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Thermal sequences database of the skin flaps in breast reconstruction and burns

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper presents a database of Active Dynamic Thermography (ADT) thermal sequences gathered throughout 6 year study on ADT application in skin flap blood perfusion monitoring and burn wounds diagnosis. For skin flap monitoring the database comprises of data collected during three different breast reconstruction procedures. The patients were monitored pre, intra and post surgically within 90 days period. The sequences were used in skin flap parametric imaging aimed at reducing complications and improving flap perfusion. For burns investigation patients were monitored following an accident, at the 3-rd day and 21 days after.
Wydawca
Rocznik
Strony
26--29
Opis fizyczny
Bibliogr. 24 poz., rys., wykr.
Twórcy
  • Gdańsk University of Technology, Biomedical Engineering Department, Narutowicza 11/12, 80-233 Gdańsk, Poland
  • Gdańsk University of Technology, Biomedical Engineering Department, Narutowicza 11/12, 80-233 Gdańsk, Poland
Bibliografia
  • [1] Thorne Ch., Grabb W., Beasley R. W.: Grabb and Smith’s Plastic Surgery, 6th editions; Wolters Kluwer ealth/Lippincott Williams & Wilkins, 2007, Chapter 5, page 44.
  • [2] Yamaguchi S., De Lorenzi F., Petit J. Y., Rietjens M., Garusi C., Giraldo A. P., Rey C., Urban C., Martella S., Bosco R.: The Perfusion Map of the unipedicled TRAM Flap to Reduce Postoperative Partial Necrosis. Annals of Plastic Surgery, vol. 53, 2004, (205–209).
  • [3] Still J., Law E., Dawson J., et al.: Evaluation of the circulation of reconstructive flaps using laser–induced fluorescence of indocyanine green. Ann Plast Surg. vol 42, 1999, (266–274).
  • [4] Hoer J., Tons C., Schachtrupp A. et al.: Quantitative evaluation of abdominal wall perfusion after different types of laparotomy closure using laser–fluorescence videography, Hernia. 2002, (11–16).
  • [5] Hartrampf C. R. Jr, Scheflan M., Black P. W.: Breast reconstruction with a transverse abdominal island flap. Plast Reconstr Surg. 1982, (216–225).
  • [6] Kolacz Sz., Moderhak M., Jankau J.: New perspective on the in vivo use of cold stress dynamic thermography in integumental reconstruction with the use of skin-muscle flaps. Journal of Surgical Research, vol 212, 2017, 68-76.
  • [7] Creech B., Miller S.: Evaluation of Circulation in Skin Flaps. In W. C. Grabb and M. B. Myers (Eds.), Skin Flaps. Boston: Little, Brown, 1975.
  • [8] Holm C., Mayr M., Hofter E., et al.: Intraoperative evaluation of skin–flap viability using laser–induced fluorescence of indocyanine green. Br J Plast Surg. vol 55, 2002, (635–644).
  • [9] Khouri R. K., Shaw W. W.: Monitoring of free flaps with surface-temperature recordings: Is it reliable? Plast Reconstr Surg 1992; 89:495.
  • [10] Weum S., Mercer J. B., Weerd L.: Evaluation of dynamic infrared thermography as an alternative to CT angiography for perforator mapping in breast reconstruction: A clinical study Weumet al. BMC Medical Imaging, 2016.
  • [11] Briers J. D.: Physiological Measurement Laser Doppler, speckle and related techniques for blood perfusion mapping and imaging, 2001, Physiol. Meas., 22 R35.
  • [12] Nowakowski A.: Quantitative active dynamic thermal IR-imaging and thermal tomography in medical diagnostic. In: Diakides M, Bronzino JD, DR Peterson, editor. Medical infrared imaging – principles and practices, Boca Raton: CRC Press, Taylor & Francis Group; 2013. p. 7-1–7-30.
  • [13] Maldague X.: Theory and practice of infrared technology for nondestructive testing, John Wiley & Sons, 2001.
  • [14] Maldague X.: Infrared methodology and technology. Gordon and Breach Science Publishers, 1992. M.
  • [15] Renkielska A., Nowakowski A., Kaczmarek, Dobke M., Grudziński J., Karmoliński A., Stojek W.: Static thermography revisited – An adjunct method for determining the depth of the burn injury. Burns, v. 31, (6), 2005, (768–775).
  • [16] Renkielska A., Nowakowski A., Kaczmarek M., Rumiński J.: Burn depths evaluation based on active dynamic IR thermal imaging – A preliminary study. Burns, Vol. 32, 2006, (867–875).
  • [17] [Rumiński J., Kaczmarek M., Renkielska A., Nowakowski A.: Thermal parametric imaging in the evaluation of skin burn depth. IEEE Transaction on Biomedical Engineering. Vol. 54, 2, 2007, (303–312).
  • [18] Nowakowski A., Siondalski P., Moderhak M., Kaczmarek M.: A new diagnostic method for evaluation of cardiosurgery wound healing. QIRT Journal Volume 13, 2016, Issue 1, (19-34).
  • [19] Moderhak M., Kołacz Sz., Jankau J., Juchniewicz T.: Active dynamic thermography method for TRAM flap blood perfusion mapping in breast reconstruction, Quantitative InfraRed Thermography Journal, 2017, DOI: 10.1080/17686733.2017.1320885 .
  • [20] Moderhak M.: Comparison of the exponential thermal transient parameterization methods with the SMTP method in the unipedicled DIEP flap computer modelling and simulation. QIRT Journal. 1 1 2018, T. 15, nr 2, pp. 160-171. DOI 10.1080/17686733.2017.1420946.
  • [21] Saxena A., Raman V., Ng E.: Single Image Reconstruction in Active Dynamic Thermography: A Novel Approach, Infrared Physics and Technology, vol. 93, 2018, 53-58.
  • [22] Merla A., et al.: Time recovery image: a diagnostic image technique based on the dynamic digital telethermography. Thermol. Int. 10, 142, 2000.
  • [23] Merla A., et al.: Quantifying the relevance and stage disease with tau image technique. IEEE Eng. Med. Biol. Mag., 21, 86, 2002, (86–91).
  • [24] https://www.flir.com/support-center/Instruments/what-is-the-difference-between-a320-and-a325-a320g/, 25.1.2019.
Uwagi
EN
1. The authors would like to thank the doctors of Gdańsk Medical University clinics for their cooperation, in particular physicians of the Department of Plastic Surgery and Cardio Surgery GUMed. Research supported partially by Statutory Funds of Electronics, Telecommunications and Informatics Faculty, Gdansk University of Technology.
PL
2. Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-add35fd2-0085-4907-b5d2-7c4e9c99771b
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