Tag Archives: carbs

“Insulin Dynamics”

Posted on September 28, 2015 | 33 comments

This one has a bit for everyone.

 

Relationship of Insulin Dynamics to Body Composition and Resting Energy Expenditure Following Weight Loss (Hron et al., 2015)

 

I think study was actually done a few years ago, originally published here (blogged about here), and re-analyzed through the eyes of Chris Gardner.  I think. (But it doesn’t really matter as the study design appears to be identical.)

 

Experiment: give someone an oral glucose tolerance test (75 grams glucose) and measure insulin 30 minutes later.  Some people secrete more insulin than others (a marker of insulin resistance); these people also have a lower metabolic rate after weight loss = increased propensity for weight regain.  However, if these people follow a low carbohydrate diet, then the reduction in metabolic rate is attenuated.  Some people who don’t secrete a lot of insulin after a glucose load may do better in the long-run with a lower fat diet.

 

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Posted in Advanced nutrition, circadian, diabetes, diet, fat, insulin, Ketosis, Leptin, Protein, sleep, TPMC

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Hall et al., THE FIRST SIX DAYS (update)

Posted on August 22, 2015 | 38 comments

Some people say the study design was rigged to favor the Low Fat diet (LF), which is dirty business but not exactly criminal; sometimes, this happens in science.

The claims go something like this: baseline diet was so high in carbs that they were locked into making unreasonable adjustments to formulate isocaloric low fat and low carb diets; eg, fat was too low in the low fat diet and carbs weren’t low enough in the low carb diet.

The biggest finding was “Fat Imbalance,” which favored LF.  Here’s why I don’t think the baseline diet mattered very much.

Tl;dr: drastically cutting fat intake (LF diet) is much more effective than upregulating fat oxidation (LC diet) to create a large Fat Imbalance in an acute setting, ie, THE FIRST SIX DAYS.

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Posted in Advanced nutrition, diet, Dietary fat, Energy balance, fat, insulin

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A brief explanation of Hall et al., ie, THE LOW CARB WAR

Posted on August 15, 2015 | 68 comments

“Examination of acute shifts in energy balance by selectively reducing calorie intake from one macronutrient.”

Intro (1/2): please don’t read this study with the media headlines in your mind.  Don’t even pay any attention to the study’s title, abstract, intro, and discussion.  In no way did this study put low carb proper on the chopping block, regardless of what you’ve seen online or elsewhere.  Mmmkay?

 

Intro (2/2): if you want a lesson (or refresher) in Advanced Nutrition, check out the Supplemental Information: in formulating his mathematical models, Dr. Hall seemingly reviewed every single biochemical pathway and physiological variable ever invented.  Read it, for science.  Really.

 

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Posted in Advanced nutrition, diet, Dietary fat, empty calories, Energy balance, fat, insulin, Ketosis, Leptin, pair-feeding, Protein

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Dawn PheNOMNOMNOM

Posted on July 15, 2015 | 58 comments

Many pre-diabetic, diabetic, and insulin resistant people have used the low carbohydrate diet to successfully manage their blood glucose levels.  It just plain works.  FACT (P<0.05).

However, a small subset of this population fails to achieve normal fasting glucose.  This is likely due, in part, to a type of circadian mismatch induced by aberrant meal timing and excess exposure to artificial light at night.  For an extensive list of citations supporting the former, see “Afternoon Diabetes;” stay tuned for evidence of the latter.  In brief, a combination of delaying food intake for as long as possible after waking in the morning (“skipping breakfast”) and consuming most calories at night = no bueno.  These behaviors can also promote a circadian mismatch and phase delay.  Hint: eat when the sun is up; sleep when it is down.

 

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Posted in Advanced nutrition, chronopharmacology, circadian, Dopamine, insulin, melatonin, Protein

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Saturated fat, cholesterol, and carbohydrates

Posted on May 26, 2015 | 30 comments

“You catch more flies with honey…”

^^^good policy in general, but especially for debating in the realm of nutritional sciences.

 

A short while back, Nina Teicholz discussed low carb ketogenic diets and plant-based diets with John Mackey.  Although I disagree with the dichotomy (keto vs. plant-based), it’s well-worth a watch:

 

 

Three topics that could not be avoided in such a discussion: saturated fat, cholesterol, and carbohydrates.

 

 

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Posted in Advanced nutrition, coconut, diet, Dietary fat, empty calories, Energy balance, fat, fiber, Fish, Grains, insulin, muscle, Protein, Sugar, TPMC

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Artificial light regulates fat mass: no bueno.

Posted on May 13, 2015 | 59 comments

“despite not eating more or moving less”

We’ve seen this time and time again: LIGHT IS A DRUG.

 

above quote is extrapolated from this rodent study: “Prolonged daily light exposure increases body fat mass through attenuation of brown adipose tissue activity.”

 

Artificial light impacts nearly every biological system, and it doesn’t even take very much to have an appreciable effect (think: checking your smart phone or watching a television show on your iPad in bed at night).  In this study, adding 4 hours to the usual 12 hours of light slammed the autonomic nervous system, disrupting sympathetic input into brown adipose leading to a significant increase in body fat  “despite not eating more or moving less.”

 

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Posted in Bromocriptine, chronopharmacology, circadian, Dopamine, Energy balance, Exercise, melatonin, muscle, sleep, Sun

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Meal frequency, intermittent fasting, and dietary protein

Posted on April 27, 2015 | 44 comments

Dietary protein “requirements” are some of the most context-dependent nutrient levels to decipher, and depend largely on energy balance and even meal frequency.

An objective look at intermittent fasting (Alan Aragon, 2007)

Meal frequency and energy balance (Lyle McDonald, 2008)

New study: “Increased meal frequency attenuates fat-free mass losses and some markers of health status with a portion-controlled weight loss diet” (Alencar et al., 2015)

This wasn’t well-received in social media because bro-science & many low carb advocates say grazing is no longer in vogue — “it’s much better/healthier/whatever to eat once or twice daily, because intermittent fasting and all that jazz” …however, this may be problematic when it comes to meeting overall protein needs, which is particularly important when you’re losing weight.

The study: 2 vs. 6 meals per day, crossover.

Conclusion: “On average, fat-free mass (FFM) decreased by -3.3% following the 2 meals/d condition and, on average, and increased by 1.2% following the 6 meals/d condition (P<.05).

fat-free mass

In other words, 6 meals per day was better for body composition than 2 meals per day.  But context is everything, and this hypothesis has been tested from a variety of different angles, so what does it mean?

The relevant context here: 1) big energy deficit (1200 kcal/d for obese women is a pretty low calorie intake); and 2) “adequateTM” protein intake (75 g/d).

The standard dogma says that in the context of an adequate protein hypocaloric diet, meal frequency matters a LOT, whereas with high protein, it doesn’t matter as much.  Theory being that with an “adequate” (read: too low?) overall protein intake, the fasting periods are simply too long with only two meals per day; you need either: 1) higher protein intake; 2) increased meal frequency; or 3) more calories (ie, smaller energy deficit).

In this study, BOTH diets suppressed insulin and induced weight loss, but the increased protein feeding frequency skewed the weight loss to body fat while preserving fat-free mass.   I actually agree with a lot of the bro-science in this case, and also think that 75 grams of protein is not enough in the context of a big energy deficit (if body composition is a goal).




Historical precedence?

Meal frequency and weight reduction of young women (Finkelstein et al., 1971)

Relevant context:  6 vs. 3 meals per day (3 meals per day may not seem like that many more than 2, but it significantly cuts down on the duration of time spent with no food or protein).

Smaller energy deficit: 1700 kcal/d in overweight patients is less of a deficit than 1200 kcal/d in obese patients.

Higher protein intake: 106 – 115g/d.

Result: nitrogen balance (a surrogate for the maintenance of muscle mass) and fat loss were similar in both groups.  This study fixed two problems in the abovementioned study: 1) 3 meals is better than 2 in the context of an energy deficit; and 2) protein intake was higher.

And again here, with 3 vs. 6 meals per day (Cameron et al., 2010), just to make the point that 3 meals per day is better than 2 for preserving lean mass in the context of an energy deficit.

The effect of meal frequency and protein concentration on the composition of the weight lost by obese subjects (Garrow et al., 1981)

This study tested the opposite extremes: super-low calorie intake (800 kcal/d), much lower protein intakes (20g – 30g/d), and 1 vs. 5 meals per day.

Result: “a diet with a high-protein concentration, fed as frequent small meals, is associated with better preservation of lean tissue than an isoenergetic diet with lower-protein concentration fed as fewer meals.”

It basically confirmed all of the above.

Protein feeding pattern does not affect protein retention in young women (Arnal et al., 2000)

1 vs. 4 meals per day; and 70 grams of protein but no energy deficit (~2000 kcal/d isn’t very hypocaloric for lean young women).  In this study, no effect of meal frequency was seen, likely because 70 grams of protein isn’t inadequate when energy intake isn’t restricted.

1. PROTEIN “NEEDS” ARE HIGHLY CONTEXT-DEPENDENT

2. NEED =/= OPTIMIZATION

3. MEAL FREQUENCY & meal timing and peripheral circadian clocks > “MACRONUTRIENTS”

If you’re losing weight (ie, in an energy deficit), then intermittent fasting is cool if protein intake is high (above “adequateTM“)… the bigger the energy deficit, the more protein is necessary to optimize changes in body composition.

How much is ‘enough?’  Sorry, can’t give you a gram or even gram per pound of body weight answer… but if you’re losing weight and seeing no discernible effect on body composition (muscle vs. fat mass), then it may be prudent to consider eating more protein-rich foods… and paying more attention to sleep quality (which also greatly impacts nutrient partitioning).

No amount of protein will help you if circadian rhythms aren’t intact!!!

further reading:

Yes, it’s a high protein diet (Tom Naughton, 2015)

Protein requirements, carbs, and nutrient partitioning

Dietary protein, ketosis, and appetite control 

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Posted in Advanced nutrition, diet, fat, muscle, Protein, strength

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Non-celiac gluten sensitivity

Posted on March 30, 2015 | 29 comments

Gluten is protein, not carbs.  A gluten-free diet is frequently low-carb, because most dietary gluten comes in the form of bread (and wheaty foods).  But believe it or not, bread is an incredibly complex food… many different proteins, carbohydrates, and nutrients that could be problematic for some people (more on this later).

Gluten is not a FODMAP, but most gluten-containing foods are.  Gluten is actually very rich in the amino acid glutamine.  Gluten, not bread.

So we have three studies on purified “gluten,” asking if it’s the gluten, FODMAPs, or something else in wheaty food that is problematic.

Study #1. No effects of gluten in patients with self-reported non-celiac gluten sensitivity after dietary reduction of FODMAPs (Biesiekierski et al., 2013)

Strong study design; patient population was people who thought they were gluten sensitive (but definitely not celiac).

This is the study which led journalists to claim non-celiac gluten sensitivity doesn’t exist, and it’s really sensitivity to FODMAPs, in part, because of this:

 

 

low FODMAPs and gluten free

 

 

Baseline = low gluten diet
Run-in = low gluten and low FODMAPs

 

Here’s the fly in the ointment:

 

symptoms returned in all participants

 

After the run-in period, subjects still followed their gluten-free diets but also received either 16g relatively pure gluten/d (High gluten), 2g gluten + 14g whey protein (Low gluten), or 16g whey protein (placebo).  GI symptoms returned in all participants.  So, low FODMAPs worked for about a week, but then symptoms returned regardless of whether they were eating gluten or not.  In other words, neither low FODMAPs nor low/no gluten worked very well in this study.

But this study may have introduced a brilliant new confounder: food intake was strictly controlled — the experimental diets were different from their normal diets.  Restricting gluten and FODMAPs may have provided some transient benefit, but if the new experimental diet introduced something else that caused problems, then that may explain the gradual return of symptoms…

bollixed?

 

 

Study #2. Small Amounts of Gluten in Subjects with Suspected Nonceliac Gluten Sensitivity: a Randomized, Double-Blind, Placebo-Controlled, Cross-Over Trial (Di Sabatino et al., 2015)

It was another high quality study design: “Randomized, Double-Blind, Placebo-Controlled, Cross-Over.”  And it was addressing a basic question: do people who strongly suspect they have non-celiac gluten sensitivity (NCGS) really have NCGS?  Alternatively, is NCGS real?

Intervention was strong:

1) 4.375 grams of gluten or placebo (rice starch) daily for a week.  This is roughly equivalent to two slices of bread (note: this is way more than enough gluten to destroy the intestines of a patient with bona fide celiac disease).

2) important: they defined the what they would classify as NCGS prior to starting the trial.  A priori.

61 patients strongly suspected of NCGS started the trial, and one withdrew due to gluten-related symptoms in both the gluten and placebo groups.

 

Results:  regardless of whether they were assigned to gluten or placebo FIRST (prior to the crossover), most patients reported gluten-related symptoms.  More importantly, 3 of the 59 patients exhibited significantly worse symptoms on gluten relative to placebo according to the endpoint they defined prior starting the trial.  In one sense, this could be interpreted to mean 5% of people who strongly believe they have NCGS actually have NCGS.

 

gluten sensitive patients

 

Two patients reacted just as selectively strongly to the placebo as the three “real” NCGS patients did to gluten.  Rice-starch sensitivity?

 

See here for a more detailed description of the statistics involved in this study.  I’m willing to accept the “5%” rate, despite the strength of the placebo-responders, whereas the author of that blog post is not.  That’s fair, imo.

And here is another article which questions the legitimacy of NCGS based on this study.  I don’t think that’s totally fair.

And Raphael’s post, where he humorously concludes: “[Gluten-free] does not include advice to sport a gas mask when walking past bakeries.”

 

 

Study #3. Effect of gliadin on permeability of intestinal biopsy explants from celiac disease patients and patients with non-celiac gluten sensitivity (Hollon et al., 2015)

 

 

gluten increases intestinal permeability

 

 

“Delta TEER” is basically the amount of intestinal permeability in intestinal explants exposed to media + gluten (experimental condition) minus those exposed to plain media (control condition).  A better control condition, imo, would’ve been something like they did above: substitute gluten with another protein like whey protein.

 

NC: healthy people
RCD: celiac patients in remission
ACD: celiac patients with active disease
GS: non-celiac gluten sensitivity

 

Active celiac samples responded significantly worse than those in remission, which is good as it functions as a positive control for the experimental protocol.

 

However, gluten sensitive samples responded significantly worse than celiac remission samples; actually, they responded just as badly as celiac samples with active disease.  Celiac disease is supposed to be a million times worse than non-celiac gluten sensitivity… and statistically speaking, even permeability the normal samples declined as much as NCGS samples.

 

This led some to conclude that gluten is bad for EVERYONE.  I’d say it means the assay is bollixed.  Occam’s razor?

 

 

My advice: don’t be anti-science, but don’t use bad science to justify diet choices.  We simply need better studies on non-celiac gluten sensitivity and FODMAPs.

If bread doesn’t work for you, don’t eat bread.  You’re not missing much.

 

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Posted in Advanced nutrition, gluten, Grains, microbiota, TPMC

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Carbs: Low vs. Lower

Posted on March 20, 2015 | 121 comments

 

 

This was met with much backlash from the low carb cavalry, because, well, if low is good then lower must be better

I’m not anti-keto; but I’m not anti-science.  FACT.

 

“…some people are not genetically equipped to thrive in prolonged nutritional ketosis.” –Peter Attia

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Posted in Advanced nutrition, diet, Dietary fat, fat, Fish, insulin, Protein, TPMC

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LIGHT, Leptin, and Environmental Mismatch

Posted on March 12, 2015 | 13 comments

For a long time, the melanocortin system was basically thought to control the color of skin and hair.  It still does, and many redheads are redheaded due to polymorphisms in one of the melanocortin receptors.

Fast forward to 2015: to make a long story short, melanocortins are HUGE players in circadian biology.

 

POMC ACTH a-MSH

 

Brief background (also see figure above):

Fed state -> high leptin -> a-MSH -> MC4R (the receptor for a-MSH) = satiety, energy production, fertility, etc.

Fasted state -> low leptin -> AgRP blocks MC4R = hunger, energy conservation, etc.

MC4R polymorphisms in humans are associated with obesity.  Melanotan II causes skin darkening (marketed as “photoprotection” [no bueno, imo]), enhanced libido, and appetite suppression.

 

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Posted in Advanced nutrition, angiotensin, Bromocriptine, Cabergoline, chronopharmacology, circadian, fertility, insulin, melatonin, sleep, Sun

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