Naturopathic Nutrition Year 2 Assessment & Diagnostics PDF

Summary

This document covers naturopathic nutrition year 2 assessment and diagnostics, including functional vs. conventional testing, microbiome analysis, and stool testing. It emphasizes the importance of understanding the context of test results in the client's history and lifestyle.

Full Transcript

Naturopathic Nutrition Year 2
Assessment and Diagnostics

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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Learning Outcomes
In today’s lecture you will learn:
Functional vs. conventional testing.
Stool and SIBO testing.
Vaginal and oral microbiome testing.
Organic acid testing.
Nutritional testing.
Thyroid testing. Functional tests covered in this
lecture are referred to in relevant
Adrenal testing. lectures this year. This is where you
DUTCH testing. learn the treatment protocols.

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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Introduction
Introduction: RECAP:
As naturopathically-trained nutritional therapists, What is the
you have a variety of evaluation tools including rule of 3?
tongue, nail and facial diagnoses to help you
better understand a client’s problems.
Further testing can be utilised to provide
you with a more detailed insight into the
client’s body functions and dysfunctions.
Laboratory tests can support you to guide
and refine your therapeutic plan so that it is
as effective and individualised as possible.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Functional vs. Conventional Testing
Functional testing: Focuses on how body systems are functioning.
Diagnostic testing: Looks for markers to diagnose an illness.
As naturopathic nutritional therapists we are
interested in how the systems of the body are
working as a whole, and what we can do with
our therapeutic tools to help optimise them.
Functional testing can provide a deeper insight
into the client’s bodily processes, which helps to
find the optimal nutritional and lifestyle plan for
a client. It is not used to ‘diagnose’ a disease.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Functional vs. Conventional Testing
Scope of practice:
There are some crossovers between functional and diagnostic
testing. For example: Vitamin D3, thyroid and hormonal testing.
It is important to recognise your scope
of practice. Only order a test if you feel:
– Comfortable with what you will do with
the information that comes from the test.
– Comfortable in referring to a GP if you
find information that worries you in the results.
However, testing can be a wonderful adjunct to
your ability to support a client in a more holistic way. 5
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Functional vs. Conventional Testing
The functional aspect of conventional testing:
Diagnostic testing run by a GP can give functional information.
It is often helpful to look how close parameters fall to the edge
of the ‘reference range’ ― using the range provided by the lab.
Be aware that ‘reference ranges’ are
diagnostic, whilst ‘optimal ranges’ indicate
a need for support to maintain homeostasis.
Always ask clients to bring blood test results in,
even ‘normal’ ones, so that you can check for optimal functioning.
Vitamin D example: Conventional medicine considers levels over
50 nmol / L sufficient. The optimal range is approx. 75-125 nmol / L.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 6
 Functional Testing
Benefits: Downsides:
Helps to uncover a deeper Functional tests are provided
understanding of imbalances to privately, and so can be expensive.
help inform a naturopathic plan. Always ask yourself: is the test
Can make a plan more likely to change the outcome
targeted and effective. / the plan you create?
They can sometimes be
Allows to quantitatively
challenging to read and interpret.
measure a client’s progress,
which benefits the client As they are not diagnostic, it
as they can clearly see can be difficult to communicate
improvements. results to medical doctors.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 7
 Functional Testing
Interpreting functional tests: The context:
When looking at interpreting any
What were the symptoms
functional test, remember that: at time of testing?
– A test is a snapshot in time, and to Do they correlate
understand this you need the context. with the results?
What is the dietary
– We are looking for patterns. One pattern this person
marker alone is less relevant, but adheres to? Can this
an array of markers occurring in a impact the results in
a predictable way?
pattern, and with context (symptoms) Is there any activity at
gives a clear guide as to the system the test time that could
under stress that requires support. affect the results?
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 8
 Apply the
Functional Testing rule of…

Interpreting functional tests:
Key point: The presence or absence of a
marker does not necessarily equate to disease.
Always apply the rule of 3 — for example in the
context of using functional testing for SIBO:
1. Clinical symptoms (e.g., bloating after
eating, flatulence, constipation).
2. Stool test microbial findings (e.g.,
raised Methanobrevibacter bacteria).
3. Other stool testing findings indicating
poor digestion (e.g., raised faecal fats).
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Standard deviation =
Reference Ranges measure of proximity
to the mean (average)

Reference ranges:
Reference ranges are obtained by measuring a
sample of the population and then setting the mean
and standard deviation parameters of what is viewed as ‘normal’.
Reference ranges and units of measurement can vary from lab to
lab and in different countries (hence, re-test with the same lab).
There can be variances in reference ranges for variabilities such
as age, gender, ethnicity — the lab should give the parameters.
Again, always look at the pattern and the context ―
if a lab result is within reference range but near cut-off
and the client has symptoms, function may still be affected.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 10
 Functional Testing
Testing companies:
You are eligible to set up a student account
with all functional medicine test companies.
This will give you access to all of their interpretive
guides, technical calls and clinical materials.
The main functional testing companies are:
– Genova, Invivo Healthcare, Regenerus,
Cambridge Nutritional Sciences, Biolab UK, Functional Dx.
For direct to patient testing: Thriva and Medichecks.
Which lab? Consider: What does the company specialise in?
What support do they offer? What is the company ethos?
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Microbiome Testing
Micro from Greek meaning ‘small’
Microbiomes are complex microbial Biome from Greek bios ’life’
ecosystems that occur within different Microbiomes are ecological
communities of microorganisms
areas (known as niches) of the body found in and on all multicellular
(GI, vaginal, oral, skin, urinary etc): organisms
Microbiota includes bacteria,
Microbiome balance can play a archaea, protists, fungi and viruses
role in health and disease, and is key
in relation to the concept of the terrain.
Microbiome science is constantly
changing at a rapid rate.
The microbiome is dependant on cultural,
dietary, environmental and familial aspects.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Microbiome Testing
Gastrointestinal microbiome — stool testing:
“All disease starts in the gut” — Hippocrates.
Emerging microbiome science supports this
in many ways, and newer methodologies in
testing has enabled stool testing to gradually
become much more available and accurate.
You may wish to use stool testing to help
optimise a diet for a healthful microbiome,
ascertain if there is possible increased intestinal
permeability, look for the presence of inflammation,
gas-producing bacteria, or in some cases pathogenic microbes.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Commensal = Latin commensalis,
Microbiome Testing from com ’with’ + mensa ‘table’
— ‘one who eats at the same table’

Microbiome terms defined:
Commensal — microbes that live in harmony
with the host (us) and provide a benefit to us. Helicobacter
pylori
Pathogenic — microbes that possess certain evolutionary
advantages to invade our microbiome at a cost to our health.
Pathobiont — microbes that live with us and normally don’t
pose a problem unless there is clear opportunity.
Gram negative bacteria — bacteria that possess an outer
cell wall, normally rich in lipopolysaccharides (LPS).
LPS — the major component of gram-negative bacteria which
have the ability to induce inflammation and immune responses.
(Turnbaugh et al. 2007; Littman &
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. Pamer, 2011; Kamada et al. 2013)
 Also referred to as a
Stool Testing ‘CDSA’ = a ‘comprehensive
digestive stool analysis’.

Stool testing is a good way of What is Metabolic Endotoxaemia?
getting a comprehensive snapshot ‘An immune response that becomes a
of digestive function and the GI sub-clinical, persistent, low-grade
microbiome at a given time: inflammation because of increased
circulating endotoxins (LPS)’.
It can be helpful when working Normally happens in conjunction with
with GI complaints or for more poor GI barrier integrity.
chronic systemic illnesses in Can be a risk factor for many chronic
diseases such as insulin resistance,
which poor GI function might be diabetes, CFS, autoimmunity.
relevant. This includes the
consideration of metabolic endotoxemia.
(Cani et al. 2007;
Each lab will provide their own collection instruction guide. Creely et al. 2007)
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 15
 polymerase = an enzyme

Stool Testing used to assemble DNA
occult = hidden

Comprehensive stool tests can evaluate:
Microbial markers such as commensal bacteria, pathogenic
bacteria, parasites, pathobiont microbes, mycology, sometimes
worms (these are often best seen visibly in the stool).
Host markers — markers made by the human
host such as immune, digestive, inflammation,
intestinal permeability and occult blood.
Methodologies of stool testing mostly include:
Polymerase chain reaction (PCR) — DNA testing
of the microbe, and doesn’t require a culture.
Culture with MALDI-TOF or microbiology assessment.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 16
 pathobiont = microbes
Stool Testing that only cause a problem
if there is clear opportunity

Interpreting stool tests: The presence of a
When looking at stool testing, you are microbe or raised
marker alone does
looking at a relationship between the
not always equal
individual person and their microbes. disease.
People may carry pathobiont microbes,
without any issues to their health.
We want to look for correlations of the
symptoms + microbes + host markers.
First and foremost, you must have taken a
thorough case including GIT symptoms and
dietary patterns to be able to interpret accurately.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Stool Testing
Interpreting stool tests (cont.):
Use the interpretative guides provided by the lab
doing the test, as each test will require a different reading.
Note: Different stool tests will include different target markers.
Reference ranges in the microbiome are hard to ascertain as
there is a large range of normal, so don’t panic if something is in
or out of range — look at the whole pattern. Talk to the lab directly
if you are concerned about the amount of one of the microbes.
Different dietary models are well known for impacting the
microbiota in different ways — so knowing the client’s diet is
important to be able to read a stool test accurately.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Stool Testing
Dietary
Models
and the
Microbiota:

© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. (Rinninella et al. 2019) 19
 Ideally repeat a mid-
Stool Testing range calprotectin after
6–8 weeks, or after the
treatment plan.
Host markers — inflammation:
Marker: Interpretation:
Calprotectin: Flagged as high over 50 µg / g. Between 50‒175 is
A protein made ‘mid-range inflammation’. The elevation is triggered
by leukocytes by damage to the epithelial lining — in worst case
when they have scenarios IBD, ulcers, cancer, but in most
migrated to and scenarios, relates to pathogens, NSAIDS etc.
are active in the NHS (UK): A screening marker for IBD.
GI wall. If over 175 µg / g with symptoms and no
It is a diagnosis / investigation, a re-test is required.
marker If raised on a second test, it requires referral.
of inflammation. Note: NHS boroughs have different cut-offs. 20

(Catalán et al, 2011; Sherwood & Walsham,
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 2016; Walsham & Sherwood, 2016; NICE, 2019)
 beta-glucuronidase = de-
Stool Testing conjugates molecules such as
hormones (e.g. oestrogen)

Host markers — inflammation (cont.):
Marker: Interpretation:
Eosinophil Normal range: 4.6 mcg / g.
Raised with intestinal inflammation and
in cases of food allergies, parasites, colitis.
Host markers — metabolic:
Marker: Interpretation:
Beta-glucuronidase: Elevated — often due to dysbiosis and
An enzyme made by a western diet ↑ in red meat / animal protein.
some intestinal bacteria. When high it can interfere with oestrogen
excretion (= ↑ circulating oestrogen). 21
(Van Odijk et al. 2006; Jung & Rothenberg, 2014;
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. Kwa et al. 2016; Yang et al. 2017; Baker et al. 2017)
 How might
Stool Testing you increase
PE-1?
Host markers — digestion:
Marker: Interpretation:
Pancreatic elastase (PE-1): Normal range: 200–500 µg / g.
Proteolytic enzymes excreted < 200 µg / g — need digestive support.
by the pancreas that do not
Exocrine (digestive) pancreatic
breakdown in the GIT. Correlate
with levels insufficiency: 100–200 µg / g.
of amylase, trypsin etc. Severe insufficiency: 62ng / g ― might be a sign
Antimicrobial peptides of the immune system responding
produced by the GI to a breach by microbes, or due
wall when breached. to GI inflammation e.g., UC. 23

(Brandtzaeg et al. 2006; Kapel et al. 2009; Langhorst
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. et al. 2009; Mantis et al. 2011; Dzunkova et al. 2016)
 Stool Testing
Host markers ― intestinal permeability:
Marker: Interpretation:
Zonulin family peptide: High > 100 µg / g ― may be raised in
A peptide produced by severe intestinal permeability (e.g., due to
epithelial cells when the poor nutrition, heavy metals, drugs,
GI tight junctions are alcohol, dysbiosis) and coeliac disease.
open. Note ― even if it is 0, it does not rule out
other modes of ‘intestinal permeability.’
The patterns of microbes can also be clues
T to intestinal permeability.
(Fasano et al. 2000;
Exercise: How can you support the intestinal barrier? Fasano, 2012;
Moreno-Navarrete et al. 2012)

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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Stool Testing
Commensal bacteria:
One of the major indicators of health in
the microbiota of humans is diversity.
In the commensal markers, check for:
‒ Plenty of diversity (check that all bacteria are accounted for).
‒ Good levels of short-chain fatty acid producers (next slide).
‒ Good levels of Bifidobacterium (check that it is
taking up more space than E. coli) and Lactobacilli.
Diets lacking diversity (e.g., junk food diet, FODMAP
diet), over-eating, antibiotic usage and chronic
conditions can impact these levels in an adverse way. 25
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 -ate in chemistry

Stool Testing indicates that it
is an acid

Bacteria: Butyrate Proprionate Acetate
Short chain fatty acids (SCFAs):
SCFAs are by-products of
bacterial fermentation of fibre.
The most common being
butyrate, propionate and acetate.
The epithelial cells of the colon use
butyrate as their main fuel source
— maintaining the intestinal lining.
SCFAs can also affect appetite Check for these bacteria
and modulate inflammation. on a stool test.

Low SCFAs — caused by antibiotic use, low fibre diets, diarrhoea.
(Pryde et al. 2002; Fernandez et 26
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. al. 2016; Louis & Flint, 2016)
 mucin = a glycoprotein
Stool Testing constituent of mucus

The mucosal lining:
Low mucosal integrity can be associated with local
symptoms such as ulcers, IBD and gastritis, but
can also be associated with too much cross-talk
between the gut microbiota and immune system,
resulting in metabolic endotoxemia (i.e., a
different type of increased intestinal permeability).
The presence of high levels of mucin-degrading
bacteria, low diversity of commensal bacteria
and high gram-negative bacteria, in conjunction
with client symptoms, may reflect this issue.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. (Okurmura, 2018)
 Stool Testing
Mucin-degrading bacteria:
Akkermansia muciniphila is an important mucin-degrading
bacteria but equally plays a protective role to the mucosal barrier.
Absent levels are a risk factor for metabolic endotoxemia
patterns of disease (obesity, insulin resistance, autoimmunity).
Note — low FODMAP diets can lower Akkermansia spp.
Ruminococcus gnavus (R.gnavus) or R.torques in
high amounts, coupled with low diversity, has been
proposed as a mechanism for autoimmune disease.
Absence of diversity in Bacteroides sub-groups can
cause the bacteria to become more mucin-degrading.
(Everard et al. 2013; Geerlings 28
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. et al. 2018; Xu et al. 2019)
 Hydrogen sulphide gas
Stool Testing —think rotten egg smell

Gas-producing bacteria:
Some bacteria are well known for their ability to cause gas,
and can sometimes be implicated in ‘gassy’ symptoms or SIBO.
Methanobrevibacter smithii — associated
with methane gas production.
Desulfovibrio spp. and Bilophila wadsworthia
— associated with hydrogen sulphide gas.
Many bacteria are hydrogen-producing.
If you suspect SIBO (which can be indicated by raised levels of
the above strains), you may consider doing a breath test as well.
(Ghoshal
et al. 2016)

© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 29
 Stool Testing
Pathobionts:
Pathobiont bacteria are bacteria that only become pathogenic
when there is an opportunity (i.e. if the terrain changes).
It is important to compare an abundance of them in relation
to the commensal bacteria and host markers.
Avoid ‘blaming and shaming’ bacteria just because
they are present. Remember — pattern and context.
Many well known bacteria fit this picture, e.g.,
Prevotella copri, Klebsiella spp., Staphylococcus
aureus. Always read them within the context of the
host markers, symptoms and the health of commensals. (Kamada et al. 2013)

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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 FIT = faecal immunochemical
Helicobacter pylori test (detects minute amounts
of blood in faeces)

Helicobacter pylori (HP):
Many people carry a level of commensal strains of HP.
Other more pathogenic strains of HP can carry ‘virulence factors’,
allowing them to turn infectious, adhering to and damaging the
gastric mucosa.
The presence of HP doesn’t always equal disease; read
alongside symptoms and markers such as calprotectin and FIT.
HP stool testing:
Faecal antigen testing — reported as negative or positive.
Faecal PCR tests — there will always be an amount of HP. Look
for a higher-than-expected amount or presence of virulence factors.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Stool Testing
Pure pathogens:
Not many, but some microbes are purely pathogenic in
nature, and we would rather not carry them at all if possible.
Again however, as testing is so sensitive, it is worth checking
symptoms to make sure it correlates with your case, and also
check the levels.
Examples of pathogens: Natural anti-microbials include:
– Giardia spp. Oregano oil, garlic
(allicin), barberry
– Clostridium difficile.
bark (and berberine),
– Entamoeba histolytica.
thyme, clove, sage.
– Shigella.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Stool Testing
Parasites — not always as bad as they sound?
Many of us carry some weird and wonderful sounding amoebas
and parasites that might be picked up with extensive testing.
Always ask: “Has this parasite proven to be pathogenic in
humans, or is it maybe more a sign of healthy diversity?”
A good example of a ‘shamed’ parasite is Blastocystis hominis:
‒ In a small number of the population, it
may cause IBS-like symptoms. BUT…
‒ It can be found in a high level of healthy
population groups, and may also be a
sign of health and a diverse microbiome.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Stool Testing Review TWO
stool tests —
compare what
they include
Analysing a stool test:
Remember pattern and context. Ask yourself:
– Are there signs or symptoms that match the microbe?
– Are the host markers abnormal?
– Is there gut inflammation? High or low immune function?
– Lack of diversity? Presence of pathogenic strains?
When markers are out of range, as
naturopaths we want to establish why.
For example: Low pancreatic elastase might
be a result of chronic stress and low HCl. This is
crucial in order to address the underlying cause.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 34
 Case Example: Stool Test
Jack, 33 years, computer analyst, inactive (long hours at desk).
Presenting complaint:
Lower abdominal discomfort and loose stools (BSC–6).
Bloating after eating large meals, bread and Indian takeaways.
Onset: Gradual over about 2 years (aged 29–31) — no specific
trigger; Jack mentions he gets stressed with his work demands.
Saw gastroenterologist (aged 31): Colonoscopy — told he has IBS.
History: Not breastfed, natural birth, lots of antibiotics whilst at
university (aged 18–21) — recurrent chest infections.
Diet: Pescatarian for 7 years (↑ white fish). High white carbohydrate
intake, snacks on dark chocolate, no fruit, mostly vegetables. 35
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Case Example: Stool Test
Stool test interpretation: Evidence of intestinal inflammation
— we must establish WHY this is
the case. Lower inflammation, e.g.:
↓ gluten + sugar, ↑ vit. D3, fish oils
(EPA+DHA), curcumin, polyphenols
(e.g. quercetin), chamomile.
A need for digestive support
(e.g. minimising snacking, ↑ bitters –
dandelion greens, rocket, gentian
Less likely to have ↑ etc.) — possibly low due to chronic
intestinal permeability stress, inadequate HCl, snacking.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Case Example: Stool Test
Stool test interpretation (cont.): Are all commensals present?
A.muciniphila is absent — it has
a protective role in the mucosal
lining. ↓ levels indicate possible
mucosal damage. Polyphenols ↑
Akkermansia (e.g. grape extract).
Bacteroides spp., F.prausnitzii
and R.bromii should always be
abundant. Bacteroides spp. are
a little low (can be ↑ by eating
whole grains such as brown rice).
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. (Taira et al. 2015; Anhê et al. 2016) 37
 Case Example:
Stool Test
Stool test interpretation (cont.):
The 3 bacteria that are typically present:
Bilophila, Hafnia and Veillonella.

Bilophila and Desulfovibrio spp. may
explain bloating. Possible SIBO.
↑ Veillonella spp. — linked with liver
disorders. Indicates a need for liver
support to help remove excess LPS
through the biliary system (e.g.,
dandelion root, burdock root, artichoke).
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 38
(INVIVO, 2021)
 Case Example: Stool Test
Stool test interpretation (cont.):
↑ Methanobrevibacter along
with Bilophila and Desulfovibrio
spp. is suggestive of SIBO.
Consider SIBO breath test.
SIBO protocol is possibly
indicated, with an initial phase
of anti-microbials.
Ruminococcus gnavus is often
present and is normal up to
about 8 — beyond this it is
associated with mucosal
degradation.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. (Ghoshal et al. 2016) 39
 Case Example: Stool Test
Stool test interpretation (cont.):
No presence of a
fungal overgrowth
such as candidiasis.

Dientamoeba fragilis is
present. This is not
necessarily problematic, but
can be, and might be
causing symptoms such as
cramping, urgency and
diarrhoea. Further supports
a need for anti-microbials.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 CFU = colony
SIBO Testing forming units

Small intestinal bacterial overgrowth (SIBO) = a bacterial
count in the small intestine of over 105 CFU / ml.
In SIBO, fermentation of carbohydrates in the small
intestine results in raised hydrogen or methane.
Breath-testing is a non-invasive test that is
looking for the gases made by fermenting
bacteria (hydrogen or methane) after set
points in time in which the patient has
ingested a substrate that the bacteria eats.
After the substrate is taken, breath samples
are collected every 20 or 30 minutes.
(INVIVO, 2021)
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 SIBO Testing
Substrates:
Types of substrates (bacterial food) used for the breath test:
‒ Lactulose (very popular — may give false positives as it is
known to speed up transit time, making it hard to read).
‒ Glucose (there are less false positives, but absorbs
quickly so might not pick up distal positives).
‒ Fructose (less commonly used; gives you the
bonus of seeing if there is fructose intolerance).
There is contention on which is the best substrate
to use as they all have the possibilities of false
negatives or even some false positives.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 SIBO Testing
SIBO testing:
Breath test substrates — rely on your case taking to see
what types of foods to which your client reacts worst out of the
three substrates, to get an idea of the best substrate to use.
Consider doing a SIBO test alongside a stool test as it is rarely
present in isolation, it is a part of a bigger ecosystem disorder.
Correct the underlying cause:
SIBO is frequently associated with poor MMC
functioning, low stomach acid and pancreatic
juice, poor ileocaecal valve functioning and
low IgA. What could these result from?
43
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 SIBO Testing
Breath test preparation diet:
A strict preparation diet should be done 24 hours before to get an
accurate baseline, where microbiota-feeding foods need avoiding.
The only foods allowed are:
– Any meat / poultry / fish / seafood that is not cured or brined.
– Plain, steamed white rice (not brown).
– Eggs.
– Clear meat broth (made only from the
meat, no bone / cartilage or vegetables).
– Fats / oils (coconut / olive / vegetable oils, butter, or lard).
– Salt and pepper (no other herbs / spices).
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Transition to the
SIBO Testing large intestine
occurs at
around 90 mins
Interpretation:
Gases analysed: Positive result:
Increase in hydrogen: A rise of 20 ppm before 90 minutes.
Increase in methane: A rise of 12 ppm before 90 minutes
(or in severe constipation, a rise as little
as 3 ppm might indicate a problem).
Increase in combined A combined rise of 15 ppm before 90
methane / hydrogen: minutes.
When fructose is used as the substrate, fructose
intolerance can also be determined by a rise of
gas in the large intestine after 120 minutes.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 SIBO Testing
SIBO Test
Results
Example:
Positive for
hydrogen and
methane.
This is the same
information as
above, but
plotted on a
graph.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Vaginal Microbiome Testing
bacterial vaginosis = an imbalance of the
The vaginal microbiome (VMB): Lactobacilli dominant vaginal composition
Plays a crucial role in vaginal, reproductive and maternal health.
1 billion bacteria / gram of vaginal fluid
in reproductive-age women.
The VMB is affected by numerous host
factors as shown in the image.
When to test the VMB?
Bacterial vaginosis (BV), recurrent thrush,
infertility, miscarriages, endometriosis and
to provide an insight into vaginal ecology
and its interaction with host immunity.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. (Kamińska & Gajecka, 2017) 47
 Vaginal Microbiome Testing
Vaginal testing markers: Test using a swab into the vagina (at home)

Marker: Interpretation:
pH: Low vaginal pH indicates high
A healthy vagina (of a reproductive age levels of lactic acid and a
woman) has an acidic pH of around 3.8 healthy vaginal microbiota.
to 4.5. This should prevent pathogenic High vaginal pH (>4.5) is
microbes from growing. Lactobacilli play indicative of overgrowth of
a major role in producing hydrogen BV-associated bacteria and
peroxide to maintain the pH. vaginal dysbiosis.
Interleukin beta-1: Healthy: 220 pg / ml —
epithelial cells break apart (e.g., infection). BV or candida overgrowth. 48

© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. (Fichorova et al. 2004; INVIVO, 2021)
 Vaginal Microbiome Testing
Vaginal microbial markers (cont.):
Lactobacilli produce lactic acid,
creating an acidic environment
that is inhospitable to many
non-Lactobacillus commensals
and potential vaginal pathogens.
Vaginal health is associated with
low community diversity, but
Lactobacilli dominance. More
diversity = a shift in pH and host immune response modifications.
Look to see that Lactobacilli are taking up the most space.
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(O’Hanlon et al. 2013)
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
Vaginal Microbiome Testing
Case example:
55 year old menopausal client.
Presents with a watery-grey
vaginal discharge / hot flushes.
Results show:
Very low Lactobacillus + lots of
commensals overgrowing
(= ↑ diversity) + ↑ IL-1 indicating
inflammation. Indicative of BV.

© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 50
 Vaginal Microbiome Testing
Supporting the VMB:
Avoid: Soap in the vagina (wash with water only); antibiotics;
the copper coil (↑ the colonisation of BV-associated microbiota);
common lubricants (opt for jojoba oil which is similar to semen
pH); excessive simple carbohydrates and alcohol; smoking
(by-products are secreted into the vagina); vaginal douching.
Include: Vaginal probiotics. Optimise the oral and GI microbiomes
which have been shown to have an impact on the vaginal flora.
Menopausal oestrogen support (e.g. flaxseeds, black cohosh etc.)
Diet: Focus on a diverse range of prebiotic and probiotic foods
to support Lactobacilli growth, as well as polyphenols.
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 Oral Microbiome Testing
The oral microbiome is another niche microbiome in
the body, harbouring approximately 2 billion bacteria.
Dysbiosis of the oral microbiome
is associated with tooth decay,
periodontitis and even oral cancer.
Some of these bacteria can also
be associated with cardiovascular
disease, autoimmune conditions
(e.g., RA) and Alzheimer’s disease, as periodontitis = chronic
the more pathogenic ones can release inflammation of the tissues that
surround and support the teeth
endotoxins (LPS) into the bloodstream. (Mustapha et al. 2007;
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Paquette et al. 2007; Friedewald et al. 2009;
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. Kebschull et al. 2010; Zelkha et al. 2010)
 Oral Microbiome Testing
Pathogens in the oral microbiota:
The ‘orange complex’ bacteria
are ones that are starting to
biofilm together and recruit an
unhealthy biofilm in the mouth.
The ‘red complex’ are pathogens
highly associated with disease.

(Socransky & Haffajee, 1998; Syrjänen
et al. 2011; Pushalkar et al. 2012)
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 53
 www.naturopathy-
Oral Microbiome Testing uk.com/resources/
resources-dentists

How to support the oral microbiome:
Diet: Optimise levels of prebiotic fibres and polyphenols.
Probiotic foods (e.g., kombucha, kefir). Minimise processed
carbohydrates and trans-fats. Avoid snacking (it does not
allow time for the oral pH to recover between meals).
Avoid mercury fillings / remove them using a specialist dentist.
Brush your teeth at least twice a day. Floss with a
‘water-pik’. Oil pull. Rinse salt water around the mouth.
Scrape your tongue (balances the oral microbiome).
Use a probiotic mouthwash. Avoid smoking, antibiotics.
Use biofilm disruptors such as NAC where appropriate.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 54
 Stool and Vaginal Test: Case Exercise
Open the TWO results documents labelled ‘Case A’. Using the
INVIVO interpretative guides for the stool test (GI Ecologix)
and vaginal microbiome test (Vaginal Ecologix) identify key
findings and write aims and recommendations for this client.
Maxi, female, 37, works in marketing. IUI = intrauterine insemination
Presentation: Has been trying to conceive for 4 years. After
2 years of not falling pregnant, she had Clomid and IUI twice —
falling pregnant and miscarrying under 8 weeks both times.
2 IVF cycles privately. In cycle 1, the embryo didn’t
take. In cycle 2 she fell pregnant but miscarried
again before 8 weeks. Suspected high NK cells.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 55
 Stool and Vaginal Test: Case Exercise
Has had multiple courses of antibiotics, as well as the hormonal
interventions of IVF. Hormones have been tested multiple times.
Diet: Started a Mediterranean diet, but doesn’t always stick to it.
Supplements: Pre-conception care multivitamin with methylated
B vitamins and a probiotic containing Lactobacilli.
Other: Getting frequent colds and feels generally run down.
Slight vaginal soreness after intercourse; vaginal mucus is prolific
and grey and depending on her cycle, sometimes fishy smelling.
Periods are normally regular, but not so much since the latest IVF.
‒ She is getting mild bloating and is anxious
and wants to try another IVF round quickly.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 56
 Organic Acid Testing (OAT)
Organic acids are natural by-products
(metabolites) created from the functioning
of many enzymatic pathways in the body
— including mitochondrial activity.
They can be measured by urinalysis.
They are used to get a window into the
functioning of these pathways — all of
which need certain nutrients as co-factors.
It is an indirect way of identifying needs
for vitamins and minerals, and other factors.
It is a functional assessment of nutrient status.
© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ. 57
 Organic Acid Testing (OAT)
Which clients might benefit from organic acid testing?
Cases of chronic fatigue, suspected nutritional deficiencies,
suspected mitochondrial dysfunction, autism, mood disorders.
Where to obtain an OAT?
Biolab (now at Viva Health), Genova, Invivo (Biotek lab) and
Regenerus (Great Plains Lab) — some have environmental
pollutants or extra microbial markers included.
Quiz: Considering that OAT is
useful for assessing mitochondrial
activity, recap the stages of ATP
production. What nutrients are needed?
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Organic Acid Testing (OAT)
OAT benefits: OAT downsides:
Can give you a good overview of Can be hard to interpret — use
metabolic function — helping you the specific interpretation guides
to see where areas of weakness provided by each lab and
might be in biochemical pathways their support materials.
and therefore, an extra need for Diet eaten at the time of
certain nutrients. the test can really impact on
Can help to guide your markers — changing the results.
naturopathic care plan Not measuring the vitamin
into clear areas that need directly — so you are making an
addressing or further investigation assumption based on function.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Organic Acid Testing (OAT)
OAT metabolite groups: Ketone and fatty acid
Markers associated with oxidation metabolites.
nutritional function. Indicators of detoxification.
Metabolites associated. Amino acid metabolites.
with the Krebs Cycle. Bacterial metabolites
Some neurotransmitter associated with dysbiosis.
metabolites. Some tests include.
Oxalate metabolism. environmental toxins such
Glycolysis metabolites (balance as exposure to phthalates,
between lactate / pyruvate). parabens, toluene etc.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Organic Acid Testing (OAT)
Interpreting OATs:
Outcome is displayed by showing how far the client’s
result is from the mean (away from the average).
When reading results, you are looking for organic acids
that are out of range in relation to the pathways they
belong to, to see what needs support (see next slide).
Every lab provides a very thorough interpretive guide and nutrient
overview. This is what needs to be used to interpret the test —
even experienced practitioners have to use these guides.
Remember — it is a snapshot in time, all functional tests need
context to interpret (symptoms, dietary pattern, case assessment).
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Organic Acid Testing (OAT)
OAT in clinic:
OAT can be purchased as a stand-alone
test, which is often the cheapest option.
Many practitioners that use genetic testing
use an OAT test alongside to see if there is an
impact on pathways from suspected problems in the genetic tests.
– For example: Low levels of catecholamine metabolites (OAT)
might be accompanied by methylation SNPs (genetic test).
OAT markers are often incorporated into other nutritional panels
such as many of the large Genova nutritional panels that offer
tests with multi-methodologies in them (e.g., NutriEval testing).
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Organic Acid Testing (OAT)
Sample report: The headings tell you what pathways are being covered

The numbers Indication
give you a of a low
quick reference vitamin C
to the status
interpretation (common
at the end and to see).
Focus on
also to cross
optimising
reference in the vitamin C
interpretative status.
guides.
The results are placed on a scale showing how
far the result is from the mean (average).
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Organic Acid Testing (OAT)
Sample report section and corresponding parts of interpretation guide:

How might this translate into a clinical presentation?
How might you address these findings?
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Note: ‘Case B’ can be found
OAT: Case Exercise on your student portal under
the lecture notes.

Open ‘Case B’. Using the Great Plains Laboratory OAT interpretive
guide, identify key findings and write aims and recommendations.
Rachel, female, 40 years old, finance director (high stress), gave up
work due to her health last year. Mother of 2 boys (aged 2 and 4).
Presents with: Chronic nocturnal pruritus
on face, neck and abdomen, atopic
eczema and asthma, seasonal allergies,
insomnia (due to itching), low energy.
Food intake: Gluten, dairy and refined
sugar free, cooks all food from scratch,
grazes on home-baked snacks.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 OAT: Case Exercise
Case B — Rachel (cont.):
Beverages: Recently switched to decaffeinated coffee (2 per day).
Observations: Scarred and thickened skin in areas.
Blood tests: ↑ ESR, ↓ vitamin D.
Additional: Symptoms became worse
after breastfeeding last son, ceased
1 year ago. During first pregnancy
diagnosed with eczema herpeticum
(HSV-1), vaccinated as a child and
given flu shot when pregnant both times.
Tonsillectomy and glandular fever in teens.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 serum =
Nutritional Testing refers to blood

Nutritional testing options:
Serum testing — good for standard nutrients like vitamin
B12 and D3. Also good for inflammatory markers.
Red blood cell (RBC) testing — can show
minerals and toxic elements taken up into RBCs,
which is a good indicator of ‘tissue levels’.
Urine testing — either looking for organic
metabolites, or pure excretion (organic
acid testing or toxic metal profiles).
Hair mineral testing — to see what
minerals have been laid down in the hair.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Nutritional Testing
Testing for deficiencies can be challenging:
One place you can look for clues is the
blood (serum). This doesn’t always tell
you how the tissue is utilising a vitamin
or mineral, and as many are under
homeostatic control, the blood levels stay
quite stable until an extreme is reached.
You may need to look at other markers
to assess the functioning of certain
pathways that require those nutrients.
– For example, an organic acid test which is a urine test.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Nutritional Testing
Serum options:
Serum vitamin B12 and serum folate:
- B12: The ‘active form’ of B12 is holotranscobalamin.
- Homocysteine is a functional biomarker for low B9 and B12.
- Methylmalonic acid (MMA) is a more sensitive index
of B12 status compared to serum B12. It can be tested
via serum and urine. The most common cause of
raised MMA in the urine is vitamin B12 deficiency.
Serum ferritin (iron storage capacity):
- More accurate than testing serum iron. Optimal ranges will differ
(e.g., male, female, child), but they are approx. 30-100 ug / L.
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Nutritional Testing
Serum options (cont.):
Vitamin D3: Optimal levels of over 75 nmol / L, but many
practitioners prefer it between 100 nmol / L to 150 nmol / L.
Serum magnesium: Will only show up a very frank
deficiency — consider testing cellular levels instead.
Serum calcium: Is generally only for
showing kidney / hormonal problems as
it is under such strict homeostatic control
it only drops out of reference range in the
extreme. Consider other forms of testing
functional levels (e.g., RBC nutrients, OAT).
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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Refer to the lipids
Nutritional Testing lecture in nutrition year 1

Essential fatty acids (EFA’s): Specialised labs can
test the omega-3 to 6 ratio and blood levels of all EFAs.
Genova report showing, for example: Omega 6:3 ratio
A need to increase LA (e.g., sesame) (Great Plains lab):
and lower arachidonic acid (e.g., meat).

10:1 omega
6:3 ratio

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© CNM: Nutrition 2: Assessment and Diagnostics. DC / BQ.
 Serum Testing – Other
Inflammatory markers:
Marker: Interpretation:
C-Reactive Normal CRP range: