ИССЛЕДОВАНИЕ ФОТОСЕНСИБИЛИЗАТОРА ДЛЯ АНТИБАКТЕРИАЛЬНОЙ ФОТОДИНАМИЧЕСКОЙ ТЕРАПИИ НА ОСНОВЕ ЦИКЛОДЕКСТРИНОВОЙ КОМПОЗИЦИИ МЕТИЛОВОГО ЭФИРА 133-N-(N-МЕТИЛНИКОТИНИЛ) БАКТЕРИОПУРПУРИНИМИДА

Cationic bacteriochlorins are promising as antibacterial photosensitizers (PS) for antibacterial photodynamic therapy. Current work is devoted to the study of properties of new nanostructured cationic photosensitizer based on cyclodextrin dispersion of bacteriochlorine derivative – 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester, for optimization of dispersion composition and selection of time interval between administration of the PS and photodynamic ttherapy of infected septic wounds. Specifics of absorption and fluorescence of PS in dependence of its concentration and proportions of components in dispersion was assessed. Pharmacokinetics and biodistribution of PS were studies in vivo in organs and tissues of intact mice and septic wounds infected with P. аeruginosa or S. aureus. The preliminary studies have shown high efficiency of antimicrobial photodynamic therapy of septic wounds with cyclodextrin dispersion of 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester. Results of study of absorption and spectral and fluorescence properties of its drug formulation depending on its composition allowed to recommend the use of weight ratio 133-N-(N-methylnicotinyl)bacteriopurpurinimide methyl ester : cyclodextrin about 1:200 and addition of 0,1% Tween 80 to reduce aggregation. The study showed that 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester was rapidly cleared from mouse blood circulation: more than 70% – for 2 h, 95% – for 1 day, more than 99% – for 6 days. About 98% was cleared from skin and muscles for 6 days. The long-term (up to 24 h) persistence of PS were observed in liver and kidneys, however more than 99% was cleared for 6 days. Thus, it may be supposed that elimination of PS form mice body is through kidneys and liver. After 24 h partial PS aggregation in tissues, particularly in skin and muscles, was observed. Thus, it may be supposed that the reduce of fluorescence intensity after 24 hand later was associated not only with its elimination from body but with its aggregation. Spectral and fluorescence studies showed that 133-N-(Nmethylnicotinyl)-bacteriopurpurinimide methyl ester selectively accumulated in septic wounds, fluorescence contrast was in the range of 3–4. The highest values of concentration and selectivity of its accumulation were achieved at 1.5–3 h after intravenous injection. The irradiation 2 h after injection provided high efficacy of the therapy of septic wounds.Катионные бактериохлорины перспективны как антимикробные фотосенсибилизаторы для антибактериальной фотодинамической терапии. Настоящая работа посвящена изучению свойств нового наноструктурированного катионного фотосенсибилизатора на основе циклодекстриновой дисперсии производного бактериохлорина – метилового эфира 133-N-(N-метилникотинил)бактериопурпуринимида (КБХ), с целью оптимизации состава дисперсии и выбора интервала времени от введения фотосенсибилизатора до проведения фотодинамической терапии инфицированных гнойных ран. Оценены особенности поглощения и флуоресценции фотосенсибилизатора в зависимости от его концентрации и соотношения между компонентами дисперсии. Изучена фармакокинетика и биораспределение фотосенсибилизатора в органах и тканях интактных мышей и гнойных ранах, инфицированных P. аeruginosa или S. aureus. Предварительные исследования показали высокую эффективность антимикробной фотодинамической терапии инфицированных гнойных ран с циклодекстрированной дисперсией КБХ. Проведенные исследования поглощения и спектрально-флуоресцентных свойств его лекарственной формы в зависимости от ее состава позволили рекомендовать использование массового отношения КБХ : циклодекстрин около 1:200 и введение для уменьшения агрегации 0,1% Твин-80. Установлено, что КБХ быстро выводится из кровотока мыши: более 70% – за 2 ч, 95% – за 1 сут , более 99% – за 6 сут. Из кожи и мышц около 98% выводится за 6 сут. Фотосенсибилизатор накапливается и удерживается до 24 ч в печени и почках. Это позволяет предположить, что элиминирование фотосенсибилизатора из организма мышей происходит через почки и печень. Обнаружено, что в тканях, в частности, в коже и мышцах, через 24 ч наблюдается частичная агрегация фотосенсибилизатора. Это позволяет предположить, что уменьшение интенсивности его флуоресценции через 24 и более часа связано не только с его элиминацией из организма, но и с агрегацией. Спектрально-флуоресцентное исследования показали, что КБХ селективно накапливается в инфицированных ранах, флуоресцентная контрастность лежит в пределах 3–4. Наиболее высокие значения концентрации и селективности его накопления в инфицированных ранах были достигнуты через 1,5–3 ч после внутривенного введения. Облучение через 2 ч после введения обеспечило высокую эффективность терапии инфицированных гнойных ран

U-Th-He geochronology of pyrite from alteration of the au-fe-skarn novogodnee-monto deposit (Polar urals, Russia)—The next step in the development of a new approach for direct dating of ore-forming processes

We report on the application of the U-Th-He method for the direct dating of pyrite from the alteration halo of the Novogodnee-Monto Au-Fe-skarn deposit, Polar Urals. The deposit is genetically related to the formation of volcanogenic complexes of the Ural Paleozoic belt. A modification of the original methodology for measuring U, Th and He isotopes in a single grain allowed us to determine a U-Th-He age of 382 ± 8 Ma (2σ) based on six pyrite samples from the altered rocks of the deposit (U mass fraction ~0.2 mg/kg; Th/U ~ 3.5;4He specific volume ~ 10−5 cm3·STP·g−1). This age is consistent with estimates of the age of ore formation and coeval with the end of the period of island arc magmatic activity. Our results indicate that U-Th-He dating for pyrite samples of ~1 mg in weight from the hydrothermal-metasomatic halo of ore bodies is possible, providing a crucial next step in the development of U-Th-He pyrite geochronology. © 2021 by the author. Licensee MDPI, Basel, Switzerland

Gold and Arsenic in Pyrite and Marcasite: Hydrothermal Experiment and Implications to Natural Ore-Stage Sulfides

Hydrothermal synthesis experiments were performed in order to quantify the states of Au and As in pyrite and marcasite. The experiments were performed at 350 °C/500 bar and 490 °C/1000 bar (pyrite–pyrrhotite buffer, C(NaCl) = 15 and 35 wt.%). The synthesis products were studied by EPMA, LA-ICP-MS, and EBSD. The EPMA was applied for simultaneous determinations of Au, As, Fe, and S, with a Au detection limit of 45–48 ppm (3σ). The analyses were performed along profiles across zonal grains. The concentrations of As and Au up to 5 wt.% and 8000 ppm, respectively, were determined in pyrite and up to 6 wt.% and 1300 ppm in marcasite. In pyrite, the Au concentration decreases with fluid salinity and temperature increases. Strong positive Au–As correlation and strong negative Au–Fe and As–S correlation were identified in pyrite. Comparison of the correlations with theoretical lines implies Au–As clustering. The cluster stoichiometry is inferred to be [AuAs10]. Most probably, As in pyrite presents in the form of clusters and in the As→S solid solution. Incorporation of Au in As-rich pyrite can be controlled by the reductive deposition mechanism. In marcasite, the concentrations of Au are not correlated with the As content. The [AuAs10] clusters enrich the {210}, {113}, and {111} pyrite faces, where the former exhibits the highest affinity to Au and As. The affinity of {110} and {100} forms to Au and As is lower. Implication of the experimental results to data for natural auriferous pyrite shows that the increase of Au content at C(As) > 0.5–1 wt.% is caused by the incorporation of the Au-As clusters, but not because of the formation of Au→Fe solid solution. Therefore, the concentration of “invisible” gold in pyrite is dictated solely by the hydrothermal fluid chemistry and subsequent ore transformations

Noble metal speciations in hydrothermal sulphides

A significant part of the primary gold reserves in the world is contained in sulphide ores, many types of which are refractory in gold processing. The deposits of refractory sulphide ores will be the main potential source of gold production in the future. The refractory gold and silver in sulphide ores can be associated with micro-and nano-sized inclusions of Au and Ag minerals as well as isomorphous, adsorbed and other species of noble metals (NM) not thoroughly investigated. For gold and gold-bearing deposits of the Urals, distribution and forms of NM were studied in base metal sulphides by laser ablation-inductively coupled plasma mass spectrometry and by neutron activation analysis. Composition of arsenopyrite and As-pyrite, proper Au and Ag minerals were identified using electron probe microanalysis. The ratio of various forms of invisible gold—which includes nanoparticles and chemically bound gold—in sulphides is discussed. Observations were also performed on about 120 synthetic crystals of NM-doped sphalerite and greenockite. In VMS ores with increasing metamorphism, CAu and CAg in the major sulphides (sphalerite, chalcopyrite, pyrite) generally decrease. A portion of invisible gold also decreases —from ~65–85% to ~35–60% of the total Au. As a result of recrystallisation of ores, the invisible gold is enlarged and passes into the visible state as native gold, Au-Ag tellurides and sulphides. In the gold deposits of the Urals, the portion of invisible gold is usually <30% of the bulk Au. © 2021 by the authors. Licensee MDPI, Basel, Switzerland

STUDY OF PHOTOSENSITIZER FOR ANTIBACTERIAL PHOTODYNAMIC THERAPY BASED ON CYCLODEXTRIN FORMULATION OF 133-N-(N-METHYLNICOTINYL)BACTERIOPURPURINIMIDE METHYL ESTER

Cationic bacteriochlorins are promising as antibacterial photosensitizers (PS) for antibacterial photodynamic therapy. Current work is devoted to the study of properties of new nanostructured cationic photosensitizer based on cyclodextrin dispersion of bacteriochlorine derivative – 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester, for optimization of dispersion composition and selection of time interval between administration of the PS and photodynamic ttherapy of infected septic wounds. Specifics of absorption and fluorescence of PS in dependence of its concentration and proportions of components in dispersion was assessed. Pharmacokinetics and biodistribution of PS were studies in vivo in organs and tissues of intact mice and septic wounds infected with P. аeruginosa or S. aureus. The preliminary studies have shown high efficiency of antimicrobial photodynamic therapy of septic wounds with cyclodextrin dispersion of 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester. Results of study of absorption and spectral and fluorescence properties of its drug formulation depending on its composition allowed to recommend the use of weight ratio 133-N-(N-methylnicotinyl)bacteriopurpurinimide methyl ester : cyclodextrin about 1:200 and addition of 0,1% Tween 80 to reduce aggregation. The study showed that 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester was rapidly cleared from mouse blood circulation: more than 70% – for 2 h, 95% – for 1 day, more than 99% – for 6 days. About 98% was cleared from skin and muscles for 6 days. The long-term (up to 24 h) persistence of PS were observed in liver and kidneys, however more than 99% was cleared for 6 days. Thus, it may be supposed that elimination of PS form mice body is through kidneys and liver. After 24 h partial PS aggregation in tissues, particularly in skin and muscles, was observed. Thus, it may be supposed that the reduce of fluorescence intensity after 24 hand later was associated not only with its elimination from body but with its aggregation. Spectral and fluorescence studies showed that 133-N-(Nmethylnicotinyl)-bacteriopurpurinimide methyl ester selectively accumulated in septic wounds, fluorescence contrast was in the range of 3–4. The highest values of concentration and selectivity of its accumulation were achieved at 1.5–3 h after intravenous injection. The irradiation 2 h after injection provided high efficacy of the therapy of septic wounds

STUDY OF PHOTOSENSITIZER FOR ANTIBACTERIAL PHOTODYNAMIC THERAPY BASED ON CYCLODEXTRIN FORMULATION OF 133-N-(N-METHYLNICOTINYL)BACTERIOPURPURINIMIDE METHYL ESTER

Cationic bacteriochlorins are promising as antibacterial photosensitizers (PS) for antibacterial photodynamic therapy. Current work is devoted to the study of properties of new nanostructured cationic photosensitizer based on cyclodextrin dispersion of bacteriochlorine derivative – 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester, for optimization of dispersion composition and selection of time interval between administration of the PS and photodynamic ttherapy of infected septic wounds. Specifics of absorption and fluorescence of PS in dependence of its concentration and proportions of components in dispersion was assessed. Pharmacokinetics and biodistribution of PS were studies in vivo in organs and tissues of intact mice and septic wounds infected with P. аeruginosa or S. aureus. The preliminary studies have shown high efficiency of antimicrobial photodynamic therapy of septic wounds with cyclodextrin dispersion of 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester. Results of study of absorption and spectral and fluorescence properties of its drug formulation depending on its composition allowed to recommend the use of weight ratio 133-N-(N-methylnicotinyl)bacteriopurpurinimide methyl ester : cyclodextrin about 1:200 and addition of 0,1% Tween 80 to reduce aggregation. The study showed that 133-N-(N-methylnicotinyl)-bacteriopurpurinimide methyl ester was rapidly cleared from mouse blood circulation: more than 70% – for 2 h, 95% – for 1 day, more than 99% – for 6 days. About 98% was cleared from skin and muscles for 6 days. The long-term (up to 24 h) persistence of PS were observed in liver and kidneys, however more than 99% was cleared for 6 days. Thus, it may be supposed that elimination of PS form mice body is through kidneys and liver. After 24 h partial PS aggregation in tissues, particularly in skin and muscles, was observed. Thus, it may be supposed that the reduce of fluorescence intensity after 24 hand later was associated not only with its elimination from body but with its aggregation. Spectral and fluorescence studies showed that 133-N-(Nmethylnicotinyl)-bacteriopurpurinimide methyl ester selectively accumulated in septic wounds, fluorescence contrast was in the range of 3–4. The highest values of concentration and selectivity of its accumulation were achieved at 1.5–3 h after intravenous injection. The irradiation 2 h after injection provided high efficacy of the therapy of septic wounds