Showing posts with label diabetes. Show all posts
Showing posts with label diabetes. Show all posts

Monday, August 20, 2012

The Truth About The Genetics Of Obesity.


Evolutionary selection favored those who became fat easily. That's the essence of the "thrifty gene hypothesis". It's like Madonna. On the wrong side of 50, and ripe to be dethroned by something with greater sex appeal. In this case the contender's name is the "drifty gene hypothesis". Here is why you shouldn't be too dazzled about it. [tweet this].    

Exactly 50 years ago, Neel suggested that the high rate of diabetes in our society is the result of  evolutionary selection which favored those of our ancestors whose genes made them store fat more efficiently during periods of food abundance [1]. It's such a marvelously simple explanation that it doesn't take the brains of an Einstein to chatter about it at any dinner party where one wants to be remembered as quite the hobby geneticist. But to every party there is a party pooper. In this case two of them. John R. Speakman and Klaas R. Westerterp are telling us that the high prevalence rate of obesity and diabetes actually disproves the thrifty gene hypothesis [2].
Print Friendly and PDFPrintPrint Friendly and PDFPDF

Monday, May 14, 2012

Why your heart attack may just be collateral damage in big pharma's turf wars.

When a pharmaceutical company tells you that its drug is safer than it really is, it probably plays with your health. And possibly with your life. That's not a very nice thing to do. But it's also very profitable. Which is why it happens more often that you care to know. 
Print Friendly and PDFPrintPrint Friendly and PDFPDF

Monday, April 23, 2012

To hell with exercise



Who says that exercise is medicine? For one, the American College of Sports Medicine (ACSM) of which I'm a professional member. Then, how can I say it isn't?
Let's look first at the conventional view of the benefits of exercise. There is a large and increasing amount of evidence which clearly tells us that exercise prevents today's number 1 killer: cardiovascular disease. That is, heart attack, stroke and peripheral vascular disease. Mind you, what is common knowledge today emerged only some 50 years ago when Morris and colleagues discovered that UK bus conductors, the guys climbing up and down the double-decker London buses, had better fitness and fewer heart attacks than their all-day-seated driver colleagues [1].
In the years since then our knowledge about the effects of physical activity on cardiovascular, metabolic and mental health has virtually exploded. From this evidence the U.S. Dept. of Health and Human Services (HHS) concluded in 2008 that the most active people of the population have a 35% reduced risk of dying from cardiovascular disease compared to the least active people [2]. The WHO lists insufficient physical activity (PA) as the 4th leading cause of death world wide after high blood pressure, tobacco use and high blood glucose. What's wrong with this picture? High blood pressure and high blood glucose are known consequences of a sedentary lifestyle. So is obesity, which ranks 5th place on the WHO killer list. Which is why physical inactivity deserves top spot on that list.
What most people don't know is the way lack of physical activity causes all those diseases, from insulin resistance and diabetes to arterial dysfunction and atherosclerosis, and from there to heart attack, stroke, kidney failure. The mechanisms are extremely complex, and, while we have untangled quite some of them, there are probably a lot more to discover. I'll try to make this the subject of one of the next blog posts. 
Now you are probably asking yourself, how the hell, with all this evidence, will I ever be able to make my point that physical activity is not a medicine. Ok, here it comes: it's a matter of viewpoint. The one I'm taking is the one of evolutionary biology. Let me play its advocate and present as evidence a couple of insights.
First, our human ancestors, who had roamed this Earth as hunter/gatherers for the most part of human existence, had, by necessity, a much more physically active lifestyle. A lifestyle which required at least 1.7 to 2 times the normal resting energy expenditure [3]. [To get an idea about resting energy expenditure and physical activity levels and how they are calculated, simply follow the links to the videos.] Those ancestors' genes are what we have inherited. And these genes are exposed to a lifestyle which is vastly different from the ones under which these genes evolved. Specifically with a view to physical activity, which brings me to evidence no 2:
What we typically observe today are physical activity levels with factors of somewhere between 1.2 and 1.4 of our resting energy expenditure. That's true for most people.
Even if you were to follow the ACSM's recommendation of 30 minutes of moderate to vigorous exercise on at least 5 days per week, would you NOT reach the level of 1.7 if you are working in a typical office job or doing house work. Which means, the physical activity levels which we recommend today, do not add a behavioral type of medicine into our lives, they merely reduce the extent of a "poisonous" behavior called sedentism. It's like cutting down from 2 packs of cigarettes per day to 1 pack. Would you call this a "medicine"? Would the ACSM call that a medicine? With respect to exercise they do.
So, OK, if you had been attracted to this post in the hope of finding some excuse for not doing exercise, or some argument to get those exercise evangelists, like myself, off your back, I'm sorry to have disappointed you. No, actually, I'm not sorry. And neither will you be, if you get your physical activity level above those 1.7. Then you may just start calling exercise a medicine. Until then, chances are you will still go to hell with exercise, because you get too little of it. Certainly too little to stay out of that hell of heart disease, stroke, diabetes and many cancers.



F4F9V7QE32W3

MORRIS JN, & RAFFLE PA (1954). Coronary heart disease in transport workers; a progress report. British journal of industrial medicine, 11 (4), 260-4 PMID: 13208943
Eaton, S., & Eaton, S. (2003). An evolutionary perspective on human physical activity: implications for health Comparative Biochemistry and Physiology - Part A: Molecular & Integrative Physiology, 136 (1), 153-159 DOI: 10.1016/S1095-6433(03)00208-3 Print Friendly and PDFPrintPrint Friendly and PDFPDF

Thursday, April 5, 2012

The three hidden barriers to chronic health, weight loss and weight maintenance.

Into The Age of Chronic Health
The most amazing thing about modern health care systems is that they let most of us die from chronic diseases which we know how to prevent. So why don't we?
As a public health scientist I have devoted the past 15 years of my life to answering this question. Many of my colleagues outdo each other with doom and gloom predictions of aging societies buckling under the economic burden of aging related diseases. I believe that the age of chronic health and longevity is about to begin. With you. And with a radically new approach to make the prevention of heart attacks, strokes diabetes and cancers finally work.     
Because, until now, it doesn't. But don't just take my word for it, let's look at some of the facts first:
You have probably heard that obesity is the new smoking. In fact for every American who stopped smoking in 2011 another one became obese.   
Today, for the first time in human history there are more overfed than malnourished people walking this planet. And their lifestyles of too much food and too little exercise have become the number one risk factor for the number one chronic disease and killer: cardiovascular disease with its most well-known end points - heart attack, stroke and heart failure. With nasty other diseases on the side: diabetes, kidney failure and certain cancers.
You probably also heard about major studies, like the U.S. government funded Diabetes Prevention Program, and the Look AHEAD trial, which proudly, and correctly, report weight loss and major reductions in cardiovascular risk factors among participants in the lifestyle arms of these trials. What you don't hear so often, is that within 3-4 years after enrollment, most participants will have regained not only most of their weight but also all their risk factors.
Ok then, lifestyle change prevents disease. But what prevents lifestyle change?
Why is it that over the last 30 years of public health efforts we have not seen a demonstration of any program that results in a clinically meaningful weight loss that can be maintained for more than 2-3 years in the majority of participants and at low cost?  That's the question which Dr. Richard Khan threw at an assembly of public health advocates, who had gathered earlier this year under the event's message "Prevention works!".  Dr. Khan, who teaches medicine at the University of North Carolina, was the chief scientific officer of the American Diabetes Association for 25 years. The man certainly knows what he is talking about. 
Now think about the implication. If you chose a lifestyle of which you know might increase risk of disease and premature death, then you make that choice either willingly or it is not your free will which makes that choice.
My money is on the latter. Because how else could we explain that an obese child maintains her fattening habits despite experiencing the same psychological agony as a child with cancer? How else could we explain that obese adults maintain their bulk when it significantly reduces their chances of getting an academic education, a job and a mate? How else could we explain that over the past 20 years the obesity rate in the US went up by 60% when, during the same period, Americans doubled their spending on weight loss products to US$ 60 billion annually? They WANT to lose weight, but they don't. The explanations are called addiction, hormones and hyperbole.  
Food addiction
The neurohormonal architecture which drives an addict to crave and consume his drug, despite knowing and hating the consequences, is exactly the same architecture that keeps us going for the sweet, fatty and salty stuff in restaurants, hawker centers and vending machines. Does that explain, why the food industry adds sugars to so many foods in which you least expect it? You bet. In fact we shouldn't be afraid of calling ourselves food addicts, because this is what Mother Nature intended us to be all along. With this addiction she drove our ancestors for millions of years to what is naturally sweet in the natural human habitat: fruits. They deliver not only the carbohydrates for which we have very little storage capacity in our bodies and without which our brain can't function. Fruits also pack a punch of essential micronutrients. Unlike the cokes and cakes and cookies which deliver more sugar than we need and no other nutrients with it.  
Hormones
Once you have changed your figure into the shape of a beached whale, you will also have changed the way the hormones of your gut and of your fat tissue work. It's a rather complicated picture unfolding in the labs of biomedicine, but one emerging theme is a colossal malfunction of the satiety and appetite signaling pathways. Instead of feeling full, you are now ready to add a tiramisu to a lunch that would have satiated a family of four in rural Bangladesh.
Hyperbole
Actually it's called hyperbolic discounting, and it's a simple mathematical formula, which behavioral scientists have found to neatly describe why we will still grab that tiramisu tomorrow even though we swear today that we won't. It has to do with how we more steeply discount the relatively larger but more distant reward of staying healthy against the relatively smaller but immediate reward of enjoying the tiramisu. It doesn't operate only in humans. The behaviors of rats, pigeons and apes, for example, follow the same formula. Which means, Mother Nature must have found out early during evolution that this principle is a recipe for survival in her species. We simply inherited this survival tool.   
With all these issues stacked in favor of an ever expanding population of chronically ill people, why do I believe that we might be close to the age of chronic health and longevity? For three reasons: Because Wall Street is getting into the act, because we can outfox our brain, and because biomedical science has got the tools ready.
How we will enter the age of chronic health is the subject of the next episode, so stay tuned!
In the meantime, visit my crowd funding campaign, watch the videos, recommend the campaign to your friends and, if you like what you see, participate in our chronic health project: www.indiegogo.com/adiphea

Print Friendly and PDFPrintPrint Friendly and PDFPDF

Wednesday, March 28, 2012

The daily super stimulus to prevent diabetes, or maybe not?

The daily super stimulus to prevent diabetes, or maybe not?
Today a newly released case report in the British Medical Journal caught my attention: "Towards creating a superstimulus to normalise glucose metabolism in the prediabetic: a case-study in the feast-famine and activity-rest cycle". Normalizing glucose metabolism in the prediabetic person means nothing less than preventing diabetes in those at high risk. Naturally I sought enlightenment. 
Print Friendly and PDFPrintPrint Friendly and PDFPDF