Body temperature and thermography

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0
Tipo de produção
bookPart
Data de publicação
2023
Scopus
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NOVA SCIENCE PUBLISHERS, INC.
Autores
OLIVEIRA, N. C. de
Citação
Alfieri, F. M.; de Oliveira, N. C.; Battistella, L. R.. Body temperature and thermography. In: . The Fundamentals of Infrared Thermal Imaging: NOVA SCIENCE PUBLISHERS, INC., 2023. p.37-43.
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Resumo
The interest in body temperature comes from the most remote times. It is known that the regulation of body temperature is important for the maintenance of homeostasis, which in turn is vital for the proper functioning of body fluids and tissues. Hypothalamus, located in the central region of the brain, is responsible for maintaining body temperature regulation between 35.5°C to 37.7°. Thermography is a method designed to assess skin surface temperature, able to provide data on the symmetry (or asymmetry) of body hemispheres. This chapter will discuss studies related to the physiology of body temperature, the importance of similar temperature distribution between body hemispheres, and normality patterns of this distribution evaluated by thermography. © 2023 Nova Science Publishers, Inc. All rights reserved.
Palavras-chave
Body temperature, Normality patterns, Thermography
URI
https://observatorio.fm.usp.br/handle/OPI/57197
Referências
  1. Adams F., The genuine works of Hippocrates, (1939)
  2. Alfieri F.M., Battistella L.R., Body temperature of healthy men evaluated by thermography: A study of reproducibility, Technol. Health Care, 26, 3, pp. 559-564, (2018)
  3. Ammer K., The Glamorgan Protocol for recording and evaluation of thermal images of the human body, Thermology international, 18, pp. 125-144, (2008)
  4. Braz J.R.C., Fisiologia da termorregulação normal [Physiology of normal thermoregulation], Rev. Neurociênc, 13, 3, pp. 12-17, (2005)
  5. Brioschi M.L., Macedo J.F., Macedo R.A.C., Termometria cutânea: Novos conceitos [Skin thermometry: New concepts], J. Vasc. Br, 2, 2, pp. 151-160, (2003)
  6. Casas-Alvarado A., Mota-Rojas D., Hernandez-Avalos I., Mora-Medina P., Olmos-Hernandez A., Verduzco-Mendoza A., Reyes-Sotelo B., Martinez-Burnes J., Advances in infrared thermography: Surgical aspects, vascular changes, and pain monitoring in veterinary medicine, J. Therm. Biol, 92, (2020)
  7. Feldman F., Nickoloff E.L., Normal thermographic standards for the cervical spine and upper extremities, Skeletal Radiol, 12, 4, pp. 235-249, (1984)
  8. Fernandez-Cuevas I., Marins J.C.B., Lastras J.A., Gomez Carmona P.M., Pinonosa Cano S., Garcia-Concepcion M.A., Sillero-Quintana M., Classification of factors influencing the use of infrared thermography in humans: A review, Infrared Phys. Tech, 71, pp. 28-55, (2015)
  9. Hamaguchi S., The instrument for thermography, Masui, 63, 7, pp. 728-736, (2014)
  10. Jiang L.J., Ng E.Y., Yeo A.C., Wu S., Pan F., Yau W.Y., Chen J.H., Yang Y., A perspective on medical infrared imaging, J. Med. Eng. Technol, 29, 6, pp. 257-267, (2005)
  11. Jones B.F., Plassmann P., Digital infrared thermal imaging of human skin, IEEE Eng. Med. Biol. Mag, 21, 6, pp. 41-48, (2002)
  12. Madden C.J., Morrison S.F., Central nervous system circuits that control body temperature, Neurosci. Lett, 23, 696, pp. 225-232, (2019)
  13. Marins J.C., Fernandes A.A., Cano S.P., Moreira D.G., Da Silva F.S., Costa C.M.A., Fernandez-Cuevas I., Sillero-Quintana M., Thermal body patterns for healthy Brazilian adults (male and female), J. Therm. Biol, 42, pp. 1-8, (2014)
  14. Meola C., Infrared thermography in the architectural field, Scientific World Journal, 10, 2013, (2013)
  15. Nahm F.S., Infrared thermography in pain medicine, Korean J. Pain, 26, 3, pp. 219-222, (2013)
  16. Niu H.H., Lui P.W., Hu J.S., Ting C.K., Yin Y.C., Lo Y.L., Liu L., Lee T.Y., Thermal symmetry of skin temperature: Normative data of normal subjects in Taiwan, Zhonghua Yi Xue Za Zhi, 64, 8, pp. 459-468, (2001)
  17. Prasal M., Sawicka K.M., Wysokinski A., Wolski T., T. Termowizja jako metoda diagnostyczna stosowana w medycynie [Thermography in medical diagnostics], Przegl Lek, 67, 2, pp. 127-130, (2010)
  18. Ra J.Y., An S., Lee G.H., Kim T.U., Lee S.J., Hyun J.K., Skin temperature changes in patients with unilateral lumbosacral radiculopathy, Ann. Rehabil. Med, 37, 3, pp. 355-363, (2013)
  19. Ring E.F., Ammer K., Infrared thermal imaging in medicine, Physiol. Meas, 33, 3, pp. R33-R46, (2012)
  20. Ring E.F.J., Ammer K., The Technique of Infrared Imaging in Medicine, Thermology international, 10, 1, pp. 7-14, (2000)
  21. Ring F., Thermal imaging today and its relevance to diabetes, J. Diabetes Sci. Technol, 4, pp. 857-862, (2010)
  22. Szentkuti A., Kavanagh H.S., Grazio S., Infrared thermography and image analysis for biomedical use, Periodicum biologorum, 113, 4, pp. 385-392, (2011)
  23. Tattersall G.J., Infrared thermography: A non-invasive window into thermal physiology, Comp. Biochem. Physiol. A Mol. Integr. Physiol, 202, pp. 78-98, (2016)
  24. Thomas D., Cullum D., Siahamis G., Langlois S., Infrared thermographic imaging, magnetic resonance imaging, CT scan and myelography in low back pain, Br. J. Rheumatol, 29, 4, pp. 268-273, (1990)
  25. Uematsu S., Edwin D.H., Jankel W.R., Kozikowski J., Trattner M., Quantification of thermal asymmetry. Part 1: Normal values and reproducibility, J. Neurosurg, 69, pp. 552-555, (1988)
  26. Uematsu S., Jankel W.R., Edwin D.H., Kim W., Kozikowski J., Rosenbaum A., Long D.M., Quantification of thermal asymmetry. Part 2: Application in low-back pain and sciatica, J. Neurosurg, 69, 4, pp. 556-561, (1988)
  27. Vardasca R., Ring E.F.J., Plassmann P., Jones C.D., Thermal symmetry of the upper and lower extremities in healthy subjects, Thermol. Int, 22, 2, pp. 53-60, (2012)

Coleções
Livros e Capítulos de Livros - FM/MLS
Livros e Capítulos de Livros - HC/IMREA
Livros e Capítulos de Livros - LIM/40