Wednesday, November 26, 2014

Sugar-Sweetened Soft Drinks Contribute Significantly to Weight Gain


Three New England Journal of Medicine studies on the consumption of sugar-sweetened beverages suggest that the drinks have an important role in the risk for obesity.
One study, in a large cohort of initially nonobese adults, looked at patterns of drink consumption and their relation to subjects' genetic predisposition to obesity. Researchers found that incident obesity increased with increasing drink consumption within the same level of genetic risk; similarly, obesity increased with increasing genetic risk within the same level of consumption.
Two other studies examined the effects of replacing sugar-sweetened drinks with sugar-free drinks, one in normal-weight children and the other in adolescents who were overweight or obese. Among normal-weight children, those randomized to one masked sugar-free drink/day for 18 months gained significantly less weight and body fat, compared with those randomized to a sugar-containing drink. Among overweight adolescents, a 1-year intervention aimed at reducing sugary drink consumption lowered gains in BMI at 1 year, but not at 2 years, relative to controls.

An editorialist says that the studies "provide a strong impetus to develop recommendations and policy decisions to limit consumption of sugar-sweetened beverages.

Thursday, November 20, 2014

Popular Diets Achieve Only Modest Long-Term Weight Loss

By Larry Husten
Four popular weight-loss diets produce at best only modest long-term benefits, with few differences across the four, according to a study inCirculation: Cardiovascular Quality and Outcomes.
Researchers examined 12 randomized, controlled studies of the Atkins, South Beach, Zone, or Weight Watchers diets. Ten studies compared one of the diets with usual care. In these, Weight Watchers was the only diet to consistently outperform usual care, but the difference in weight loss at 1 year was modest at best (range: 3.5-6.0 kg vs. 0.8-5.4 kg). In the two head-to-head trials, the Atkins and Zone diets resulted in a similar but modest weight loss. Longer-term data out to 2 years — available only for Weight Watchers and Atkins — indicated that some of the lost weight was regained over time.
An editorialist argues passionately that the focus on individual diets or specific macronutrients is misguided and unhelpful. He proposes a simple formula: "wholesome foods in sensible combinations."

Saturday, June 07, 2014

skeletal muscle metabolism

Monday, March 17, 2014

what is rabbit starvation?

"...This ceiling, Cordain thinks, could be imposed by the way we process protein for energy. The simplest, fastest way to make energy is to convert carbohydrates into glucose, our body’s primary fuel. But if the body is out of carbs, it can burn fat, or if necessary, break down protein. The name given to the convoluted business of making glucose from protein is gluconeogenesis. It takes place in the liver, uses a dizzying slew of enzymes, and creates nitrogen waste that has to be converted into urea and disposed of through the kidneys. On a truly traditional diet, says Draper, recalling his studies in the 1970s, Arctic people had plenty of protein but little carbohydrate, so they often relied on gluconeogenesis. Not only did they have bigger livers to handle the additional work but their urine volumes were also typically larger to get rid of the extra urea. Nonetheless, there appears to be a limit on how much protein the human liver can safely cope with: Too much overwhelms the liver’s waste-disposal system, leading to protein poisoning—nausea, diarrhea, wasting, and death" Discovery magazine-


The Inuit Paradox

How can people who gorge on fat and rarely see a vegetable be healthier than we are?

By Patricia GadsbyLeon Steele|Friday, October 01, 2004

how much vitamin C does one need before scurvy sets in?

"...In fact, all it takes to ward off scurvy is a daily dose of 10 milligrams, says Karen Fediuk, a consulting dietitian and former graduate student of Harriet Kuhnlein’s who did her master’s thesis on vitamin C. (That’s far less than the U.S. recommended daily allowance of 75 to 90 milligrams—75 for women, 90 for men.) Native foods easily supply those 10 milligrams of scurvy prevention, especially when organ meats—preferably raw—are on the menu. For a study published with Kuhnlein in 2002, Fediuk compared the vitamin C content of 100-gram (3.55-ounce) samples of foods eaten by Inuit women living in the Canadian Arctic: Raw caribou liver supplied almost 24 milligrams, seal brain close to 15 milligrams, and raw kelp more than 28 milligrams. Still higher levels were found in whale skin and muktuk." -Discovery 

The Inuit Paradox

How can people who gorge on fat and rarely see a vegetable be healthier than we are?

By Patricia GadsbyLeon Steele|Friday, October 01, 2004

Wednesday, October 12, 2011

does obesity matter?

I see fat people everywhere. They don't appear to be dying off but au contraire seem to be thriving. Here's 10 reasons to eat away. 1)AMERICANS FATTER THEN EVER BUT LIVING LONGER THEN EVER 2) Fatter cardiac patients are more likely to survive hospitalization and invasive treatments than thinner ones: J Am Coll Cardiol. 2006 Apr 4;47(7):1418-26. 2006 Mar 20. 3)Fat dialysis pt's more likely to survive than skinny pt's Hemodialysis International,K.Kalantar etal 4)You are 2 1/2 times LESS likely to die of acute heart failure IF YOUR FAT VS THIN AHJ Volume 153, Issue 1, Pages 74-81 (January 2007) 5)Overweight IS not associated with excess mortality K. Flegal JAMA Vol. 293 No. 15, April 20, 2005 6)Fat people get less osteoporosis. Nutrition. 2004 Sep;20(9):769-71. 7)Fat heart failure veterans have SUBSTANTIALLY lower mortality-AJM Volume 120, Issue 6, Pages 518-524 (June 2007)8) Overweight women over 65 have the lowest mortality -American Journal of Public Health, 10.2105/AJPH.2005.084178 9) -lower cognitive decline among overweight and obese people- NEURoLOGY September 19, 2007, doi:10.1212/01.wnl.0000285081.04409.bb)10)-decrease in morbidity and mortality with increasing body mass index (BMI)-The American Journal of Medicine - Volume 120, Issue 10 (October 2007)

Monday, August 01, 2011

Salt

NACL PROTECTS AGAINST PREMATURE DEATH NHANES 2
"Another what bites the dust? Another one of the shibboleths of “healthy living” that the nutritional establishment has been pounding us over our heads with for decades: the idea that salt is bad for us.

Now, in the wake of the three Woman’s Health Initiative studies showing that fat doesn’t seem to cause heart disease nor cancers or the breast or colon, comes a study from the venerable NHANES II data showing that not only does salt intake (or to be more precise, sodium intake) not cause premature death from heart disease it actually seems to protect against it. And consuming more sodium appears to protect against premature deaths from not just heart disease but from all other causes as well. It’s been a bad couple of weeks for the holier-than-thou crowd.

In the current issue of The American Journal of Medicine is a study filled with much interesting information that gives a peephole into the way the pinheads in the government issue edicts that affect the health of all those ignorant enough to abide by them. This study shows that the subjects who consumed the least sodium in the late 1970s had greater rates of death from cardiovascular disease and from all other causes than those who consumed more sodium. Before we delve into all that, however, let’s look at what the paper shows about how government works.

The US Department of Health and Human Services and the US Department of Agriculture 2005 nutritional guidelines (click here to read in full in a large pdf download) recommend that Americans consume less than 2300 mg of sodium per day (which is less than the 2400 mg recommended in the 2000 guidelines) in order to “prevent or delay the onset of high blood pressure..” and “to lower elevated blood pressure” Seems rationale enough until one considers that there is really no good evidence that sodium intake causes blood pressure to increase other than that shown in short-term clinical trials, a number of which are inconclusive or contradictory. It’s just like with the idea of low-fat: somewhere, sometime, someone got it into his or her head that dietary sodium is bad, the word spread, and researchers start doing studies to prove it. As long as a study here or there confirms this bias, then the idea is held in the minds of many people not simply as an hypothesis, but as a truth. In the case of the nutritional guidelines, the scientific committee making recommendations did so

largely based on the blood pressure reduction associated with lower sodium in short-term clinical trials. However, these trials could not assess the long-term cardiovascular morbidity and mortality consequences of lower sodium. Of concern is that lower sodium intake can generate increased activity of the renin-angiotensin and sympathetic nervous systems, and possibly increased insulin resistance, and each of these could have adverse cardiovascular effects. Morbidity and mortality outcomes will be influenced by unfavorable and favorable effects, as well as the unknown consequences of a diet altered to achieve lower sodium intake. In the absence of clinical trial data, several observational studies, with contradictory results, are available.

So, it’s not even really a case of unintended consequences. The scientific committee chose to overlook evidence clearly showing that there could easily be a downside to sodium restriction in favor of their built-in bias against salt. In fact, based on no good evidence they lowered the recommendation from that of the time before. Gives one a lot of faith in the nutritional guidelines, doesn’t it?

Basically here is how the study was done. Researchers used the data from NHANES II study (a large pdf of the NHANES II study can be downloaded by clicking here) to determine if sodium intake correlated with premature death. The NHANES II researchers interviewed and examined participants and collected data in 1976-1980. The nutrient intake data came from one 24 hour recall done by trained interviewers, which isn’t as good as a 3 or 4 day food diary, but is better that a food frequency questionnaire. The study was followed up by evaluating the mortality statistics as of December 31, 1992 to determine the numbers of deaths in the study subjects and their causes. As the researchers put it in reference to these study subjects without a hint of tongue in cheek:

Those not found to be deceased were assumed alive at that date.

Indeed. I wonder if there were another choice.

The researchers set the breakpoint of their data analysis at the 2300 mg of sodium recommended in the nutritional guidelines. After analyzing the nutritional and mortality data on this basis it turned out that those subjects who consumed less than 2300 mg of sodium per day had a 1.37 times increased risk (95% CI 1.03-1.81, P=.033) of dying from heart disease and a 1.28 times increased risk (95% CI 1.1-1.5, P=.003) of dying from all causes as compared to those who consumed more than 2300 mg of sodium per day.

As the authors of the study put it:

The principal finding in this representative sample of US adults is that sodium intake, measured as a continuous variable and adjusted for calories by each of three distinct methods, had a statistically significant and inverse association with CVD mortality, independent of known cardiovascular risk factors. Results were consistent for all-cause, CHD, and cerebrovascular-specific mortality, although these latter associations were not statistically significant. In addition, individuals reporting consumption of sodium consistent with the most recent US dietary guidelines of

Makes you glad you spent all that time watching your salt doesn’t it?

I have a little different take on the results of this study from a statistical standpoint. Harkening back to the long and complex post about confidence intervals a while back you might remember that the parenthetical expression after the risk ratio shows what the range is statistically with 95% confidence that it will actually fall in that range. In the case above for the cardiovascular mortality risk of 1.37 what those figures actually mean is that there is a 95% probability (not 100%) that the actual risk will fall into the range of 1.03 to 1.81. In other words we can say that with 95% confidence if you consume less than 2300 mg of sodium per day you have somewhere in the range of 1.03 to 1.81 times greater risk of dying prematurely from heart disease than if you consume more than 2300 mg of sodium per day.

Because of the 5% uncertainty (100% minus 95%) and the fact that it could just as easily be the 1.03 figure as the 1.81 figure for risk I don’t like to take these things as gospel unless the risk ratio is at least 2.0. But that’s just me. Others who are less statistically nit picky are more than happy to go with the lower risk ratios.

Based on my more statistically rigid interpretation of the data, I can conclude that at the very least it doesn’t make any difference how much sodium you consume. To me, that’s the take home message.

Oh, one other take home message: don’t believe scientific committees. In the discussion part of this paper the authors laid out a sampling of studies looking at sodium intake verses disease:

Eight previous observational studies examined clinical outcomes associated with sodium levels. Sodium intake was inversely and significantly associated with higher CVD mortality for the entire sample of NHANES I, with myocardial infarction among male participants in a prospective cohort study of treated hypertensives and with all-cause mortality in men in the Scottish Heart Study. By contrast, a statistically significant direct association of sodium with CVD and all-cause mortality was observed in a Finnish community sample, among the overweight subset of NHANES I, with CHD incidence among women in the Scottish study, and with stroke in a community sample in Japan. No statistically significant associations were reported either among Japanese-American men of the Honolulu Heart Study or in the MRFIT cohort.

All these studies were done and published long before the scientific committee made their recommendations for the nutritional guidelines and were inconsistent and inconclusive at best, so how could the recommendation to lower sodium even further be even contemplated much less done? Bias. Or its synonym prejudice.

Ambrose Bierce (one of my favorite writers) defined prejudice as:

A vagrant opinion without visible means of support.

Please pass the salt."
Michael Eades MD


Conventional Wisdom on Salt Questioned

A JAMA study calls into question the current dogma on limiting the population's salt intake and on salt's health effects. Initial reaction to the study, as reported in the New York Times, is skeptical.

Researchers followed a European cohort comprising roughly 3700 subjects without cardiovascular disease at baseline. All had 24-hour urine sodium excretion measured at enrollment.

After a median follow-up of almost 8 years, cardiovascular mortality was highest among participants in the lowest tertile of sodium excretion, and the inverse-association trend retained statistical significance after multivariable adjustment. Sodium excretion was not associated with all-cause mortality.

The incidence of hypertension did not rise with increasing tertiles of sodium excretion. Each 100-mmol increase in excretion was associated with a 1.7-mm Hg increase in systolic pressure, but diastolic pressure did not correlate with excretion.

The authors note that their findings "do not negate the blood pressure-lowering effects of a dietary salt reduction in hypertensive patients." Critics echo the authors' own list of their study's limitations, including the relative youthfulness of the cohort (averaging about age 40), and the inclusion of only white Europeans.


NHANES 2 -The American Journal of Medicine
Volume 119, Issue 3 , Pages 275.e7-275.e14, March 2006
Conclusion

The inverse association of sodium to CVD mortality seen here raises questions regarding the likelihood of a survival advantage accompanying a lower sodium diet. These findings highlight the need for further study of the relation of dietary sodium to mortality outcomes.

NOW
http://www.nytimes.com/2011/05/04/health/research/04salt.html
JAMA. 2011;305(17):1777-1785. doi: 10.1001/jama.2011.574


Conclusions In this population-based cohort, systolic blood pressure, but not diastolic pressure, changes over time aligned with change in sodium excretion, but this association did not translate into a higher risk of hypertension or CVD complications. Lower sodium excretion was associated with higher CVD mortality

Thursday, July 28, 2011

High Triglycerides in Obesity: Dual Metabolic Defects

July 27, 2011 — Results from a study of 38 men provide new insights into the mechanisms that trigger hypertriglyceridemia in obese men.

"Our results show for the first time that the serum concentration of triglycerides in obese subjects is increased by dual metabolic defects, namely the combination of increased secretion (linked to increased liver and subcutaneous abdominal fat) and severely impaired clearance of triglyceride-rich [very-low-density lipoprotein] VLDL1 particles (associated with increased plasma levels of apolipoprotein C-III)," write senior author Jan Borén, MD, PhD, from the Department of Molecular and Clinical Medicine, University of Gothenburg, and director of the Wallenberg Laboratory for Cardiovascular Research, in Gothenburg, Sweden, and colleagues.

"These results," published online July 21 and in print September 2011 in Arteriosclerosis, Thrombosis and Vascular Biology: Journal of the American Heart Association, "provide new insights into the pathophysiology of dyslipidemia in obesity."

Dr. Borén and his team used isotope kinetic studies to determine the rate of secretion and turnover of triglycerides and apoprotein B-100 in triglyceride-rich VLDL1 and smaller VLDL2 lipoproteins to find out why some, but not all, obese people develop dyslipidemia.

"Specifically, we tested whether hypertriglyceridemia in obese men with similar [body mass index] (BMI) and waist circumference is caused solely by increased hepatic secretion of VLDL induced by increased liver fat," they write.

The researchers studied 38 men: 14 obese men who were hypertriglyceridemic; 14 obese men who were normotriglyceridemic, but with comparable BMI and visceral fat volume; and 10 normotriglyceridemic men who were of normal weight.

They found that serum triglyceride levels in the obese men were elevated by dual mechanisms: increased secretion and severely impaired clearance of triglyceride-rich VLDL1. They also found that elevated levels of liver and subcutaneous abdominal fat were associated with increased secretion of VLDL1 particles, but increased plasma levels of apolipoprotein C-III were linked with impaired clearance in obese hypertriglyceridemic men.

"[I]t should be recognized that serum triglyceride levels are dependent not only on the secretion capacity but also on the removal capacity of triglyceride-rich lipoproteins," the authors write. "[A]n increased liver fat content represents a dietary- and lifestyle-modifiable 'metabolic' component of hypertriglyceridemia," the authors note, adding, "The results emphasize the clinical importance of assessing [hypertriglyceridemic] waist to identify obese subjects at high cardiometabolic risk."

The study was supported by grants from the Swedish Research Council, the Swedish Heart-Lung Foundation, the Swedish Foundation for Strategic Research, Sigrid Juselius Foundation, Clinical Research institute HUCH Ltd, Novo-Nordisk Foundation, and the European Union-funded projects HEPADIP and ETHERPATHS. The authors have disclosed no relevant financial relationships.

Arterioscler Thromb Vasc Biol. Published online July 21, 2011.