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Review
. 2020 Nov 14;10(68):41560-41576.
doi: 10.1039/d0ra08617g. eCollection 2020 Nov 11.

Photodynamic diagnosis and photodynamic therapy of colorectal cancer in vitro and in vivo

Nokuphila Winifred Nompumelelo Simelane  1 Cherie Ann Kruger  1 Heidi Abrahamse  1
Affiliations
Review

Photodynamic diagnosis and photodynamic therapy of colorectal cancer in vitro and in vivo

Nokuphila Winifred Nompumelelo Simelane et al. RSC Adv. .

Abstract

Colorectal cancer (CRC) is a global challenge to eradicate. Early diagnosis and treatment strategies with ideal advantages, such as high tumor selectivity and negligible adverse effects, are significant, since they can result in precise diagnosis and treatment to reduce the overall incidence of CRC. The photodynamic approach for the detection and therapeutic treatment of cancer is a promising novel strategy in comparison to conventional treatments. Photodynamic diagnosis (PDD) is a diagnostic modality that involves the emission of light-induced excitation fluorescence to enhance early detection, without tumor destruction, after photosensitizer exposure to blue light. Photodynamic therapy (PDT) is a photochemistry-based approach that is rapidly progressing to solve the limitations of standard CRC treatments. PDT involves the interaction of a photosensitizer, tissue oxygen, and red light, which forms reactive oxygen species and radicals to elicit localized cancer cell death. This review discusses conventional CRC diagnostic and treatment methods, with their limitations, in comparison to the newly evolving in vitro and in vivo photo-diagnostic and treatment regimes, which have been investigated over the last several years. It also gives an overview of the integration of PDT with PDD, and utilization of specific photosensitizers for the possible early diagnosis and treatment of CRC.

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Conflict of interest statement

There are no conflicts to declare.

Figures

Fig. 1
Fig. 1. PDD mechanisms of action, after excitation/activation of a tumor localized PS at a short blue wavelength of light, it causes the PS to emit fluorescence to allow for tumor identification.
Fig. 2
Fig. 2. PDT mechanisms of action after excitation/activation of a tumor localized PS at a long red wavelengths of light, the PS reacts with tumor surrounding molecular oxygen and dependant of the concentration produces cytotoxic species which in turn cause tumour destruction.
None
Nokuphila Winifred Nompumelelo Simelane
None
Cherie Ann Kruger
None
Heidi Abrahamse
See this image and copyright information in PMC

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