Photodynamic Therapy as an Emerging Treatment Modality for Cancer and Non-Cancer Diseases

Hu, Zhiwei

doi:10.4172/2155-9872.s1-e001

Cited by 18 publications

(21 citation statements)

References 37 publications

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“…When ROS and singlet oxygen species are generated from a PDT reaction, they are cytotoxic and so oxidize various substrates in a tumor cell inducing stress that triggers various cell death pathways such as apoptosis, autophagy or necrosis. Both types of photoreactions may occur simultaneously, however type I reactions generally favor apoptotic death in tumor cells [28]. Additionally, the effectivity of both photoreaction pathways depends on the type of PS drug administered, where is localized in the tumor cell, as well as the amount of molecular oxygen present within the tumors microenvironment [29].…”

Section: Photodynamic Therapy An Unconventional Treatment For Crcmentioning

confidence: 99%

“…PS drugs generate cytotoxic ROS or singlet oxygen species when they become activated at a particular wavelength, which in turn induces physical or chemical damage in target tumor cells [28]. In relation to the activation of PS drugs for effective PDT, it is important that they have a high molecular absorption coefficient within the red spectrum of light (650-780 nm), as to ensure maximum light absorption for PS excitation (as some endogenous human body pigments can absorb light), warrant minimal patient photosensitivity before treatment, as well as guarantee deep tissue penetration in target tumor sites [32,33].…”

Section: Ps Drugs For Crcmentioning

confidence: 99%

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Targeted Photodynamic Therapy as Potential Treatment Modality for the Eradication of Colon Cancer

Kruger¹,

Abrahamse²

2019

Multidisciplinary Approach for Colorectal Cancer

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Photodynamic therapy (PDT) can be used to treat colorectal cancer (CRC). When a photosensitizer (PS) drug is administered to a patient, it can either passively or actively accumulate within a tumor site and once exposed to a specific wavelength of light, it is excited to produce reactive oxygen species (ROS), resulting in tumor destruction. However, the efficacy of ROS generation for tumor damage is highly dependent on the uptake of the PS in tumor cells. Thus, PS targeted uptake and delivery in CRC tumor cells is a crucial factor in PDT cancer drug absorption studies. Generally, within non-targeted drug delivery mechanisms, only minor amounts of PS passively accumulate in tumor sites and the remainder distributes into healthy tissues, causing unwanted side effects. To improve the efficacy of PDT research is currently focused on the development of specific receptor based photosynthetic nanocarrier platform drugs, which promote the active uptake and absorption of PS drugs in CRC tumor sites only, avoiding unwanted side effects, as well as treatment enhancement. This chapter will focus on current actively targeted PS nanoparticle drug delivery systems, which have been investigated for the PDT treatment of CRC cancer.

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Section: Photodynamic Therapy An Unconventional Treatment For Crcmentioning

confidence: 99%

Section: Ps Drugs For Crcmentioning

confidence: 99%

Targeted Photodynamic Therapy as Potential Treatment Modality for the Eradication of Colon Cancer

Kruger¹,

Abrahamse²

2019

Multidisciplinary Approach for Colorectal Cancer

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“…In 2014 Hu et al presented an approach towards the dual targeting of both neoplastic cells and the tumour neovasculature at the same time using newly designed PSfactor VII conjugates that selectively bind to overexpressed tissue factor [8]. An alternative approach for the localized PS delivery is the use of a relatively easy to use portable "fiber optic-based sensitizer delivery" device which has recently been successfully tested on ovarian cancer cells.…”

Section: Targeted Photosensitizer Deliverymentioning

confidence: 99%

“…The latter also protects the drugs from enzymatic or macrophagic digestion before reaching its target site. Gold nanoparticles, peptides, proteins such as transferrin, EGF or insulin, low density lipoproteins (LDL), folic acid, carbohydrates, somatostatin and liposomes have also been considered as delivery vehicles for PSs [5,8,61]. Some groups suggest that an ideal drug delivery system should ensure the PS delivery into the cell nucleus from where it would have a more detrimental effect compared with PSs that accumulate in the plasma membrane (such as porphyrins), Golgi or mitochondria.…”

Section: Targeted Photosensitizer Deliverymentioning

confidence: 99%

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New Approaches to Photodynamic Therapy from Types I, II and III to Type IV Using One or More Photons

Scherer

Bisby²,

Botchway³

et al. 2017

ACAMC

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Photodynamic therapy (PDT) is an alternative cancer treatment to conventional surgery, radiotherapy and chemotherapy. It is based on activating a drug with light that triggers the generation of cytotoxic species that promote tumour cell killing. At present, PDT is mainly used in the treatment of wet age-related macular degeneration, for precancerous conditions of the skin (e.g. actinic keratosis) and in the palliative care of advanced cancers, for instance of the bladder or the oesophagus. Due to a lack of phase III clinical trials and limitations of light penetration to deeper lying tumours (in excess of 1 cm), PDT is still not used as a first line cancer treatment, which is surprising given the first clinical trials by Dougherty's group dating back to the 1970's. However research continues to demonstrate the potential benefits of PDT and the need to stimulate funding and uptake of clinical studies using next generation photosensitizers offering advanced targeted delivery, improved photodynamic dose combined with modern light delivery technologies. This review surveys the available PDT treatments and emerging novel developments in the field with a particular focus on two-photon techniques that are anticipated to improve the effectiveness of PDT in tissues at depth and on next generation drugs that work without the need of the presence of oxygen for photosensitization making them effective where hypoxia has taken hold.

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Facile Green Synthesis and Characterization of Water Soluble Superparamagnetic Iron Oxide-Gold Porphyrin Conjugate for Improved Photodynamic Therapy

Fakayode

Songca

Oluwafemi

2017

The Minerals, Metals &Amp; Materials Series

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Photodynamic Therapy as an Emerging Treatment Modality for Cancer and Non-Cancer Diseases

Cited by 18 publications

References 37 publications

Targeted Photodynamic Therapy as Potential Treatment Modality for the Eradication of Colon Cancer

Targeted Photodynamic Therapy as Potential Treatment Modality for the Eradication of Colon Cancer

New Approaches to Photodynamic Therapy from Types I, II and III to Type IV Using One or More Photons

Facile Green Synthesis and Characterization of Water Soluble Superparamagnetic Iron Oxide-Gold Porphyrin Conjugate for Improved Photodynamic Therapy

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