tallied $20,000 every day, $7.1 million dollars per year for the manufacturer. Although he’d used other devices on the market, the 5,000 shares of stock he was offered encouraged him to issue glowing comments to colleagues on the superiority of this specific brand of closure device. Now over 90% of all catheterizations at St. Matthews conclude with the device manufactured by the company in which Dr. Connors maintains partial ownership.

Negative comments, on the other hand, topple other products when Dr. Connors sees fit to pan them. For this reason, device and drug manufacturers run straight to Dr. Connors to gain his good graces as soon as possible after a product is released into the market. Because the competition is just as likely to do the same, it has often come down to a bidding war, the company providing the most lucrative arrangement most likely to win.

Thus, Dr. Connors proudly boasts of how many times he has flown to Hawaii, Europe, and other exotic locations at industry expense. He also boasts of how, for $100,000 paid to him for a “consulting fee,” he can overturn the choice of products lining hospital shelves. As the hospital’s annual budget for coronary devices will top $84,000,000 this year, device manufacturers regard the sum paid Connors as a profitable investment.

Despite his lofty status in the hospital, Dr. Connors has long expressed a love-hate relationship with St. Matthews. While he enjoys his work and has made a more than comfortable income, he has long felt that the hospital administration didn’t truly appreciate his contributions. Five years ago, he therefore demanded that he be made “Director of Research.” After all, he had hired a nurse to help him coordinate enrollment of patients into several device trials brought to him by medical device manufacturers. When he encountered an initial lukewarm response from hospital administrators, he threatened to take his “business” elsewhere to a competing hospital. St. Matthews’ administrators gave in. They provided him with the title he wanted, along with $100,000 annual “stipend.”

True story, though names have been changed to protect the guilty.

Is Dr. Connors just an “outlier” among colleagues who toe a more conservative line? Or does his brand of commercial enterprise in hospital heart care represent the ideal that they seek, brazenly and ambitiously seeking to expand the procedural solution to heart disease to the exclusion of patient care and real human interaction?

Disease Engineering

Imagine you contract pneumonia.

You have a fever of 103, you’re coughing up thick, yellow sputum, breathing is getting difficult. You hobble to the doctor, who then fails to prescribe you antibiotics. You get some kind of explanation about unnecessary exposure to antibiotics to avoid creating resistant organisms, yadda yadda. So you make do with some Tylenol®, cough syrup, and resign yourself to a few lousy days of suffering.

Five days into your illness, you’ve not shown up for work, you’re having trouble breathing, and you’re getting delirious. An emergency trip to the hospital follows, where a bronchoscopy is performed (an imaging scope threaded down your airway) and organisms recovered for diagnosis. You’re put on a ventilator through a tube in your throat to support your breathing and treated with intravenous antibiotics. Delayed treatment permits infection to escape into the fluid around your lungs, creating an “empyema,” an extension of the infection that requires insertion of a tube into your chest through an incision to drain the infection. You require feeding through a tube in your nose, since the ventilator prevents you from eating through your mouth. After 10 days, several healing incisions, and a hospital bill totaling $75,000, you’re discharged only to be face eights weeks of rehabilitation because of the extreme toll your illness extracted. Your doctor also advises you that, given the damage incurred to your lungs and airways, you will be prone to more lung infections in the future, and similar situations could recur whenever a cold or virus comes long.

A disease treatable by taking a two week, $20 course of oral antibiotics at home has been converted into a lengthy hospital stay that generated extravagant professional fees, testing, and costly supportive care. You’ve lost several weeks of income. You’re weak and demoralized, frightened that the next flu or virus could mean another trip to the hospital.

Such a scenario would be unimaginable with a common infection like pneumonia, or it would be grounds for filing a malpractice lawsuit. But, as horrific as it sounds in another sphere of healthcare, it is, in effect, analogous to how heart disease is managed in current medical practice.

First, you’re permitted to develop the condition. It may require years of ignoring the telltale signs, it may require your unwitting participation in unhealthy lifestyle choices. Palliative treatments that slow, but don't stop, the progression of disease are prescribed like cholesterol drugs. The process then eventuates in some catastrophe like heart attack or similar unstable heart situation, at which point you no longer have a choice but to submit to major heart procedures. That’s when you receive your heart catheterization, coronary stents, bypass, defibrillators, etc. and you're proudly declared a "success" of medical technology.

Of course, none of these procedural treatments cures the disease, no more than a Band Aid® heals the gash in your leg. The conditions that were present that created your heart disease continue, allowing a progressive disease to worsen. At some point, you will need to return to the hospital for yet more procedures when trouble recurs, which it inevitably does.

A coronary bypass operation costs, on average $85, 653 (AHA 2008 Update; based on 2004 data). That doesn't include the $25,433 cost for the heart catheterization performed by a cardiologist to provide the surgical roadmap of your coronary arteries. If there are any complications of your procedure, then your hospital bill may total a substantially higher figure.

$85, 653 is just the upfront financial pay-off. Over the long run, your life is actually worth far more to the cardiovascular healthcare system because no heart procedure yields a permanent fix. In fact, repeated reliance on the system is the rule.

In fact, over 90% of people who enter the American cardiovascular healthcare system do so through a revolving door of multiple procedures over several years. It is truly a rare person, for instance, who undergoes a coronary bypass operation, never to be seen again the wards of the hospital because he remains healthy and free of catastrophe. A much more familiar scenario is the man or woman who undergoes two or three heart catheterizations, receives 3,4, or 6 stents, followed a few years later by a heart bypass, pacemaker, defibrillator, as well as the tests performed for catastrophe management, such as nuclear stress test, echocardiogram, laboratory blood analysis, and consultation with several specialists. Re-do bypass surgeries--a 2nd, 3rd, or 4th bypass--now comprise 25% of all bypass procedures.

The total revenue opportunity is many-fold higher than the initial 80-some thousand dollars, but instead totals hundreds of thousands of dollars per person.

What motivation can there possibly be to 1) identify coronary disease early, when in its asymptomatic stage, then 2) identify its causes, then 3) correct the causes, and finally 4) shut off the disease? You and I can accomplish this with a few hundred dollars of cost, perhaps a few thousand over many years (to cover costs of fish oil, vitamin D, niacin, and whatever else it takes to stop the expression of the disease). Nobody therefore profits substantially from your prevention effort--except you.

Then what if nobody told you that heart disease could be managed this way? That's what I mean by "disease engineering."

Dr. Steven Gundry on The Livin' La Vida Low-Carb Show

I stumbled on a great interview with cardiothoracic surgeon, Dr. Steven Gundry, on Jimmy Moore's Livin' La Vida Low-Carb Show. (Or, cut and paste: http://www.thelivinlowcarbshow.com/dr-steven-gundry-part-1-episode-179/)

Dr. Gundry has some fun ways of looking at eating and health. I found his comments on the activation of genes (discussed at a very light, non-scientific level) useful. He argues that when humans consume sugar-containing foods, the signal received by the body is that winter is approaching and it's time to build up fat stores in anticipation of the food shortages of cold weather. He finds parallels for this phenomenon in other species. Of course, for humans, winter (in the form of extended calorie deprivation) never comes. In fact, you might argue that, given our excessive reliance on grains, corn, and sugars, that we are, in effect, always in anticipation of a winter that never comes.

I've not read Dr. Gundry's books, but I found this light interview a lot of fun.

Does fish oil ADD to statin therapy?

Yet another patient came to my office today saying, "My primary doctor said that I should stop taking fish oil. He say's that I don't need it because I take Crestor."

The woman was in tears, confused and frightened over a potential disagreement between her doctors.

Is this true? If someone takes a statin drug, like Crestor, Lipitor, Zocor (simvastatin), pravachol, or lovastatin, they don't need to take anything else because the statin drug is so powerful that it eliminates risk?

No. Not even close to the truth.

First of all, let's accept that virtually the entire body of statin drug literature--hundreds of studies, billions of dollars spent--was paid for by the drug industry. It's no news that studies paid for by the sponsor are likely to favor the sponsor. Imagine Ford sponsored a study of Ford vs. GM cars vs. Toyota, paying $10 million to fund the effort. Guess who is likely to come out on top? "Studies show that Ford makes the best car in America." (Sorry, I don't mean to pick specifically on Ford. It's just a widely-recognized brand.)

So that means that the statin literature likely overestimates the benefit of statin drugs. Even so, it's clear from the hundreds of studies performed that the best we can hope for by taking statin drugs is a reduction of heart attack and death from heart attack of 30-35%--best case. That doesn't sound like elimination of risk to me.

What are the incremental benefits of adding omega-3 fatty acids from fish oil added to statins? The best data originate with the JELIS Trial (Effects of eicosapentaenoic acid on major coronary events in hypercholesterolaemic patients (JELIS): a randomised open-label, blinded endpoint analysis), in which 19,000 Japanese participants (who already have a high omega-3 intake from diet, usually ranging from 1800-3000 mg per day) experienced a 19% reduction (relative reduction) in cardiovascular events.

GISSI Prevenzione demonstrated a 28% reduction in heart attack, 45% reduction in death from heart attack with fish oil.

Omega-3 fatty acids from fish oil also:

--Reduce triglycerides dramatically
--Accelerate after-eating clearance of digestive by-products, i.e., they correct post-prandial abnormalities
--Modify the character (fragmentation potential, structural strength) of plaque
--Raise HDL modestly

If you buy your fish oil from Sam's Club, Costco, or other discounter, a healthy dose of fish oil might cost you $3 per month. Compare that to the $120 per month average cost of a statin agent. Why is there even a discussion over this?

Sadly, the doctor on Main Street, U.S.A, is the unwitting puppet of the pharmaceutical industry. The pretty drug company representative with nice legs and a cute smile promises lunch, dinner and . . who knows what else? Wink. The fifty-something, hairline-receding doctor can't resist. "Of course I'll prescribe your drug!"

Don't kid yourself: The drug industry knows precisely how to manipulate the behaviors of the deliverers of their products.

So, do statin drugs make omega-3 fatty acids from fish oil irrelevant? Absolutely not.

It's all about trying to inch closer and closer--not to reduction--but to elimination of risk for heart disease.

HDL: “H” is for “happy”

What role do emotions play in HDL cholesterol?

I’ve often observed a peculiar phenomenon: People who come to the office or hospital in the midst of a difficult emotional situation─e.g., stress at home, financial struggles, hospitalization (usually an unhappy occasion)─ can show dramatic drops in HDL cholesterol. Not uncommonly, HDL drops 20 or more mg/dl.

Take Agnes’s case. Agnes had to go to the hospital for an elective procedure, one she’d been dreading for months. Previously, Agnes had been proud of the fact that she’d incrased HDL from 42 mg/dl range all the way up to 71 mg/dl. She accomplished this dramatic increase by eliminating wheat and cornstarch from her diet (which helped her lose 24 lbs), taking vitamin D and omega-3 fatty acids from fish oil, exercise, 2 oz of dark chocolate per day, and a glass of red wine with dinner.

Although I wouldn’t have bothered checking a cholesterol panel for such a procedure, the hospital had a checklist that included a cholesterol panel regardless of necessity. (Such checklists are common in hospitals, meant to ensure that certain basic issues are not overlooked.)

Agnes’ HDL: 29 mg/dl─a 42 mg drop.

Agnes will recover and her HDL will rebound, but the same effect can occur with other stressful situations, such as death in the family, financial worries, marital stress, etc., as well as physical illness.

Interestingly, the opposite may also hold true: Low HDL may increase risk for depression and stress. A study from Finland of 124 depressed persons, for instance, showed a 240% increased likelihood of depression in those with lower HDL cholesterols.

In other words, there seems to be a curious interdependence between HDL and emotions.

Why? Does it represent the indirect effect of adrenaline, cortisol, or other “stress hormones”? Do factors that relate to low HDL, such as unhealthy diet full of carbohydrates and physical inactivity, also tend to cultivate depression?

It certainly seems to be a chicken-egg situation, with one often leading to the other.

Moral of the story: Maintaining a sense of optimism and engaging in activities that bring you satisfaction and enjoyment can help raise HDL, as can strategies such as those followed by Agnes. Avoiding unnecessarily stressful situations can help. HDL is important, since higher levels are associated with much reduced risk for heart disease . . . and perhaps depression.

Plaquology

Plaquology: A new term.

Plaquology: def: (plaque-: atherosclerotic plaque; -ology: study of.) The study of atherosclerotic plaque, originating in the early 21st century during the time period when the material underlying atherosclerosis gained recognition as a measure superior to "risk factors" for cardiovascular disease. Previous to the plaque concept, blood measures of cholesterol and adverse lifestyle habits, such as smoking and sedentary lifestyle, alone had been used to predict potential for cardiovascular events. With acceptance of the concept of plaque measurement, the concept of risk factors was abandoned.


Look it up in the current Oxford Dictionary of the English Language, or Webster's Dictionary, and I'm afraid that you still won't find plaquology . . . but you should.

I'm currently rewriting many parts of the Track Your Plaque book. The rewriting process has caused me to review just how much we've learned these past few years. One of the phenomena that fascinates me is that we now have non-medical people--teachers, software people, engineers, bankers, bed and breakfast owners, retired businesspeople, etc.--all discussing the finer points of coronary atherosclerotic plaque--plaquology--what constitutes plaque, what triggers plaque inflammation, how to quantify potential for plaque rupture or plaque quiescence, what effect various treatments have on plaque composition and behavior, etc.

We now have a legion of Plaquologists!

I'm very proud of our Plaquologists. Having devoted themselves to the study of plaque, their level of knowledge now exceeds that of 99% of practicing physicians, including my colleagues, the cardiologists. While cardiologists spend their day squashing/cutting/vaporizing plaque, they are no more experts in plaquology than a carpenter is an expert in trees. More often than not, cardiologists view plaque as just something that gets in their way, rather than the quantifiable, modifiable, reversible material that we can exert control over.

One of the software tools currently in the works for the Track Your Plaque website is a certification process. Members will be able to gain a "certification" in various topics relevant to plaquology, such as plaque quantification, lipoprotein testing, and nutritional supplements.

How about a Doctor of Plaquology?

Thyroid perspective update

Since the publication of the extraordinary HUNT Study relating the entire spectrum of thyroid function and heart issues, I have been vigorously and systematically examining thyroid function in numerous patients.

While there's no news in relating flagrant low thyroid function with triggering heart disease in several forms, the cut-off between low thyroid and normal thyroid has been a matter of dispute for decades.

In the early 20th century, low thyroid function wasn't diagnosed until someone gained 40 lbs, displayed extravagant amounts of edema (water retention) in the legs and huge bags under the eyes, hair fell out in clumps, and often eventually proved fatal. At autopsy, these unfortunates also showed advanced and extensive quantities of coronary atherosclerotic plaque.

Low thyroid is usually diagnosed on the basis of the blood test, thyroid stimulating hormone, or TSH. TSH is a pituitary gland hormone responsible for stimulation of thyroid function. When thyroid function flags, the pituitary increases TSH release. Thus, a high TSH signals lower thyroid hormone levels.

The difficulty is in distinguishing normal thyroid function from low thyroid function judged by TSH levels. As the years have passed, in fact, the cut-off for "normal" TSH has drifted lower and lower.

The HUNT Study, I believe, clinches the argument: A TSH of 1.5 or lower, perhaps even 1.0 or lower, is desirable to eliminate the excess cardiovascular risk provided by an underactive thyroid, not to mention feel better: more energetic, clearer thinking, greater well-being.

Having now applied this renewed appreciation for thyroid, I have come to believe that:

--Low thyroid function, even subtle levels, are rampant and far more common than ever previously thought. In my office practice, the case could be made that several people per day are marginally or mildly hypothyroid (low in thyroid).
--Restoration of optimal thyroid levels facilitates correction of lipid measures, especially LDL cholesterol and, to a lesser degree, lipoprotein patterns dependent on the insulin axis such as triglycerides and small LDL. It's a lot happier way to correct lipids than statins.

I don't discount the value of feeling better. People who feel better--more energetic, more upbeat, clearer thinking--tend to do better in health overall. If thyroid restoration is a part of that equation, then greater attention should be paid to this facet of health on our way to optimal heart health.

Though I sometimes feel like an endocrinologist dispensing desiccated thyroid (rarely the synthetic T4), I believe that this has been a previously neglected and important part of our effort to achieve coronary plaque stabilization and reversal.

Accidental Health

"I shall never have smallpox for I have had cowpox; I shall never
have an ugly pockmarked face."

Such was the idle comment made by a milkmaid to Edward Jenner in 1768 when Jenner was 19, a remark that later prompted his investigations into using isolates of cowpox injected into humans as the first vaccination against the devastations of the European epidemic of smallpox.

(A caricature of Jenner administering cowpox vaccine to people, causing them to sprout bovine appendages. Image courtesy Wikipedia and the Library of Congress.)

When I look back, something similar has happened here.

Although the Track Your Plaque program is intended to stop and reverse coronary plaque using the only available means of tracking coronary plaque, i.e., heart scans, an unintended panel of benefits follow:

--People lose weight, often dramatically
--People gain greater energy
--Thinking is clearer, emotions more stable
--Sleep is deeper
--Bone density increases
--Physical strength and coordination improve
--Winter blues dissipate
--Blood sugar drops dramatically
--Blood pressure drops

Cholesterol (lipid) panels also settle to values that most physicians deem impossible or impractical, given our target of 60:60:60, i.e., LDL 60 mg/dl or less, HDL 60 mg/dl or higher, triglycerides 60 mg/dl or less. And medications are not always necessary to achieve these values. (When I show these values to my colleagues, they declare them flukes, unobtainable only in select people with high doses of medications.)

I didn’t set out to find the next weight loss solution, nor the key to boundless energy. My goal was "simpler": create a program of heart health. I am, after all, a cardiologist.

I was so intently focused on achieving incremental improvements over the steps leading to heart disease prevention that I failed to recognize the profound phenomena that accompanied it: people were quicker, smarter, thinner, and healthier.

In other words, I believe that we have inadvertently created a program of super health and performance.

Ironically, most people don't want to talk about heart disease, let alone reversal of heart disease. They do want to talk about getting thinner, feeling more energetic, living longer, better cholesterol values, etc.

Perhaps there's a lesson in this.

Livin' La Vida Low Carb interview

I recently provided an interview for Livin' La Vida Low Carb's irrepressible Jimmy Moore.

Jimmy runs a fun set of blogs, webcasts, and the like to broadcast this message of reducing carbohydrates in the diet. He credits his 210 lb weight loss to a strict low-carbohydrate and exercise program.

For the interview, just go to The Livin' the Vida Low Carb Show, Episode 185, or click here.

And click here for Part 2


For more of Jimmy Moore's spin on the entire low-carbohydrate diet experience, he maintains several popular blogs, including Carb Wire and The Livin' La Vida Low-Carb Blog.

Wheat withdrawal: How common?

In response to the recent Heart Scan Blog poll,

Have you experienced fatigue and mental fogginess with stopping wheat, i.e., "wheat withdrawal"?

the 104 respondents said:


Yes, I have experienced it: 26 (25%)

No, I stopped wheat and did not experience it: 65 (62%)

I'm not sure: 3 (2%)

I haven't tried it but plan to: 7 (6%)

I haven't tried it and don't plan to: 3 (2%)


So 25% of respondents reported experiencing the fatigue and mental fogginess of wheat withdrawal. This is similar to what I observe in my practice.

I counsel many patients to consider the elimination of wheat, as well as cornstarch products, in an effort to regain control over:

--Weight
--Appetite
--Low HDL
--High triglycerides
--Small LDL
--High blood sugar
--High blood pressure

All of these issues respond--often dramatically--to elimination of wheat and cornstarch.

Why would there be undesirable effects of eliminating wheat?

One clear issue is that elimination of wheat and other sugar-equivalents deprives your body of glucose. Your body then needs to resort to fatty acid metabolism to generate energy. Apparently, some people are inefficient at this conversion, having subsisted on carbohydrates for the last few decades of their lives. However, as fatty acid metabolism kicks in, energy generation improves. That is my (over-)simplified way of reasoning it through.

However, are there other explanations behind the mental fogginess, drop in energy, and overwhelming sleepiness? Some readers of this blog have suggested that, since opioid-like sequences (i.e., amino acide sequences that activate opiate receptors) are present in wheat, perhaps withdrawal from wheat represents a lesser form of opiate withdrawal. I find this a fascinating possibility, though I know of no literature devoted to establishing a cause-effect relationship.

Whatever the mechanism, I find it very peculiar that this food widely touted by the USDA, American Heart Association, and other agencies actually triggers a withdrawal syndrome in approximately 25% of people. Spinach does not trigger withdrawal. Nor does flaxseed, olive oil, almonds, and countless other healthy foods.

Then why would whole wheat grains be lumped with other healthy foods?

Treat the patient, not the test

"Treat the patient, not the test."

That is a common "pearl" of medical wisdom often passed on during medical training.

It refers to the fact that we should always view any laboratory or imaging test in the context of the live, human patient and not just treat any unexpected value that doesn't seem to make sense.

I raise this issue because it recently came up on a discussion on the Track Your Plaque Forum. A Member with a high heart scan score of around 1100 was advised by his doctor that it should be ignored, because he'd prefer to treat the patient, not the test. The patient is apparently slender, physically active, and entirely without symptoms, with favorable cholesterol values as well. The high heart scan score didn't seem to jive with the appearance of the patient, as viewed by this doctor.

This common phrase is meant to impart wisdom. It is a reminder that we treat real people, not just a jumble of laboratory values.

But the unspoken part of the equation is that judgment needs to be applied. A well looking person who shows an unexpected rise in white blood cell count could just have a screwy result, or could have leukemia. Liver tests (AST, ALT) that top 400 could represent a fluke, or dehydration incurred during a long workout, or hepatitis from a long ago blood transfusion.

Yes, treat the patient. But don't be an idiot and entirely dismiss the signficance of an unexpected laboratory or imaging test. A heart scan score of 1100 should be as readily dismissed as discovering a white blood cell count of 90,000 (normal is less than 12,000), or a 5 cm mass in the lung. The absence of symptoms or the failure of conventional risk factors to suggest causation is insufficient reason to dismiss the concrete findings of a test.

In this particular person, dismissing the significance of the heart scan finding by suggesting that the doctor should treat the patient, not the test, is tantamount to:

--Colossal ignorance
--Malpractice
--A certain sentencing of the hapless patient to future major heart procedures, heart attack or death (20-25% likelihood every year, or a virtual certainty over the next 5 years).

There is an ounce of wisdom in this old medical pearl. But there's also plenty of room for a knuckleheaded doctor to misconstrue and abuse its meaning for the sake of covering up his/her ignorance, laziness, or lack of caring.

Does high cholesterol cause heart disease?

How often does someone develop coronary heart disease from high cholesterol alone?

Believe drug industry propaganda and you'd think that everyone does. Physicians have bought into this concept also, driving the $27 billion annual sales in statin cholesterol drugs.

In my experience, I can count the number of people who develop coronary disease from high cholesterol alone on one hand. It happens--but rarely.

That's not to say that cholesterol is not an issue. That rant populates many of the kook websites and conversations on the internet that argue that high cholesterol is a surrogate for some other health issue, or that it is part of a medical conspiracy.

The problem with conventional measurement of cholesterol is that it ignores the particle size issue: whether particles are large or small. Small LDL are flagrant causes of coronary atherosclerotic plaque. Large LDL is a rather meager cause. Simple cholesterol measurement also ignores the presence of other factors that lead to heart disease, like lipoprotein(a) and vitamin D deficiency.

Conventional total and LDL cholesterol do not distinguish between large and small particles, nor reveal the presence of other hidden patterns. An LDL cholesterol of 150 mg/dl, for instance, may contain 100% large LDL--a relatively good situation that by itself is unlikely to cause heart disease, or it might contain 100% small LDL--a very bad situation that is likely to cause heart disease. Just knowing that LDL is 150 mg/dl tells you almost nothing. In 2008, most people have some mixture of the two, particularly with the proliferation of "healthy whole grains" in the American diet, foods that trigger formation of small LDL.

The imprecision and uncertainty of conventional total and LDL cholesterol has provided ammunition for some to discount the entire cholesterol concept. And they are right to a degree: cholesterol by itself is indeed a lousy predictor of heart disease. But small LDL is a very reliable predictor of potential for heart disease. Dismissing the entire concept because the standard measurement stinks is not right, either.

It is therefore an unfortunate oversimplification to say that high cholesterol causes heart disease or that it doesn't. It can--but not always, depending on size and other factors. In my view, it is therefore irreponsible to treat total or LDL cholesterol without knowledge of particle size. I've seen this play out many times: Someone with an LDL cholesterol of 150 mg/dl but all large still gets prescribed a statin drug by his/her doctor. Or someone with an LDL of 100 mg/dl--generally "favorable" by most standards--is not treated but it is all small and the person is truly at high risk. (Also, knowledge that all LDL particles are small does not mean that statins are the preferred agent. In my view, they are not.)