Efficacy of photodynamic therapy for warts induced by human papilloma virus infection: A systematic review and meta-analysis

Conventional versus daylight photodynamic therapy for recalcitrant hand warts: Efficacy, safety and recurrence

BACKGROUND

Acral warts appear as skin-colored, verrucous, hyperkeratotic papules most located on the dorsal hands, distal fingers, subungual skin, and feet. Conventional photodynamic therapy (C-PDT) has shown a good efficacy and safety profile in patients with viral warts, in both adults and children, with a good cure rate and excellent cosmetic results in front of few and light side effects. The efficacy of daylight photodynamic therapy (DL-PDT) has not yet been evaluated.

OBJECTIVES

to investigate and assess the short- and long-term efficacy of PDT using 10 % aminolevulinic acid (ALA) in the treatment of multiple verrucae vulgaris of the hands. The second endpoint was to compare the efficacy and safety of C-PDT versus DL-PDT.

MATERIALS AND METHODS

68 patients (38 males and 30 females) aged between 6 and 80 years, affected by hand warts, were divided into two arms: group A was treated with C-PDT, and group B was treated with DL-PDT. Patients underwent treatments three times at 1-month intervals. The response was assessed 3 months after the last session (W24) and 1 year after the last session (W52) and scored as excellent (75-100 % reduction of total wart count), partial (74-25 % reduction), and none (< 25 % reduction or no response). Any adverse events occurring during or after ALA application or irradiation as well as pain intensity were recorded at each visit.

RESULTS

48 patients (70.6 %) achieved excellent response at W24, while 6 patients (8.8 %) had a partial response and 14 (20.6 %) were resistant to treatment. Patients treated with DL-PDT were less likely to have an excellent response (66.7 %) than patients treated with C-PDT (73.7 %), although not statistically significant. Among patients with excellent or partial response (n=54), 37 % (n=20) had warts relapse at W52. Both treatment modalities were well tolerated, with transient pain as the main side effects.

CONCLUSION

PDT is effective in the treatment of verrucae vulgaris of the hands. An overall response rate of 70.6 % of excellent response was achieved. While C-PDT showed a trend towards better outcomes, DL-PDT offered a more patient-friendly approach, particularly in terms of comfort and compliance.

Efficacy of photodynamic therapy for oral multifocal papilloma: a case report

Oral papilloma, a frequently encountered benign lesion, can be managed effectively with various treatments. A unique case of oral mucosal papilloma extending from the buccal fat pad region to the corner of the mouth is presented here. Although papilloma larger than 10 mm2 are associated with a high risk of becoming cancerous and should be treated promptly, the papilloma in this case would have been difficult to resect due to involvement of the parotid duct opening and the corner of the mouth. Topical external application of 5-aminolevulinic acid-mediated photodynamic therapy (ALA-PDT) was employed successfully in this case, with no recurrence at 20 months of follow-up. Therefore, ALA-PDT may represent a promising therapeutic option for challenging cases of multifocal papilloma of the oral mucosal.

Photodynamic therapy in dermatology: established and new indications

Photodynamic therapy (PDT) is internationally established as an approved treatment option for in situ forms of keratinocytic skin cancer (actinic keratoses, Bowen's disease, basal cell carcinoma). For these indications, there are standardized treatment protocols using narrow-spectrum light sources or (artificial) daylight, the use of which is associated with successful healing, a low rate of lesion recurrence, and a very good cosmetic result. Daylight PDT is superior to conventional PDT in terms of significantly less pain and associated higher patient acceptance. Newer indications, for which no approval has yet been granted, but which nevertheless have sufficient evidence of efficacy according to the study situation, are inflammatory (lichen sclerosus, acne) and infectious dermatoses (viral warts, cutaneous leishmaniasis, atypical mycobacteriosis). In addition, PDT is increasingly being used in aesthetic dermatology with the aim of skin rejuvenation.

The application of photodynamic therapy in recurrent genital herpes

BACKGROUND

Frequently, recurrence of genital herpes imposes significant physical and psychological burdens on patients, and existing treatments are often ineffective in preventing recurrence. Previous studies have indicated that photodynamic therapy (PDT) showed promising outcomes in the treatment of labial herpes simplex virus (HSV) infections; however, its efficacy for genital herpes remained unclear.

METHOD

The study screened patients with genital herpes at Daping Hospital from July 2020 to May 2024. Patients were divided into two groups based on whether they received PDT treatment. Over a one-year follow-up period, patients' healing time and recurrence rates were compared between the two groups. The cumulative incidence of recurrence and restricted mean survival time (RMST) were used to assess outcomes. Propensity score matching (PSM) was employed to minimize bias.

RESULT

A total of 41 patients enrolled in our study, with 8 (19.5 %) received PDT. The non-PDT group exhibited a slower skin lesion healing time, averaging at 7.2 days compared to 5.4 days in the PDT group. A significant difference was observed in the cumulative incidence of recurrence between the PDT and non-PDT groups (37.5 % versus 71.4 %) after PSM. The RMST in the PDT group was 9.94 days, compared to 5.13 days in the non-PDT group before PSM, and 4.14 after PSM.

CONCLUSION

Our study demonstrated that the PDT effectively reduced lesion recovery time and delayed recurrences of genital herpes. We recommend considering PDT as a potential treatment option for patients with recurrent genital herpes.

A nomogram to predict anal condyloma acuminatum recurrence in HIV-negative patients following photodynamic therapy: A decade-long retrospective clinical study at a single tertiary hospital

BACKGROUND

Anal condyloma acuminatum (CA) is marked by its thorny treatment and high recurrence rate. Although 5-aminolevulinic acid photodynamic therapy (ALA-PDT) demonstrates significant efficacy and safety in treating anal CA, it does not completely prevent recurrence. This study aimed to develop and validate a nomogram model in predicting the risk of relapse in HIV-negative patients with anal CA following treatment with ALA-PDT.

METHODS

A retrospective analysis was conducted on patients diagnosed with anal CA who received combined CO2 laser vaporization and ALA-PDT between January 2013 and May 2023. Patients were divided into recurrence and non-recurrence groups. A nomogram was developed based on factors showing statistical significance in multivariable logistic regression analysis. The discriminative ability and clinical utility of the nomogram were assessed via ROC curves and decision curve analysis, with internal validation performed through bootstrap resampling.

RESULTS

Among the 176 patients included, 33 (18.75 %) experienced recurrence, while 143 did not. Independent predictors for recurrence included HPV types, history of anal intercourse, and the number of CO2 laser treatments received. Incorporating these predictors, the nomogram demonstrated a superior diagnostic performance (area under the curve = 0.881, 95 % CI: 0.818-0.935) and a significant net benefit in decision curve analysis.

CONCLUSIONS

The nomogram accurately predicts the risk of recurrence in HIV-negative patients with anal CA following ALA-PDT. It offers a valuable tool for guiding preoperative clinical decision-making and establishing personalized treatment strategies to minimize the risk of relapse.

A Review of the Dermatologic Clinical Applications of Topical Photodynamic Therapy

Topical photodynamic therapy is a widely approved therapy for actinic keratoses and low-risk nonmelanoma skin cancers with a rapidly growing range of emerging indications for other cutaneous diseases. This review summarizes the best-available evidence to provide a clinical update for dermatologists on the approved and emerging indications of photodynamic therapy. The body of evidence suggests that photodynamic therapy is superior or noninferior to other available treatment modalities for actinic keratoses, low-risk basal cell carcinomas, Bowen's disease, skin field cancerization, chemoprevention of keratinocyte carcinomas in organ transplant recipients, photoaging, acne vulgaris, and cutaneous infections including verrucae, onychomycosis, and cutaneous leishmaniasis. There is emerging evidence that photodynamic therapy plays a role in the management of actinic cheilitis, early-stage mycosis fungoides, extramammary Paget disease, lichen sclerosis, and folliculitis decalvans but there are no comparative studies with other active treatment modalities. Common barriers to topical photodynamic therapy include procedural pain, costs, and the time required for treatment delivery. There is significant heterogeneity in the photodynamic therapy protocols reported in the literature, including different photosensitizers, light sources, number of treatments, time between treatments, and use of procedural analgesia. Topical photodynamic therapy should be considered in the management of a spectrum of inflammatory, neoplastic, and infectious dermatoses. However, more comparative research is required to determine its role in the treatment algorithm for these dermatologic conditions and more methodological research is required to optimize photodynamic therapy protocols to improve the tolerability of the procedure for patients.

Photodynamic therapy in focal epithelial hyperplasia

Focal epithelial hyperplasia (FEH) is an uncommon benign disorder affecting the oral mucosa. It is primarily associated with human papillomavirus (HPV) infection and presents as multiple white or pink soft papules or nodules. Typically, FEH is asymptomatic. Conventional treatment approaches for FEH include topical medication, surgical excision, CO2 laser ablation, cryotherapy, etc., but their efficacy varies. Photodynamic therapy (PDT) is a non-invasive and selective photochemotherapy method widely utilized in clinical practice. By employing specific light wavelengths to activate photosensitizers and induce the generation of reactive oxygen, PDT exerts cytotoxic effects. However, the application of PDT in treating FEH has not been previously documented. In this study, we present a case demonstrating the complete remission of FEH lesions using PDT, with no recurrence observed over a period of 9 months. This compelling outcome suggests that PDT may be a preferred treatment modality for FEH.

Photodynamic therapy for intergluteal warts in a child affected by Rett syndrome

Genital warts (GWs) are the most common sexually transmitted infections worldwide, caused by the human papillomavirus (HPV). The increasing prevalence of GWs in children has renewed the interest in therapeutic management which still presents a unique challenge, being influenced by many variables including size, quantity, and location of warts, as well as the presence of comorbidities. Conventional photodynamic therapy (C-PDT) has already shown encouraging results in the treatment of viral warts in adult patients, but its use is still not standardized in the pediatric population. On this topic, we report our experience with C-PDT in a difficult-to-treat area like the perianal region in a 12-year-old girl affected by Rett syndrome, an X-linked dominant neurological disorder, with a 10-month history of florid genital condylomatosis. After the third session of C-PDT, complete clearance of the lesions was achieved. Our case is paradigmatic of the potentiality of PDT to treat difficult lesions in difficult patients. Despite being expensive and time-consuming, this procedure has been demonstrated to be safe and well-tolerated. Lastly, the therapy is also well accepted by parents, due to its minimal invasiveness and the few side effects, compared to the other therapeutic options.

Photodynamic Inhibition of Herpes Simplex Virus 1 Infection by Tricationic Amphiphilic Porphyrin with a Long Alkyl Chain

Photodynamic therapy (PDT) is broadly used to treat different tumors, and it is a rapidly developing approach to inactivating or inhibiting the replication of fungi, bacteria, and viruses. Herpes simplex virus 1 (HSV-1) is an important human pathogen and a frequently used model to study the effects of PDT on enveloped viruses. Although many photosensitizers (PSs) have been tested for their antiviral properties, analyses are usually limited to assessing the reduction in viral yield, and thus the molecular mechanisms of photodynamic inactivation (PDI) remain poorly understood. In this study, we investigated the antiviral properties of TMPyP3-C17H35, a tricationic amphiphilic porphyrin-based PS with a long alkyl chain. We show that light-activated TMPyP3-C17H35 can efficiently block virus replication at certain nM concentrations without exerting obvious cytotoxicity. Moreover, we show that the levels of viral proteins (immediate-early, early, and late genes) were greatly reduced in cells treated with subtoxic concentrations of TMPyP3-C17H35, resulting in markedly decreased viral replication. Interestingly, we observed a strong inhibitory effect of TMPyP3-C17H35 on the virus yield only when cells were treated before or shortly after infection. In addition to the antiviral activity of the internalized compound, we show that the compound dramatically reduces the infectivity of free virus in the supernatant. Overall, our results demonstrate that activated TMPyP3-C17H35 effectively inhibits HSV-1 replication and that it can be further developed as a potential novel treatment and used as a model to study photodynamic antimicrobial chemotherapy.

Photodynamic Therapy Used to Treat an HIV Patient with an Efflorescence of Viral Warts after HAART Therapy

Healing from viral warts lesions can be hard to achieve in immunocompromised subjects like HIV-positive patients. The therapeutic target in immunocompetent subjects can be reached using different methods, including topical ointments, cryotherapy, laser therapy, imiquimod, and photodynamic therapy (PDT). We present a case of a male HIV-positive patient who came to the Dermatology department with multifocal wart lesions on his face, auricular, and retro-auricular areas after treatment with highly active antiretroviral therapy (HAART). In our case, surprisingly, only one session of PDT proved to induce complete regression of lesions which, despite their thickness, had a much more robust response to treatment than we could have possibly expected. After a brief review of the literature, it is possible to state that PDT revealed itself to be a valid option in immunocompromised patients who have a major risk of relapse.

Type I Photosensitizers Based on Aggregation-Induced Emission: A Rising Star in Photodynamic Therapy

Photodynamic therapy (PDT), emerging as a minimally invasive therapeutic modality with precise controllability and high spatiotemporal accuracy, has earned significant advancements in the field of cancer and other non-cancerous diseases treatment. Thereinto, type I PDT represents an irreplaceable and meritorious part in contributing to these delightful achievements since its distinctive hypoxia tolerance can perfectly compensate for the high oxygen-dependent type II PDT, particularly in hypoxic tissues. Regarding the diverse type I photosensitizers (PSs) that light up type I PDT, aggregation-induced emission (AIE)-active type I PSs are currently arousing great research interest owing to their distinguished AIE and aggregation-induced generation of reactive oxygen species (AIE-ROS) features. In this review, we offer a comprehensive overview of the cutting-edge advances of novel AIE-active type I PSs by delineating the photophysical and photochemical mechanisms of the type I pathway, summarizing the current molecular design strategies for promoting the type I process, and showcasing current bioapplications, in succession. Notably, the strategies to construct highly efficient type I AIE PSs were elucidated in detail from the two aspects of introducing high electron affinity groups, and enhancing intramolecular charge transfer (ICT) intensity. Lastly, we present a brief conclusion, and a discussion on the current limitations and proposed opportunities.

Increased PDT Efficacy When Associated with Nitroglycerin: A Study on Retinoblastoma Xenografted on Mice

Purposes: The aim of the study was to assess the efficacy of a treatment protocol that combines photodynamic therapy (PDT) and nitroglycerin (NG) on human retinoblastoma tumors xenografted on mice. We aimed to increase the PDT efficiency (in our least treatment-responsive retinoblastoma line) with better PS delivery to the tumor generated by NG, which is known to dilate vessels and enhance the permeability and retention of macromolecules in solid tumors. Methods: In vivo follow-up of the therapeutic effects was performed by sodium MRI, which directly monitors variations in sodium concentrations non-invasively and can be used to track the tumor response to therapy. NG ointment was applied one hour before PDT. The PDT protocol involves double-tumor targeting, i.e., cellular and vascular. The first PS dose was injected followed by a second one, separated by a 3 h interval. The timelapse allowed the PS molecules to penetrate tumor cells. Ten minutes after the second dose, the PS was red-light-activated. Results: In this study, we observed that the PDT effect was enhanced by applying nitroglycerin ointment to the tumor-bearing animal’s skin. PDT initiates the bystander effect on retinoblastomas, and NG increases this effect by increasing the intratumoral concentration of PS, which induces a higher production of ROS in the illuminated region and thus increases the propagation of the cell death signal deeper into the tumor (bystander effect).