5-aminolevulinic acid-photodynamic therapy ameliorates cutaneous granuloma by killing drug-resistant Mycobacterium marinum

Analysis of the efficacy of Langhans giant cells in controlling cutaneous Mycobacterium marinum infections

BACKGROUND

Cutaneous Mycobacterium marinum (M. marinum) infection can lead to the formation of infectious granulomas containing Langhans giant cells (LGCs). Due to concerns about prolonged antibiotic use and the development of drug resistance, its treatment poses challenges. As active participants in granulomas, the therapeutic effect of LGCs has not been studied in animal models.

OBJECTIVES

We aim to investigate the antibacterial efficacy and immune response after transplanting LGCs into a mouse model of cutaneous M. marinum infection.

RESULTS

LGCs effectively reduced the bacterial load and limited the growth of granulomas in the mouse footpads. Also, LGC treatment increased the production of inflammatory cytokines such as IL-1β and IL-10 and antimicrobial peptides S100A8/A9.

CONCLUSIONS

Overall, our results show that LGCs reduced the bacterial load in the mouse footpads and limited the growth of granulomas while simultaneously accelerating the immune response and maintaining immune homeostasis. These findings further confirm the beneficial role of LGCs in controlling mycobacterial infections in mice and provide promising new alternatives for future treatments.

Successful management of recurrent cutaneous granulomas caused by Candida albicans using aminolevulinic acid photodynamic therapy post-surgery: A case report

Photodynamic therapy (PDT) is a treatment that combines a photosensitive drug with light to induce phototoxic response in target cells, primarily through singlet oxygen.. Few cases have reported the combination of PDT with antifungal agents to successfully treat Candida infection. We present a case of cutaneous mass caused by Candida albicans (C.albicans) treated solely with 5-aminolevulinic acid (ALA)- PDT. A 21-year-old female presented with a cutaneous lesion on her right elbow,. characterized by erythema, nodules, and cysts that had persisted for 3 months after surgical excision. The diagnosis of infectious granulomas caused by C. albicans was confirmed through tissue histopathological, morphology and molecular sequence of the isolated pathogen. The lesion was completely resolved after two sessions of ALA-PDT adminstered 9 days apart. During the 6-month follow-up, there were no signs of relapse. This case suggested that mono-ALA-PDT can be an effective treatment option for single lesion on the body surface caused by C. albicans deep infection.

Clinical efficacy of CO2 laser combined with 5-aminolevulinic acid photodynamic therapy in treating periungual and plantar warts

OBJECTIVE

To analyze the clinical application value of CO2 laser combined with 5-aminolevulinic acid photodynamic therapy for periungual and plantar warts.

METHODS

Data from patients with periungual and plantar warts treated at Qingpu branch of Zhongshan Hospital, Fudan University between August 2022 and January 2024 were retrospectively analyzed. After screening based on inclusion and exclusion criteria, 96 patients were included and categorized into two groups according to their treatment regimens: a combination group (n=50, receiving CO2 laser therapy and 5-aminolevulinic acid photodynamic therapy) and a control group (n=46, undergoing CO2 laser treatment alone). The two groups were compared in terms of wart scores before and after treatment, clinical efficacy, recurrence rates during follow-up, and incidence of adverse reactions.

RESULTS

During the 4th, 6th, and 8th weeks of treatment, the wart scores of patients in the combination group were significantly lower than those of the control group (P<0.05), and at these intervals, the overall treatment efficacy in the combination group was significantly higher than that of the control group (P<0.05). At 3-month follow-up, the recurrence rate in the combination group (2.00%) was lower than that in the control group (10.87%) (P<0.05). At the 2nd, 4th, 6th, and 8th weeks of treatment, the Visual Analog Scale scores in the combination group were significantly reduced compared to the control group (P<0.05). No significant difference was found in the incidence of adverse reactions between the two groups during follow-up (P>0.05).

CONCLUSION

The application of CO2 laser therapy combined with 5-aminolevulinic acid photodynamic therapy is effective for patients suffering from periungual and plantar warts, and this combination enhances clinical outcome, mitigates pain, and reduces short-term recurrence.

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.

Effects of aminolevulinic acid photodynamic therapy combined with antibiotics on Mycobacterium abscessus skin infections: An in vitro and in vivo study

BACKGROUND

Mycobacterium abscessus skin infections have emerged as a major medical issue. Traditional antibiotic treatments are challenging, prolonged, and often lead to recurrence, creating an urgent need for new therapies. This study investigates the effectiveness of aminolevulinic acid photodynamic therapy (ALA-PDT) combined with antibiotics in treatmenting M. abscessus, using both in vitro and in vivo methods.

METHODS

We treated eight patients with M. abscessus skin infections following cosmetic surgery, using ALA-PDT (ALA concentration: 20 %; red light: 80 J/cm2) combined with oral or intravenous antibiotics,including clarithromycin, moxifloxacin and amikacin, to treat 8 patients with M. abscessus skin infection after medical cosmetic surgery, and assessed the treatment outcomes. Additionally, four bacterial strains (MAB-A1, MAB-A2, MAB-B1, and MAB-B2) isolated from patients were tested in vitro for ALA-PDT efficacy to determine the optimal ALA-PDT dosage. Furthermore, the strains' single colony morphology, biofilm formation, and genome characteristics of were analyzed to explore the factors influencing ALA-PDT's bactericidal effects. Finally, a combined ALA-PDT and antibiotics sterilization experiment was conducted in vitro.

RESULTS

Clinically, ALA-PDT combined with antibiotics showed strong efficacy in treating M. abscessus skin infections, with no recurrence observed during follow-up. In vitro, ALA-PDT effectively killed M. abscessus, although MAB-B1 and MAB-B2 required a higher ALA-PDT dose compared with MAB-A1 and MAB-A2. Compared to MAB-A1 and MAB-A2, MAB-B1 and MAB-B2 exhibited stronger biofilm formation capabilities and bacterial virulence as well as genome mutations primarily affecting fatty acid synthesis and metabolism, potentially explaining their increased ALA-PDT dosage requirement. Notably, the combination of ALA-PDT and antibiotics exerted markedly higher bactericidal effects in vitro compared with antibiotics alone.

CONCLUSIONS

ALA-PDT combined with antibiotics emerged as an effective treatment for M. abscessus skin infections. However, optimal dosage and antibiotic combinations should be tailored to the characteristics of specific clinical strains.

Optimizing Red Light-Based Photodynamic Therapy for Effective Bactericidal Action Against Fusobacterium nucleatum Subspecies

Fusobacterium nucleatum (F. nucleatum), a key pathogen implicated in periodontal disease, contributes to oral biofilm maturation and is linked to development of systemic diseases like colorectal cancer and liver cirrhosis. Photodynamic therapy (PDT) combined with 5-aminolevulinic acid (5-ALA) treatment (ALA-PDT) selectively targets F. nucleatum by inducing porphyrin accumulation. The bactericidal effect of red light-based PDT on F. nucleatum has not been evaluated previously. This study investigates the effect of ALA-PDT using red light-emitting diode (LED) light on F. nucleatum subspecies and their porphyrin accumulation. F. nucleatum subspecies were cultured with varying concentrations of 5-ALA under anaerobic conditions. Porphyrin accumulation was measured via fluorescence spectroscopy, and colony-forming units were measured to determine bacterial viability post-treatment. Additionally, other subspecies responded well to 0.01% 5-ALA, and uroporphyrin I accumulation correlated with bacterial death, revealing optimal bactericidal conditions. These results suggest that optimizing light intensity and 5-ALA concentration can significantly enhance the therapeutic potential of ALA-PDT in oral healthcare.

In vivo imaging identified efficient antimicrobial treatment against Mycobacterium marinum infection in mouse footpads

Mycobacterium marinum (M. marinum) is the most common causative bacteria of cutaneous non-tuberculous mycobacterial (NTM) infections, including fish tank granuloma. Treating M. marinum-caused infection takes longer than other NTM diseases because M. marinum is less susceptible to antimicrobial agents. A standard treatment regimen for M. marinum infection has not been established yet, and few in vivo experiments have been performed in mammals to evaluate the bactericidal effects of antimicrobials. In this study, we developed a noninvasive in vivo imaging method to assess the therapeutic efficacy of antimicrobials against M. marinum infection. The data obtained using fluorescent protein or bioluminescence from luciferase will offer valuable insights into bacteria visualization across various bacterial infections. Furthermore, through this imaging technique, we demonstrated that combining clarithromycin, rifampicin, ethambutol, and minocycline effectively cleared M. marinum from the footpad. Granulomas with necrotic abscesses formed on the footpad of M. marinum-infected mice, primarily due to neutrophils involved in the host's cell-mediated immune response. Inflammatory cytokine and chemokine levels significantly increased 7 days post-infection, aligning with the footpad swelling and granuloma formation observed in the untreated group. Interestingly, immune mediators and cells induced by M. marinum footpad infection were crucial factors associated with hypersensitivity and granuloma formation, as seen in pulmonary tuberculosis. This novel imaging analysis using a cutaneous NTM mouse model might be a powerful tool for the comprehensive analysis of mycobacterial infections.

ALA-PDT shortens the course of antibiotic therapy for skin infection caused by Mycobacterium marinum

BACKGROUND

Recently, the number of cases of Mycobacterium marinum infection has increased. Due to the nonspecific clinical manifestations and lack of standardized treatment guidelines, these infections are often misdiagnosed and are challenging to treat.

METHODS

In this study, four patients had M. marinum skin infections accompanied by a high-risk exposure history and were diagnosed by bacterial culture and gene chip. Two patients were treated with antibiotic therapy alone, and the other two patients were treated with 5-aminolevulinic acid photodynamic therapy (ALA-PDT) combined with antibiotics.

RESULTS

All four patients enrolled in the study were cured with 100 % efficacy. Two patients were cured after receiving two active antibiotics for 4 months. The other two patients, having considered the drug resistance and intolerance described above, were cured after receiving two active antibiotics for 1-1.5 months along with combination therapy with ALA-PDT.

CONCLUSION

Combination therapy with ALA-PDT and antibiotics was chosen to shorten the duration of antibiotic treatment and reduce the occurrence of adverse reactions.

Treatment of non-tuberculosis mycobacteria skin infections

Non-tuberculosis mycobacteria (NTM) skin infections have become increasingly prevalent in recent years, presenting a unique challenge in clinical management. This review explored the complexities of NTM infections localized to the superficial tissues and provided valuable insights into the optimal therapeutic strategies. The antibiotic selection should base on NTM species and their susceptibility profiles. It is recommended to adopt a comprehensive approach that considers the unique characteristics of superficial tissues to improve treatment effectiveness and reduce the incidence of adverse reactions, infection recurrence, and treatment failure. Infection control measures, patient education, and close monitoring should complement the treatment strategies to achieve favorable outcomes in managing NTM skin infections. Further efforts are warranted to elucidate factors and mechanisms contributing to treatment resistance and relapse. Future research should focus on exploring novel treatment options, innovative drug development/delivery platforms, and precise methodologies for determining therapeutic duration. Longitudinal studies are also needed to assess the long-term safety profiles of the integrated approaches.

Photodynamic therapy: a new approach to the treatment of Nontuberculous Mycobacterial skin and soft tissue infections

Nontuberculous mycobacterial skin and soft tissue infections are rising and are causing social concern due to the growth of cosmetic dermatology and immune-compromised populations. For the treatment of nontuberculous mycobacteria, several novel strategies have been investigated. One of them, photodynamic therapy, is a recently developed therapeutic strategy that has shown promise in managing nontuberculous mycobacterial skin and soft tissue infections. In this review, we first present an overview of the current status of the therapy and then summarize and analyze the cases of photodynamic therapy used to treat nontuberculous mycobacterial skin and soft tissue infections. We also discussed the feasibility of photodynamic therapy for treating nontuberculous mycobacterial skin soft tissue infections and the related mechanisms, providing a potential new option for clinical treatment.

Mycobacterium marinum: A Case-Based Narrative Review of Diagnosis and Management

Skin and soft tissue infections caused by non-tuberculous mycobacteria are occurring more frequently in recent years. However, chronic skin and soft tissue lesions present a challenge for clinicians, as the diagnostic work-up and definitive diagnosis require knowledge and available laboratory resources. We present here the case of a 66-year-old male patient who presented with painful abscess-like nodules on his right hand and forearm, which worsened after treatment with an anti-TNF-a agent. The fluid specimen taken from the lesion was positive for mycobacteria according to the acid-fast stain. Mycobacterium marinum was identified, first by next-generation sequencing and finally grown on culture, after eight weeks. Acknowledging the complexity of diagnosing and managing infections by non-tuberculous mycobacteria, and especially Mycobacterium marinum, we provide a review of the current epidemiology, clinical characteristics, diagnosis and management of Mycobacterium marinum infection.

Current treatment options for Mycobacterium marinum cutaneous infections

INTRODUCTION

Mycobacterium marinum is a slowly growing photochromogenic nontuberculous mycobacterium that has special growth characteristics. It causes a uniquely human disease, a cutaneous syndrome named fish tank granuloma or swimming pool granuloma because of the strong epidemiological links with water. The treatment of this disease involves the use of different antimicrobials alone and in combination, depending on the severity of the disease. The antibiotics most frequently used are macrolides, tetracyclines, cotrimoxazole, quinolones, aminoglycosides, rifamycins, and ethambutol. Other approaches include the use of surgery in some cases. New treatment options, like new antibiotics, phage therapy, phototherapy, and others are currently being developed with good in vitro experimental results. In any case, the disease is usually a mild one, and the outcome is good in most of the treated patients.

AREAS COVERED

We have searched the literature for treatment schemes and drugs used for treatment of M. marinum disease, as well as other therapeutic options.

EXPERT OPINION

Medical treatment is the most recommended approach option, as M. marinum is usually susceptible to tetracyclines, quinolones, macrolides, cotrimoxazole, and some tuberculostatic drugs, usually used in a combined therapeutic scheme. Surgical treatment is an option that can be curative and diagnostic in small lesions.

Combination treatment with antibiotics and photodynamic therapy in refractory mycobacterium marinum infection: A case report

Mycobacterium marinum can cause skin infection. Treatment of this infection often requires a chronic multidrug regimen. For refractory cases with progression, relapse, or slow recovery, long-term medication may cause problems such as ineffectiveness, poor patient compliance, and drug intolerance. We report a refractory case with a total treatment time of 2 years, successfully cured by the combination of antibiotics and photodynamic therapy. Our case shows that combination treatment with antibiotics and photodynamic therapy may be an effective approach for refractory Mycobacterium marinum infection.

Surgery plus photodynamic therapy for a diabetic patient with cutaneous infectious granuloma caused by Curvularia lunata

Curvularia lunata (C. lunata) can be easily found in environment and plants and rarely causes human infections. Antifungal agents have been the primary approach to treat such infections; however, adverse hepatotoxic reactions may require discontinuation of the long-term use of antifungal agents in patients with pre-existing liver diseases. New therapeutic approaches are thus needed to cope with these circumstances. Here, we report a 66-year-old diabetic female patient, suffering from a rapidly growing lesion on the nose for 2 months. The patient was diagnosed with cutaneous fungal infection caused by C. lunata, which was based on mycological study and ITS sequencing. The lesion was completely disappeared after a combination of surgery and 3 times of photodynamic therapy (PDT) with 5-aminolevulinic acid (ALA) at 9- day intervals. The patient did not receive any antifungal agents during the treatment. There was no recurrence at 6-month fellow-up. In the following in vitro study, C. Lunata growth was significantly inhibited by ALA-PDT treatment. Therapeutic success in this patent suggests that the ALA-PDT method could be a promising treatment for cutaneous fungal infection caused by C. Lunata and others.

Photodynamic therapy, a promising treatment approach for cutaneous infectious granulomas

Cutaneous infectious granulomas are mainly caused by fungi and bacteria. Antibiotics are the primary therapeutic choices for the diseases, but the drug-resistant pathogens become increasingly prevalent. Thus, there is an urgent need to explore novel approaches to treating cutaneous infectious granulomas. Photodynamic therapy (PDT) is widely used as an alternative treatment for various kinds of skin diseases, and evidence has been accumulating that PDT is also effective for the treatment of cutaneous infectious granulomas. In this narrative review, we sought to summarize the recent literature concerning the applications and mechanisms of PDT in the treatment of cutaneous infectious granulomas. Clinical and basic research has demonstrated that PDT is an effective approach in treating fungal infections such as sporotrichosis and chromoblastomycosis. In addition, PDT is also used to treat atypical mycobacterial infections such as Mycobacterium marinum. PDT can significantly shorten the duration of antibiotics treatment, resulting in diminishment of adverse effects. The potential mechanisms of PDT are to kill the pathogens directly or elicit modulatory effects on the immune microenvironments. We conclude that PDT is a promising therapeutic choice for the treatment of cutaneous infectious granulomas.