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ISSN: 1023-5086

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Opticheskii Zhurnal

A full-text English translation of the journal is published by Optica Publishing Group under the title “Journal of Optical Technology”

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УДК: 616.13.002.2-004.6

Possibilities of a method of active thermolocation probing of a projection of the carotid arteries in patients with atherosclerotic stenosis of the carotid arteries

Stulin, I.D., Budadin, O.N., Ivanushkin, E.F., Solonskiy, D.S., Sazonova, A.G., Trukhanov, S.A.

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For Russian citation (Opticheskii Zhurnal):

Стулин И.Д., Будадин О.Н., Иванушкин Е.Ф., Солонский Д.С., Сазонова А.Г., Труханов С.А. Возможности метода активного термолокационного зондирования проекции сонных артерий у больных со стенозирующим атеросклерозом сонных артерий // Оптический журнал. 2015. Т. 82. № 7. С. 75–79.

 

Stulin I.D., Budadin O.N., Ivanushkin E.F., Solonskiy D.S., Sazonova A.G., Trukhanov S.A. Possibilities of a method of active thermolocation probing of a projection of the carotid arteries in patients with atherosclerotic stenosis of the carotid arteries [in Russian] // Opticheskii Zhurnal. 2015. V. 82. № 7. P. 75–79.

For citation (Journal of Optical Technology):

I. D. Stulin, D. S. Solonskiĭ, A. G. Sazonova, S. A. Trukhanov, O. N. Budadin, and E. F. Ivanushkin, "Possibilities of a method of active thermolocation probing of a projection of the carotid arteries in patients with atherosclerotic stenosis of the carotid arteries," Journal of Optical Technology. 82(7), 455-458 (2015). https://doi.org/10.1364/JOT.82.000455

Abstract:

This paper discusses the possibilities of a new thermal-vision method—active thermolocation probing—in the detection of atherosclerotic plaques of the carotid arteries, as well as in evaluating their status. It is demonstrated that this method of investigation is sensitive with respect to atherosclerotic plaques having ultrasound symptoms of instability (a risk factor of cardiovascular complications).

Keywords:

atherosclerosis, thermography, telethermography, duplex scanning, carotid arteries

OCIS codes: 110.3080, 170.7180, 170.3880

References:

1. World Health Statistics 2012 (World Health Organization, France, 2012).
2. N. O. Katamadze, S. S. Laznam, L. L. Bershteı˘n, and Yu. N. Grishkin, “Subclinical atherosclerosis of the carotid arteries in patients with traditional cardiovascular risk factors,” Serdtse. Zh. Praktik. Vracheı˘ 12, No. 3(71), 135 (2013).

3. I. D. Stulin, Yu. B. Belousov, A. Yu. Vasil’ev, G. I. Stulin, N. V. Lochan, N. V. Lyseı˘ko, D. S. Solonskiı˘, A. G. Sazonova, M. V. Suleı˘manova, and M. T. Matskeplishvili, “How can the recognition of atherosclerosis of the carotid arteries be improved in so-called symptomless patients under conditions of the ordinary clinical hospital?” in Transactions of the First National Congress on Cardioneurology, Moscow, 2008, p. 69.
4. I. D. Stulin, R. S. Musin, Yu. I. Buziashvili, D. S. Solonskiı˘, P. V. Sadikov, M. T. Matskeplishvili, A. G. Sazonova, N. V. Lyseı˘ko, and S. A. Trukhanov, “Should a cardiologist be a carotidologist?” Zh. Nevr. Psikh. im. S. S. Korsakova 114, No. 8, 405 (2014).
5. R. Komorovsky and A. Desideri, “Carotid ultrasound assessment of patients with coronary artery disease: A useful index for risk stratification,” Vasc. Health Risk Manage. 1, No. 2, 131 (2005).
6. W. K. Seo, H. S. Yong, S. B. Koh, S. I. Suh, J. H. Kim, S. W. Yu, and J. Y. Lee, “Correlation of coronary artery atherosclerosis with atherosclerosis of the intracranial cerebral artery and the extracranial carotid artery,” Eur. Neurol. 59, No. 6, 292 (2008).
7. Task Force for the Management of Arterial Hypertension of the European Society of Hypertension (ESH) and of the European Society of Cardiology (ESC), “2013 ESH/ESC guidelines for the management of arterial hypertension,” J. Hypertens. 31, 1281 (2013).
8. I. D. Stulin, “Clinical–instrumental diagnosis of atherosclerosis of the carotid arteries,” Meditsinskaya Kafedra No. 3, 77 (2005).
9. Yu. M. Nikitin and A. I. Trukhanov, Ultrasound Doppler Diagnosis in the Clinic (MIK, Ivanovo, 2004).
10. V. A. Karlov, I. D. Stulin, and Yu. N. Bogin, Ultrasound and Thermal-Vision Diagnosis of Vascular Disorders of the Nervous System (Meditsina, Moscow, 1986).
11. I. D. Stulin, A. O. Mnushkin, R. S. Musin, A. A. Savin, and D. S. Solonskiı˘, “Is it possible and necessary to expect fading interest in thermal vision in neurology?” Zh. Nevr. Psikh. im. S. S. Korsakova, 15 (2003), special issue on Neurodiagnostics.
12. S. N. Kolesov and M. V. Golovanova, Infrared Thermography (Nizhny Novgorod, 2008).
13. E. H. Wood, “Thermography in the diagnosis of cerebrovascular disease,” Radiology 85, 270 (1965).
14. C. Stefanadis, L. Diamantopoulos, C. Vlachopoulos, E. Tsiamis, J. Dernellis, K. Toutouzas, E. Stefanadi, and P. Toutouzas, “Thermal heterogeneity within human atherosclerotic coronary arteries detected in vivo: a new method of detection by application of a special thermography catheter,” Circulation 99, 1965 (1999).
15. S. Verheye, G. R. Y. De Meyer, G. Van Langenhove, M. W. M. Knaapen, and M. M. Kockx, “In vivo temperature heterogeneity of atherosclerotic plaques is determined by plaque composition,” Circulation 105, 1596 (2002).
16. K. Toutouzas, M. Drakopoulou, C. Aggeli, C. Nikolaou, I. Felekos, H. Grassos, A. Synetos, K. Stathogiannis, A. Karanasos, E. Tsiamis, E. Siores, and C. Stefanadis, “In vivo measurement of plaque neovascularisation and thermal heterogeneity in intermediate lesions of human carotid arteries,” Heart 98, 1716 (2012).
17. A. Synetos, K. Toutouzas, M. Drakopoulou, H. Grassos, K. Stathogiannis, E. Tsiamis, G. Agrogiannis, E. Patsouris, A. Katsargyris, C. Klonaris, N. Liasis, D. Tousoulis, and C. Stefanadis, “Microwave radiometry for the detection of local inflammatory activation in carotid atherosclerotic plaques: a new non-invasive method,” J. Am. Coll. Cardiol. 59, 1157 (2012).
18. K. Toutouzas, C. Grassos, M. Drakopoulou, A. Synetos, E. Tsiamis, C. Aggeli, K. Stathogiannis, D. Klettas, N. Kavantzas, G. Agrogiannis, E. Patsouris, C. Klonaris, N. Liasis, D. Tousoulis, and E. Siores, “First in vivo application of microwave radiometry in human carotids. A new noninvasive method for detection of local inflammatory activation,” J. Am. Coll. Cardiol. 59, 1645 (2012).
19. O. N. Budadin, E. F. Ivanushkin, I. D. Stulin, O. O. Yanushevich, and I. Yu. Lebedenko, “Method of diagnosing vascular pathology by active thermolocation probing,” Russian Federation Patent No. RU 2,428,102 C1 (2009).
20. L. R. Toklueva, T. V. Balakhonova, E. Yu. Strazden’, M. A. Shariya, M. M. Luk’yanov, N. V. Radyukhina, V. S. Shishkina, É. M. Tararak, and S. A. Boı˘tsov, “Possibilities of instrumental methods of diagnosing unstable atherosclerotic plaques of the carotid arteries,” Angiolog. Sosud. Khir. No. 3, 37 (2013).
21. Yu. I. Makarova, “The status of cerebrovascular reserve and autoregulation of the cerebral blood flow in patients with hemispherical infarct and previous transitory ischemic attacks in the carotid basin,” Candidate’s Dissertation, Moscow, 2014.