Impact of PVC microplastics in photodynamic inactivation of Staphylococcus aureus and MRSA.

Photodynamic processes have found widespread application in therapies. These processes involve photosensitizers (PSs) that, when excited by specific light wavelengths and in the presence of molecular oxygen, generate reactive oxygen species (ROS), that target cells leading to inactivation. Photodynamic action has gained notable attention in environmental applications, particularly against pathogens and antibiotic-resistant bacteria (ARB) that pose a significant challenge to public health. However, environmental matrices frequently encompass additional contaminants and interferents, including microplastics (MPs), which are pollutants of current concern. Their presence in water and effluents has been extensively documented, highlighting their impact on conventional treatment methods, but this information remains scarce in the context of photodynamic inactivation (PDI) setups. Here, we described the effects of polyvinyl chloride (PVC) microparticles in PDI targeting Staphylococcus aureus and its methicillin-resistant strain (MRSA), using curcumin as a PS under blue light. The presence of PVC microparticles does not hinder ROS formation; however, depending on its concentration, it can impact bacterial inactivation. Our results underscore that PDI remains a potent method for reducing bacterial concentrations in water and wastewater containing ARB, even in highly contaminated scenarios with MPs.

Enhanced vegetable production in hydroponic systems using decontamination of closed circulating fluid.

While plant microorganisms can promote plants by producing natural antibiotics, they can also be vectors for disease transmission. Contamination from plant management practices and the surrounding environment can adversely affect plants, leading to infections and hindered growth due to microbial competition for nutrients. The recirculation of nutrient-rich fluids can facilitate the transport of microorganisms between vegetables in the hydroponic production system. This issue can be addressed through the application of the decontamination method in the hydroponic liquid. Ultraviolet light (UV-C) has been employed for microbiology, and its effects on lettuce were evaluated in this study. This study aims to assess the effectiveness of a decontamination system using UV-C in hydroponic solutions during nutrient recirculation in hydroponics. We evaluated the time required for lettuce plants to reach their maximum height, as well as their pigment content, phenolic compounds, antioxidant capacity, and micro and macronutrient levels. The evaluation was conducted under two photoperiods (18 and 20 hours) in lettuce samples exposed to UV-C in the hydroponic fluid, with control groups not exposed to UV-C. The application of the UV-C decontamination system in hydroponic circulation water containing nutrients accelerated plant growth while maintaining nutritional values equal to or higher than those in the control groups without such a system. The results of microorganism control highlight the potential application of this technique for enhancing and expediting vegetable production. This approach reduces production time and enhances nutrient absorption and the content of certain compounds and minerals.

Photodynamic therapy of adenoid hypertrophy in acute rhinosinusitis.

A first step for microorganisms to reach the respiratory system and cause infectious disease is colonization in the nasopharynx. Humans inhale a bacterial load of up to 106 per cubic meter of air per day [1], including transient microorganisms between the upper and lower airways. This can lead to lung infections, amounting to billions of dollars in annual direct treatment costs in the United States, depending on the etiologic agent [2,3]. Curcumin has been described as a photosensitizer (PS) that, activated at 450 nm, is efficient against planktonic bacteria [4] and biofilms [5]. At the same time, effects on microbial interactions are commonly detected in the upper respiratory tract and should be considered for the treatment of adenoids [6]. We, therefore, propose in this study to optimize photodynamic therapy (PDT) conditions in vitro by simulating bacterial coinfection conditions in nasal cavities evaluated by the response surface method, where we can evaluate interactions of treatment variables. From this, the clinical case of the treatment of rhinosinusitis was carried out using PDT with nasal lighting. The absence of symptoms that characterize the disease was monitored and evaluated by the Kepler Meyer method. The study points out considerations that can be evaluated for the treatment to be a possibility of clinical indication in the control of rhinosinusitis.

Investigation on the in vitro anti-Trichophyton activity of photosensitizers.

Onychomycosis is the most common disease caused by fungal nail infections, and often caused by dermatophytes. This infection is very resistant to antifungal treatments, and promising Photodynamic Therapy (PDT) mediated treatments has been presented as a multitarget tracking. Optimization of PDT guide for uptake time, concentration of photosensitizers (PS) and the light dose to inactivate Trichophyton mentagrophytes. Curcumin derivatives, porphyrin Chlorin e6 (CHL-E6) and Chlorin-P6-6-N-butylamide-7-methyl-ester (CHL-butyl) were evaluated. PS photobleaching was observed on the hyphae photosensitized over the time, correlating the PS concentration and light dose of antifungal PDT. Porphyrin, Curcumin, Chl-e6 and Chl-butyl concentrations of 2.5 µg/mL, 0.025 µg/mL, 10 µg/mL and 5 µg/mL respectively, under illumination of 10.5 J/cm2 were the best antifungal conditions found in the study. Curcumin, in low concentrations, and chlorin were the PSs with higher activity anti-T. mentagrophytes.

Impact of light-activated curcumin and curcuminoids films for catheters decontamination.

BACKGROUND: Biofilms are microbial communities protected by an extra polymeric matrix, which promotes a defense against antimicrobial agents. Cells attached in surfaces and promote infections. Photodynamic inactivation (PDI) is one of the strategies to eliminate infections due to the facility of use and the absence of resistance by bacteria. The study combines formulation with curcuminoids and with Photogem(R), illuminating them with 450 nm and 630 nm, respectively. METHODS: Films were prepared with pectin, glycerin, Sodium Lauryl Sulfate, curcumin, curcuminoids, or Photogem(R) (0.75; 0.75 mg/mL and 0.03 mg/mL respectively). Bacterial biofilms were formed during 3, 4, or 7 days on catheters and illumination with LED devices at 450 nm and 630 nm. RESULTS: The best PDI applied in S. aureus 7-days biofilm with curcuminoid film. Photogem film was the best strategy for PDI in E. coli 7-day biofilm. Curcumin film promoted similar results with S. aureus and E. coli. Light penetration demonstrated a similar decreased exponential curve along the increase of thickness of biofilm. CONCLUSION: Curcuminoids, curcumin and Photogem® show efficient solubilization and availability in formulation with relevant results in PDI. S aureus biofilms were more susceptible to curcuminoid film. E coli biofilms were more susceptible to Photogem film.

Total mouth photodynamic therapy mediated by red LED and porphyrin in individuals with AIDS.

Due to the immune changes resulting from HIV/AIDS infection, systemic and local infections throughout the body are common. The use of high activity antiretroviral therapy has been widely used during treatment, which, added to the use of antibiotics, antifungals, and the patients' own immunocompromised state, cause important changes in the oral microbiota. The emergence of pathological microorganisms and with high resistance to drug therapies are frequent and cause serious damage to the oral health of these patients. In this sense, antimicrobial photodynamic therapy (aPDT) appears as a promising alternative in the control of these oral infections. The aim of the study was to test the effectiveness of a therapeutic protocol for total oral aPDT mediated by a 660-nm red LED (light-emitting diode) associated with porphyrin in individuals with AIDS. Patients were selected by exclusion criteria and randomly distributed into groups to test the effectiveness of antimicrobial aPDT with 50 µg/ml porphyrin associated with the red LED. Before and after the treatments, saliva samples were collected and processed in duplicate in selective culture media. Colonies were counted and the results obtained in Log10 CFU/ml and tested statistically. It was concluded that aPDT was effective in reducing oral enterobacteria, in addition to reducing Streptococcus spp. and general count of microorganisms, when considering the numbers of TCD4 and TCD8 lymphocytes.

Follow-up of pressure ulcer treatment with photodynamic therapy, low level laser therapy and cellulose membrane.

OBJECTIVE: A pressure ulcer (PU) is an area of tissue trauma caused by continuous and prolonged pressure, often associated with hospitalised patients immobilised due to neurological problems, negatively affecting their quality of life, and burdening the public budget. The aim of this study was to report the follow-up, for 45 weeks, of three patients with neurological lesions due to trauma who subsequently developed PUs, and who were treated with a combination of photodynamic therapy (PDT), low level laser therapy (LLLT) and cellulose membrane (CM). METHOD: PDT was mediated by the photosensitiser curcumin on a 1.5% emulsion base. Blue LED light at 450 nm was delivered continuously for 12 minutes at an irradiance of 30mW/cm2 and total energy delivered to the tissue was 22J/cm2. LLLT was performed with 660 nm laser, punctuated and continuous, twice a week with parameters: spot size 0.04cm2, power of 40mW, 10 seconds per point, fluence of 10J/cm2 and irradiance of 1000mW/cm2. RESULTS: All PUs had a significant reduction (range: 95.2-100%) of their area after 45 weeks of follow-up and two PUs had complete healing at 20 weeks and 30 weeks. All of the PUs showed a reduction in contamination with the PDT treatments in different proportions. CONCLUSION: From the results obtained, we conclude that the combination of PDT, LLLT and CM is a promising treatment for PU healing.

Physiotherapy elastic band disinfection by UV-C irradiation in an intensive care unit.

BACKGROUND: The transmission of healthcare-associated pathogens is mainly related to the massive flow of patients with infections in hospitals, presenting surfaces as potential transmission sources of these microorganisms. The physiotherapist who works in the intensive care area has become a specialist in daily routine in critical care with ventilatory support and post-surgical recovery. Furthermore, for this, the instruments are used in the patient's hands and body. Chemicals such as chlorine derivatives, triclosan, chlorhexidine and, 70 % alcohol are currently used to decontaminate surfaces. This study evaluated ultraviolet C (UV-C) irradiation efficiency in the physiotherapy object's disinfection in daily use in the Hospital Intensive Care Unit (ICU). METHODS: the microbiological quantification carried out using the elastic band during physiotherapy in a cross-sectional study with 21 patients. The methodology compared the cleaning protocol (70 % alcohol) with a new irradiation method in elastic band in the ICU. RESULTS: The results showed microbial reductions in the elastic band using both 70 % alcohol and UV-C irradiation (254 nm), with 60 s of illumination, totaling a light dose of 0.78 J/cm2; however, the UV-C irradiation showed better results. CONCLUSION: This study showed that disinfection by UV-C irradiation could be introduced in an intensive care hospital environment for physiotherapeutic conduct.

Curcumin/d-mannitol as photolarvicide: induced delay in larval development time, changes in sex ratio and reduced longevity of Aedes aegypti.

BACKGROUND: Resistant populations of Ae. aegypti have been a major problem in arboviruses epidemic areas, generating a strong demand for novel methods of vector control. In this regard, our group has demonstrated the use of curcumin as an efficient photoactive larvicide to eliminate Ae. aegypti larvae. This work was aimed to evaluate the Ae. aegypti (Rockefeller) development under sublethal conditions, using a curcumin/d-mannitol (DMC) formulation. The photolarvicidal efficacy under semi-field and field conditions (wild populations) was also analyzed, as well as the photobleaching and residual activity of DMC. RESULTS: A delay in development time when larvae were exposed to sublethal concentrations of DMC was observed, followed by significant changes in sex ratio and reduction in longevity. DMC also presented a low residual activity when compared to usual larvicides, and had a substantial photolarvicidal activity against wild populations in field trials, achieving 71.3% mortality after 48 h. CONCLUSIONS: Overall, these findings are of great biological importance for the process of enabling the implementation of DMC as a new product in the control of Ae. aegypti larvae, and contributes to the improvement of new plant-based larvicides. © 2021 Society of Chemical Industry.

Evolution of surviving Streptoccocus pyogenes from pharyngotonsillitis patients submit to multiple cycles of antimicrobial photodynamic therapy.

It is estimated over 600 million pharyngotonsillitis (PT) cases worldwide per year and 30% of this total are caused by Streptococcus pyogenes with standard antibiotic treatment. Antimicrobial Photodynamic Therapy (aPDT) has been studied for the clinical research in infectious diseases. The study aim was to analyze the evolution of aPDT on inactivation of clinical strains of multiple cycles. S. pyogenes and clinical strains isolated from patients with PT were incubated with curcumin in formulation (2.25 mg/ml) and irradiated at 450 nm in Light fluence rates. A mortality was a measure of the counting colony forming units per milliliter (CFU/ml) surviving. Parameters of bacterial biofilm formation, uptake of photosensitizer (PS) and efficacy of antibiotics on survival of bacteria of each cycle were tested. The bacteria profile remains unchanged between 10 aPDT cycles was observed. The bacterial colony survival presented a reduction in capacity to form biofilm due adhesion of strains and PS uptake rate. The antibiotic remained efficient after aPDT cycles. Our in vitro results suggested a low-level of development of PDT resistance, however a decrease of photosensitizer uptake was observed. Furthermore, there is no cross effect on aPDT cycles and the first application of antibiotics.

Total mouth photodynamic therapy mediated by blue led and curcumin in individuals with AIDS.

OBJECTIVES: To test the effectiveness of an efficient therapeutic protocol for the total mouth antimicrobial photodynamic therapy (aPDT) mediated by 450 nm blue LED associated with curcumin in individuals with AIDS. METHODS: Patients were selected by exclusion criteria and randomly distributed in groups to test the effectiveness of antimicrobial aPDT with curcumin 0.75 mg/mL associated with the blue LED (67 mW/cm2, 20.1 J/cm2). Before and after the treatments, samples were collected from the saliva being processed in duplicate in selective culture media. The colonies were counted and the results obtained in log10 CFU/mL were statistically tested (T-paired statistical test, 5%). RESULTS: The log10 CFU/mL of Streptococcus spp., Staphylococcus spp., and total count of microorganisms showed statistically significant (p = 0.023; p = 0.001 and p = 0.017, respectively) reduction after treatment in patients with aPDT. CONCLUSION: aPDT was effective in reducing Streptococcusspp. in addition to reducing Staphylococcusspp., enterobacteria and the total count of microorganisms when considering the numbers of TCD4 and TCD8 lymphocytes. The aPDT in the studied protocol was able to control clinically important intraoral microorganisms for AIDS patients, both those with TCD4 lymphocytes above or below 25% of normal and those with TCD8 lymphocytes above 25% of normal.

Effects of ultraviolet light and curcumin-mediated photodynamic inactivation on microbiological food safety: A study in meat and fruit.

BACKGROUND: About one-third of the food produced in the world is lost or wasted every year. Contamination can cause significant food loss throughout the entire supply chain, including harvesting, processing, storage, and transport to consumers. This study evaluated ultraviolet-C (UV-C) light and curcumin-mediated photodynamic inactivation (PDI) for the decontamination of meat and fruit. METHODS: The cut pieces of food samples contaminated with E. coli or S. aureus were submitted to photonic treatments. For UV-C, samples were irradiated with UV-C lamps (254 nm) for 0, 1, 2, 3, 4, 5 and 10 min. For PDI, samples were incubated using 40 and 80 µM curcumin and irradiated with 450 nm at 5, 10, and 15 J/cm2 of light doses. The microbiological analysis was performed by counting the colony-forming unit (CFU). RESULTS: UV-C irradiation reduced the number of E. coli in beef by (1.0 ± 0.2) log10 CFU/mL after 5 min of exposure. In chicken and pork, the numbers of E. coli were reduced by (1.6 ± 0.7) log10 CFU/mL and (1.6 ± 0.4) log10 CFU/mL after 4 and 10 min of irradiation, respectively. In apple the reductions were (3.2 ± 0.4) and (3.8 ± 0.2) log10 CFU/mL after 5 and 10 min of UV-C irradiation, respectively. PDI (40 µM, 15 J/cm2) reduced the number of S. aureus by (1.5 ± 0.2), (1.4 ± 0.2) and (0.6 ± 0.4) log10 CFU/mL in beef, chicken, and pork meat samples, respectively. In apple the greatest reduction was (2.0 ± 0.4) log10 CFU/mL using 80 µM and 10 J/cm2. CONCLUSION: UV-C irradiation and PDI had an anti-microbial effect in food and our findings indicated that the greatest effect was achieved in apples. Therefore, these techniques may be useful to reduce E. coli and S. aureus contamination levels on the surface of meats and fruits, being promising for applications in the field of microbiological food safety.

Optimization for microbial incorporation and efficiency of photodynamic therapy using variation on curcumin formulation.

INTRODUCTION: A mixture of curcuminoids: curcumin, desmethoxycurcumin (DMC), and bisdemethoxycurcumin (BDMC) are named natural curcumin. It is a lipophilic photosensitizer (PS) highly soluble in an organic solvent such as dimethyl sulfoxide (DMSO). Curcumin is a PS used for microbial inactivation using photodynamic action. However, this solvent has high cytotoxicity and is unavailable in formulations for clinical use. This study aimed to investigate the interactions of curcuminoids syrup with Streptococcus sp., a gram-positive coccus and one of the major pharyngeal pathogens, responsible for diseases such as pharyngitis. METHODS: Bacteria were incubated with curcuminoids (natural curcumin, synthetic, DMC, BDMC) at 37 °C in formulations: 1) syrup (water + sucrose) 2) solution alcohol + DMSO. Was centrifuged, and the supernatant collected for absorbance analysis. The results obtained correlating the absorbance with the supernatant to the absorbance of the default concentration. A study of microbial metabolism by growth curve was carried out to justify the result. RESULTS: The incorporation of curcumin in syrup is superior to alcohol/DMSO solution by microorganisms. Curcumin incorporation by S. mutans, S. pyogenes, isolated bacteria was 24, 26, 27 % in syrup and 10, 13, 5 % in alcohol/DMSO, respectively. Also, the presence of carbohydrate in a solution can activate the bacterial metabolism, getting better uptake results and photodynamic inactivation to natural curcumin and DMC. Such finds care optimizes the use of curcumin without complications generated by the solvent.

Field cancerization treatment using topical photodynamic therapy: A comparison between two aminolevulinate derivatives.

The objective of this study was to evaluate and compare the clinical response to PDT (Photodynamic Therapy) in field cancerization using two aminolevulinate derivatives. Forty patients with multiple actinic keratosis (AK) on forearms and hands scattered received two sessions of ALA and MAL-PDT at 630 nm (36 J/cm2). The AK clearance rate was 72 % for both drugs with a significant decrease in AK observed clinically (p < 00,001). Clinical improvement in field cancerization using two aminolevulinate derivatives in PDT is proven with no significant difference in the efficacy of drugs.

Photodynamic inactivation for in vitro decontamination of Staphylococcus aureus in whole blood.

BACKGROUND: Blood can be the target of microbial cells in the human body. Erythrocytes, platelets, and plasma concentrates in blood bags used in hemotherapy for blood transfusion are contamination targets, which can trigger serious diseases in blood. These infections can cause septicemia that can lead to death if not recognized rapidly and treated adequately. The aim of this study was to evaluate the photodynamic inactivation in the in vitro decontamination of Staphylococcus aureus in whole blood, erythrocytes and platelet-rich plasma. METHODS: Photodynamic inactivation using light doses of 10, 15 and 30 J/cm2 at 630 nm and an hematoporphyrin-derivative photosensitizer (Photogem®) solutions at 25 and 50 µg/mL were evaluated. Toxicity of treatment was determined by hemolysis and cell viability assays. RESULTS: The S. aureus reduction in phosphate buffered saline (PBS), whole blood, erythrocytes and platelet-rich plasma at 15 J/cm2 and 50 µg/mL were 7.2, 1.0, 1.3 and 0.4 log CFU/mL, respectively. Quantitative and qualitative analyses were performed in whole blood samples, and Photogem® showed a low risk of hemolysis (10.7%) in whole blood. However, 100% of erythrocytes suffered hemolysis in the absence of plasma. The cell viability assay showed 13.9% of apoptosis in erythrocytes, but normal platelet viability. CONCLUSION: S. aureus inactivation of whole blood samples using 50 µg/mL Photogem® and 15 J/cm2 resulted in better outcomes, providing promising indications for treatment of bacterial contamination of blood, and in this work, alternative possibilities to apply the technique for blood decontamination are discussed.

Optical techniques for the diagnosis and treatment of lesions induced by the human papillomavirus - A resource letter.

Human papillomaviruses (HPV) are the most common sexually-transmitted virus, and carcinogenic HPV strains are reported to be responsible for virtually all cases of cervical cancer and its precursor, the cervical intraepithelial neoplasia (CIN). About 30% of the sexually active population are considered to be affected by HPV. Around 600 million people are estimated to be infected worldwide. Diseases related to HPV cause significant impact from both the personal welfare point of view and public healthcare perspective. This resource letter collects relevant information regarding HPV-induced lesions and discusses both diagnosis and treatment, with particular attention to optical techniques and the challenges involved to the implementation of those approaches.

Reduced methicillin-resistant Staphylococcus aureus biofilm formation in bone cavities by photodynamic therapy.

Photodynamic Therapy (PDT) is a promising alternative for the treatment of infectious bone lesions in the oral cavity. The objective of this study was to evaluate the antimicrobial effectiveness of PDT using blue LED associated with curcumin in methicillin-resistant Staphylococcus aureus biofilms (MRSA) in bovine bone cavities by fluorescence spectroscopy. Standardized suspensions of MRSA culture were inoculated into bone lesions to form biofilm. Forty bone species were distributed in three distinct groups: L-C- (control); L + C- (LED for 5 min); L-C+ (curcumin incubation for 5 min) and L + C+ (PDT). Aliquots of 100 µL were collected from the bone cavities after the treatments and were cultived in BHI for 24 h at 36 °C ±â€¯1 and bacterial colonies counting were performed. Statistical analysis were performed using the paired t-test and analysis of variance (ANOVA) for the variables studied. RESULTS: The control and PDT groups presented statistically significant differences (p < 0.001). It was possible to reduce 3.666 log10 CFU/mL of MRSA and a reduction in the fluorescence emitted after the treatments was observed. The MRSA reduction in biofilms by PDT was the most efficient treatmnent. There was a significant reduction of biofilms in the L + C- and non-PDT groups by fluorescence spectroscopy images.

Manual Operated Ultraviolet Surface Decontamination for Healthcare Environments.

OBJECTIVE: The aim of this study was to evaluate the effectiveness of a new handheld equipment based on a mercury low-pressure vapor lamp. The Surface UV® device was tested in Staphylococcus aureus, Streptococcus mutans, Streptococcus pneumoniae, two strains of Escherichia coli, Pseudomonas aeruginosa, Candida albicans, and other clinical microorganisms isolated from different surfaces of a public health hospital. BACKGROUND DATA: The incidence of hospital infections has increased in recent years. Despite the variety of available chemicals to reduce the microorganisms, the search for antimicrobial agents and the characterization of novel targets are a continued need. Also, the minimization of chemical procedures is a constant need, and the use of ultraviolet (UV) light as a germicidal device for microorganisms' inactivation has been an alternative and one possible approach for the reduction of contamination. MATERIALS AND METHODS: The in vitro decontamination was performed by application of Surface UV in different species of microorganisms (study 1). The surface decontamination was carried out by application of Surface UV on each surface of hospital environment (study 2). The device presents ultraviolet C (UV-C) light at 254 nm and produces an irradiance of 13 mW/cm2 at a distance of 1 cm of the surfaces. The light dose was 0.78 J/cm2 for 60 sec of application in both studies. RESULTS: The results for in vitro decontamination indicated a log10 reduction factor of 6.5 for S. aureus, 6.7 for S. mutans, 6.2 for S. pneumoniae, 5.4 for E. coli, 5.2 for E. coli (ATCC 8739), 5.4 for P. aeruginosa, and 6.7 for C. albicans. The hospital level of microorganisms decreases more by 75% after the procedure. CONCLUSIONS: The study highlights the development and successful application of a new portable device that can reduce the risk of contamination in health settings. Our results suggest that Surface UV is efficient and may be an alternative decontamination method.