A reader had initial success from modifying the microbiome but it did not persist.

The reason I ended up at your website doing research into the connection microbiome and ME/CFS was that firstly I tried Miyarisan and it turned out to be one of the best things I ever tried, MY headaches and brain fog were early completely gone and I had a lot more energy. Unfortunately this wonder only lasted about 6 weeks till I overdid it and crashed and with that crash Miyarisan lost it’s effect on me.

The other thing was Nystatin, which I was given for the candida found in my gut last year and right on from the first pills I took, it gave me more energy ( so I doubt it had anything to to with the candida, but rather must have changed something else in my gut for the better). This lasted about 10 weeks and then pooped out and was not reproducible. 

But these two times that I felt I got energy because of some changes in my gut, were very rare in the way the they just generally provided a relief in all symptoms, as I was just overall feeling better and had more energy, but without crashing. Most of the times I have trouble, because I am easily overstimulated and most things that give me energy give me instant fatigue rebound, so Miyarisan and Nystatin really were different and made me try to work on my gut. 

She attached her tests and summarized them as “As to my tests, I guess the most notable things are my low TH1(Interferon Gamma), my low glutathione, high TGF beta, my decreased SOD activity.”

Reminder that recovery is a journey

In an earlier youtube review of another ME/CFS patient, I used the graphic below

I used this model for my last flare and can be seen by the list of posts below on CFS Remission. Each report was associated with a new microbiome test and a change of supplements etc to address the changes that the prior changes caused.

• Report #1
• Report #2
• Report #3
• Report #4
• Report #5
• Report #6
• Report #7
• Report #8

I have been busy adding features that exposes more information about the microbiome. We shall see if these feature helps with the analysis.

Pro Formula Analysis

My usual starting point is to pick the low hanging fruit — identify outliers.

Bacteria Outliers

I quickly saw some massively high ones. I will focused on those. Note that  Firmicutes is massively overrepresented.

• HIGH Values (some are the highest seen in 2000 samples)
  • Species
    • Paraprevotella xylaniphila
    • Bacteroides oleiciplenus
  • Genus
    • Acetobacterium
    • Caloramator
    • Candidatus Phytoplasma
  • Family
    • Clostridiaceae

End Products

Only two items were suggested, none available as a supplement (a-Galactosidase , Phosphoamidase)

KEGG Bacteria Products Out of Range

A short list, as above none available as a supplement

KEGG Modules out of Range

Only one item (M00570) Isoleucine biosynthesis, threonine => 2-oxobutanoate => isoleucine

KEGG Enzymes Out of Range

A longer list — all being low. We hope over to KEGG Computed Probiotics and get the following list

Because this person is in Europe, they may be able to get lactobacillus kefiri which is described more in my post of 2017 and sold by online Italian sites. This is a researched probiotic. Also AOR, Probiotic 3 is a sweet one — all of the researched probiotic species in it, are on the above list. For the bifidobacterium, see Researched Probiotics list for recommended choices.

Predicted Symptoms – Citizen Science

At this point we get some very interesting results. First, the bacteria by themselves do not match any symptoms.

But when we go over to the KEGG components that the bacteria produces, we see the type of predictions that we would expect

Conclusion: She does not have the typical ME/CFS bacteria shifts but she has the typical jacked metabolites imbalance seen in people with ME/CFS. Same crime — different crime family!

Action Plan

At this point, we have identify major items of concern.

Hand Picked Suggestions

I am going to run it two ways — first with the extreme outliers shown above, then including Firmicutes (which I rarely do)

Remember we need to set Precision to the kitchen sink to have Firmicutes included in the calculations for the suggestions

What about the two strange strains?

These bacteria do not ring any bells with me, so over to pubmed.

• Paraprevotella xylaniphila Only items known to explicitly reduce are:
  • atorvastatin (prescription)
  • proton-pump inhibitors (prescription)
• Bacteroides oleiciplenus the following are known to reduce
  • glycyrrhizic acid (licorice)
  •  triphala

Proposed Plan for next cycle

• Rotate every 1-2 weeks the following probiotics
  • AOR, Probiotic 3 (Clostridium butyricum TO-A, Bacillus mesentericus TO-A, Enterococcus faecalis T-110)
    • Note that Bacillus mesentericus was once classified as Bacillus subtilis. This is a specific strain of it.
  • Kefibios (Lactobacillus Kefiri LKF01)
  • Bifidobacterium listed above (many options – you may wish to read the research first)
  • Miyarisan (Clostridium Butyricum MIYAIRI )

Rotate every 2-3 weeks:

• Triphala (we usually buy organic and make our own capsules) – 2000+ mg/day (source)

• Licorice (I prefer the Italian products — not teas or powders) . Dosage used in clinical studies are 24-32 grams/day

If your physician is willing to prescribe “off-label” also do alternating every two weeks between a PPI and atorvastatin (prescription). PPI is over the counter in some places and includes:

• omeprazole (Prilosec, Prilosec OTC, Zegerid)
• lansoprazole (Prevacid)
• pantoprazole (Protonix)
• rabeprazole (Aciphex)
• esomeprazole (Nexium)
• dexlansoprazole (Dexilant)

For items from the suggestions above, I would suggest going with handpicked suggestion list without firmicutes.

I would suggest an initial retest at 4 weeks or so, a full cycle of a PPI and atorvastatin, at the same time a cycle of alternating licorice and triphala. We want to see if this has caused a downward movement of the two species of concern.

I am a strong advocate on doing alternative pulses. It is what C. Jadin does for antibiotics (changing them every month) and I also have read several modelling studies that found rotation had better success than continuous. The english explanation is simple: for anything you may take — 90% of the bacteria may be killed and 10% survive (resistant). If you keep up with the same, then that 10% slowly regrows as resistant to whatever you are using. Changing between two things that are 90% effective (and different), then it becomes 99% killed and 1% survive.

As you have witnessed, 6 weeks with one item and then the resistors recovered your dysfunction, for another substance it lasted 10 weeks. We want to keep to 2 weeks on and then rotate.

I checked the parent taxa on these two, and I see  Carthamus tinctorius L (Safflower) inhibits one of them – so using safflower oil may help. There is no simple parent for the other.

As always, consult with your medical professional before implementing.

This is a two goal post. First, to see if literature indicating that healthy partners of microbiome dysfunction reflect their partner’s microbiome. Second, just a look at his microbiome and any possible concerns.

There is a very significant difference between the two in terms of diet:

• Patient has been eating gluten free for years, supplements. etc
• Husband eats gluten and dairy and some junk food. Minimal supplements.  High lipids, possibly genetic.

Similarity between CFS and Spouse

End Products Outlier – CFS 11 x Husband 0

KEGG Enzymes Outliers: Wife 639 – Husband: 30 Common: 1 (but opposite extremes)

Scanning Bacteria

Items that are common

• (class) Anaerolineae Both High
• (family) Dysgonamonadaceae Both High
• (genus) Adlercreutzia Both Low
• (species) Adlercreutzia equolifaciens Both Low

Items with stark differences:

• (species) Blautia producta W:99%ile H:5.5%ile
• (species) Faecalibacterium prausnitzii W: 4%ile H:82%ile
• (species) Haemophilus parainfluenzae W: 1%ile H:91%ile
• (family) Acetobacteraceae W:0 H:97%ile
• (family) Bacteroidaceae W:93%ile H:9%ile

Goal #1 Bottom Line

Contrary to some studies, there appear to be little similarity between these people microbiomes. The reason is likely that the shifts due to diet are so very significant. It does raise the issue of using uncorrected ranges for diet types (junk food, organic, gluten free, vegetarian, pork eater, chicken eater [Yes, studies have shown difference between people that eat pork mainly instead of chicken!], etc.). Similarly age is a factor How the microbiome ages [2019]

Goal #2 Husband Health

As I know first hand, a wife usually cares more about a husband eating habits than he does himself. The risk of a kiss on the spouse cascading microbiome changes is a technical possibility.

First I went to Expert consensus

On the resulting screen, I checked all of the genus and species that were out of range and create a hand-picked selection and then got suggestions for them, shown below. Given that they are in the sixties, I note with interest that the first suggestion is the type of sugars found in mother’s milk, it almost seems to be a collection of restoring a younger microbiome suggestions.

Next I checked the Nat.Library of Medicine Explorer. To my delight, there were only two items above 50.

The items are:

• hypertension (High Blood Pressure) — at 60%ile — still fine and not unexpected since hypertension is age related (likely connected to aging of the microbiome) see Hypertension – What we know [2019]
• NonCeliac Gluten Sensitivity – This may be a false positive. Let me explained, since the wife is Gluten free, the husband will likely eat more gluten free food than most people. It you starve the gluten consuming bacteria… the shift may look like gluten sensitivity.

Going over to citizen science, there were no matches for symptoms. Again, compared to most people that have uploaded samples — no concerns.

Standard Kaltoft-Moldrup Suggestions

The suggestions are similar to those above. Many of the items are not unexpected for someone in the 60’s — Vitamin D. There is one significant change from above — resistant starch is a to Add, above, a common source of resistant starch (broad beans, black beans, etc) were on the to avoid list. Personally, I would go for eating the beans and other sources of resistant starch (see  Resistant Starch Content in Foods Commonly Consumed in the United States: A Narrative Review [2020]).

High lipids – any known microbiome component?

I do not have lipids in the database yet, so the reader should review the following studies.

• The Gut Microbiome Contributes to a Substantial Proportion of the Variation in Blood Lipids [2015]
• Contribution of Gut Bacteria to Lipid Levels: Another Metabolic Role for Microbes? [2016]
• Genetic and microbiome influence on lipid metabolism and dyslipidemia [2018]
• Dietary lipids, gut microbiota and lipid metabolism [2019]
• Genetic and environmental determinants of variation in the plasma lipidome of older Australian twins [2020]

Bottom Line

The husband seems fine and has no apparent health issues associated with the microbiome. There are suggestions above which may help prevent microbiome issues developing.

A reader asked me to review their microbiome and test results, for items to discuss with their medical professional. As always this is not advising what to do; suggestions should always be reviewed by your medical before implementing.

The Person

This woman developed CFS around Lake Tahoe in 1987. Lyme and Mold issues.

• Adverse effects from:
  • vancomycin (linked to bacteria it modifies)
  • xifaxan (Rifaximin) (linked to bacteria it modifies) Nov 2019
• Resulting in MD prescribed Iron supplements, resulting in
  • 23 lb gain (heaviest ever!) (fat gain)
  • High cortisol,
  • Insulin resistance,
  • Bloating
• Antifungals and antibacterial herbs for the past 3 years for mold and Lyme. history of off and on antibiotics for Lyme and coinfections for decades etc.
• Cytomegalovirus and Epstein Barr (common with ME/CFS)
• Tried resistant starch(oatmeal and green banana) and my bad microbes tripled (unclear which ones were deemed bad)
• Gluten-free for years
• Food poisoning 5 years ago
• Feels hypoxic (low oxygen to brain) – likely caused by Protein S deficiency that is part of the coagulation change (according to tests)
• Genetic issues processing phenylene, leucine and lysine. And also oxalate issues
  

Markov Cascade Model

This chart shows how overtime the microbiome can recover or continue to cascade (evolve). It is not a one step change, it’s a series of changes over time caused by diet, treatment attempts, age etc. This is essential to understand why things change and that it is not a one-step recovery.

The Samples

We have five samples from Dec 2020 until May 2021. Multiple samples is a short period of time allows the daily variation to be minimize. Due to age, we do not have to be concerned with time in cycle impacting her microbiome (a key factor for females doing comparison samples)

Initial Notes

Going to comparing multiple samples, I walked thru each of the outliers and jolt down concerns

• Bacteria
  • High
    • Bacteroides denticanum
    • Fusobacteriales / Fusobacteria
    • Blautia producta
  • Low
    • Faecalibacterium prausnitzii / Faecalibacterium
    • Blautia obeum
    • Bacteroides vulgatus
    • Actinobacteria
    • Desulfovibrionales
    • Roseburia
    • Parabacteroides
    • Odoribacter
    • Lachnospiraceae

There are a few more, but we should call out that one species of a genus(Blautia) is very high and another is very low.

• End Products: the low level of gluten consumers hints that a gluten-free diet should be tried.
• KEGG Bacteria Products
  • All of the items connected with iron (ferro… – seven of them) had low warnings, suggesting limited ability to handle iron
  • High
    • protocatechuate
    • protein L-glutamate – consistent with diagnosis GABA and Glutamate in Fibromyalgia and Chronic Fatigue Syndrome
    • MnIVO2 (O₂Mn)
    • mesaconate
    • methanofuran
    • Mn3+ (Manganese)

• KEGG Enzymes – a wall of alerts, nothing special spotted
• KEGG Module
  • Low
    • (M00009) Citrate cycle (TCA cycle, Krebs cycle)
    • (M00011) Citrate cycle, second carbon oxidation, 2-oxoglutarate => oxaloacetate
    • (M00063) CMP-KDO biosynthesis
    • (M00855) Glycogen degradation, glycogen => glucose-6P
    • (M00535) Isoleucine biosynthesis, pyruvate => 2-oxobutanoate
    • and many more. No consistent highs

• Medical Condition (PubMed)
  • No matches – this may indicate that the person has moved outside of the typical ranges

Building Suggestions

The numbers for the recommendations are among the highest that I have seen!!! This implies taht a lot of enzymes are not being produced. I would suggest the three easiest to obtain for a start, single Species with research (as shown below with the Books emoji)

• Miyarisan (Clostridium butyricum), Clostridium Butyricum MIYAIRI 📚
• symbiopharm / symbioflor 1 or shin biofermin (jp) /s (Enterococcus faecalis),
  • Symbioflor 1 📚
  • Enterococcus faecium SBS 1 📚
• Custom Probiotics (Streptococcus thermophilus) Streptococcus thermophilus ST-21 📚

For dosages, start low and slowly increase to the common therapeutic dosages

KEGG supplement list is long, even when reduced to just 3%ile

• Amylase (Enzyme)
• beta-alanine
• D-Ribose
• Glycine
• L-Cysteine
• L-glutamine
• L-Histidine
• L-Lysine
• L-methionine
• L-Serine
• NADH
• Selenocysteine

Prior to suggesting any of this list, i want to look at advance suggestions. The options that I picked

First, out of curiosity, given the experience with antibiotics, I looked at only antibiotics. Only a few of several hundred in the database made it on the possible list and at low confidence. The top 3 are often suggested with ME/CFS patients. the avoid list is massive. My impression is no antibiotics, but we need to confirm other paths are more probable to help.

I played with the other prescription options and the results were similar. So returning to the default suggestions we end up with an interesting list of do and don’ts

What makes it interesting is that a lot of to avoid are common suggestions from MDs treating ME/CFS with one-recipe fits all for ME/CFS. For example

• Avoid all B-vitamins
• No vitamin C
• No Melatonin
• No quercetin
• Avoid Lactobacillus probiotics and likely bifidibacterium

The top item to avoid is luteolin. The foods that contain it are listed here and include celery seed, thyme, parsley, peppermint, rosemary and olives.

On the plus side I see my favorite ‘antibiotics herb’ being listed,   triphala. Changing the diet to resistant starches and away from high gluten food. Care must be taken to make sure you do not destroy the resistant starch as shown below:

Using Resistant Starch Content in Foods Commonly Consumed in the United States: A Narrative Review [2020], we see that Lima (butter) beans and Kidney beans should become part of your regular diet.

Antibiotics for Fusobacterium

The reader is interested in antibiotics for fusobacterium. I usually try to discourage single-bacteria focus because side-effects on other bacteria may make the person worse. Often this approach leads to frustrations because things “did not work“.

We start by looking at the antibiotics (this link) where we find 103 different antibiotics that reduces it. Just below this section of the page we also see the bacteria that encourages or discourage; for her latest sample, none of these appear to be in play.

Looking at the suggestions for antibiotics only, and turning all the  Show links to studies used for suggestions and setting the number of suggestions high, we see all antibiotics with probable positive impact, we end up with this list only.

We then click each  link to see what each suggestion actually modifies, on #2, we encounter success. It reduces this bacteria AND increases a different bacteria in the wrong direction (Pediococus is TOO high). This illustrates the challenge of being focused on one bacteria.

Remember that we balance good and bad impact — so remember to check each items

There is no option to model what will probably happen. My goal is to increase the probability of a suggestion being helpful. This is a decision that the medical professional needs to make (ideally after being made aware of side-effects).

Bottom Line

This person is not the usual pattern with pretty extreme shifts in the microbiome. My suggestion for a course of action to discuss with your medical professional would be

• reduce/eliminate any supplements/drugs not listed above for a month
• shift over to the diet style above, with the few probiotics suggested
• start at a low dosage of Triphala (we buy it organic bulk and make our own capsules) and increase it slowly to at least 2 grams/day, ideally 8 grams/day [basis of dosages]

To me the key thing is to simplify the influences on the gut and allow it to stabilize and then proceed from there with changes followed by re-test and a new set of changes.

I have often recommended Piracetam for cognitive issues. I have personally observed dramatic improvement within minutes in others, and observed it with myself. Unfortunately in the US it is not directly available because of FDA rulings (the same situation as for Mutaflor — E.Coli Nissle 1917 probiotic). Mutaflor is well documented (citations) with over 240 studies, and safely used in Europe for over a century — and works far better than any probiotic approved by the FDA.

Today, when I mentioned it, a facebook user wrote “Piracetam seems to come with warnings:” and linked to a JAMA article from 2019.

Our findings demonstrate that even after the FDA rejected an application to market piracetam as a new supplement ingredient,³ the drug was nevertheless introduced into the marketplace. Despite FDA warning letters,⁶ the products remain on the market. Until the law governing supplements is reformed such that products adulterated with drugs can be effectively removed from the market, clinicians should advise patients that supplements marketed as cognitive enhancers may contain prohibited drugs at supratherapeutic doses.

This was not a warning of the dangers of this substance — but a warning of the sale of a substance direct to retail as a supplement ignoring FDA rulings in some products (which seems like a very American attitude 🙂 )

Originally marketed by UCB Pharma in 1971, piracetam was the first nootropic drug to modulate cognitive function without causing sedation or stimulation ¹. It is not approved for any medical or dietary use by the FDA. In the UK, piracetam is prescribed mainly for myoclonus, but is used off-label for other conditions such as learning difficulties in children, memory loss or other cognitive defects in the elderly, and sickle-cell vaso-occlusive crises ⁴. Evidence to support its use for many conditions is unclear.

Piracetam, DrugBank

What is known from studies

Checking PubMed, I found over 3700 studies on it! You do not get that volume of studies from something that does nothing. A few randome studies:

• The potential for one drug, administered at the earliest preclinical stage, to prevent the subsequent decline of cognition that eventuates in dementia [2020] ” Each of four drugs, … minocycline, and piracetam, benefits synaptic impairment. “
• “Piracetam, a nootropic drug that has been clinically used for decades but remains enigmatic due to no distinct understanding of its mechanism of action. …. Piracetam treatment offered significant protection against LPS induced oxidative and inflammatory parameters and inhibited astrocytes activation. ” [2018]
• Piracetam attenuates binge eating disorder related symptoms in rats [2018]
• Piracetam inhibits ethanol (EtOH)-induced memory deficit by mediating multiple pathways [2017]
• Piracetam prevents memory deficit induced by postnatal propofol exposure in mice [2016]

The JAMA was concerned about supratherapeutic doses, i.e. above 1500 mg. Going over to DrugBank Pharmacology resource we read

The cases of overdose with piracetam is rare. The highest reported overdose with piracetam was oral intake of 75g which was associated with diarrhea and abdominal pain; the signs were most likely related to the extreme high dose of sorbitol contained in the used formulation

Piracetam, DrugBank

Bottom Line

I suspect that the FDA ruling for piracetam is similar to that for Mutaflor. The decision was influenced by established american industries with a vested interest in selling their existing (ineffective often) products.

This week’s New Scientist is focused on it. Unlike medical professionals which are renowned for telling dying patients “You will be alright”, science journal writers tend to call spades — tools to bury the dead.

“Long covid: We have ignored post-viral syndromes for too long”

Read more: https://www.newscientist.com/article/mg25033403-400-long-covid-we-have-ignored-post-viral-syndromes-for-too-long/#ixzz6z0JaBI1h

I have taken the liberty to copy their full leader section below.

IN JUNE last year, we first reported in detail on the “strange and debilitating” coronavirus symptoms that were crippling some people’s health for months after infection. Long covid, as we now know it, is indeed strange and mysterious in many ways, as we report on page 10.

But it isn’t surprising. Post-viral syndromes, which often involve extreme, lasting fatigue and other symptoms, are common after many infections. About 1 in 10 people infected with SARS-CoV-2 seem to get lasting symptoms, a similar proportion to those infected with Epstein-Barr virus, one of the most common human viruses. The SARS virus, another coronavirus, left as many as 30 per cent of survivors meeting diagnostic criteria for chronic fatigue syndrome, also known as CFS/ME, four years later.

Based on this knowledge, some doctors, scientists, and people who are already living with CFS/ME, have been warning of a tsunami of long-term debilitating symptoms at the hands of the new coronavirus since early in the pandemic.

“There are no treatments, in part due to a lack of investment in research into chronic fatigue”

Sadly, governments and health systems have taken too long to pay attention. England now has 83 long covid clinics, which are indispensable for some patients, but there is a notable absence in the rest of the UK (see “Inside the UK’s first long covid clinic: ‘It was life-changing”). Clinics are unable to cope with the number of cases and waiting lists run long. This is especially problematic because early action – such as resting rather than taking on too much physical activity – could expedite recovery. Also notable is the absence of public health campaigns on long covid, to reach those who don’t know what is wrong with them or what to do about it.

For now, there are no treatments, in part because we are decades behind where we could be due to a lack of interest and investment in researching post-viral syndromes and CFS/ME.

This must change, and we now need a similar effort for treatments of long covid and other post-viral syndromes that we have seen in the race for a vaccine. In the meantime, people with long covid symptoms must be taken seriously, and given the financial and social support they need to allow them to get better.

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My own model is that post-viral syndrome are supported by a stable microbiome dysfunction. Whatever the mechanism is, it needs the altered metabolites mixture from this dysfunction to maintain the syndrome. Correct the microbiome and the severity of the syndrome will decrease, frequently disappear entirely.