Energy analysis of PDT using thermography during the treatment of basal cell carcinoma.
STRINGASCI, Mirian Denise; SALVIO, Ana Gabriela; MORIYAMA, Lilian Tan; VOLLET-FILHO, José Dirceu; FORTUNATO, Thereza Cury; BAGNATO, Vanderlei Salvador; KURACHI, Cristina.
STRINGASCI, Mirian Denise; SALVIO, Ana Gabriela; MORIYAMA, Lilian Tan; VOLLET-FILHO, José Dirceu; FORTUNATO, Thereza Cury; BAGNATO, Vanderlei Salvador; KURACHI, Cristina.
Abstract: The changes in tissue temperature of basal cell carcinoma lesions were investigated during photodynamic therapy in order to better understand the effects and mechanisms of PDT in tissue. In this study, the monitoring of 40 lesions of basal cell carcinoma was performed during photodynamic therapy. The lesion region becomes thermally evident throughout the procedure, and there is an improved contrast of the lesion edges after the end of the irradiation. The comparison between thermal and fluorescence images showed a correlation between the PpIX evidenced through widefield fluorescence and the temperature gradient of the thermal images after the procedure, indicating that thermography is a potential diagnostic tool to evaluate the selective response of PDT. A model was created to calculate the amount of light energy converted to heat, tissue damage, and other energy transfer processes involved in the PDT. Using this model, it was shown that most of the energy conversion was in photodynamic action (48.7% and 48.3%, in first and second session, respectively), followed by the energy ratio attributable to blood perfusion (37.2%). This is evidence that photodynamic therapy does not generate a significant thermal component, an important aspect of the study of its mechanisms.
@article={002980720,author = {STRINGASCI, Mirian Denise; SALVIO, Ana Gabriela; MORIYAMA, Lilian Tan; VOLLET-FILHO, José Dirceu; FORTUNATO, Thereza Cury; BAGNATO, Vanderlei Salvador; KURACHI, Cristina.},title={Energy analysis of PDT using thermography during the treatment of basal cell carcinoma},journal={Photodiagnosis and Photodynamic Therapy},note={v. 29, p. 101586-1-101586-6},year={2020}}