Photodynamic Therapy for Bladder Cancers, A Focused Review<sup>†</sup>

Rahman, Kazi Md Mahabubur; Giram, Prabhanjan S.; Foster, Barbara A.; You, Youngjae

doi:10.1111/php.13726

Cited by 19 publications

(11 citation statements)

References 155 publications

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“…Such effects have been observed in red-light PDT treatment of the bladder using Photofrin in the 1990s, which destroyed part of the healthy muscle tissues underlying the tumor, which stopped clinical trials. 141 Photoactivated technologies that trigger other forms of cell death, such as apoptosis, ferroptosis, or immunologic cell death, may lead to tumor eradication without pain and without tissue necrosis, which could benefit the development of Ru-based PACT. Apoptosis may not necessarily generate as much immune response as that generated by PDT, which some see as detrimental to the development of PACT.…”

Section: Tissue Necrosis or Apoptosis?mentioning

confidence: 99%

“…Pain can be managed by lowering the light intensity (in mW/cm 2 ) while increasing irradiation time to keep the light dose (in J/cm 2 ) constant. − However, if necrosis reaches essential tissues, clinical success of a PDT treatment may be an issue for the patient, notably if PDT is performed on tissues that should be conserved. Such effects have been observed in red-light PDT treatment of the bladder using Photofrin in the 1990s, which destroyed part of the healthy muscle tissues underlying the tumor, which stopped clinical trials . Photoactivated technologies that trigger other forms of cell death, such as apoptosis, ferroptosis, or immunologic cell death, may lead to tumor eradication without pain and without tissue necrosis, which could benefit the development of Ru-based PACT.…”

Section: Biological and Clinical Considerations Of Ru-based Pactmentioning

confidence: 99%

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Ruthenium-Based Photoactivated Chemotherapy

Bonnet

2023

J. Am. Chem. Soc.

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Ruthenium(II) polypyridyl complexes form a vast family of molecules characterized by their finely tuned photochemical and photophysical properties. Their ability to undergo excited-state deactivation via photosubstitution reactions makes them quite unique in inorganic photochemistry. As a consequence, they have been used, in general, for building dynamic molecular systems responsive to light but, more particularly, in the field of oncology, as prodrugs for a new cancer treatment modality called photoactivated chemotherapy (PACT). Indeed, the ability of a coordination bond to be selectively broken under visible light irradiation offers fascinating perspectives in oncology: it is possible to make poorly toxic agents in the dark that become activated toward cancer cell killing by simple visible light irradiation of the compound inside a tumor. In this Perspective, we review the most important concepts behind the PACT idea, the relationship between ruthenium compounds used for PACT and those used for a related phototherapeutic approach called photodynamic therapy (PDT), and we discuss important questions about real-life applications of PACT in the clinic. We conclude this Perspective with important challenges in the field and an outlook.

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Section: Tissue Necrosis or Apoptosis?mentioning

confidence: 99%

Section: Biological and Clinical Considerations Of Ru-based Pactmentioning

confidence: 99%

Ruthenium-Based Photoactivated Chemotherapy

Bonnet

2023

J. Am. Chem. Soc.

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“…Recent advances in molecular technologies have led to the development of new emerging therapies in the oncological field, such as sonodynamic and chemodynamic therapy, also leading to the generation of ROS [66][67][68][69][70]. The available data also show the insufficient ability of the above-mentioned therapies to cure the tumor if used as a monotherapy.…”

Section: Clinical Trials Of Pdt For Urothelial Carcinomamentioning

confidence: 99%

Photodynamic Therapy: Current Trends and Potential Future Role in the Treatment of Bladder Cancer

Kochergin,

Fahmy,

Asimakopoulos

et al. 2024

IJMS

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Bladder cancer (BC) is the 10th most common cancer in the world. The therapeutic spectrum of BC is broad and is constantly expanding. Despite the wide clinical use of photodynamic diagnosis (PTD) for BC, PDT has not been sufficiently investigated in the treatment landscape of BC. We performed an online search of the PubMed database using these keywords: photodynamic therapy, bladder cancer, urothelial carcinoma, in vivo, in vitro, cell line, animal model. Reviews, case reports, and articles devoted to photodynamic diagnostics and the photodynamic therapy of tumors other than urothelial carcinoma were excluded. Of a total of 695 publications, we selected 20 articles with clinical data, 34 articles on in vivo PDT, and 106 articles on in vitro data. The results presented in animal models highlight the potential use of PDT in the neoadjuvant or adjuvant setting to reduce local recurrence in the bladder and upper urinary tracts. Possible regimens include the combination of PDT with intravesical chemotherapy for improved local tumor control or the integration of vascular-targeted PDT in combination with modern systemic drugs in order to boost local response. We summarize available evidence on the preclinical and clinical application of PDT for urothelial carcinoma in order to explain the current trends and future perspectives.

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“…Historically, diode lasers were used as an alternative to the 120 W lithium triborate (LBO) lasers, due to their higher haemostatic ability [56]. Diode lasers have been used for direct tumour ablation or as a "photosensitizer" in the contest of photodynamic therapy (PDT), due to their ability to match the desired wavelengths of many photosensitizer drugs (630-760 nm) and increase their penetration in the tumoral tissue [51,57]. Recently, Wu et al conducted a noninferiority study to assess the efficacy and safety of the newer 450 nm wavelength blue diode laser compared to the conventional electrocautery performed with the plasmakinetic loop for non-muscular invasive bladder cancer [58].…”

Section: Diode Lasermentioning

confidence: 99%

Evolving Role of Lasers in Endourology: Past, Present and Future of Lasers

et al. 2023

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The use of lasers in endourology has grown exponentially, leading to technological advancement and to miniaturization of the procedures. We aim to provide an overview of the lasers used in endourology and the associated future perspectives. Using MEDLINE, a non-systematic review was performed including articles between 2006 and 2023. English language original articles, reviews and editorials were selected based on their clinical relevance. Guidelines recommend ureteroscopy in case of stones <2 cm and a percutaneous approach for renal stones ≥2 cm. High-power holmium (Ho:YAG) lasers and the new thulium fibre laser (TFL) may change the future, offering shorter procedures for complex stones, with good outcomes. Increased intrarenal temperature associated with these new technologies may be overcome with adaptive strategies and optimal settings. For upper-tract urothelial carcinoma (UTUC), the combination of laser techniques and these new lasers may reduce the risk of stenosis and allow for a more accurate tumour ablation, potentially reducing the recurrence rates. Laser enucleation procedures are gaining a major role in benign prostate enlargement (BPE), especially in patients with larger prostates or under anticoagulant therapy. However, the superiority of one laser over the other has not been established yet, and the choice of technique is mainly deferred to the surgeon’s expertise. In conclusion, lasers will further expand their horizon in endourology, allowing for instrument adaptation to challenging anatomy. Prospective, randomized clinical trials are however needed to confirm available results and to provide the optimal settings for each pathology.

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Photodynamic Therapy for Bladder Cancers, A Focused Review^†

Cited by 19 publications

References 155 publications

Ruthenium-Based Photoactivated Chemotherapy

Ruthenium-Based Photoactivated Chemotherapy

Photodynamic Therapy: Current Trends and Potential Future Role in the Treatment of Bladder Cancer

Evolving Role of Lasers in Endourology: Past, Present and Future of Lasers

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Photodynamic Therapy for Bladder Cancers, A Focused Review†

Cited by 19 publications

References 155 publications

Ruthenium-Based Photoactivated Chemotherapy

Ruthenium-Based Photoactivated Chemotherapy

Photodynamic Therapy: Current Trends and Potential Future Role in the Treatment of Bladder Cancer

Evolving Role of Lasers in Endourology: Past, Present and Future of Lasers

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Product

Resources

About

Photodynamic Therapy for Bladder Cancers, A Focused Review^†