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Infra red digital imaging in medicine.

Introduction

Since when the thermometer had been found it was known that every illness changes the temperature of the body or the sick organ. According to that, is made this special camera which can register changes even to the hundredth part degree in some organ in the body. It registers infrared radiation of the body which changes with changing of temperature as a result of patological processes of organisam or illnesses. After the computer elaboration, there is the warmth "portrait" of a man on the screen with belts of higher or lower temperature which is important for diagnosis. On that way there is a possible diagnostic for early discovering of illness for which there are existing standard methods of escorting, but also diagnostic of illnesses which are existing nowadays and where the thermovision is playing the main role.

Many far-east countries such as Malesia, Hong Kong, Korea, Singaphure, Taiwan as well as Australia had introduced a bound thermowision control of the pasengers at the airports as prevention of many infective and virus illnesses. [2]

The adventages of thermovision over the classic instruments for diagnostic are:

--Harmless method: there is no radiation or other harmfull influence because it registers only infrared radiation of the body;

--Diagnosting of illness in the early begining, when there is still no organ changes, as there is no functional change of organs. The classic instruments can not do that;

--Testing all functiones and body systems and giving the complet image of healthy state of the organisam;

--Can discover a huge number of different illnesses in the early begining;

--Do not require special preparations for taking down of image;

--On the screen the patient can see by himself his illness, and he gets all images, so called thermograms, at the end of taking down of the mentioned. [3]

Thermovision is the scientifical discipline which measures the temperature of objects without direct contact with the mentioned object (without mediating of other bodies) by using the equipment for thermovision. In this process by using the special camera you can get infrared image on which you can see the thermal energy emited by the object that was taken down. The most important part of equipment is thermovision camera by which you can take down the temperature map of the object, or better say the temperature dividing of the object surface. The images you get with this process are called thermograms.

As a difference of transfering with conductione and convectione which are behaving lynear according to temperature differences, the transfering of heath with radiation depends of the third degree of temperature differences. The energy which is radiated from some surface is proportionally to the fourth degree of absolute temperature of the same surface. If you want to measure the temperature from the distance, you will need some information about that temperature. This information is consisted in physical law according which all the bodies emit the energy:

W = f ([epsilon], T)

where is:

[epsilon] = emissivity

T = absolute temperature K

[ILLUSTRATION OMITTED]

The thermical radiance is, as the light, the photon phenomen which is present in electromagnet area. The visible light captures the part of spectar from 0,4 [micro]m to 0,75 [micro]m, infrared spectar captures the part from 0,75 [micro]m to 1000 [micro]m. The part of 20 [micro]m is the most interesting for measuring.

On the way from the body that is in radiation, to the body which receives the heath (to the camera), in reality conditiones, there is air. The part of heath will be absorbed. For shorter distances absorpcione can be ignored, but for longer distances, over 10m, absorpcione can be the source of mistake. But, in dependence from wave-length, absorpcion changes and according to that two "windows" exist and in that windows the absorpcione is ignored. The first "window" is into the interval from 3 to 5 [micro]m, and the other one is from 8 to 14 [micro]m. Most of infrared detectors are used from the "second window". (Image 2)

[ILLUSTRATION OMITTED]

The existing of other obstructiones as the glass or quartz can invite the need to bare in mind spectra characteristics of obstructione material in programing the camera. [4]

Equipment and Software For Thermovision

PC computers become the main part of modern healthy system. The production of digital images enable the communication by computer network on the simple way.

The thermovision camera has became the reliable and effective tool for discovering of different infectiones and temperature changings on the human organisam.

Also, the big advantage of this kind of temperature measuring is that on one thermogram the temperature dividing of the whole imaged surface is shown, and it can be very big.

Software for thermovision

After taking images with thermovision camera, they are throwed on PC computer. There is a need to install the appropriate software on computer to make this procedure possible. Generally, the software arrangement for thermovision camera will enable following functions:

* throwing of thermogram from thermovision camera to PC computer

* elaboration of thermogram

* organisation of thermogram at files

* complete analysis of thermogram

* making reports for chosen thermogram

Here is used software arrangement SnapViewPro Version 2.1. On image 3 the developing environment of this software arrangement with its basic help description is shown. [4]

[ILLUSTRATION OMITTED]

Every shown image of thermogram in catalogue can be magnified. In dependence of mouse position on thermogram in Image Temps you can set the temperature in that point. Also, minimal and maximal temperature of whole thermogram is shown. The conection between colours on thermogram and temperature is shown in the window Palette of software arangman SnapViewPro, as it is shown on the image 4.

[ILLUSTRATION OMITTED]

By using of option Tool [right arrow] Isotherm the window IsoTherm-Substation is shown on the screen and by moving the cursor on this screen we can get the temperature isotherm.

By choosing of option Tool [right arrow] Palette map the window Palette Map - substation is shown on the screen and there it is possible to place minimal and maximal temperature of thermogram. With this analysis you can get the thermogram of set temperature interval.

By choosing of option Tool [right arrow] AlarmZonerConfiguration we can get the window where we can place the temperature for some specific points, lines or areas on thermogram. When the camera detected the reaching or crossing of limitation it generates one outgoing signal or alarm message which is shown on the screen.

Using

By process of thermovision with digital ultra red thermovision camera thermograms in patient diagnostic are made and that is all using in Sanitary center Bor.

Methods

The study analyses evidence for the existence of patients in 9 healthy volunteers (mean age [+ or -] SD 38.7 [+ or -] 3.7 years; range 35-45 years). Two infrared cameras at different wavelength ranges were used for thermographic control. In addition to thermography, temperature and microcirculatory parameters were registered at a selected point using laser-Doppler flowmetry. Patients are very carefully chosen. Also the angles of standing of camera according to patient's body and the way of its programming are always submitted to deeper analysis before taking down of images.

The laboratory work has followed taking the thermogram. On PC computer with instaled software arangman SnapViewPro Version 2.1. you first conect digital IR thermovision camera. With this software arangman you can make transfer of thermogram from thermovision camera to PC computer. Further analisys of thermogram can be done with software arangman. In further text there are shown reports from SnapViewPro Version 2.1. [4]

Report Image 4 - IR 00326

Breasts

[ILLUSTRATION OMITTED]
Info:

Image Path         F:\THERMOVISION\DR.BOGDANOVIC\IR00326.ISI
Image Date/Time    12TH February 2006 15:43:30
Report Date/Time   20TH February 2006 21:31:27
Temp Unit          Celsius
User               Dr. Bogdanovic Gora
Location           Sanitary service Bor
Target             Breasts


Data: Comments: Benignant changes

Report Image 5 - IR 00340

Right Breast CA

[ILLUSTRATION OMITTED]

Info:
Info:

Image Path         F:\THERMOVISION\DR.BOGDANOVIC\IR00340.ISI
Image Date/Time    20TH February 2006 14:20:27
Report Date/Time   20TH February 2006 21:27:52
Temp Unit          Celsius
User               Dr.Bogdanovic Goran
Location           Sanitary center Bor
Target             Breast


Data:

Comments:

Malignant changes

Report Image 6 - IR 00340

[ILLUSTRATION OMITTED]
Info:

Image Path         F:\THERMOVISION\DR.BOGDANOVIC\IR00326.ISI
Image Date/Time    12TH februar 2006 15:43:30
Report Date/Time   20TH februar 2006 21:31:27
Temp Unit          Celsius
User               Dr. Radosavljevic Vidoje
Location           Sanitary center Bor
Target             Prostate gland and kidney


Conclusion

The high thermovision technology has brought a new abilities and new challenges. With digital infrared thermovision camera Woehler IK 21 and software arrangement SnapViewPro Version 2.1, it is done taking down of temperature map (thermogram) and their analysis in Sanitary center Bor in Bor.

Here is presented only one of possible applications of thermovision process and thermovision camera, as well as software arangman in diagnostic of finding malignant changes on breast, prostate gland and kidney in their early begining.

By forming of model base - thermomap of healthy patients, patients with different degrees of illness and with their comparation with patients who are asking for help time by time there is a possibility of making software for simulation of development and attendanting of illness in different ages.

With patients who were diagnostic with traditional methods thermograph has solved for confirmation of diagnose. This researchin has shown that with mentioned method you can initiate the starting diagnose as prerequisite for other scientific researchs.

Starting from fact that infrared camera gives us IR images in real time, it's application is usefull for finding sick persones on the places with many people as bus and railway stationes, airports, hipermarkets, business centres, stadions and sport objects.

With early separation of infected persons it is possible to stop expansion of grippe infection and similar infectiones, such as SARS and grippe of birds.

The possibilities for using of this method with help of mentioned equipment and software or unlimited and they are going throught different areas of application.

References

[1] Gerhard L. Infrared thermography fails to visualize stimulation-induced meridianlike structures. BioMedical Engineering OnLine. 2005; 4:38 01-08 doi: 10.1186/1475925X-4-38.

[2] Harrison PA, Srinivasan K, Binu VS, Vidyasagar MS, Nair S. Risk factors for breast cancer among women attending a tertiary care hospital in southern India. International Journal of Collaborative Research on Internal Medicine & Public Health. 2010; 4 (2): 109-116 doi: http://www.iomcworld.com/ijcrimph/files/v02-n04-04.pdf

[3] Hadzimusic N, Katica M, Muharemovic Z, Musanovic J. Effect of Temperature Storage on Hematological Parameters of Avian Turkey Blood. International Journal of Collaborative Research on Internal Medicine & Public Health. 2010; 2(5): 158-166.

[4] Damnjanovic Z. Developed Computers Communication network. New module Authentication Users-Clients [Master Theses]. Bor: Technical Faculty in Bor University of Belgrade; 2007.

Zvonko Damnjanovic

University of Belgrade, Technical faculty Bor, Serbia

Email: zdamnjanovic@tf.bor.ac.rs

Dejan Petrovic

University of Belgrade, Technical faculty Bor, Serbia

Radoje Pantovic

University of Belgrade, Technical faculty Bor, Serbia

Zavisa Smiljanic

STAD dental, Krunska 6a, 11000 Beograd, Serbia

Email: stad_dental@yahoo.com

Corresponding author: Zvonko Damnjanovic (zdamnjanovic@tf.bor.ac.rs)

Correspondence concerning this article should be addressed to Zvonko Damnjanovic, Technical Faculty Bor, University of Belgrade, V.J. 12, 19210 Bor, Serbia - Email: zdamnjanovic@tf.bor.ac.rs

Paper review summary:

Paper submission: September 25, 2010

Revised paper submission: December 01, 2010

Paper acceptance: December 02, 2010

Paper publication: December 17, 2010
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Article Details
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Author:Damnjanovic, Zvonko; Petrovic, Dejan; Pantovic, Radoje; Smiljanic, Zavisa
Publication:International Journal of Collaborative Research on Internal Medicine & Public Health (IJCRIMPH)
Article Type:Report
Date:Dec 1, 2010
Words:1898
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