Assessing the Potential of Thermal Imaging in Recognition of Breast Cancer.

BACKGROUND Breast cancer is a common disorder in women, constituting one of the main causes of death all over the world. The purpose of this study was to determine the diagnostic value of the breast tissue diseases by the help of thermography. MATERIALS AND METHODS In this paper, we applied non-contact infrared camera, INFREC R500 for evaluating the capabilities of thermography. The study was conducted on 60 patients suspected of breast disease, who were referred to Imam Khomeini Imaging Center. Information obtained from the questionnaires and clinical examinations along with the obtained diagnostic results from ultrasound images, biopsies and thermography, were analyzed. The results indicated that the use of thermography as well as the asymmetry technique is useful in identifying hypoechoic as well as cystic masses. It should be noted that the patient should not suffer from breast discharge. RESULTS The accuracy of asymmetry technique identification is respectively 91/89% and 92/30%. Also the accuracy of the exact location of identification is on the 61/53% and 75%. The approach also proved effective in identifying heterogeneous lesions, fibroadenomas, and intraductal masses, but not ISO-echoes and calcified masses. CONCLUSIONS According to the results of the investigation, thermography may be useful in the initial screening and supplementation of diagnostic procedures due to its safety (its non-radiation properties), low cost and the good recognition of breast tissue disease.

[1]  Janet E. Hiller,et al.  A systematic review of elastography, electrical impedance scanning, and digital infrared thermography for breast cancer screening and diagnosis , 2013, Breast Cancer Research and Treatment.

[2]  D. Petitti,et al.  Saving Women's Lives: Strategies for Improving Breast Cancer Detection and Diagnosis , 2005 .

[3]  I. Beales,et al.  The role of obesity in oesophageal cancer development , 2014, Therapeutic advances in gastroenterology.

[4]  P. Gupta,et al.  Evaluation of digital infra-red thermal imaging as an adjunctive screening method for breast carcinoma: a pilot study. , 2014, International journal of surgery.

[5]  Cruz-Ramírez Nicandro,et al.  Evaluation of the Diagnostic Power of Thermography in Breast Cancer Using Bayesian Network Classifiers , 2013, Computational and mathematical methods in medicine.

[6]  Infrared Imaging Does Not Predict the Presence of Malignancy in Patients with Suspicious Radiologic Breast Abnormalities , 2014, The breast journal.

[7]  U. Rajendra Acharya,et al.  Thermography Based Breast Cancer Detection Using Texture Features and Support Vector Machine , 2012, Journal of Medical Systems.

[8]  G. Wishart,et al.  The accuracy of digital infrared imaging for breast cancer detection in women undergoing breast biopsy. , 2010, European journal of surgical oncology : the journal of the European Society of Surgical Oncology and the British Association of Surgical Oncology.

[9]  E. Y.-K. Ng,et al.  A review of thermography as promising non-invasive detection modality for breast tumor , 2009 .

[10]  K. Kelly,et al.  Breast cancer detection using automated whole breast ultrasound and mammography in radiographically dense breasts , 2009, European Radiology.

[11]  D. Watmough,et al.  The thermal scanning of a curved isothermal surface: implications for clinical thermography. , 1970, Physics in medicine and biology.

[12]  Marcus C. Araújo,et al.  Interval symbolic feature extraction for thermography breast cancer detection , 2014, Expert Syst. Appl..

[13]  R. Simmons,et al.  Effectiveness of a noninvasive digital infrared thermal imaging system in the detection of breast cancer. , 2008, American journal of surgery.

[14]  T. Jayakumar,et al.  Medical applications of infrared thermography: A review , 2012, Infrared Physics & Technology.

[15]  Syamsiah Mashohor,et al.  A review of computer assisted detection/diagnosis (CAD) in breast thermography for breast cancer detection , 2013, Artificial Intelligence Review.

[16]  J. Steketee Spectral emissivity of skin and pericardium. , 1973, Physics in medicine and biology.