I would strongly encourage you to read through this blog and my own journey revealing the Inversion Pattern. Key moments were the Identical Diet experiment and the Extreme Cholesterol Drop experiment that I wrapped around the first presentation of my data for the Ketogains Seminar.
It’s hard to believe it was just one year ago. It feels like much longer.
Here’s the tweet that started it all:
Hello! If you follow me, you know I keep pinging pro-LDL lowering experts on this key question, but still haven't gotten anything yet. So I'm making it a fun graphic for us all to use and hopefully get some great responses soon! (What would it mean if we didn't?) pic.twitter.com/hOCtUApyxH
When I wrote it, I genuinely had no idea how many studies would find their way through the door, which is why I was asking for the “best study” in particular. I imagined a flood of studies I hadn’t yet seen piling into my inbox… yet nothing came.
I already had two studies that showed the opposite — people with high LDL, high HDL, and low triglycerides having low heart disease. This included the Framingham Offspring study and the Jeppesen Study as well. So I wanted to ensure I wasn’t just skimming over other studies that would show high HDL and low TG as irrelevant to heart disease. The best way to eliminate your own confirmation bias is to reach out to those with a different opinion and data that substantiates it.
I then respectfully pinged a number of lipid-lowering experts on this as I was curious what evidence existed. I did get one attempt with Brian Edwards, but he didn’t meet the challenge criteria, though I really want to give him props for giving it a shot.
Now the #LCCholesterolChallenge is a full year old today.
It’s really imperative that I double-check there is indeed no study that even shows above average CVD/CHD with high LDL when matched with high HDL and low triglycerides as there are so many low carbers who have this profile. So I’ve decided to up both my total budget to $3,000 and be prepared to give away $1,000 to any study that can meet the original criteria.
Note from Dave: Sean is a prolific member of the LMHR Facebook Group and I was keen to share this remarkable experiment with you all as a guest post here. Enjoy!
My name is Sean Brennan and I have been on a ketogenic diet for 14 months now, beginning on Thanksgiving of 2017. It has been awesome – 35 pounds melted away in the first 6 months and I have a more stable mood, better digestion, resolved eczema, and have more control over my appetite.
Unfortunately, I did not do a baseline blood test prior to the diet, however, I found a blood test from 2011, while I was eating a High Carb Low Fat/Standard American Diet. I was probably eating a vegan diet at that time: total cholesterol was at 191 mg/dL and HDL at 38 mg/dL.
Test
#2 – Unexpected High Trigs
I had read that if you are in the middle of losing weight you could skew your blood test, so I waited until my weight stabilized to get testing done. Back when I was eating a vegan diet several years ago, I became aware that saturated fat increased my cholesterol. I had tested around 240 mg/dL (the horror!) and I promptly decreased my coconut oil (high saturated fat) intake and saw my number drop to 165 mg/dL. So, when my initial test came back after a keto way of eating with a total cholesterol of 313 mg/dL, I was not surprised. However, I was very surprised at my triglyceride reading of 131 mg/dL.
Typically, on a ketogenic diet it is expected that
triglycerides drop like a stone due to the limited carbohydrate intake. In fact, many people will have a triglyceride
to HDL ratio approaching 1:1. So, I was
a little concerned that my ratio was 131:47 or 2.79:1.
Of the suggestions listed, the only one that stood out to me as a possibility was a coffee sensitivity. Prior to test #3, I had 1-3 cups of coffee per day for several months. So, I decided to cut it out and retest.
Test #3,
#4, & #5 – No Coffee
Somewhat painfully, I was able to cut out coffee for four days prior to test #3. My triglyceride test result was 76 mg/dL, a dramatic decline from 131 mg/dL! Better yet, my trig:HDL ratio was 76:51 or 1.49:1. I was a happy camper! I maintained my coffee abstinence and achieved similar, if not slightly improving triglyceride results, for test #4 & #5 of 71 & 70, respectively.
Test #6 & #7, Back on Coffee
To confirm the effect of coffee on my triglycerides, I drank a cup of black, French press prepared coffee on two consecutive days and re-tested. My trigs effectively doubled back up to 140 mg/dL! For test #7, I drank filtered coffee for a week and saw similar results of 147 mg/dL.
Test #8 & #9 – Decaf Result
I abstained for another week and predictably my triglycerides fell back to 63 mg/dL. For one final test, I drank decaf for a week and interestingly saw my triglycerides climb back up to 125 mg/dL.
To Sum It All Up…
So, it is clear to me that unfiltered, filtered, and decaf coffee dramatically raise my triglycerides by a factor of 2. This is quite the effect, although I really am not sure why this happens or if it is harmful (though it definitely makes me uncomfortable).
Summary of the changes Sean saw.
Dave suggested that there is some evidence to support the hypothesis that coffee increases lipolysis, that is, it possibly super charges fat trafficking. Another interesting tidbit of information is that I have a gene (CYP1A2 – rs762551(A;C)) that indicates slow caffeine metabolism – although this may or may not be related.
Where to Go From Here?
What do I plan to do with this information? Well, it has been theorized that while eating a low carbohydrate diet, high total and LDL cholesterol may not be harmful especially if one’s trig to HDL ratio is low. I am comfortable living by this theory, and therefore, I think it is in my best interest to keep triglycerides low by greatly reducing coffee intake (and maintaining my low carb lifestyle). I don’t think there will be a net loss to my well-being, since coffee tends to lower my energy after the initial bump, boost my stress hormones, negatively affect my digestion, and sometimes interferes with my sleep quality. So, as the reasons stack up against coffee for me, I plan to only have it as an occasional treat or productivity boost.
Last year at Low Carb Gold Coast, I had the pleasure of watching an excellent presentation by Dr. Paul Mason where he talked us through hyper-responders and lipoproteins. Naturally, I was loving every second. To my surprise, he addressed the Feldman Protocol as well, with a suggestion of adding carbs to achieve the same outcome.
Here’s a transcript of that portion of the talk (at about 21:54):
Now we’ve all heard about the Feldman protocol.
So essentially what happens is if you have a very high LDL level on a ketogenic diet, it’s been demonstrated, quite nicely, that if you go on a very high fat diet for about three days and have a blood test at the end of it your LDL levels will significantly drop, some would even say “plummet”. And this is why – it comes down to these LDL receptors.
Now these LDL receptors are what actually takes healthy LDL out of the bloodstream it doesn’t work for damaged LDL, remember, it only works for the healthy LDL and the amount of LDL in the blood has an inverse relationship to the number of receptors. If we have more receptors that are able to take the LDL out of the circulation then we’re going to have less in our circulation. It’s only logical. And interestingly, increasing the amount of calories in our diet, which increases our insulin, actually increases the genetic expression of these LDL receptors.
In actual fact, rather than doing a high-fat diet as with the Feldman protocol a lesser amount of carbohydrates would probably do exactly the same thing because of much stronger insulin response.
Now, why does it take three days? Well just because you increase the expression of a gene doesn’t mean that you get an instant effect there’s a lot of steps that you need to go through before you end up with the final product, which in this case is the LDL receptors and it’s this process between genetic upregulation and the final protein synthesis that likely explains the three-day delay between when you increase the amount of energy in the diet and the LDL actually falls.
Paul’s theory is pretty sound. Again, we’re reading a lot of the same literature. But that said, I had already done an experiment that added carbs to a keto diet known as the Added Sugar Experiment. The net effect wasn’t a significant drop in cholesterol.
However, in chatting with Paul since his talk, we theorized there might be a component with the fact the skittles were far more fructose-based and this could be a confounder. So we discussed using something with glucose, dextrose, or maltose.
Bottlecaps to the rescue! Fortunately, many Willy Wonky candies have dextrose as their primary sweetener, so we agreed on using this brand as the intervention.
Study Design
I was just coming off a carnivore diet (more on that in an upcoming presentation and write up). So I worked out being on my “baseline” diet for five days, then following it with 4 days of the baseline with the addition of the Bottlecaps.
[Paul and I discussed this in an ad hoc video before performing the experiment which you can watch here]
Baseline DietBaseline Diet + Dextrose
Changes in Glucose on Dexcom G6 (CGM)
The value of continuous glucose monitors (CGM) is that they can give a constant reading on what is happening to your glucose levels at five minute intervals. I was well aware this would likely jump after I added the dextrose.
For reference, here was a typical 24h reading during my baseline diet, before adding the sugar:
Alas, Dexcom offers no y axis in this view, but I can tell you that my line basically hovers between 85 mg/dL and 105 at its peak. Pretty much the flattest line I ever make on the CGM. (Hello, keto!)
Then Day 1 of the added candy hits and I’m running a little late, hitting the first meal at about 11:45. I get this response following the first meal:
Whoa!
You might recall in my end of the Tandem Drop Experiment I was pretty uncomfortable with topping out at 183 mg/dL on my CGM. Nevermind… that was just a warm up…
This is the full 24 hours as shown before I started my meal on the next day:
I topped out at 255 (last arc) and woke up to a 108 the next morning.
As I told Paul, I seriously considered canceling the experiment at least three times on Day 1. I was certainly uncomfortable with these numbers and that can be a confounder in and of itself (such as raising cortisol, et). But ultimately, I decided to move forward.
Side note: I originally thought I topped out at 254 for Day 1, which led me to post this poll on Twitter:
After 4 weeks of ultra low carb #carnivore, I began a 4 day experiment yesterday involving 75g of dextrose with each meal, 3 times a day. What do you predict my glucose topped out at during the day yesterday? (Results revealed in write up)
Thus, 76% of people (myself included) would’ve picked an answer below 254.
By Day 4 I had seen a smaller top off at 232 mg/dL, but I’d call that only a marginal improvement.
It is common advice to those on a low carb diet to consider eating lots of carbs in the days leading up to an Oral Glucose Tolerance Test (OGTT) as it will acclimate one to having a less dramatic response with glucose. Given my own results from above, I’m not sure if this would have worked out so well for me in the context of added carbs. But perhaps it would’ve with swapping in carbs for swapping out fat.
Cholesterol Changes
Now on to the Main Event – LDL Cholesterol:
We did indeed see a drop, although not a very dramatic one when compared to baseline. The last day of the baseline came to 313 with the added dextrose at day four clocking in at 265 for a difference of 48 mg/dL or a 15.3% drop.
Alas, there was also another possible reason for the drop in LDL-C. After I added in the Dextrose, I began gaining weight… pretty rapidly, in fact.
Not too coincidentally, I ran into this very phenomenon in reverse with my Weight Gain Experiment from last year. While I was actively losing weight, I saw a tight inverse correlation with my LDL-C rising (Pearson of -0.936!)
Naturally, at higher levels of insulin we have greater inhibition of lipolysis, leading to higher weight retention. As this lowers the free fatty acid pool, we likewise have less VLDL production and thus less downstream LDL. In theory, this could account for some or quite a lot of the lower overall resulting LDL.
Fortunately, I got a Free Fatty Acid test with all my bloodwork, so we’ll have that for a comparison once all the labs are back, which will likely be in a week or two.
Symptoms
There were a number of issues with this experiment that were notable:
Initial anxiety. This was likely due to my reacting to the CGM readings, which subsided after the first day. But worth noting nonetheless.
Mild clumsiness. This was something very unexpected, yet distinctive enough to journal. With each day past the first, I had one or more moments of stumbling or letting things slip out of my hand in a very uncharacteristic fashion.
“Shipping” issues on Day 2. (Yes, I’m using a euphemism here for bathroom problems.) I was quite surprised it happened so quickly, just one day into the intervention. Because of this, I did have to consume magnesium citrate, which did resolve the issue and it didn’t return again for the duration of the experiment.
Would a Longer Time Make a Difference?
Paul wanted to emphasize that he’d prefer I did the experiment for seven days instead of four. And indeed, since my previous interventions three days, it’s possible he could be right that a more dramatic change was up ahead. But frankly, I just didn’t have it in me. It was tough enough to finish out these four days watching my CGM going off the charts. But more problematic would be if I continued to gain weight, which would have been a persistent confounder.
Moreover, if indeed a longer time is needed, this would seem to suggest any of the other protocols above would be more attractive given turnaround time of just a few days instead.
Final Thoughts
Once again, we seem to have further evidence that swapping is preferable to addition with my N=1. More specifically, if you’re going to attempt using carbs to lower your LDL, you might be much better off swapping out the calories from fat to make room for the calories from carbs. How much of this relates back to weight gain may need further research to determine.
It’s possible this experiment reflects issues with carb loading in the days before an OGTT, but there’s a catch. At first glance, it appears that this process didn’t help me acclimate to a higher carb diet. Yet these spikes were always in the context of the dextrose load following a fatty meal. And, of course, it wasn’t consumed all at once, such as in a sugary liquid bolus. Any of these may have contributed to a very different outcome.
[Paul and I discussed the results in a video at the conclusion of the experiment which you can watch here]
I really want to think Paul for working with me on this. While it wasn’t as dramatic as we had hoped, it is worth reemphasizing that this did indeed succeed at lowering my LDL as hypothesized. Further, it suggests there was a difference between the fructose-based sweetener from Skittles (in the original Added Sugar Experiment) vs dextrose-based sweetener from Bottlecaps.
So perhaps Willy Wonka can thank us for giving them a new tagline on how their candy lowers cholesterol, unlike the competitors.
0:26 Peter’s background and history with lipid research
Term used:
Familial Hypercholesterolemia (“FH”) is a cluster of genetic abnormalities that
result in high total or LDL cholesterol. If someone has Heterozygous Familial Hypercholesterolemia it means they got a copy
of an FH gene from one parent only. If they have Homozygous Familial Hypercholesterolemia, they have a copy from
both parents. Homozygous FH is considered more severe of the two.
6:20 For people who see their cholesterol rise on low carb,
can Peter provide information on whether they should be concerned?
7:00 How big of a problem is heart disease in general?[
Slide mentioned: Slide 2
9:35 The physical progression of atherosclerosis[
Slide mentioned: Slide 3
11:54 Are the steps of atherosclerosis necessarily progressive?
Can they be stopped or reversed?
16:15 The complexity of the lipid system – a long way to go
to full understanding.[
Slide mentioned: Slide 4
17:20 The work of the Russian researcher Nikolai Anitschkow and what his rabbit study showed about the development of atherosclerosis
Slide mentioned: Slide 6
21:21 What does the research show regarding cholesterol level and heart disease outcomes/risk?
Slide mentioned: Slide 7
23:47 What does Peter say to the criticism that there can be
possible cherry-picking for studies on cholesterol lowering and cardiovascular
disease?
25:00 Thoughts on CETP Inhibitor trials – why did they fail?
What does it mean?
Term used: CETP stands
for Cholesterol Ester Transfer Protein. It is a protein which transfers
cholesterol and triglycerides between the lipoproteins. There is a class of
drugs which inhibits the actions of this protein, ultimately resulting in
higher HDL-C and lower LDL-C.
29:30 Is LDL-C a causal factor in atherosclerosis?
33:05 Could there be other underlying problems with Familial
Hypercholesterolemia other than high LDL?
Term used: CIMT
stands for Carotid Intima-Media Thickness, it is an ultrasound that looks at
the thickness of certain layers of the artery in the neck (the carotid). It is
used as a measure of risk of heart disease, with thicker IMT being higher risk.
40:54 Caveat: The problems with CIMT measurements
43:16 Dave’s CIMT results – are they significant, and is
there a danger of confirmation bias?
47:45 Comparing risk and context.
50:45 Could Lean Mass Hyper-responders be an example of
paradoxical responders?
51:26 Case study – “Miss K.”[
Slide mentioned: Slide 9Converted measurements
57:04 Comparing treated versus untreated people who have
Familial Hypercholesterolemia
1:04:03 Devil’s Advocate Intro
1:04:23 Are LDL particles, like macrophages, a part of the immune response? In addition is it possible that some of the association between LDL and atherosclerosis is due to this immune response?
1:10:47 As more
evidence emerges to stratify for this triad (high LDL-C, high HDL-C, and low
triglycerides), do you likewise predict it will show lower risk for
cardiovascular disease?
1:23:45 Many studies
tout changes in risk for cardiovascular disease mortality, yet show no
difference in all-cause mortality. Doesn’t this run the risk of misleading
people to assume overall benefit where there is none?
1:32:30 Audience questions
1:32:42 Are there any
CAC scan studies on people from before and after statin therapy?
Term used: CAC
stands for Coronary Artery Calcification. It is a CT scan which looks for calcium
in the arteries, the score is used as a risk marker for things like heart
attack or all-cause mortality, with lower scores being better risk.
1:34:37 Does Peter
know how to access databases to test the triad?
1:38:47 Does Peter
have any thoughts on how young to start statin treatment in children with
Familial Hypercholesterolemia? Is there any information on it interfering with
growth, or adverse side effects?
1:44:04 Side effects and statins – is there a problem with
using run ins?
1:49:42 Is the
increase in residence time of LDL due to modification of the LDL (e.g.
glycation, oxidation, etc).
1:50:40 Can LDL be
present and not cause plaque?
1:51:31 What does
Peter think about Vladimir Subbotin’s work, wherein he disputes that lipid
deposition is the initiating factor for atherosclerosis, rather he states that
excessive intimal hyperplasia is the initiating factor?
1:53:11 What about the impact on heart disease risk of
genetic mutations which result in high LDL without affecting the cells ability
to uptake lipids/lipoproteins (e.g. glycogen storage disease)?
My primary costs are the many frequent and expensive blood tests I take for this research and data. Any size donation is appreciated. Thank you for your support!
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