LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 1

REPORT NO. 2009 – 0301

DIGITAL INFRARED THERMAL IMAGING (DITI) PILOT RESEARCH

BIOTHERAPY (CLINICAL BIOENERGY TREATMENT)

BIOTHERAPY

ŠESTINSKI VIJENAC 2

10000 ZAGREB, CROATIA

RECORDING DATE IMAGING I: 25th February 2009

IMAGING II: 3rd March 2009

RESEARCH BY LOGOS TERMODINAMIKA LTD. CO.

VEDRAN PETROVIĆ, Bcc.

Licensed DITI operator with Croatian Society for DITI #020

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 2

DIGITAL INFRARED THERMAL IMAGING REPORT

BIOTHERAPY

CONTENT

DIGITAL THERMOGRAPHY (DITI) METHOD – NEW APPROACH ................................3

INFORMATION & PARAMETERS DITI RESEARCH ......................................................4

BIOTHERAPY – CLINICAL BIOENERGY TREATMENT ..................................................5

SHOULDER PAIN DUE TO A PHYSICAL TRAUMA BIOTHERAPY TREATMENT DITI MEASUREMENT ......................................................6

HANDS LOW BLOOD CIRCULATION BIOTHERAPY TREATMENT DITI MEAUSUREMENT ...................................................9

DITI MEASUREMENT 1 DIAGRAMS ...........................................................................12

DITI MEASUREMENT 2 DIAGRAMS ...........................................................................13

DITI EQUIPMENT INFORMATION ..............................................................................14

DITI LICENCE .............................................................................................................15

«FLIR Systems» DITI CERTIFICATE.............................................................................16

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 3

DIGITAL THERMOGRAPHY (DITI) IN MEDICINE Medical Thermography (digital infrared thermal imaging - DITI) is used as a method of research for early pre-clinical diagnosis and control during the treatment of homeostatic imbalances.

There are few devices, which operate in a passive method like infrared Thermography medicine; amongst these are the ECG and EEG. The intrinsic safety of this method makes infrared Thermography free from any limitations or contraindications.

Thermography is a non-invasive, non-contact tool that uses the heat from your body to aid in making a diagnosis of a host of health care conditions. Thermography is completely safe and uses no radiation.

Medical Thermography equipment usually has two parts, the IR camera, and a standard PC or laptop computer. These systems have only a few controls and relatively easy to use.

The medical applications of DITI are extensive, particularly in the fields of Rheumatology, Neurology, Oncology, Physiotherapy, and sports medicine. Thermal imaging systems are an economical easy-to-use tool for examining and monitoring patients quickly and accurately.

Utilizing high-speed computers and very accurate thermal imaging cameras, the heat from your body is processed and recorded in the computer into an image map which can then be analyzed on screen, printed or sent via email.

A doctor can then use the image map to determine if abnormal hot or cold areas are present. These hot and cold areas can relate to a number of conditions for which the Food and Drug Administration, Bureau of Medical Devices has approved the thermography procedure. These include the screening for breast cancer, extra-cranial vessel disease (head and neck vessels), neuro-muscular-skeletal disorders and vascular disease of the lower extremities.

Some of the common applications of Thermography are in:

• Breast pathologies • Extra-Cranial Vessel Disease • Neuro-Muscular-Skeletal disorders • Vertebrae (nerve problems/arthritis) • Lower Extremity Vessel Disease • Respiratory dysfunctions • Digestive disorders • Urinary diseases • Cardiovascular and circulatory disorders

• Lymphatic dysfunctions • Reproductive disorders • Nervous dysfunctions • Endocrine Disorders • Locomotors Disorders • Surgical Assistance • Skin Problems • Ear, Nose, and Throat dysfunction • Dentistry

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 4

DITI PILOT RESEARCH INFORMATION

DITI RESEARCH 1. Shoulder pain due to inflammation (physical trauma)

2. Hands low blood circulation

USER Biotherapy, Šestinski vijenac 2, 10 000 Zagreb

BIOTHERAPISTS Ivan Roca, Veljko Jurki

PHONE NO. +(385) 915689094

USER WEB & EMAIL www.bioterapija.org / info@bioterapija.org

TERMOGRAFIJA LTD. CO. CONTACT info@termografija.hr

DITI / ANALYSIS Vedran Petrović / Logos Termodinamika Ltd. Co.

0 NO IRREGULARITY Archive measurement result

1 SMALL TEMPERATURE IRREGULARITY Compare with the last check-up and start with standard therapy.

2 MILD TEMPERATURE IRREGULARITY Compare with the last check-up and define future therapy dynamics.

3 BIG TEMPERATURE IRREGULARITY A new approach to therapy, define new therapy dynamics and follow up.

MEASUREMENT ROOM PARAMETERS

Ambient temperature (°C) 17 - 21

Relative humidity (%) 58 – 70

Reflected temperature (°C) 20

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 5

BIOTHERAPY – CLINICAL BIOENERGY TREATMENT Biotherapy is bioenergy assisted immune treatment. Biotherapist is using its own bio-electromagnetic field to stimulate the patient’s immune system in a nonspecific and specific way. The stimulated immune system responds and “heals” the patient.

In conjunction with conventional types of therapeutic medical techniques, biotherapy is effective across a broad spectrum ranging from prevention to assisting recovery of virtually all physical and mental illnesses.

Biotherapy is a powerful, non-invasive and simple treatment with a beneficial effect regardless of age or condition treated.

Biotherapy is complementary and supplementary to all other medical and complementary therapies, even though, in many cases, it is much more successful and efficient.

A biotherapist uses different hand positions and movements in combination with muscular tension and/or relaxation to stimulate the recipient’s immune system for his/her specific medical condition.

Therapist’s hand bio-electromagnetic radiation (human bioenergy) interferes with the bioenergy of a diseased person to alter metabolism and cause body shock response that triggers immune system activation in a specific and non-specific way.

Every movement has a different energetic signature so that biotherapist can access immune response in a different tissue for different purposes.

Immune response due to a “shock” to maintain homeostasis (check danger model of the immune system from Dr. Polly Matzinger), stimulates natural defenses.

DISTANT BIOTHERAPY If for some objective medical reason, the patient cannot attend for treatment in person, a very effective and beneficial distance-healing treatment may be provided.

Results are the same as in group therapy. There is no difference between therapy in-person inside of the group and distance therapy.

During therapy, the patient can experience the same sensations as in therapy in-person. Treatment is noninvasive with measurable results by the biomedical diagnostics.

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 6

DITI MEASUREMENT 1 LEFT SHOULDER PAIN DUE TO INFLAMMATION (PHYSICAL TRAUMA)

BIOTHERAPY PROCEDURE APPLIED DECREASES METABOLIC FUNCTION TO PROMOTE RECOVERY

BEFORE THERAPY

AFTER THERAPY

NOTES:

1. PATIENT EXPERIENCED NO PAIN AFTER 5 MINUTE OF BIOTHERAPY INTERVENTION

Max Temperature 37.5 °C

Min Temperature 19.4 °C

Li1 Max. Temperature 31.0 °C

Li1 Min. Temperature 21.3 °C

sp1 Temperature 28.3 °C

sp2 Temperature 26.8 °C

sp3 Temperature 27.3 °C

sp4 Temperature 26.4 °C

SP1 SP2

SP3

SP4

LI1 36.1 °C

21

35

30

25

34.3 °C

21.4

30

25

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 7

DITI MEASUREMENT 1 TIMELINE IMAGE 1

IMAGE 2

IMAGE 3

IMAGE 4

Image Time 14:33:52 image Date 25.2.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 28.0 °C Sp2 Temperature 32.0 °C Sp3 Temperature 27.4 °C Sp4 Temperature 26.6 °C Image Time 14:35:39 Image Date 25.2.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 28.6 °C Sp2 Temperature 30.0 °C Sp3 Temperature 26.8 °C Sp4 Temperature 34.3 °C

Image Time 14:37:21 Image Date 25.2.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 28.7 °C Sp2 Temperature 34.9 °C Sp3 Temperature 29.0 °C Sp4 Temperature 26.3 °C

Image Time 14:37:21 Image Date 25.2.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 28.7 °C Sp2 Temperature 34.9 °C Sp3 Temperature 29.0 °C Sp4 Temperature 26.3 °C

34.3 °C

30

25

21.4

SP1 SP2

SP3 SP4

SP1 SP2

SP3 SP4

37.1 °C

30

25

21.1

36.3 °C

30

25

21.4

33.5 °C

30

25

21.3

35

35

SP1 SP2

SP3 SP4

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 8

IMAGE 5

IMAGE 6

IMAGE 7

IMAGE 8

Image Time 14:38:44 Image Date 25.2.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 27.5 °C Sp2 Temperature 26.9 °C Sp3 Temperature 25.9 °C Sp4 Temperature 25.4 °C

Image Time 14:38:56 Image Date 25.2.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 27.2 °C Sp2 Temperature 26.8 °C Sp3 Temperature 27.4 °C Sp4 Temperature 25.3 °C

Image Time 14:47:52 Image Date 25.2.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 27.6 °C Sp2 Temperature 27.6 °C Sp3 Temperature 27.3 °C Sp4 Temperature 27.6 °C

Image Time 14:49:29 Image Date 25.2.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 28.9 °C Sp2 Temperature 28.4 °C Sp3 Temperature 28.3 °C Sp4 Temperature 27.3 °C

34.3 °C

30

25

20.6

36.1 °C

30

25

21

32.1 °C

25

20

14.6

31.4 °C

30

25

17.2

30

15

20

SP1 SP2

SP3 SP4

SP1 SP2

SP3

SP4

SP1 SP2

SP3 SP4

SP1 SP2

SP3 SP4

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 9

DITI MEASUREMENT 2 HANDS LOW BLOOD CIRCULATION – UNKNOWN MEDICAL REASON

BIOTHERAPY PROCEDURE APPLIED INCREASES METABOLIC FUNCTION TO PROMOTE RECOVERY

BEFORE THERAPY

AFTER THERAPY

NOTE:

1. BIOTHERAPIST IVAN ROCA PERFORMED FIRST THERAPY IN PERSON AND AFTERWARDS THERAPY AT DISTANCE WITHOUT PHYSICAL CONTACT WITH THE PATIENT. IN BOTH CASES WE RECORDED IMPROVEMENT AND SIGNIFICANT BIOLOGICAL EFFECT.

Max Temperature 32.0 °C Min Temperature 17 °C Li1 Max. Temperature - Li1 Min. Temperature - sp1 Temperature 30.2 °C sp2 Temperature 31.2 °C sp3 Temperature 30.8 °C sp4 Temperature 31.3 °C

34.3 °C

16.9

30

25

20

31.7 °C

18.3

30

25

20

SP1

SP2

SP3

SP4

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 10

DITI MEASUREMENT 2 TIMELINE IMAGE 1 (BEFORE THERAPY)

IMAGE 2 (CONTACT THERAPY)

IMAGE 3 (AFTER CONTACT THERAPY)

IMAGE 4 (BEFORE DISTANT THERAPY)

Image Time 14:51:06 Image Date 5.3.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % sp1 Temperature 20.2 °C sp2 Temperature 28.2 °C sp3 Temperature 30.7 °C sp4 Temperature 31.2 °C

Image Time 14:35:39 Image Date 5.3.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 28.6 °C Sp2 Temperature 30.0 °C Sp3 Temperature 26.8 °C Sp4 Temperature 34.3 °C

Image Time 14:56:55 Image Date 5.3.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 23.0 °C Sp2 Temperature 28.3 °C Sp3 Temperature 30.5 °C Sp4 Temperature 31.9 °C

Image Time 15:01:38 Image Date 5.3.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 25.0 °C Sp2 Temperature 24.8 °C Sp3 Temperature 27.5 °C Sp4 Temperature 26.2 °C

33.2 °C

25

20 19.5

30 SP1

SP2 SP3

SP4

31

SP1

25

20.3

30

32.3 °C

25

20

17.0

30 SP1 SP2

SP3 SP4

34.3 °C

25

20.6

30

SP1 SP2

SP3

SP4

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 11

IMAGE 5 (DISTANT THERAPY)

IMAGE 6 (DISTANT THERAPY)

IMAGE 7 (DISTANT THERAPY)

IMAGE 8 (AFTER DISTANT THERAPY)

Image Time 15:08:15 Image Date 5.3.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 24.7 °C Sp2 Temperature 23.4 °C Sp3 Temperature 24.0 °C Sp4 Temperature 25.0 °C

Image Time 15:10:53 Image Date 5.3.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 28.2 °C Sp2 Temperature 28.3 °C Sp3 Temperature 26.0 °C Sp4 Temperature 25.6 °C

Image Time 15:11:35 Image Date 5.3.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 28.4 °C Sp2 Temperature 28.2 °C Sp3 Temperature 27.7 °C Sp4 Temperature 26.8 °C

Image Time 15:12:39 Image Date 5.3.2009 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Sp1 Temperature 29.4 °C Sp2 Temperature 28.8 °C Sp3 Temperature 30.7 °C Sp4 Temperature 31.3 °C

34.3 °C

25

19.5

30 SP1 SP2

SP3

SP4

35.5 °C

25

20.4

30

35 SP1 SP2

SP3

SP4

32.7 °C

25

19.2

30

20

SP3 SP4

SP1 SP2

SP1

SP2

SP3

SP4

31.7 °C

20

18.3

35

30

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 12

DITI MEASUREMENT 1 BEFORE THERAPY

AFTER THERAPY

Date 5.3.2009 Max Temperature 34.7 °C Min Temperature 20.0 °C Image Time 14:33:52 Emissivity 0.96 Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Object Distance 2.0 m Li1 Max. Temperature 32.4 °C Li1 Min. Temperature 21.9 °C

Date 5.3.2009 Max Temperature 37.5 °C Min Temperature 19.4 °C Image Time 14:38:56 Emissivity 0.96 Object Distance 2.0 m Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Li1 Max. Temperature 29.8 °C Li1 Min. Temperature 22.2 °C

LI1

LI1

34.3 °C

25

21.4

30

36.1 °C

30

21.0

35

25

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 13

DITI MEASUREMENT 2 BEFORE THERAPY

AFTER THERAPY

Date 5.3.2009 Max Temperature 35.4 °C Min Temperature 18.7 °C Image Time 14:51:06 Emissivity 0.96 Object Distance 2.0 m Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Li1 Max. Temperature 31.1 °C Li2 Max. Temperature 25.1 °C Li1 Min. Temperature 19.7 °C Li2 Min. Temperature 20.0 °C

Date 5.3.2009 Max Temperature 32.0 °C Min Temperature 18 °C Image Time 15:12:39 Emissivity 0.96 Object Distance 2.0 m Atmospheric Temperature 17.0 °C Relative Humidity 65.0 % Li1 Max. Temperature 31.4 °C Li2 Max. Temperature 30.4 °C Li1 Min. Temperature 19.7 °C Li2 Min. Temperature 19.5 °C

LI1

LI2

33.2 °C

25

19.5

30

20

LI2

LI1

31.7 °C

25

18.3

30

20

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 14

DITI EQUIPMENT LIST

IR CAMERA SERIAL NUMBER LENS SPECTRUM CALIBRATED

THV 570 PRO 348489 FOV 24 -20 °C – 120.0 °C 09.02.2007

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 15

DITI LICENCE

LOGOS TERMODINAMIKA LTD. CO. – DITI RESEARCH – REPORT NO. 2009-0301 16

“FLIR Systems AB” DITI Certificate