We have created a simple and cheap system of monitoring and correction of condition of patients with diabetes through the tiny device in the form of an accessory to the mobile phone. In the basis of the diagnostic test Аkabane. Individual correction is done with the help of the address of influence on certain organs and systems through certain specially calculated point of modulated infrared radiation. All calculations are made on the server. The system is designed for the mass market
1. Principals of thermopuncture diagnosis
working system, monitoring and treatment of
patients with diabetes.
Valery Muzhikov, Phd, CEO of “Med Byte” Ltd.
Mail: mujikov_v@mail.ru
“Home Doctor on a mobile phone
Gold medal - USA 2009
Silver medal RAVI - Moscow 2009
2. Our history.
We work on creation of devices for thermopunctur diagnostics and treatments
with 1990г. For this time it is issued more than 10 versions of devices. We have
received 14 patents in Russia and abroad, 3 monographies and more than 40
publications are issued. Now under license contracts devices are certificated,
made and sold in Europe, Asia, Australia and Russia.
1990 1993 1995 1996
1998 2000
2004
German Patent DE 199 83 992 from
20.01.2009
РСТ PCT/RU2006/00567, WO 2008/054235
2007 A1 from 28.05.2008
3. MedByte
Description of the technology
Over 15 years of work, we have created a new technology
for diagnosis and treatment on the basis of the influence
on certain information points on fingers modulated with
IR-radiation.
On the basis of this technology, we have created system
estimations of the level of biochemical and physiological
parameters of an organism calculated on the basis of
individual mathematical models on the training gauging.
The treatment is bloodless and painless and gives a
predicted result after just 15-20 minutes.
Simultaneously, with the help of an estimation of the
individual biorhythms of separate organs it is possible to
predict the condition of various parameters of an
organism for the next few days.
• Our advantages:
• Devices demand no special knowledge;
• Gives a reliable result explained from the point
of view of modern physiology;
• Easy to mass produce;
• Opportunity to forecast a condition for the next
few days in order to address preventive
treatment.
4. Basic principles of diagnosis
1. Evaluation of pathology according to the channel map profile
•
Norm Ischemia of a
myocardium
The diagnosis of diseases and the control of
the general condition are carried out on an
estimation of structures of parameters on 12
basic physiological systems of an organism.
Pancreatitis
Thus even simple visual estimation allows
the features of each organism to be revealed.
6. Basic principles of diagnosis
• 3. Making individual and group models to control basic the parameters of the
organism
• Group model of correlation between blood sugar in patients with type 1 diabetes
• ---------------------------------------------------------------------------------------------------------------
• Channels coefficients mean error t-critic. significance level
• ---------------------------------------------------------------------------------------------------------------
• constant 23.881392 5.918608 4.0350 0.0005
• RPs -6.106297 2.759818 -2.2126 0.0371
• Fd 6.432937 1.32788 4.8445 0.0001
• Ed -13.91464 4.019018 -3.4622 0.0021
• Rd -4.004711 1.893141 -2.1154 0.0454
• RPd 5.202921 1.436439 3.6221 0.0014
• ---------------------------------------------------------------------------------------------------------------
• R-SQ. (ADJ.) = 0.7522 SE= 8.393783 MAE= 5.667226 DurbWat= 1.814
• Previously: 0.4522 12.480549 7.979804 1.556
• 54 observations fitted, forecast(s) computed for 0 missing val. of dep. var.
• +Data Mining (Accuracy 0,8-0,9)
• + NGO (Accuracy 0,7-0,85)
7. Basic principles of diagnosis
4. Estimation of specific features of an organism and mechanism indemnification in type 1 diabetes
Ñðåäí è å ñ î ø è á êàì è è ñõî äí û õ ï î ðî ãî â ÷óâñòâè òåëüí î ñòè
(í å í î ðì è ðî âàí í û õ í à ñóì ì àðí û å äàí í û å) Structures of activity of channels
Amosov. Norma
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Norm
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Anna. Diabetes I
16 Type 1 diabetes with don't preserved-function B-cells
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Borgest. Diabetes I
cells. These patients were selected on the
16
14
12
10
basis of the test and may be included in
8
6
the basic research. They are most likely to
4 respond to Leptin treatment and most
effectively carry out the forecast state
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based on an assessment of pancreas
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biorhythms.
8. Simple way of testing the organism at the level of its separate physiological systems based on an assessment of loss of
symmetry. The example of the pancreas (RP) has proved that the temperature pain barrier of the right channel's branch reflects
the total activity of B-cells and the left one – for A-cells
This principle works at the level of all channels, due to its universal nature.
А-cells
9. Method of achieving quantitative assessment of the features of the principal organism.
Blood sugar level assessment according to the degree of the channels’ misalignment.
Test of pancreas (RP) 6
d s
Right Left
Norm
11 9
48 6
Typical type 1 diabetes with partial preservation of
function B-cells.
The presence of this atypical test asymmetry
10 24 along with high levels of blood sugar points to
insulin resistance. In these patients, an
increase in the level of sugar is due to the high
activity of A-cells that produce the contra
insulin hormone (Glyukogon). These patients
will display the best responses to treatment
with Leptin.
10. Assessing the biorhythmic activity of organs and the physiological system
Ä è í à ì è ê à î ò í î ø å í è é F ir e /W a te r _ d & F ir e /W a te r_ s
â çà â è ñè ì î ñò è î ò í î ì åð à è çì åð åí è ÿ
F ir e /W a te r _ d
1 F ir e /W a te r _ s
2 .0
1 .5
Y Data
1 .0
0 .5
0 .0 The biorhythmic activity of the
pancreas, liver and kidneys over 38
0 2 4 6 8 1 0 1 2 1 4 1 6 1 8 2 0 2 2 2 4 2 6 2 8 3 0 3 2 3 4 3 6 3 8
X D a ta
2
3 .0 days based on the results of our
2 .5 tests.
Y Data
2 .0
1 .5
1 .0
0 .5
0 .0
0 2 4 6 8 1 0 1 2 1 4 1 6 1 8 2 0 2 2 2 4 2 6 2 8 3 0 3 2 3 4 3 6
X D a ta
3
3 .0
2 .5
Y Data
2 .0
1 .5
1 .0
0 .5
0 .0
0 2 4 6 8 1 0 1 2 1 4 1 6 1 8 2 0 2 2 2 4 2 6 2 8 3 0 3 2 3 4 3 6 3 8 4 0 4 2 4 4
X D a ta
11. The principal of generating biorhythms in the organ and its
channel
∆t>0 Norm
The organ does not work
∆t=0
12. Basic principals of working system - prognosis of condition organ
Real gauging
Biorhythm
Prognosis
real time at this moment
13. Basic principal of working system - prognosis of the condition of organs
MODEL: glucose = 8,6xRpd – 2,3xVBs
At different times
of the day, due to
the varied activity
of organs under
the action of
biorhythms, the
blood sugar level
also changes.
When estimating
a biorhythm, it is
possible to
predict the
change in sugar
for the next 1-2
days.
T1 T2
Rp=5 Rp=8
Vbs=16 Vbs=20
Sugar=6мМoll/l Sugar=23 мМоll/l
14. The device functions over a GPRS-connection
- The device works as an organiser with the creation of an optimum
lifecycle for patients with, for example, diabetes.
- The device indicates and forecasts blood sugar levels for the current IR- sensor for
day by means of a real time diagram. The sugar level is shown not in control and
digits but by the thickness of colour on the coloured scale, which
makes it easier for a patient to use and understand the information treatment
- The system indicates an optimum dose of insulin and the time of
injection.
- The optimum time for a meal is defined with the help of an
estimation of the biorhythms of certain organs and is shown on a
screen.
- Measurements are made by touching certain acupoints on the fingers
sugar- level
and toes using the special gauge with IR sensor
15. The concept of displaying the information to the user
The screen does not Diabetes 1 type
show absolute Sugar
numerical values of
glucose. The level of Norma
glucose is shown on a
colour scale of varying
intensity, as on the
diagram. Thus, the
- +
device is not a means high level
of metrology, and only low level
shows the tendency in
sugar change (much,
very much or a little).
SP SP
As required, the user is
able to place individual Left Right
marks on the screen.
Furthermore, as soon
as a set of sufficient
Sugar prediction
statistics is available,
the device can be +
positioned individually
as a glucometer. Norma
- 12:30 Time 15
16. The concept of displaying the information to the user
Type 2 diabetes
Sugar
Norma
- +
LI
LIV
GB Left
ST
SI
The activity of each organ in an LIV
GB
individual model contributes to the DI
formation of blood sugar levels. Right
Sugar prediction
+
Norma
- 12:30 Time 16
17. The concept of displaying the information to the user
Type 1 diabetes
First type diabetes. Influence of insulin doze.
Sugar prediction
+
Norma
The device can be equipped with
- a system for calculating an
optimum dose of insulin and the
Time
time of optimum introduction.
5 units 5 units
Diagrams of influence of different
doses can be submitted to the
user and to his/her doctor for
download from the internet. This
allows one doctor to supervise
Time
the condition of 30-40 patients
through the special PC
10 units 10 units programme on a daily basis.
8:00 12:30 14:00 Time
18. System pulse - diagnosis on the basis of three-dimensional
analysis of the heart rhythm
Further development of the system
In the past, Chinese doctors defined the conditions of various organs on the basis of pulse diagnosis. We can also
do this by means of pulse diagnosis using a measurement of temperature sensitivity. We developed this system 12
years ago, but its realisation at the time was dependent on a powerful computer and specialised knowledge. Now,
the modern mobile phone allows basic calculations to be performed, with periodic transmission of data to a server.
Thus, if this principle is realised, the information concerning the activity of different organs will be transmitted to the
phone via sensors measuring heart contractions (for example from a special watch (“POLAR”) for controlling the
heart rhythm). These data will be processed on individual models on the basis of periodic calibration of the system.
In this case, the activity of the channels will be continuously estimated in real time, without the need for frequent
gauging.
Rhythm of heart contractions
The special 3D spectral analysis
of heart rhythm.
19. Heart rhythm spectral component estimation system
Diagram of organ activity over time
Numerical value of organ activity at the present time