Tag Archives: Palaeolithic-type diet

The Mellberg Study: Paleo Diet and Obese Postmenopausal Women

Posted on February 21, 2014 | 4 comments
Sweden's Flag. Most of the researchers involved with this study are in Sweden

Sweden’s Flag

Swedish researchers compared a Paleolithic-type diet against a lower-fat, higher-carb diet so often recommend in Nordic countries and in the U.S. Test subjects were obese but otherwise healthy older women. The study lasted two years. Dieters could eat as much as they wanted.

They found that the paleo-style dieters lost more weight, lost more abdominal fat, and lowered their trigyceride levels. When measured six months into the study, the paleo dieters had lost 6.5 kg (14 lb) of body fat compared to 2.6 (6 lb) kg in the other group.

Measured at two years out, the paleo dieters had lost 4.6 kg (10 lb) of body fat compared to 2.9 kg (6 lb) in the other group, but this difference wasn’t statistically significant.

The greatest weight loss was clocked at 12 months: Paleo dieters were down 8.7 (19 lb) kg compared to 4.4 kg (10 lb)  in the other group.

But this study was about more than weight loss. The investigators were also interested in cardiometabolic risk factors and overall body composition.

The Set-Up

I don’t know what the researchers told the women to get them interested. Weight loss versus healthier diet versus ?  This could have influenced the type of women who signed up, and their degree of commitment.

A newspaper ad got the attention of 210 women in Sweden; 70 met the inclusion criteria, which included a body mass index 27 or higher and generally good health. Average age was 60. Average BMI was 33. Average weight was 87 kg (192 lb). Average waist circumference was 105 cm (41 inches). The women were randomized into one of two diet groups (N=35 in each): paleolithic-type diet (PD) or Nordic Nutrition Recommendations diet (NNR). There were no limits on total caloric consumption. (Were the women told to “work on weight loss”? I have no idea.)

We don’t know the ethnicity of these women.

Here’s their version of the paleo diet:

  • 30% of energy (calories) from protein
  • 40% of energy from fat
  • 30% of energy from carbohydrate
  • high intake of mono- and polyunsaturated fatty acids
  • based on lean meat, fish, eggs, vegetables, fruits, berries, and nuts
  • additional fat sources were avocado and oils (rapeseed [canola] and olive) used in dressings and food preparation
  • cereals (grains), dairy products, added salt and refined fats and sugar were excluded
  • no mention of legumes, potatoes, or tubers

The NNR diet:

  • 15% of energy from protein
  • 25-30% of energy from fat
  • 55-60% of energy from carbohydrate
  • emphasis on high-fiber products and low-fat dairy products

Over the 24 months of the study, each cohort had 12 group meetings with a dietitian for education and support, including “dietary effects on health, behavioral changes and group discussion.”

Various blood tests and body measurements were made at baseline and periodically. Body measurements were made every six months. Body composition was measured by dual energy x-ray absorptiometry. Diet intake was measured by self-reported periodic four-day food records.

Stockholm Palace

Stockholm Palace

Results

30% of participants (21) eventually dropped out by the end of the study and were lost to follow-up, leaving 27 in the PD group and 22 in the NNR cohort.

Food record analysis indicated the PD group indeed reduced their carb intake while increasing protein and fat over baseline. Baseline macronutrient energy percentages were about the same for both groups: 17% protein, 45% carb, 34% (I guess the percentages don’t add to 100 because of alcohol, which wads not mentioned at all in the article.) Two years out, the PD group’s energy sources were 22% protein, 34% carb, 40% fat. For the NNR group, the energy sources at two years were 17% protein, 43% carb, and 34% fat. As usual, dietary compliance was better at six months compared to 24 months. The PD group failed to reach target amounts of protein energy (30%) at six and 24 months; the NNR group didn’t reach their goal of carbohydrate energy (55-60%). The PD group ate more mono- and poly unsaturated fatty acids than the NNRs.

In contrast to the food record estimates of protein intake, the urine tests for protein indicated poor adherence to the recommended protein consumption in the PD group (30% of energy). Both groups ate the same amount of protein by this metric. (This is an issue mostly ignored by authors, who don’t say which method is usually more accurate.)

“Both groups had statistically significant weight loss during the whole study, with significantly greater weight loos in the PD group at all follow up time points except at 24 months.” Largest weight loss was measured at 12 month: 8.7 kg (19 lb) in the PD group versus 4.4 kg (10 lb) in the NNRs.

The PD group lost 6.5 kg (14 lb) of body fat by six months but the loss was only 4.6 kg (10 lb) measured at 24 months. Corresponding numbers for the NNR group were 2.6 and 2.9 kg (about 6 lb). So both groups decreased their total fat mass to a significant degree. The difference between the groups was significant (P<0.001) only at six months. The greatest weight loss was clocked at 12 months: PD dieters were down 8.7 kg (19 lb) compared to 4.4 kg (10 lb) in the NNRs. Both groups saw a significant decrease in waist circumference during the whole study, with a more pronounce decrease in the PD group at six months: 11 versus 6 cm (4.3 versus 2.4 inches).

Fasting blood sugars, fasting insulin levels, and tissue plasminogen activator activity didn’t change.

Both groups had improvements in blood pressure, heart rate, c-reactive protein, LDL cholesterol, PAI-1 activity, and total cholesterol. The PD group saw a greater drop in triglycerides (by 19% at two years, but levels were normal to start with at 108 mg/dl or 1.22 mmol/l).

Reported daily energy intake fell over time for both groups, without statistically significant differences between them.

paleo diet, Steve Parker MD, diabetic diet

Sweet potato chunks brushed with olive oil, salt, pepper, and rosemary. Ready for the oven.

Discussion

As measured at six months, the paleo dieters lost 10% of their initial body weight, compared to 5% in the NNR group. That’s worth something to many folks. However, the researchers didn’t find much, if any, difference in the groups in terms of cardiometabolic risk factors. They wonder if that reflects the baseline healthiness of these women. Would a sicker study population show more improvement on one of the diets?

I’m surprised the NNR group lost any weight at all. In my experience it’s hard for most folks to lose weight and keep it off while eating as much as they want, unless they’re eating very-low-carb. We’ve seen short-term weight loss with ad libitum paleo diets before (here for example, and here, and here). I bet the women signing up for this study were highly motivated to change. 

Legumes and potatoes are a debatable part of the paleo diet. Most versions exclude legumes. We don’t know if these women ate legumes and potatoes. Other than this oversight, the study paleo diet is reasonable.

The authors noted that the paleo diet group failed to reach their protein intake goal (30% of total calories), and suggested reasons “such as protein-rich foods being more expensive, social influences on women’s food choices or a lower food preference for protein-rich food among women.”

The results of this study may or may not apply to other population subgroups and non-Swedes.

The authors write:

In conclusion, a Palaeolithic-type diet during two years with ad libitum intake of macronutrients, including an increased intake of polyunsaturated fatty acids and monounsaturated fatty acids reduces fat mass and abdominal obesity with significantly better long-term effect on triglyceride levels vs an NNR diet. Adherence to the prescribed protein intake was poor in the PD group suggesting that other component of the PD diet are of greater importance.

Does this study have anything to do with diabetes? Not directly. But it suggests that if an overweight diabetic needs to lose excess body fat without strict calorie control, a lower-carb paleo-style diet may be more effective than a low-fat, higher-carb diet. I would have liked to have seen lower fasting blood sugar and insulin levels in the paleo dieters, but wishing doesn’t make it so.

Steve Parker, M.D.

PS: Carbsane Evelyn has taken a look at this study and blogged about it here and here. I’ve not read those yet, but will now.

Reference: Mellberg, C., et al (including M. Ryberg and T Olsson). Long-term effects of a Palaeolithic-type diet in obese postmenopausal women: a 2-year randomized trial. European Journal of Clinical Nutrition, advance online publication January 29, 2014. doi: 10.1038/ejcn.2013.290

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Posted in Low-Carb, Overweight, Paleo Diet, Paleo Theory, Weight Loss

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Ryberg et al: Effects of Paleolithic Diet on Obese Postmenopausal Women

Posted on June 17, 2013 | 4 comments
Sweden's Flag. Most of the researchers involved with this study are in Sweden

Sweden’s Flag

After menopause, body fat in women tends to accumulate more centrally than peripherally. This is reflected in a higher incidence of fatty liver disease, type 2 diabetes, and cardiovascular disease. A multinational group of researchers wondered if a modified paleo-style diet would have metabolic effects on healthy overweight and obese (BMI 28–35) postmenopausal women in Sweden, with particular attention to fat levels in liver and muscle. I’ll call this the Ryberg study because that’s the first named author.

Study Details

Curiously, they never give the age range of the 10 study participants. Were they closer to 52 or 82?

tuna, fishing, Steve Parker MD, paleo diet, tuna salad

Has anyone even bothered to ask why the tuna are eating mercury? —Jim Gaffigan

The five-week intervention diet seems to have been mostly prepared and provided by the investigators, but they allowed for home cooking by providing menus, recipes, and a food list. No limit on consumption. The goal was to obtain 30% of calories from protein, 40% from fat (mostly unsaturated), and 30% from carbohydrate “…together with 40 g nuts (walnuts and sweet almonds) on a daily basis….”

The diet included lean meat, fish, fruit, vegetables (including root vegetables), eggs and nuts. Dairy products, cereals, beans, refined fats and sugar, added salt, bakery products and soft drinks were excluded.

“They were also advised to use only rapeseed [i.e., canola] or olive oil in food preparation.”

A diet like this should reduce average saturated fat consumption, which was a stated goal, while substituting monounsaturated  and polyunsaturated fat for saturated.

These women were sedentary before and during the intervention.

Results

The ladies indeed made some major changes in their diet. Total calories consumed fell by 22% (2,400 to 1,900 cals). The average weight of participants dropped from 190 lb (86.4 kg) to 180 lb (81.8 kg).

Carbohydrates consumption as a percentage of total calories fell from 49% to 25%. Total carb  grams dropped from 281 to 118, with fiber grams unchanged. To replace some of the carbs, the women increased their protein and fat calorie percentages by about a third. The authors don’t make it clear whether the total carb grams included total fiber grams. (I could probably figure it out if I had the time and inclination, but don’t.) “Before” and “after” fiber grams were 25 and 27, respectively.

In other words, “…the ratio between energy intake from the macronutrients protein, total fat and carbohydrates expressed as E% [calorie percentages] changed significantly from 16:33:50 at baseline to 28:44:25 after five weeks.” Total daily fat grams didn’t change, but the contribution of saturated fat grams fell.

Elevated blood pressure is one component of metabolic syndrome

Elevated blood pressure is one component of metabolic syndrome

A 10-point drop in systolic blood pressure over the five weeks didn’t quite reach statistical significance (p=0.057), but the 9% drop in diastolic pressure did.

“Fasting serum levels of glucose, leptin, cholesterol, triglycerides, HDL, LDL, ApoB and apolipoprotein A1 (ApoA1) and percentage HDL also decreased significantly.”

Fat (or lipid) content of the liver dropped by half. It was measured by magnetic resonance spectroscopy. Peripheral muscle fat content didn’t change, measured in the soleus and  tibialis anterior muscles of the leg.

Urinary C-peptide excretion and HOMA indices [HOMA1-IR formula] decreased significantly, whereas whole-body insulin sensitivity, measured using the hyperinsulinaemic euglycaemic clamp technique, was not significantly changed.” See footnote labelled PPS at bottom page for confusing details.

My Comments

The intervention diet was a reasonable version of the Paleolithic diet, with one exception. From what I’ve seen from Eaton, Konner, and Cordain, I think they’d agree. Except for the rapeseed oil. It’s fallen out of favor, hasn’t it?

Here’s what the Jaminet’s wrote about canola:

Canola oil…is rapeseed oil bred and processed to remove erucic acid and glucosinolates. During processing, the oil is treated with the solvent hexane and very high temperatures; it may also be subject to caustic refinement, bleaching, and degumming. [Perfect Health Diet, p.225.]

I can’t quite see Grok doing that.

My fantasy about extra virgin olive oil is that it simply oozes out of the olives when pressure is applied. So easy a caveman could do it.

Eaton and Konner have argued that our ancestral diet would have had at least two or three times the fiber as was provided by this diet. But that would have been at a total daily calorie consumption level of at least 3,000 or 3,5oo back in the day. So this diet isn’t so far off.

10-lb Weight Loss Without Calorie Restriction? I'll Take That.

10-lb weight loss In five weeks without conscious calorie restriction? I’ll take that.

The 10 lb (4.6 kg) weight loss is impressive for an eat-all-you-want diet. Calorie intake dropped spontaneously by 500/day, assuming the numbers are accurate. The satiation from higher protein consumption may explain that. The authors admit that the women lost more weight than would be predicted by the energy balance equation (i.e., a pound of fat = 3,500 calories). They wonder about over-estimations of food intake, thermogenic effects of protein versus other macronutrients,  and loss of glycogen (and associated body water). You can’t argue with those scales, though.

While serum C-peptide didn’t fall, urinary levels did. (My sense from reviewing other literature is that 24-hr urine levels of C-peptide are more accurate indicators of insulin production, compared to a single fasting C-peptide level.) The authors interpret this as increased insulin sensitivity in the liver in combination with decreased insulin secretion by the pancreas. Fasting serum insulin levels fell from 8.35 to 6.75 mIU/l (p<0.05).

Regarding the non-significant change in overall insulin sensitivity as judged by hyperinsulinemic euglycemic clamp technique, remember that insulin sensitivity of the liver may be different from sensitivity in peripheral tissues such as muscle. These investigators think that liver insulin sensitivity was clearly improved with their diet.

Blood lipid changes were in the right direction in terms of cardiovascular disease risk, except for the drops in HDL (from 1.35 to 1.17 mmol/l) and ApoA1.

This study may or may not apply to men. Also note the small sample size. Will these results be reproducible in a larger population? In different ethnicities?

I like the reduction in blood pressure. That could help you avoid the risk, expense, and hassle of drug therapy.

From 97 to 90 mg/dl

Serum glucose fell from 96  to 90 mg/dl

I like the drop in fasting blood sugar from 96 to 90 mg/dl (5.35 to 5 mmol/l). It’s modest, but statistically significant. Was it caused by the weight loss, reduced total carb consumption, paucity of sugar and refined starches, lower total calories, higher consumption of protein and mono- and polyunsaturated fats, or a combination of factors? As with most nutritional studies, there’s a lot going on here. A small fasting blood sugar drop like this wouldn’t matter to most type 2 diabetics, but could diabetics see an even greater reduction than these non-diabetics? Only one way to tell: do the study.

I can well imagine this diet curing some cases of metabolic syndrome, prediabetes, mild type 2 diabetes, and fatty liver disease.

Most type 2 diabetics (and prediabetics, for that matter) are overweight or obese.  If a diet like this helps them lose weight, it could improve blood sugar levels. Nearly all authorities recommend that overweight and obese diabetics and prediabetics get their weight down to normal. (I admit that weight loss and improved blood sugar levels are not always in sync.) Weight loss by any standard method tends to improve insulin sensitivity.

Furthermore, the elevated fasting blood sugars that characterize so many cases of diabetes and prediabetes are usually linked to, if not caused by, insulin resistance in the liver. According to these investigators, the diet at hand improves insulin sensitivity in the liver, and even lowers fasting blood sugars in non-diabetic older women.

This modified Paleolithic-style diet doesn’t include table sugar or refined grain starches. That would help control blood sugar levels in both type 1 and type 2 diabetics and prediabetics. The authors didn’t say so, but this must be a relatively low-glcemic-index diet.

The investigators don’t mention ramifications of their diet for folks with diabetes. Their focus is on ectopic fat accumulation (in liver and muscle) and its linkage with insulin resistance and cardiovascular disease. They’ve put together a promising program to try on diabetics or prediabetics. They just need the will and funding to git’r done.

I agree with the authors that the lower calorie consumption, rather than the paleo diet per se, may have caused or contributed to the reduction in liver fat.

Stockholm Palace

Stockholm Palace

The investigators wonder if a Paleolithic-style diet like this would be beneficial over the long-term in patients with non-alcoholic fatty liver disease (NALFD) and associated metabolic disturbance (e.g., impaired sensitivity sensitivity in the liver). NAFLD tends to predict the development of diabetes and cardiovascular disease. If we can prevent or reverse fatty liver, we may prevent or reverse type 2 diabetes and cardiovascular disease, to an extent. You’ll be waiting many years for those clinical study results.

But you have to decide what to eat today.

A significant number of American women (20%?) need to lose weight, lower their blood pressures, lower their blood sugars, and decrease their liver fat. This Ryberg Paleolithic-style diet would probably do it.

A very-low-carb diet is another way to reduce liver fat, and it’s more effective than simple calorie restriction.

Steve Parker, M.D.

Reference: Ryberg, M., et al. A Palaeolithic-type diet causes strong tissue-specific effects on ectopic fat deposition in obese postmenopausal women. Journal of Internal Medicine, 2013, vol. 274(1), pp: 67-76.  doi: 10.1111/joim.12048

PS: See Carbsane Evelyn for her take on this study here and here.

PPS: Urinary C-peptide secretion reflects insulin production. HOMA is a gauge of insulin resistance, much cheaper and quicker than the purported “gold-standard” hyperinsulinemic euglycemic clamp technique. Why HOMA and the clamp technique in this study didn’t move together is unclear to me, and the authors didn’t explain it. School me in the comment section if you can. Click this HOMA link and you’ll find this statement: “HOMA and clamps yield steady-state measures of insulin secretion and insulin sensitivity in the basal and maximally stimulated states, respectively. HOMA measures basal function at the nadir of the dose-response curve, whereas clamps are an assessment of the stimulated extreme.” Maybe that means HOMA is applicable to the fasted state (no food for 8 hours), whereas the clamp technique is more applicable to the hour or two after you ate half a dozen donuts.

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Posted in Lipids, Paleo Diet

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