Quote of the Day

Posted on November 2, 2011 | 2 comments

The deviation of man from the state in which he was originally placed by nature seems to have proved to him a prolific source of diseases.

Edward Jenner (1749-1823), of smallpox vaccination fame

Masai men in Tanzania. Modern hunter-gatherers?

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Metabolic Improvements From a Paleolithic Diet in San Francisco

Posted on October 28, 2011 | 3 comments

A Paleolithic diet improved metabolic status with respect to cardiovascular and carbohydrate physiology, according to a 2009 study at the University of California San Francisco.

Here are the specific changes, all statistically significant unless otherwise noted:

  • total cholesterol decreased by 16%
  • LDL cholesterol (“bad cholesterol”) decreased by 22% (no change in HDL)
  • triglycerides decreased by 35%
  • strong trend toward reduced fasting insulin (P=0.07)
  • average diastolic blood pressure down by 3 mmHg (no change in systolic pressure)
  • improved insulin sensitivity and reduced insulin resistance; i.e., improved glucose tolerance

Methodology

This was a small, preliminary study: only 11 participants (six male, three female, all healthy (non-diabetic), average age 38, average BMI 28, sedentary, mixed Black/Caucasian/Asian).

Baseline diet characteristics were determined by dietitians, then all participants were placed on a paleo diet, starting with a 7-day ramp-up (increasing fiber and potassium gradually), then a 10-day paleo diet.

The paleo diet: meat, fish, poultry, eggs, fruits, vegetables, tree nuts, canola oil, mayonnaise, and honey.  No dairy legumes, cereals, grains, potatoes.  Alcohol not mentioned ever.  Caloric intake was adjusted to avoid weight change during the study, and participants were told to remain sedentary.  They ate one meal daily at the research center and were sent home with the other meals and snacks pre-packed.

Compared with baseline diets, the paleo diet reduced salt consumption by half while doubling potassium and magnesium intake.  Baseline diet macronutrient calories were 17% from protein, 44% carbohydrate, 38% fat.  Paleo diet macronutrients were 30% protein, 38% carb, 32% fat.  Fiber content wasn’t reported. 

I’m guessing there were no adverse effects.

Comments

This study sounds like fun, easy, basic science: “Hey, let’s do this and see what happens!”

I don’t know a lot about canola oil, but it’s considered one of the healthy oils by folks like Walter Willett.  It sounds more appealing than rapeseed, from whence it comes.

I agree with the investigators that this tiny preliminary study is promising; the paleo diet (aka Stone Age or caveman diet) has potential benefits for prevention and treatment for metabolic syndrome, diabetes, and cardiovascular disease such as heart attack and stroke.

The researchers mentioned their plans to study the paleo diet in patients with type 2 diabetes.  Any results yet?

Are you working with a physician on a medical issue that may improve or resolve with the paleo diet?  Most doctors don’t know much about the paleo diet yet.  You may convince yours to be open-minded by trying the diet yourself—not always a safe way to go—and showing her your improved clinical results.  Or show her studies such as this.

Steve Parker, M.D.

Disclaimer:  All matters regarding your health require supervision by a personal physician or other appropriate health professional familiar with your current health status.  Always consult your personal physician before making any dietary or exercise changes.

Reference:  Frassetto, L.A., et al.  Metabolic and physiologic improvements from consuming a paleolithic, hunter-gatherer type dietEuropean Journal of Clinical Nutrition, advance online publication, February 11, 2009.   doi: 10.1038/ejcn.2009.4

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Posted in Glucose, Heart Disease, Insulin, Lipids, Paleo Diet

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Free Online Paleoanthropology “Textbook”: John Hawks Blog

Posted on October 25, 2011 | 4 comments

I’ve never seriously studied anthropology, paleontology, or paleoanthropology.  When I read someone who seems or claims to be an expert on paleoanthropology or certain aspects of evolution, it requires a degree of trust on my part. 

(I have a stronger background in evolution, thanks to a B.S. degree in Zoology.  I was thoroughly indoctrinated in the mid-1970s.)

It was a slow day at work, so I just spent a couple hours perusing the blog of an actual paleoanthropologist named John Hawks.  It’s a massive database that may be the equivalent of a paleoanthropology textbook.  Naturally, it will reflect the biases of the author, if any (and we all have some, don’t we?) . 

Some interesting things you’ll find there:

Regarding the pace of human evolution in the Neolithic period, Artemis P. Simopoulos (with The Center for Genetics, Nutrition and Health in 2009) has a different view:

The spontaneous mutation rate for nuclear DNA is estimated at 0.5% per million years.  Therefore, over the past 10,000 years there has been time for very little change in our genes, perhaps 0.005%.  In fact, our genes today are very similar to the genes of our ancestors during the Paleolithic period 40,000 years ago, at which time our genetic profile was established.

I dunno; you decide.

Steve Parker, M.D.

Reference:  Simopoulos, Artemis P.  Evolutionary aspects of the dietary omega-6:omega-3 fatty acid ratio: medical implications.  World Review of Nutrition and Dietetics, 100 (2009): 1-21. Epub August 17, 2009.

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Posted in Genetics, Paleo Theory

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LADA Awareness Week

Posted on October 23, 2011 | Comments Off on LADA Awareness Week

 

“Who can tell us about LADA?”

This is the first ever LADA Awareness Week, organized by Diabetes Hands Foundation and dLife.  LADA stands for Latent Autoimmune Diabetes in Adults.  I think of it as type 1 diabetes that starts in adulthood, although there are some differences from typical juvenile-onset type 1 diabetes.

Seven-and-a-half to 10% of apparent type 2 adult diabetics have LADA.  It’s caused by the body attacking its own pancreas beta cells and thereby impairing insulin production; in other words, it’s an autoimmune thing.

Here are some generalities (with exceptions, of course) about LADA, compared to typical type 2 diabetes:

  • lower body mass index, often under 25
  • age at onset under 50
  • poorer response to dietary management
  • poorer response to oral diabetic medications
  • acute symptoms at time of diagnosis (e.g., weight loss, thirst, frequent urination, ketoacidosis, malaise, etc.)
  • higher risk of developing diabetic ketoacidosis
  • much more likely to need insulin

How Is LADA Diagnosed?

First of all, the doctor has to consider the possibility, based on the clinical factors above.  The autoimmune nature of the disease is reflected in islet-cell antiobodies (ICA) and antibodies to glutamic acid decarboxylase (anti-GAD).  These are testable in the blood.  One of the two may be enough.  If the disease is far enough along, blood levels of C-peptide will be low.  C-peptide reflects the body’s production of insulin.

For more information on LADA, talk to your doctor or see this page at dLife.

Steve Parker, M.D.

 

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Natural Selection and the Origin of Cheeses

Posted on October 20, 2011 | 1 comment

Vitruvius at The Sagacious Iconoclast explains why cheese is an unlikely Paleolithic (Old Stone Age) food:

I was recently involved in a discussion in which some folks were attempting to distinguish between what they were calling “processed” cheese and other (presumably non-processed) cheese, without defining what they mean by “processed” cheese. As I think that’s a less than optimal approach, I’d like to take a moment to sketch out why that is so; perhaps increasing, in the process, your enjoyment of cheese forever.

Neolithic Cheese

Vitruvius suggests one way prehistoric man could make cheese: “transport milk in mammal stomach vessels containing natural rennet, in the heat, thousands of years ago, and voila: curds and whey.”

It’s a moderately lengthy article, but well worth it for the amusement and erudition.  You’ll learn how cheese is made, starting with the photons.

Steve Parker, M.D.

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Consider the Five Failings of Paleo

Posted on October 18, 2011 | 3 comments

Darrin Carlson over at Lean, Mean, Virile Machine has a thought-provoking piece entitled The Five Failings of Paleo.  It’s about the history of the modern paleo diet movement.  Despite the title, it’s pro-paleo, even if it’s not your version of paleo.

Steve Parker, M.D.

PS: When I write “paleo,” you can subsitute Paleolithic, caveman, Stone Age, or Old Stone Age.

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Posted in Paleo Movement

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Why Do Young Children Protest at Bedtime?

Posted on October 16, 2011 | 2 comments

Parents in hunter-gatherer societies know why kids don’t like to retire alone to a dark room at night, writes Peter Gray, a psychologist:

Until a mere 10,000 years ago we were all hunter-gatherers.  We all lived in a world where any young child, alone, in the dark, would have been a tasty snack for nighttime predators.  The monsters under the bed or in the closet were real ones, prowling in the jungle or savannah, sniffing around, not far from the band’s encampment. A grass hut was not protection, but the close proximity of an adult, preferably many adults, was protection.  In the history of our species, infants and young children who grew frightened and cried out to elicit adult attention when left alone at night were more likely to survive to pass on their genes to future generations than were children who placidly accepted their fate. In a hunter-gatherer culture only a crazy person or an extremely negligent person would leave a small child alone at night, and at the slightest protest from the child, some adult would come to the rescue.

Safer than sleeping alone on the ground

I gotta confess I’d never thought about it this way before.  Makes sense. Read the rest of Dr. Gray’s post.

Steve Parker, M.D.

h/t to Amy Alkon

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Paleo Diet Is More Satiating Than Mediterranean-Style in Small Study

Posted on October 14, 2011 | 4 comments

Swedish researchers reported in 2010 that a Paleolithic diet was more satiating than a Mediterranean-style diet, when compared on a calorie-for-calorie basis in heart patients.  Both groups of study subjects reported equal degrees of satiety, but the paleo dieters ended up eating 24% fewer calories over the 12-week study.

The main differences in the diets were that the paleo dieters had much lower consumption of cereals (grains) and dairy products, and more fruit and nuts.  The paleos derived 40% of total calories from carbohydrate compared to 52% among the Mediterraneans.

Even though it wasn’t a weight-loss study, both groups lost weight.  The paleo dieters lost a bit more than the Mediterraneans: 5 kg vs 3.8 kg (11 lb vs 8.4 lb).  That’s fantastic weight loss for people not even trying.  Average starting weight of these 29 ischemic heart patients was 93 kg (205 lb).  Each intervention group had only 13 or 14 patients (I’ll let you figure out what happened to to the other two patients).

I blogged about this study population before.  Participants supposedly had diabetes or prediabetes, although certainly very mild cases (average hemoglobin A1c of 4.7% and none were taking diabetic drugs)

As I slogged through the research report, I had to keep reminding myself that this is a very small, pilot study.  So I’ll not bore you with all the details.

Bottom Line

This study suggests that the paleo diet may be particularly helpful for weight loss in heart patients.  No one knows how results would compare a year or two after starting the diet.  The typical weight-loss pattern is to start gaining the weight back at six months, with return to baseline at one or two years out.

Greek investigators found a link between the Mediterranean diet and better clinical outcomes in known ischemic heart disease patients.  On the other hand, researchers at the Heart Institute of Spokane found the Mediterranean diet equivalent to a low-fat diet in heart patients, again in terms of clinical outcomes.  U.S. investigators in 2007 found a positive link between the Mediterranean diet and lower rates of death from cardiovascular disease and cancer

We don’t yet have these kinds of studies looking at the potential benefits of the paleo diet.  I’m talking about hard clinical endpoints such as heart attacks, heart failure, cardiac deaths, and overall deaths.  The paleo diet definitely shows some promise.

I also note the Swedish investigators didn’t point out that weight loss in overweight heart patients may be detrimental.  This is the “obesity paradox,” called “reverse epidemiology” at Wikipedia.  That’s a whole ‘nother can o’ worms.

Keep your eye on the paleo diet.

Steve Parker, M.D.

Reference: Jonsson, Tommy, et al.  A paleolithic diet is more satiating per calorie than a mediterranean-like diet in individuals with ischemic heart diseaseNutrition and Metabolism, 2010, 7:85.

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All The Big Trends Start in California, Don’t They?

Posted on October 11, 2011 | 1 comment

CBS in San Francisco recently featured the paleo diet (aka caveman diet or Stone Age diet). Click to view the 4-minute video.

Update October 18, 2011:

The link above is to part 1 of a five-part series.  Here are the other installments:

  • Part 2 Surprising Results
  • Part 3 Blood Pressure and Cholesterol Benefits
  • Part 4 Home Implementation of the Paleo diet
  • Part 5 Beyond Diet

Steve Parker, M.D.

-h/t to thatpaleoguy, Jamie Scott, for pointing me to part 1.

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Posted in Paleo Movement

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Paleo Diet for Heart Patients With Diabetes and Prediabetes

Posted on October 9, 2011 | 10 comments

A Paleolithic diet lowered blood sugar levels better than a control diet in coronary heart disease patients with elevated blood sugars, according to Swedish researchers reporting in 2007.

About half of patients with coronary heart disease have abnormal glucose (blood sugar) metabolism.  Lindeberg and associates wondered if a Paleolithic diet (aka “Old Stone Age,” “caveman,” or ancestral human diet) would lead to improved blood sugar levels in heart patients, compared to healthy, Mediterranean-style, Western diet.

Methodology

Investigators at the University of Lund enrolled 38 male heart patients—average age 61—patients and randomized them to either a paleo diet or a “consensus” (Mediterranean-like) diet to be followed for 12 weeks.  Average weight was 94 kg.  Nine participants dropped out before completing the study, so results are based on 29 participants.  All subjects had either prediabetes or type 2 diabetes (the majority) but none were taking medications to lower blood sugar.  Baseline hemoglobin A1c’s were around 4.8%.  Average fasting blood sugar was 125 mg/dl (6.9 mmol/l); average sugar two hours after 75 g of oral glucose was 160 mg/dl (8.9 mmol/l).

The paleo diet was based on lean meat, fish, fruits, leafy and cruciferous vegetables, root vegetables (potatoes limited to two or fewer medium-sized per day), eggs, and nuts (no grains, rice, dairy products, salt, or refined fats and sugar). 

The Mediterranean-like diet focused on low-fat dairy, whole grains, vegetables, fruits, potatoes, fatty fish, oils and margarines rich in monounsaturated fatty acids and alpha-linolenic acid. 

Both groups were allowed up to one glass of wine daily.

No effort was made to restrict total caloric intake with a goal of weight loss.

Results

Absolute carbohydrate consumption was 43% lower in the paleo group (134 g versus 231 g), and 23% lower in terms of total calorie consumption (40% versus 52%).  Glycemic load was 47% lower in the paleo group (65 versus 122), mostly reflecting lack of cereal grains.

The paleo group ate significantly more nuts, fruit, and vegetables.  The Mediterranean group ate significantly more cereal grains, oil, margarine, and dairy products.

Glucose control improved by 26% in the paleo group compared to 7% in the consensus group.  The improvement was statisically significant only in the paleo group.  The researchers believe the improvement was independent of energy consumption, glycemic load, and dietary carb/protein/fat percentages.

High fruit consumption inthe paleo group (493 g versus 252 g daily) didn’t seem to impair glucose tolerance. 

Hemoglobin A1c’s did not change or differ significantly between the groups.

Neither group showed a change in insulin sensitivity (HOMA-IR method).

Comments

The authors’ bottom line:

In conclusion, we found marked improvement of glucose tolerance in ischemic heart disease patients with increased blood glucose or diabetes after advice to follow a Palaeolithic [sic] diet compared with a healthy Western diet.  The larger improvement of glucose tolerance in the Palaeolithic group was independent of energy intake and macronutrient composition, which suggests that avoiding Western foods is more important than counting calories, fat, carbohydrate or protein.  The study adds to the notion that healthy diets based on whole-grain cereals and low-fat dairy products are only the second best choice in the prevention and treatment of type 2 diabetes.

This was a small study; I consider it a promising pilot.  Results apply to men only, and perhaps only to Swedish men.  I have no reason to think they wouldn’t apply to women, too.  Who knows about other ethnic groups?

The Mediterranean-style concensus diet here included low-fat dairy and margarine, items I don’t associate with the traditional healthy Mediterranean diet.

This study and the one I mention below are the only two studies I’ve seen that look at the paleo diet as applied to human diabetics.  If you know of others, please mention in the Comments section. 

The higher fruit consumption of the paleo group didn’t adversely affect glucose control, which is surprising.  Fruit is supposed to raise blood sugar.  At 493 grams a day, men in the paleo group ate almost seven times the average fruit intake of Swedish men in the general population (75 g/day).  Perhaps lack of adverse effect on glucose control here reflects that these diabetics and prediabetics were mild cases early in the course of the condition (diabetes tends to worsen over time). 

Present day paleo and low-carb advocates share a degree of simpatico, mostly because of carbohydrate restriction—at least to some degree—by paleo dieters.  Both groups favor natural, relatively unprocessed foods.  Note that the average American eats 250-300 g of carbohydrates a day.  Total carb intake in the paleo group was 134 g (40% of calories) versus 231 g (55% of calories) in the Mediterranean-style diet.  Other versions of the paleo diet will yield different numbers, as will individual choices for various fruits and vegetables.  Forty percent of total energy consumption from carbs barely qualifies as low-carb. 

Study participants were mild, diet-controlled diabetics or prediabetics, not representative of the overall diabetic population, most of whom take drugs for it and have much higher hemoglobin A1c’s.

Lindeberg and associates in 2009 published results of a paleo diet versus standard diabetic diet trial in 13 diabetics.  Although a small trial (13 subjects, crossover design), it suggested advantages to the paleo diet in terms of heart disease risk factors and improved hemoglobin A1c.  Most participants were on glucose lowering drugs; none were on insulin.  Glucose levels were under fairly good control at the outset.  Compared to the standard diabetic diet, the Paleo diet yielded lower hemoglobin A1c’s (0.4% lower—absolute difference), lower trigylcerides, lower diastolic blood pressure, lower weight, lower body mass index, lower waist circumference, lower total energy (caloric) intake, and higher HDL cholesterol.  Glucose tolerance was the same for both diets.  Fasting blood sugars tended to decrease more on the Paleo diet, but did not reach statistical significance (p=0.08).

The paleo diet shows promise as a treatment or preventative for prediabetes and type 2 diabetes.  Only time will tell if it’s better than a low-carb Mediterranean diet or other low-carb diets. 

Steve Parker, M.D.

Reference: Lindeberg, S., Jönsson, T., Granfeldt, Y., Borgstrand, E., Soffman, J., Sjöström, K., & Ahrén, B. (2007). A Palaeolithic diet improves glucose tolerance more than a Mediterranean-like diet in individuals with ischaemic heart disease. Diabetologia, 50 (2007): 1795-1807.   doi 10.1007/s00125-007-0716-y

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