Hello, and welcome to a new training video
Today we are talking about the
virtual model.
And I'd like to show you what it has
in store for us.
I started here on the cerebral cortex and
went down a few cross-sectional images.
And the neurocytes show most of the
disease tendencies in this scan.
We'll take a look at the different
pathologies.
We have an overreaction of
the immune system, lupus.
Then we have suspected Alzheimer's disease,
neurasthenia, Lyme disease and also
further away from the spectral similarity
neuralgias, headaches, radiculopathies
scleroderma, epilepsy and even herpes zoster
that may be dormant there.
So, we have an overall statement.
Of these diseases, it is incredibly difficult
to find out which is now the easiest,
the best and the most important to treat.
That's what the virtual model is for.
Because the virtual model makes a
weighting for us,
which disease now seems to be
image-determining for the patient's condition
in the respective organ.
So we have these diseases to choose from.
And it may well be that if, for example,
Lyme borreliosis appears at 0.363
and the Borrelia bacteria with a higher
coefficient are in the list,
that they are still important and
worthy of attention.
So here we have a statement about
disease tendencies.
But if we go to the "Analysis Module" tab
and click on the "Virtual Model" button there,
it shows us a very clear weighting.
Here in this case of one disease and
that is dyslupus.
With different buttons and functions
we have already found out that Lyme disease
was the original problem that triggered
the lupus.
In medicine there are always several
variations of a treatment.
Causative, symptomatic or both in parallel.
Here you wouldn't know directly without the
virtual model whether you should treat
causally or symptomatically.
And then, since we have a wide range of
pathologies here, which disease is
in the foreground.
So here the virtual model shows us
that we should first get the overreaction
of the immune system under control,
and then just treat further.
And then to be able to make a new selection.
If we now want to use the virtual model
in the recommendation module,
we can tick a few things.
And when we have ticked these things,
the virtual model shows us which mixture
fits best.
That means that a weighting is clearly
given here,
but it shows us which mixture of remedies,
which can then be taken together,
would give a better yield for our therapy
than the individual remedies.
So, we click on several things,
I have now taken registers at random.
Click on the button "Virtual Model".
And here it shows us that quadruple lutein,
quadruple rutin, double the grapevine as a
gemmo therapy the silver fir would be important.
The individual registers may show
individual things and which of the
Spectral Similarity fit best.
But with this variant, we have a pre-selection
of the best combination for our problem
without reworking.
That is, our device has preselected which
disease has the absolute relevance
in purely mathematical terms.
And by clicking on the recommendation
module tabs, we have then worked out .
a special combination.
If we now go to a single register,
this is also possible,
so that we don't do several in parallel,
but go to a single register.
The amino acids, for example.
Or the allopathy.
Then we can apply the virtual model
to that register as well.
The amino acids are not quite so important.
They are marked in yellow
and a little higher are the coefficients.
But still for demonstration purposes
it is suitable to show how different
the combinations can turn out.
And so, with your favourite registers
you can find out a perfect mixture
aon the disease nd play these remedies
and then prescribe them.
Yes, that was actually it from the virtual model.
It is really great that we can work out
a prioritisation with the virtual model
and that we can produce very special means.
And maybe once again for the production,
if we want to play up the amino acids
that we just had as an example,
then it is of course possible to test
and play up the virtual model.
And we can then use the expert module to test
the whole virtual model on our neurocytes.
It shows a 19 percent improvement here.
And if we are satisfied with the improvement
- 20 per cent is really really good with the HUMAN TS -
then we can upload the whole thing
with the internal reprinter.
That's it from my side on the virtual model.
Have fun and success trying it out.