نتائج البحث - "И. Ю. Торшин"

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Online First ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Online First ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: ГПЧ, metabolic-associated fatty liver disease, МAFLD, iron overload, fructose, palm oil, polypeptide therapy, human placenta hydrolyzate, HPH, неалкогольная жировая болезнь печени, МАЖБП, перегрузка железом, фруктоза, пальмовое масло, гидролизат плаценты человека

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/1118/579; Райхельсон К.Л., Маев М.В., Жаркова М.С. и др. Жировая болезнь печени: новая номенклатура и ее адаптация в Российской Федерации. Российский журнал гастроэнтерологии, гепатологии, колопроктологии. 2024; 34 (2): 35–44. https://doi.org/10.22416/1382-4376-2024-961.; Торшин И.Ю., Громова О.А., Богачева Т.Е. Систематический анализ взаимосвязей между неалкогольной жировой болезнью печени и перегрузкой тканей железом: перспективные направления применения полипептидной терапии. Экспериментальная и клиническая гастроэнтерология. 2023; 10: 139–52. https://doi.org/10.31146/1682-8658-ecg-218-10-139-152.; Торшин И.Ю., Громова О.А., Тихонова О.В., Чучалин А.Г. О молекулярных механизмах воздействия пептидов стандартизированного гидролизата плаценты на функционирование митохондрий. Терапевтический архив. 2023; 95 (12): 1133–40. https://doi.org/10.26442/00403660.2023.12.202494.; Богачева Т.Е., Калачева А.Г., Громова О.А. и др. Изучение эффективности препарата Лаеннек при повреждении печени пальмовым маслом у крыс. Фармакокинетикаифармакодинамика. 2023;4:23–31. https://doi.org/10.37489/2587-7836-2023-4-23-31.; Тран В.Т., Торшин И.Ю., Громова О.А. Открытое контролируемое исследование эффективности и безопасности применения Лаеннека для улучшения функции печени у пациентов с неалкогольной жировой болезнью печени. Экспериментальная и клиническая гастроэнтерология. 2023; 8: 48–56. https://doi.org/10.31146/1682-8658-ecg-216-8-48-56.; Громова О.А., Торшин И.Ю., Максимов В.А. и др. Пептиды в составе препарата Лаеннек,способствующие устранению гиперферритинемии и перегрузки железом. ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология. 2020; 13 (4): 413–25. https://doi.org/10.17749/2070-4909/farmakoekonomika.2020.070.; Максимов В.А., Торшин И. Ю., Чучалин А. Г. и др. Эффективность и безопасность полипептидного препарата (Лаеннек) в терапии COVID-19. Экспериментальная и клиническая гастроэнтерология. 2020; 6: 55–63. https://doi.org/10.31146/1682-8658-ecg-178-6-55-63.; Винницкая Е.В., Сандлер Ю.Г., Салиев К.Г. и др. Эффективность гидролизата плаценты человека при метаболически ассоциированной жировой болезни печени н астадии фиброза (пилотноеисследование). Терапевтический архив. 2024; 96 (2): 107–16. https://doi.org/10.26442/00403660.2024.02.202582.; Zhuo Z., Fan S., Hu K., et al. Analysis of digital profiling of duodenal transcriptome gene expression in SD rats injected with iron sulfate or iron glycine chelate through a probe. Sci Rep. 2016; 6: 37923. https://doi.org/10.1038/srep37923.; Luo G., Xiang L., Xiao L. Acetyl-CoA deficiency is involved in the regulation of iron overload on lipid metabolism in apolipoprotein E knockout mice. Molecules. 2022; 27 (15): 4966. https://doi.org/10.3390/molecules27154966.; Hilton S., Sabaratnam R., Drakesmith H., Karpe, F. Metabolism of iron, glucose and fats and obesity: the relationship. Int J Obes. 2023; 47 (7): 554–63. https://doi.org/10.1038/s41366-023-01299-0.; Jensen T., Abdelmalek M.F., Sullivan S., et al. Fructose and sugar: the main mediators of non-alcoholic fatty liver disease. J Hepatol. 2018; 68 (5): 1063–75. https://doi.org/13.1016/j.jhep.2018.01.019.; Ma J., Sloan M., Fox K.S., et al. Consumption of sugar-sweetened beverages is associated with the breakdown of abdominal fat in healthy adults. J Nutr. 2014; 144 (8): 1283–90. https://doi.org/10.3945/jn.113.188599.; Di Stefano J.K. Fructose-mediated effect on gene expression and epigenetic mechanisms associated with the pathogenesis of NAFLD. Cell Mol Life Sci. 2020; 77 (11): 2079–90. https://doi.org/10.1007/s00018-019-03390-0.; Vos, M.B.; Lavin, J.E. Dietary fructose in non-alcoholic fatty liver disease. Hepatology. June 2013; 57(6):2525- 31. https://doi.org/10.1002/hep.26299. Epub 2013 May 1. PMID: 23390127.; Kanerva N., Sandboge S., Kaartinen N.E., et al. Higher consumption of fructose is inversely proportional to the risk of non-alcoholic golic fatty liver disease in elderly Finns 1-4 years. Am J Clin Nutr. 2014; 100: 1133–41. https://doi.org/10.3945/ajcn.114.086074.; Ma J., Fox K.S., Jacques F., Speliotes, E.K., et al. Sugar-sweetened beverage, diet soda, and fatty liver disease in the Framingham Heart Study cohorts. J Hepatol. 2015; 63 (2): 462–9. https://doi.org/10.1016/j.jhep.2015.03.032; Шептулина А.Ф., Голубева Ю.А., Драпкина О.М. Фруктоза и ее влияние на обмен веществ и риск развития неалкогольной жировой болезни печени. Доказательная гастроэнтерология. 2023; 12 (1): 85–92. https://doi.org/10.17116/dokgastro20231201185.; Wu J., Yang T., Wang C. et al. Laennec protects murine from concavalin A-induced liver injury through inhibition of inflammamory reactions and hepatocyte apoptosis. Biol Pharm Bull. 2008; 31 (11): 2040–4. https://doi.org/10.1248/bpb.31.2040.; Jung J.C., Lee H.J., Lee J.M, et al. Placenta extract promote liverregeneration in CCI4-injured liver rat model. Int Immunopharmacol. 2011; 11 (8): 976–84. https://doi.org/10.1016/j.intimp.2011.02.012.; Yamauchi A., Kamiyoshi A., Koyama T., et al. Placental extract ameliorates non-alcoholic steatohepatitis (NASH) by exerting protective effects on endothelial cells. Heliyon. 2017; 3 (9): e00416. https://doi.org/10.1016/j.heliyon.2017.e00416.; https://www.pharmacoeconomics.ru/jour/article/view/1118

الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/1118
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.274

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5

Academic Journal

Chemoreactome prediction of anti-inflammatory, analgesic, ulcerogenic effects of the candidate molecule N-allylimidazole zinc in comparison with zinc derivatives of non-steroidal anti-inflammatory drugs ; Хемореактомное прогнозирование противовоспалительных, противоболевых, ульцерогенных эффектов молекулы-кандидата N-аллилимидазол-цинка в сравнении с цинковыми производными нестероидных противовоспалительных препаратов

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Online First ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Online First ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: интеллектуальный анализ данных, zinc-containing compounds, anti-inflammatory drug, adverse effects, chemoinformatics, pharmacoinformatics, data mining, цинк-содержащие соединения, противовоспалительный препарат, побочные эффекты, хемоинформатика, фармакоинформатика

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/1117/578; Shetty A., Delanerolle G., Cavalini H., et al. A systematic review and network meta-analysis of pharmaceutical interventions used to manage chronic pain. Sci Rep. 2024; 14 (1): 1621. http://doi.org/10.1038/s41598-023-49761-3.; Громова О.А., Торшин И.Ю., Путилина М.В. и др. Хемореактомный анализ центральных механизмов нестероидных противовоспалительных препаратов. Журнал неврологии и психиатрии им. С.С. Корсакова. 2020; 120 (1): 70–7. https://doi.org/10.17116/jnevro202012001170.; Ali G., Deeba F., Rashid U., et al. In vivo effects of a selected thiourea derivative 1-(2-chlorobenzoyl)-3-(2,3-dichlorophenyl) against nociception, inflammation and gastric ulcerogenicity: biochemical, histopathological and in silico approaches. Biomed Pharmacother. 2024; 174: 116544. http://doi.org/10.1016/j.biopha.2024.116544.; Santos L.H., Feres C.A., Melo F.H., et al. Anti-inflammatory, antinociceptive and ulcerogenic activity of a zinc-diclofenac complex in rats. Braz J Med Biol Res. 2004; 37 (8): 1205–13. http://doi.org/10.1590/s0100-879x2004000800011.; Sukul A., Poddar S.K., Haque S., et al. Synthesis, characterization and comparison of local analgesic, anti-inflammatory, anti-ulcerogenic activity of copper and zinc complexes of indomethacin. Antiinflamm Antiallergy Agents Med Chem. 2017; 15 (3): 221–33. http://doi.org/10.2174/1871523016666170217103402.; Jarosz M., Szkaradek N., Marona H., et al. Evaluation of anti-inflammatory and ulcerogenic potential of zinc-ibuprofen and zinc-naproxen complexes in rats. Inflammopharmacology. 2017; 25 (6): 653–63. http://doi.org/10.1007/s10787-017-0361-0.; Gaweł M., Lipkowska A., Herman M., et al. Chronic treatment with zinc hydroaspartate induces anti-inflammatory and anti-ulcerogenic activity in rats. Pharmacol Rep. 2014; 66 (5): 862–6. http://doi.org/10.1016/j.pharep.2014.05.007.; Торшин И.Ю., Громова О.А., Федотова Л.Э., Громов А.Н. Сравнительный хемореактомный анализ декскетопрофена, кетопрофена и диклофенака. Неврология, нейропсихиатрия, психосоматика. 2018; 10 (1): 47–54. DOI: http://doi.org/10.14412/2074-2711-2018-1-47-54.; Торшин И.Ю., Громова О.А., Стаховская Л.В., Семёнов В.А. Хемореактомный анализ молекул толперизона, тизанидина и баклофена: холинолитические, спазмолитические и анальгетические механизмы действия. Неврология, нейропсихиатрия, психосоматика. 2018; 10 (4): 72–80. http://doi.org/10.14412/2074-2711-2018-4-72-80.; Торшин И.Ю. О задачах оптимизации, возникающих при применении топологического анализа данных к поиску алгоритмов прогнозирования с фиксированными корректорами. Информатика и еe применения. 2023; 17 (2): 2–10. http://doi.org/10.14357/19922264230201.; Torshin I.Yu., Rudakov K.V. On the procedures of generation of numerical features over partitions of sets of objects in the problem of predicting numerical target variables. Pattern Recognit Image Anal. 2019; 29 (4): 654–67. https://doi.org/10.1134/S1054661819040175.; Торшин И.Ю., Громова О.А., Чучалин А.Г., Журавлев Ю.И. Хемореактомный скрининг воздействия фармакологических препаратов на SARS-CoV-2 и виром человека как информационная основа для принятия решений по фармакотерапии COVID-19. ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология. 2021; 14 (2): 191–211. https://doi.org/10.17749/2070-4909/farmakoekonomika.2021.078.; Торшин И.Ю., Громова О.А. Экспертный анализ данных в молекулярной фармакологии. М.: МЦНМО; 2012: 747 с.; Baumgardner K.R., Sulfaro M.A. The anti-inflammatory effects of human recombinant copper-zinc superoxide dismutase on pulp inflammation. J Endod. 2001; 27 (3): 190–5. http://doi.org/10.1097/00004770-200103000-00014.; Громова О.А. Торшин И.Ю. Важность цинка для поддержания активности белков врожденного противовирусного иммунитета: анализ публикаций, посвященных COVID-19. Профилактическая медицина. 2020; 23 (3): 131–9. https://doi.org/10.17116/profmed202023031131.; Громова О.А., Торшин И.Ю., Пронин А.В., Кильчевский М.А. Синергидное применение цинка и витамина С для поддержки памяти, внимания и снижения риска развития заболеваний нервной системы. Журнал неврологии и психиатрии им. С.С. Корсакова. 2017; 117 (7): 112–9. https://doi.org/10.17116/jnevro201711771112-119.; Prasad A.S. Zinc is an antioxidant and anti-inflammatory agent: its role in human health. Front Nutr. 2014; 1: 14. http://doi.org/10.3389/fnut.2014.00014.; Hunter J., Arentz S., Goldenberg J., et al. Zinc for the prevention or treatment of acute viral respiratory tract infections in adults: a rapid systematic review and meta-analysis of randomised controlled trials. BMJ Open. 2021; 11 (11): e047474. http://doi.org/10.1136/bmjopen-2020-047474.; Briassoulis G., Briassoulis P., Ilia S., et al. The anti-oxidative, anti-inflammatory, anti-apoptotic, and anti-necroptotic role of zinc in COVID-19 and sepsis. Antioxidants. 2023; 12 (11): 1942. http://doi.org/10.3390/antiox12111942.; Chen Y., Cai J., Liu D., et al. Zinc-based metal organic framework with antibacterial and anti-inflammatory properties for promoting wound healing. Regen Biomater. 2022; 9: rbac019. http://doi.org/10.1093/rb/rbac019.; Guo J., He L., Li T., et al. Antioxidant and anti-inflammatory effects of different zinc sources on diquat-induced oxidant stress in a piglet model. Biomed Res Int. 2020; 2020: 3464068. http://doi.org/10.1155/2020/3464068.; Mei X., Xu D., Xu S., et al. Gastroprotective and antidepressant effects of a new zinc(II)-curcumin complex in rodent models of gastric ulcer and depression induced by stresses. Pharmacol Biochem Behav. 2011; 99 (1): 66–74. http://doi.org/10.1016/j.pbb.2011.04.002.; Mei X., Luo X., Xu S., et al. Gastroprotective effects of a new zinc(II)-curcumin complex against pylorus-ligature-induced gastric ulcer in rats. Chem Biol Interact. 2009; 181 (3): 316–21. http://doi.org/10.1016/j.cbi.2009.06.022.; Bandyopadhyay B., Bandyopadhyay S.K. Protective effect of zinc gluconate on chemically induced gastric ulcer. Indian J Med Res. 1997; 106: 27–32. PMID: 9248212; Chao H.C. Zinc deficiency and therapeutic value of zinc supplementation in pediatric gastrointestinal diseases. Nutrients. 2023; 15 (19): 4093. http://doi.org/10.3390/nu15194093.; Donkin J.J., Turner R.J., Hassan I., Vink R. Substance P in traumatic brain injury. Prog Brain Res. 2007; 161: 97–109. http://doi.org/10.1016/S0079-6123(06)61007-8.; https://www.pharmacoeconomics.ru/jour/article/view/1117

الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/1117
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.279

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6

Academic Journal

Vitamins and other nutrients that support nitric oxide homeostasis and counteract the development of endotheliopathy ; Витамины и другие нутриенты, поддерживающие гомеостаз оксида азота и противодействующие формированию эндотелиопатии

المؤلفون: I. Yu. Torshin, O. A. Gromova, A. G. Chuchalin, L. A. Mayorova, И. Ю. Торшин, О. А. Громова, А. Г. Чучалин, Л. А. Майорова

المساهمون: The work was supported by the grant of the Russian Science Foundation No. 20-12-00175-p and conducted in “Ivanovo State University of Chemical Technology”, Работа выполнена при поддержке гранта Российского научного фонда № 20-12-00175-п на базе ФГБОУ ВО «Ивановский государственный химико-технологический университет»

المصدر: Neurology, Neuropsychiatry, Psychosomatics; Vol 16, No 6 (2024); 89-96 ; Неврология, нейропсихиатрия, психосоматика; Vol 16, No 6 (2024); 89-96 ; 2310-1342 ; 2074-2711 ; 10.14412/2074-2711-2024-6

مصطلحات موضوعية: питание, multiple organ pathology, nitric oxide homeostasis, folates, vitamin B12, nutraceuticals, nutrition, полиорганная патология, гомеостаз оксида азота, фолаты, витамин В12, нутрицевтики

وصف الملف: application/pdf

Relation: https://nnp.ima-press.net/nnp/article/view/2423/1759; Cyr AR, Huckaby LV, Shiva SS, Zuckerbraun BS. Nitric Oxide and Endothelial Dysfunction. Crit Care Clin. 2020 Apr;36(2):307-21. doi:10.1016/j.ccc.2019.12.009; Сарвилина ИВ, Громова ОА, Наумов АВ. Патобиохимические пути развития редоксдисбаланса при неврологических долгосрочных эффектах COVID-19 и роль хондроитина сульфата в восстановлении редокс-статуса. Неврология, нейропсихиатрия, психосоматика. 2021;13(5):109-15. doi:10.14412/2074-2711-2021-5-109-115; Старчина ЮА, Гришина ДА, Соколов ЕА, Парфенов ВА. Применение ингаляционного оксида азота (аппарат «Тианокс») у пациентов с умеренными когнитивными нарушениями. Неврология, нейропсихиатрия, психосоматика. 2023;15(6):64-70. doi:10.14412/2074-2711-2023-6-64-70; Торшин ИЮ, Громова ОА, Нечаева ГИ и др. Систематический анализ молекулярно-биологических механизмов поддержки хондроитина сульфатом метаболизма соединительной ткани. 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الاتاحة: https://nnp.ima-press.net/nnp/article/view/2423
https://doi.org/10.14412/2074-2711-2024-6-89-96

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The effectiveness of biotin in therapy alopecia of various origins, pathologies of the skin and nails ; Эффективность применения биотина в терапии алопеции различного генеза, патологии кожи и ногтей

المؤلفون: I. Yu. Torshin, O. A. Gromova, И. Ю. Торшин, О. А. Громова

المصدر: Meditsinskiy sovet = Medical Council; № 14 (2024); 135-144 ; Медицинский Совет; № 14 (2024); 135-144 ; 2658-5790 ; 2079-701X

مصطلحات موضوعية: фармакология, alopecia, hair growth, nails, hypovitaminosis, D-biotin, pharmacology, алопеция, рост волос, ногти, гиповитаминоз, D-биотин

وصف الملف: application/pdf

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الاتاحة: https://www.med-sovet.pro/jour/article/view/8513
https://doi.org/10.21518/ms2024-296

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8

Academic Journal

Chemoreactomic analysis of the antioxidant properties of vitamin B12 derivatives ; Хемореактомный анализ антиоксидантных свойств производных витамина В12

المؤلفون: I. Yu. Torshin, O. A. Gromova, L. A. Maiorova, И. Ю. Торшин, О. А. Громова, Л. А. Майорова

المساهمون: Thе work was supported by the grant of the Russian Science Foundation No. 20-12-00175-p on the base of Ivanovo State University of Chemistry and Technology., Работа выполнена при поддержке гранта Российского научного фонда № 20-12-00175-п на базе ФГБОУ ВО «Ивановский государственный химико-технологический университет».

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Online First ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Online First ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: антиоксидантные эффекты, chemoreactome analysis, topological theory of data analysis, assessment of pharmacological properties, antioxidant effects, хемореактомный анализ, топологическая теория анализа данных, оценка фармакологических свойств

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/1014/536; Громова О.А., Торшин И.Ю., Гусев Е.И. Синергидные нейропротекторные эффекты тиамина, пиридоксина и цианокобаламина в рамках протеома человека. Фармакокинетика и фармакодинамика. 2017; 1: 40–51.; Торшин И.Ю., Громова О.А., Майорова Л.А. О перспективах применения производных витамина В12 в фармакологии. ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология. 2023; 16 (3): 501–11. https://doi.org/10.17749/2070-4909/farmakoekonomika.2023.198.; Maiorova L.A., Vu T.T., Gromova O.A., et al. Nanostructured stable floating М-mono- and bilayers and Langmuir–Schaefer films of 5,10,15-triphenylcorrole. BioNanoScience. 2018; 8 (1): 81–9. https://doi.org/10.1007/s12668-017-0424-0.; Громова О.А., Третьяков В.Е., Мошковский С.А. et al. Oлигопептидная мембранная фракция церебролизина. Журнал неврологии и психиатрии им. С.С. Корсакова. 2006; 106 (7): 73–5.; Vu T.T., Maiorova L.A., Berezin D.B., Koifman O.I. Formation and study of nanostructured M-monolayers and LS-films of triphenylcorrole. Macroheterocycles. 2016; 9 (1): 73–9. https://doi.org/10.6060/mhc151205m.; Hannibal L., Axhemi A., Glushchenko A.V., et al. Accurate assessment and identification of naturally occurring cellular cobalamins. Clin Chem Lab Med. 2008; 46 (12): 1739–46. https://doi.org/10.1515/CCLM.2008.356.; Banerjee R., Ragsdale S.W. The many faces of vitamin B12: catalysis by cobalamin-dependent enzymes. Annu Rev Biochem. 2003; 72: 209–47. https://doi.org/10.1146/annurev.biochem.72.121801.161828.; Schloss J.M., Colosimo M., Airey C., Vitetta L. Chemotherapy-induced peripheral neuropathy (CIPN) and vitamin B12 deficiency. Support Care Cancer. 2015; 23 (7): 1843–50. https://doi.org/10.1007/s00520-015-2725-6.; Wang R., MacGillivray B.C., Macartney D.H. Stabilization of the base-off forms of vitamin B12 and coenzyme B12 by encapsulation of the alpha-axial 5,6-dimethylbenzimidazole ligand with cucurbit[7]uril. Dalton Trans. 2009; 18: 3584–9. https://doi.org/10.1039/b904028e.; Verma A., Sharma S., Gupta P.K., et al. Vitamin B12 functionalized layer by layer calcium phosphate nanoparticles: a mucoadhesive and pH responsive carrier for improved oral delivery of insulin. Acta Biomater. 2016; 31: 288–300. https://doi.org/10.1016/j.actbio.2015.12.017.; Temova Rakuša Ž., Roškar R., Hickey N., Geremia S. Vitamin B12 in foods, food supplements, and medicines – a review of its role and properties with a focus on its stability. Molecules. 2022; 28 (1): 240. https://doi.org/10.3390/molecules28010240.; Koseki K., Yoshimura R., Ido K., et al. Determination of vitamin B12 and folate compounds in commercially available edible seaweed products. Front Biosci. 2023; 15 (2): 10. https://doi.org/10.31083/j.fbe1502010.; Lehner S., Boles E. Development of vitamin B12 dependency in Saccharomyces cerevisiae. FEMS Yeast Res. 2023; 23: foad020. https://doi.org/10.1093/femsyr/foad020.; Watanabe F. Vitamin B12 sources and bioavailability. Exp Biol Med. 2007; 232 (10): 1266–74. https://doi.org/10.3181/0703-MR-67.; Abdulwahhab R.Q., Ali Alabdali S.M. Study of the protective effects of cyanocobalamin on methotrexate induced nephrotoxicity in rats. F1000Res. 2022; 11: 1012. https://doi.org/10.12688/f1000research.124081.2.; Khastar H., Garmabi B., ZareMehrjerdi F., et al. Cyanocobalamin improves memory impairment via inhibition of necrosis and apoptosis of hippocampal cell death after transient global ischemia/reperfusion. Iran J Basic Med Sci. 2021; 24 (2): 160–6. https://doi.org/10.22038/IJBMS.2020.48447.11126.; Раменская Г.В. (ред.) Сборник тестов по фармацевтической химии. Т. 1. М.: Лаборатория знаний; 2018: 304 с.; Re R., Pellegrini N., Proteggente A., et al. Antioxidant activity applying an improved ABTS radical cation decolorization assay. Free Radic Biol Med. 1999; 26 (9-10): 1231–7. https://doi.org/10.1016/s0891-5849(98)00315-3.; Huang D., Ou B., Prior R.L. The chemistry behind antioxidant capacity assays. J Agric Food Chem. 2005; 53 (6): 1841–56. https://doi.org/10.1021/jf030723c.; Munteanu I.G., Apetrei C. Analytical methods used in determining antioxidant activity: a review. Int J Mol Sci. 2021; 22 (7): 3380. https://doi.org/10.3390/ijms22073380.; Гаврилов В.Б., Гаврилова А.Р., Мажуль Л.М. Анализ методов определения продуктов перекисного окисления липидов в сыворотке крови по тесту с тиобарбитуровой кислотой. Вопросы медицинской химии. 1987; 33 (1): 118–22.; Müller G., Frühauf A., Mathias B. Thiobarbituric acid positive substances as indicators of lipid peroxidation. Z Gesamte Inn Med. 1986; 41 (24): 673–6 (на нем. яз.).; Карлюк М.В., Крыгин Ю.Ю., Майорова-Валькова Л.А. и др. Формирование двумерных (M) и трехмерных (V) наноагрегатов замещенного порфирина кобальта в ленгмюровских слоях и пленках Ленгмюра–Шефера. Известия Академии наук. Серия химическая. 2013; 62 (2): 471–9 (на англ. яз). https://doi.org/10.1007/s11172-013-0066-5.; Kharitonova N.V., Maiorova L.A., Koifman O.I. Aggregation behavior of unsubstituted magnesium porphyrazine in monolayers at air–water interface and in Langmuir–Schaefer films. J Porphyrins Phthalocyanines. 2018; 22 (6): 509–20. https://doi.org/10.1142/S1088424618500505.; Maiorova L.A., Kobayashi N., Zyablov S.V., et al. Magnesium porphine supermolecules and two-dimensional nanoaggregates formed using the Langmuir–Schaefer technique. Langmuir. 2018; 34 (31): 9322–9. https://doi.org/10.1021/acs.langmuir.8b00905.; Maiorova L.A., Kobayashi N., Salnikov D.S., et al. Supermolecular nanoentities of vitamin B12 derivative as a link in the evolution of the parent molecules during self-assembly at the air-water interface. Langmuir. 2023; 39 (9): 3246–54. https://doi.org/10.1021/acs.langmuir.2c02964.; Gromova O.A., Maiorova L.A., Salnikov D.S., et al. Vitamin B12 hydrophobic derivative exhibits bioactivity: biomedical and photophysical study. BioNanoSci. 2022; 12: 74–82. https://doi.org/10.1007/s12668-021-00916-4.; Torshin I.Yu., Rudakov K.V. On the procedures of generation of numerical features over partitions of sets of objects in the problem of predicting numerical target variables. Pattern Recogni Image Anal. 2019; 29 (4): 654–67. https://doi.org/10.1134/S1054661819040175.; Torshin I.Yu. The study of the solvability of the genome annotation problem on sets of elementary motifs. Pattern Recognit Image Anal. 2011; 21 (4): 652–62. https://doi.org/10.1134/S1054661811040171.; Torshin I.Yu., Rudakov K.V. On the application of the combinatorial theory of solvability to the analysis of chemographs. Part 1: Fundamentals of modern chemical bonding theory and the concept of the chemograph. Pattern Recognit Image Anal. 2014; 24 (1): 11–23. https://doi.org/10.1134/S1054661814010209.; Torshin I.Yu., Rudakov K.V. On the application of the combinatorial theory of solvability to the analysis of chemographs. Part 2: Local completeness of invariants of chemographs in view of the combinatorial theory of solvability. Pattern Recognit Image Anal. 2014; 24 (2): 196–208. https://doi.org/10.1134/S1054661814020151.; Рудаков К.В., Торшин И.Ю. Об отборе информативных значений признаков на базе критериев разрешимости в задаче распознавания вторичной структуры белка. Доклады Aкадемии наук. 2011; 441 (1): 24–8.; Torshin I.Yu., Rudakov K.V. Topological chemograph analysis theory as a promising approach to simulation modeling of quantum-mechanical properties of molecules. Part II: Quantum-chemical interpretations of chemograph theory. Pattern Recognit Image Anal. 2021; 31 (4): 884–96. https://doi.org/10.1134/S1054661821040258.; https://www.pharmacoeconomics.ru/jour/article/view/1014

الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/1014
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.239

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9

Academic Journal

Chemo-рroteomic analysis of the pharmacological properties of vitamin В12 derivatives ; Хемопротеомный анализ фармакологических свойств производных витамина В12

المؤلفون: I. Yu. Torshin, O. A. Gromova, I. A. Dereven’kov, L. A. Maiorova, И. Ю. Торшин, О. А. Громова, И. А. Деревеньков, Л. А. Майорова

المساهمون: Thе work was supported by the grant of the Russian Science Foundation No. 20-12-00175-p on the base of Ivanovo State University of Chemistry and Technology., Работа выполнена при поддержке гранта Российского научного фонда № 20-12-00175-п на базе ФГБОУ ВО «Ивановский государственный химико-технологический университет».

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Online First ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Online First ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: протеом человека, chemoproteomic analysis, topological theory of data analysis, assessment of pharmacological properties, human proteome, хемопротеомный анализ, топологическая теория анализа данных, оценка фармакологических свойств

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/961/518; Громова О.А., Торшин И.Ю., Гусев Е.И. Синергидные нейропротекторные эффекты тиамина, пиридоксина и цианокобаламина в рамках протеома человека. Фармакокинетика и фармакодинамика. 2017; 1: 40–51.; Торшин И.Ю., Громова О.А., Майорова Л.А. О перспективах применения производных витамина В12 в фармакологии. ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология. 2023; 16 (3): 501–11. https://doi.org/10.17749/2070-4909/farmakoekonomika.2023.198.; Карлюк М.В., Крыгин Ю.Ю., Майорова-Валькова Л.А. и др. Формирование двумерных (M) и трехмерных (V) наноагрегатов замещенного порфирина кобальта в ленгмюровских слоях и пленках Ленгмюра–Шефера. Известия Академии наук. Серия химическая. 2013; 62 (2): 471–9 (на англ. яз). https://doi.org/10.1007/s11172-013-0066-5.; Петровa M.В., Майоровa Л.А., Громова O.A. и др. 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الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/961
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.214

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10

Academic Journal

Study of lithium carbonate and ascorbate proliferative properties on transplantable Lewis lung carcinoma metastasis model ; Исследование пролиферативных свойств карбоната и аскорбата лития на модели метастазирования перевиваемой карциномы легких Льюис

المؤلفون: D. E. Frolova, I. Yu. Torshin, V. V. Rastashansky, M. V. Filimonova, O. A. Gromova, Д. Е. Фролова, И. Ю. Торшин, В. В. Расташанский, М. В. Филимонова, О. А. Громова

المساهمون: Thе work was supported by the grant of the Russian Science Foundation No. 23-21-00154., Работа выполнена при поддержке гранта Российского научного фонда № 23-21-00154.

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Online First ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Online First ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: аскорбат лития, Lewis lung carcinoma, LLC, lithium ascorbate, карцинома легких Льюис, КЛЛ

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/1013/535; Гоголева И.В., Громова О.А., Торшин И.Ю. и др. Нейробиологическая роль солей лития. Журнал неврологии и психиатрии им. С.С. Корсакова. 2022; 122 (11): 17–23. https://doi.org/10.17116/jnevro202212211117.; Vidali S., Aminzadeh-Gohari S., Vatrinet R., et al. Lithium and not acetoacetate influences the growth of cells treated with lithium acetoacetate. Int J Mol Sci. 2019; 20 (12): 3104. https://doi.org/10.3390/ijms20123104.; Cousins D.A., Squarcina L., Boumezbeur F., et al. Lithium: past, present, and future. Lancet Psychiatry. 2020; 7 (3): 222–4. https://doi.org/10.1016/S2215-0366(19)30365-7.; Torshin I.Y., Gromova O.A., Ostrenko K.S., et al. Lithium ascorbate as a promising neuroprotector: fundamental and experimental studies of an organic lithium salt. Molecules. 2022; 27 (7): 2253. https://doi.org/10.3390/molecules27072253.; Härtel C., Strunk T., Bucsky P., Schultz C. Effects of vitamin C on intracytoplasmic cytokine production in human whole blood monocytes and lymphocytes. Cytokine. 2004; 27 (4–5): 101–6. https://doi.org/10.1016/j.cyto.2004.02.004.; Cha J., Roomi M.W., Ivanov V., et al. Ascorbate supplementation inhibits growth and metastasis of B16FO melanoma and 4T1 breast cancer cells in vitamin C-deficient mice. Int J Oncol. 2013; 42 (1): 55–64. https://doi.org/10.3892/ijo.2012.1712.; Kurbacher C.M., Wagner U., Kolster B., et al. Ascorbic acid (vitamin C) improves the antineoplastic activity of doxorubicin, cisplatin, and paclitaxel in human breast carcinoma cells in vitr. Cancer Lett. 1996; 103 (2): 183–9. https://doi.org/10.1016/0304-3835(96)04212-7.; Mikirova N., Riordan N., Casciari J. Modulation of cytokines in cancer patients by intravenous ascorbate therapy. Med Sci Monit. 2016; 22: 14–25. https://doi.org/10.12659/MSM.895368.; Carr A.C., Cook J. Intravenous vitamin C for cancer therapy – identifying the current gaps in our knowledge. Front Physiol. 2018; 9: 1182. https://doi.org/10.3389/fphys.2018.01182.; Kawano K., Hattori Y., Iwakura H., et al. Adrenal tumor volume in genetically engineered mouse model of neuroblastoma determined by magnetic resonance imaging. Exp Ther Med. 2012; 4 (1): 61–4. https://doi.org/10.3892/etm.2012.564.; Хабриев Р.У. (ред.) Руководство по экспериментальному (доклиническому) изучению новых фармакологических веществ. 2-е изд. М.: Медицина; 2005: 832 с.; Таскаева И.С. Бгатова Н.П., Соли лития в экспериментальной онкологии (обзор литературы). Сибирский научный медицинский журнал. 2019; 39 (5): 12–8. https://doi.org/10.15372/SSMJ20190502.; Erdal E., Ozturk N., Cagatay T., et al. Lithium-mediated downregulation of PKB/Akt and cyclin E with growth inhibition in hepatocellular carcinoma cells. Int J Cancer. 2005; 115 (6): 903–10. https://doi.org/10.1002/ijc.20972.; Zubčić V., Rinčić N., Kurtović M., et al. GANT61 and lithium chloride inhibit the growth of head and neck cancer cell lines through the regulation of GLI3 processing by GSK3β. Int J Mol Sci. 2020; 21 (17): 6410. https://doi.org/10.3390/ijms21176410.; de Araujo W.M., Robbs B.K., Bastos L.G., et al. PTEN overexpression cooperates with lithium to reduce the malignancy and to increase cell death by apoptosis via PI3K/Akt suppression in colorectal cancer cells. J Cell Biochem. 2016; 117 (2): 458–69. https://doi.org/10.1002/jcb.25294.; Costabile V., Duraturo F., Delrio P., et al. Lithium chloride induces mesenchymal‑to‑epithelial reverting transition in primary colon cancer cell cultures. Int J Oncol. 2015; 46 (5): 1913–23. https://doi.org/10.3892/ijo.2015.2911.; Lee J.H., Kim S.W., Kim J.H., et al. Lithium chloride protects against sepsis-induced skeletal muscle atrophy and cancer cachexia. Cells. 2021; 10 (5): 1017. https://doi.org/10.3390/cells10051017.; https://www.pharmacoeconomics.ru/jour/article/view/1013

الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/1013
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.236

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11

Academic Journal

Lignan 7-hydroxymatairesinol in the context of post-genomic pharmacology ; Лигнан 7-гидроксиматаирезинол в контексте постгеномной фармакологии

المؤلفون: А. N. Rubashkina, I. Yu. Torshin, O. A. Gromova, A. N. Galustyan, А. Н. Рубашкина, И. Ю. Торшин, О. А. Громова, А. Н. Галустян

المساهمون: Thе work was supported by the grant of the Russian Science Foundation (Project No. 23-21-00154)., Работа выполнена при поддержке гранта Российского научного фонда (проект № 23-21-00154).

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Online First ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Online First ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: транскриптомика, lignans, pathogenetic therapy, pharmacoinformatics, human proteome, transcriptomics, лигнаны, патогенетическая терапия, фармакоинформатика, протеом человека

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/1012/534; Gerstenmeyer E., Reimer S., Berghofer E., et al. Effect of thermal heating on some lignans in flax seeds, sesame seeds and rye. Food Chem. 2013; 138 (2-3): 1847–55. https://doi.org/10.1016/j.foodchem.2012.11.117.; Громова О.А., Торшин И.Ю., Рубашкина А.Н. и др. Систематический анализ фундаментальных и клинических исследований лигнана 7-гидроксиматаирезинола. Эффективная фармакотерапия. 2019; 15 (13): 34–41.; Udani J.K., Brown D.J., Tan M.O., Hardy M. Pharmacokinetics and bioavailability of plant lignan 7-hydroxymatairesinol and effects on serum enterolactone and clinical symptoms in postmenopausal women: a single-blinded, parallel, dose-comparison study. J Am Coll Nutr. 2013; 32 (6): 428–35. https://doi.org/10.1080/07315724.2013.849578.; Lina B., Korte H., Nyman L., Unkila M. A thirteen week dietary toxicity study with 7-hydroxymatairesinol potassium acetate (HMRlignan) in rats. Regul Toxicol Pharmacol. 2005; 41 (1): 28–38. https://doi.org/10.1016/j.yrtph.2004.09.001.; Wolterbeek A.P., Roberts A., Korte H., et al. Prenatal developmental toxicity study with 7-hydroxymatairesinol potassium acetate (HMRlignan) in rats. Regul Toxicol Pharmacol. 2004; 40 (1): 1–8. https://doi.org/10.1016/j.yrtph.2004.04.001.; Saarinen N.M., Wärri A., Mäkelä S.I., et al. Hydroxymatairesinol, a novel enterolactone precursor with antitumor properties from coniferous tree (Picea abies). Nutr Cancer. 2000; 36 (2): 207–16. https://doi.org/10.1207/S15327914NC3602_10.; Журавлёв Ю.И., Рудаков К.В., Торшин И.Ю. Алгебраические критерии локальной разрешимости и регулярности как инструмент исследования морфологии аминокислотных последовательностей. Труды МФТИ. 2011; 3 (4): 45–54.; Torshin I.Yu., Rudakov K.V. On the application of the combinatorial theory of solvability to the analysis of chemographs. Part 1: Fundamentals of modern chemical bonding theory and the concept of the chemograph. Pattern Recognit Image Anal. 2014; 24 (1): 11–23. https://doi.org/10.1134/S1054661814010209.; Torshin I.Yu. On solvability, regularity, and locality of the problem of genome annotation. Pattern Recognit Image Anal. 2010; 20 (3): 386–95. https://doi.org/10.1134/S1054661810030156.; Торшин И.Ю., Громова О.А. Экспертный анализ данных в молекулярной фармакологии. М.: МЦНМО; 2012: 687 с.; Торшин И.Ю., Рубашкина А.Н., Лапочкина Н.П., Громова О.А. Хемореактомный анализ 7-гидроксиматаирезинола, 17-эстрадиола, фитоэстрогена, β-ситостерола и эпигаллокатехин-3-галлата. Акушерство, гинекология и репродукция. 2020; 14 (3): 347–60. https://doi.org/10.17749/2313-7347/ob.gyn.rep.2020.152.; Торшин И.Ю., Громова О.А., Фролова Д.Е. и др. Дозозависимый хемотранскриптомный анализ дифференциального действия витамина D на экспрессию генов в клетках-предшественниках нейронов NPC и в опухолевых клетках MCF7 человека. Фармакокинетика и фармакодинамика. 2018; 2: 35–51. https://doi.org/110.24411/2587-7836-2018-10013.; Torshin I.Yu. Sensing the change: from molecular genetics to personalized medicine. 1st ed. Nova Science Publishers; 2009: 366 pp.; Торшин И. Ю., Рубашкина А. Н., Громова О. А. Хемотранскриптомный анализ молекулы 7-гидроксиматаирезинола на опухолевые клетки молочной железы человека линии MCF7. Акушерство, гинекология и репродукция. 2023; 17 (5): 584–96. https://doi.org/10.17749/2313-7347/ob.gyn.rep.2023.409.; Громова О.А., Фролова Д.Е., Торшин И.Ю., Филимонова М.В., Сорокина М.А., Рейер И.А., Лиманова O.А., Федотова Л.Э., Майорова Л.А. Противоопухолевые эффекты витамина В12 in vitro, in vivo, in silico. ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология. 2024: [принятая рукопись]. https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.231.; Torshin I.Yu., Rudakov K.V. On metric spaces arising during formalization of problems of recognition and classification. Part 2: Density properties. Pattern Recognit Image Anal. 2016; 26 (3): 483–96. https://doi.org/10.1134/S1054661816030202.; Torshin I.Yu., Rudakov K.V. Combinatorial analysis of the solvability properties of the problems of recognition and completeness of algorithmic models. Part 2: Metric approach within the framework of the theory of classification of feature values. Pattern Recognit Image Anal. 2017; 27 (2): 184–99. https://doi.org/10.1134/S1054661817020110.; Cosentino M., Marino F., Maio R.C., et al. Immunomodulatory activity of the lignan 7-hydroxymatairesinol potassium acetate (HMR/lignan) extracted from the heartwood of Norway spruce (Picea abies). Int Immunopharmacol. 2010; 10 (3): 339–43. https://doi.org/10.1016/j.intimp.2009.12.005.; Spilioti E., Holmbom B., Papavassiliou A.G., Moutsatsou P. Lignans 7-hydroxymatairesinol and 7-hydroxymatairesinol 2 exhibit anti-inflammatory activity in human aortic endothelial cells. Mol Nutr Food Res. 2014; 58 (4): 749–59. https://doi.org/10.1002/mnfr.201300318.; Yang D., Xiao C.X., Su Z.H., et al. (-)-7(S)-hydroxymatairesinol protects against tumor necrosis factor-alpha-mediated inflammation response in endothelial cells by blocking the MAPK/NF- κB and activating Nrf2/HO-1. Phytomedicine. 2017; 32: 15–23. https://doi.org/10.1016/j.phymed.2017.04.005.; Samson K. LEE011 CDK inhibitor showing early promise in drug-resistant cancers. Oncol Times. 2014; 36 (3): 39–40. https://doi.org/10.1097/01.COT.0000444043.33304.c1.; Liang W., Wu X., Fang W., et al. Network meta-analysis of erlotinib, gefitinib, afatinib and icotinib in patients with advanced non-small-cell lung cancer harboring EGFR mutations. PLoS One. 2014; 9 (2): e85245. https://doi.org/10.1371/journal.pone.0085245.; Lamming D.W., Ye L., Sabatini D.M, Baur J.A. Rapalogs and mTOR inhibitors as anti-aging therapeutics. J Clin Invest. 2013; 123 (3): 980–9. https://doi.org/10.1172/JCI64099.; Rogowski M., Gollahon L., Chellini G., Assadi-Porter F.M. Uptake of 3-iodothyronamine hormone analogs inhibits the growth and viability of cancer cells. FEBS Open Bio. 2017; 7 (4): 587–601. https://doi.org/10.1002/2211-5463.12205.; Aouad P., Saikali M., Abdel-Samad R., et al. Antitumor activities of the synthetic retinoid ST1926 in two-dimensional and three-dimensional human breast cancer models. Anticancer Drugs. 2017; 28 (7): 757–70. https://doi.org/10.1097/CAD.0000000000000511.; Saarinen N.M., Huovinen R., Wärri A., et al. Uptake and metabolism of hydroxymatairesinol in relation to its anticarcinogenicity in DMBA-induced rat mammary carcinoma model. Nutr Cancer. 2001; 41 (1-2): 82–90. https://doi.org/10.1080/01635581.2001.9680616.; Miura D., Saarinen N.M., Miura Y., et al. Hydroxymatairesinol and its mammalian metabolite enterolactone reduce the growth and metastasis of subcutaneous AH109A hepatomas in rats. Nutr Cancer. 2007; 58 (1): 49–59. https://doi.org/10.1080/01635580701308133.; Bylund A., Saarinen N., Zhang J.X., et al. Anticancer effects of a plant lignan 7-hydroxymatairesinol on a prostate cancer model in vivo. Exp Biol Med. 2005; 230 (3): 217–23. https://doi.org/10.1177/153537020523000308.; Katsuda S., Yoshida M., Saarinen N., et al. Chemopreventive effects of hydroxymatairesinol on uterine carcinogenesis in Donryu rats. Exp Biol Med. 2004; 229 (5): 417–24. https://doi.org/10.1177/153537020422900510.; Oikarinen S.I., Pajari A., Mutanen M. Chemopreventive activity of crude hydroxsymatairesinol (HMR) extract in Apc(Min) mice. Cancer Lett. 2000; 161 (2): 253–8. https://doi.org/10.1016/s0304-3835(00)00662-5.; Громова О.А., Рубашкина А.Н., Филимонова М.В. и др. Адъювантная терапия лигнаном 7-гидроксиматаирезинолом как метод повышения онкологической безопасности приема эстрогенов. Эффективная фармакотерапия. 2018; 14 (13): 14–9.; Рубашкина А.Н., Лапочкина Н.П., Торшин И.Ю., Громова О.А. Роль 7-гидроксиматоирезинола в модуляции метаболизма эстрогенов и терапии мастопатии. Гинекология. 2020; 22 (4): 43–8.; https://www.pharmacoeconomics.ru/jour/article/view/1012

الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/1012
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.240

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12

Academic Journal

Antitumor effects of vitamin B12 in vitro, in vivo, in silico ; Противоопухолевые эффекты витамина В12 in vitro, in vivo, in silico

المؤلفون: O. A. Gromova, D. E. Frolova, I. Yu. Torshin, M. V. Filimonova, M. A. Sorokina, I. A. Reyer, O. A. Limanova, L. E. Fedotova, L. A. Maiorova, О. А. Громова, Д. Е. Фролова, И. Ю. Торшин, М. В. Филимонова, М. А. Сорокина, И. А. Рейер, O. А. Лиманова, Л. Э. Федотова, Л. А. Майорова

المساهمون: Thе work was supported by the grant of the Russian Science Foundation No. 20-12-00175-p on the base of Ivanovo State University of Chemistry and Technology., Работа выполнена при поддержке гранта Российского научного фонда № 20-12-00175-п на базе ФГБОУ ВО «Ивановский государственный химико-технологический университет».

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Online First ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Online First ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: экспериментальная фармакология, cell models, vitamin B12, systems biology, bioinformatics, experimental pharmacology, клеточные модели, витамин В12, системная биология, биоинформатика

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/989/522; Volkov I. The master key effect of vitamin B12 in treatment of malignancy – a potential therapy? Med Hypotheses. 2008; 70 (2): 324–8. https://doi.org/10.1016/j.mehy.2007.05.029.; Hernandez B.Y., McDuffie K., Wilkens L.R., et al. Diet and premalignant lesions of the cervix: evidence of a protective role for folate, riboflavin, thiamin, and vitamin B12. Cancer Causes Control. 2003; 14 (9): 859–70. https://doi.org/10.1023/b:caco.0000003841.54413.98.; Wu K., Helzlsouer K.J., Comstock G.W., et al. A prospective study on folate, B12, and pyridoxal 5'-phosphate (B6) and breast cancer. Cancer Epidemiol Biomarkers Prev. 1999; 8 (3): 209–17.; Nakagawa K., Kudoh S., Matsui K., et al. A phase I study of pemetrexed (LY231514) supplemented with folate and vitamin B12 in Japanese patients with solid tumours. Br J Cancer. 2006; 95 (6): 677–82. https://doi.org/10.1038/sj.bjc.6603321.; Громова О.А., Торшин И.Ю., Гусев Е.И. Синергидные нейропротекторные эффекты тиамина, пиридоксина и цианокобаламина в рамках протеома человека. Фармакокинетика и фармакодинамика. 2017; 1: 40–51.; Kawano K., Hattori Y., Iwakura H., et al. Adrenal tumor volume in genetically engineered mouse model of neuroblastoma determined by magnetic resonance imaging. Exp Ther Med. 2012; 4 (1): 61–4. https://doi.org/10.3892/etm.2012.564.; Хабриев Р.У. (ред.) Руководство по экспериментальному (доклиническому) изучению новых фармакологических веществ. 2-изд. М.: Медицина; 2005: 832 с.; Торшин И.Ю., Чучалин А.Г., Громова О.А. Об онкопротективных эффектах хондропротекторов: глюкозамина, хондроитина сульфата и неденатурированного коллагена II типа. ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология. 2023; 16 (4): 681–99. https://doi.org/10.17749/2070-4909/farmakoekonomika.2023.182.; Журавлёв Ю.И., Рудаков К.В., Торшин И.Ю. Алгебраические критерии локальной разрешимости и регулярности как инструмент исследования морфологии аминокислотных последовательностей. Труды МФТИ. 2011; 3 (4): 45–54.; Шадрин В.С., Кожин П.М., Шошина О.О. и др. Теломеризованные фибробласты как потенциальный объект для 3D-моделирования патологических гипертрофических рубцов in vitro. Вестник Российского государственного медицинского университета. 2020; 5: 82–90. https://doi.org/10.24075/vrgmu.2020.057.; Egnell M., Fassier P., Lécuyer L., et al. B-vitamin intake from diet and supplements and breast cancer risk in middle-aged women: results from the prospective NutriNet-Santé cohort. Nutrients. 2017; 9 (5): 488. https://doi.org/10.3390/nu9050488.; Baik H.W., Russell R.M. Vitamin B12 deficiency in the elderly. Annu Rev Nutr. 1999; 19: 357–77. https://doi.org/10.1146/annurev.nutr.19.1.357.; Orzechowska-Pawilojc A., Siekierska-Hellmann M., Syrenicz A., Sworczak K. Homocysteine, folate, and cobalamin levels in hyperthyroid women before and after treatment. Endokrynol Pol. 2009; 60 (6): 443–8.; Nacci A., Dallan I., Bruschini L., et al. Plasma homocysteine, folate, and vitamin B12 levels in patients with laryngeal cancer. Arch Otolaryngol Head Neck Surg. 2008; 134 (12): 1328–33. https://doi.org/10.1001/archotol.134.12.1328.; Choi S.W., Mason J.B. Folate and carcinogenesis: an integrated scheme. J Nutr. 2000; 130 (2): 129–32. https://doi.org/10.1093/jn/130.2.129.; Marguerite V., Beri-Dexheimer M., Ortiou S., et al. Cobalamin potentiates vinblastine cytotoxicity through downregulation of MDR-1 gene expression in HepG2 cells. Cell Physiol Biochem. 2007; 20 (6): 967–76. https://doi.org/10.1159/000110457.; Wu W., Kang S., Zhang D. Association of vitamin B6, vitamin B12 and methionine with risk of breast cancer: a dose-response meta-analysis. Br J Cancer. 2013; 109 (7): 1926–44. https://doi.org/10.1038/bjc.2013.438.; Sun N.H., Huang X.Z., Wang S.B., et al. A dose-response meta-analysis reveals an association between vitamin B12 and colorectal cancer risk. Public Health Nutr. 2016; 19 (8): 1446–56. https://doi.org/10.1017/S136898001500261X.; Stoffregen C.C., Odin E.A., Carlsson G.U., et al. Reduced folate and serum vitamin metabolites in patients with rectal carcinoma: an open-label feasibility study of pemetrexed with folic acid and vitamin B12 supplementation. Anticancer Drugs. 2016; 27 (5): 439–46. https://doi.org/10.1097/CAD.0000000000000345.; Snijders-Keilholz A., Griffioen G., Davelaar J., et al. Vitamin B12 malabsorption after irradiation for gynaecological tumours. Anticancer Res. 1993; 13 (5C): 1877–81.; Торшин И.Ю., Громова О.А., Майорова Л.А. О перспективах применения производных витамина В12 в фармакологии. ФАРМАКОЭКОНОМИКА. 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Colloid J. 2008; 70: 6–11. https://doi.org/10.1134/S1061933X0801002X.; Maiorova L.A., Kobayashi N., Salnikov D.S., et al. Supermolecular nanoentities of vitamin B12 derivative as a link in the evolution of the parent molecules during self-assembly at the air-water interface. Langmuir. 2023; 39 (9): 3246–54. https://doi.org/10.1021/acs.langmuir.2c02964.; Dereven’kov I.A., Maiorova L.A., Koifman O.I., Salnikov D.S. High reactivity of supermolecular nanoentities of a vitamin B 12 derivative in Langmuir–Schaefer films toward gaseous toxins. Langmuir. 2023; 39 (48): 17240–50. https://doi.org/10.1021/acs.langmuir.3c02317.; Егоров Е.Е., Терехов С.М., Вишнякова X.С. и др. Теломеризация – способ получения иммортальных клеток человека, сохраняющих нормальные свойства. Онтогенез. 2003; 34 (3): 183–92.; https://www.pharmacoeconomics.ru/jour/article/view/989

الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/989
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.231

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13

Academic Journal

Chemoreactomic analysis of acyzole in comparison with zinc derivatives of nonsteroidal anti-inflammatory drugs ; Хемореактомный анализ ацизола в сравнении с цинковыми производными нестероидных противовоспалительных препаратов

المؤلفون: P. A. Galenko-Yaroshevsky, I. Yu. Torshin, A. N. Gromov, O. A. Gromova, R. A. Murashko, A. V. Zelenskaya, L. O. Alukhanyan, O. V. Shelemekh, П. А. Галенко-Ярошевский, И. Ю. Торшин, А. Н. Громов, О. А. Громова, Р. А. Мурашко, А. В. Зеленская, Л. О. Алуханян, О. В. Шелемех

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Vol 17, No 1 (2024); 48-61 ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Vol 17, No 1 (2024); 48-61 ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: интеллектуальный анализ данных, zinc-containing compounds, chemoinformatics, pharmacoinformatics, side effects, data mining, цинк-содержащие соединения, хемоинформатика, фармакоинформатика, побочные эффекты

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/971/526; Громова О.А., Торшин И.Ю., Путилина М.В. и др. Хемореактомный анализ центральных механизмов нестероидных противовоспалительных препаратов. Журнал неврологии и психиатрии им. С.С. Корсакова. 2020; 120 (1): 70–7. https://doi.org/10.17116/jnevro202012001170.; Santos L.H., Feres C.A., Melo F.H., et al. Anti-inflammatory, antinociceptive and ulcerogenic activity of a zinc-diclofenac complex in rats. Braz J Med Biol Res. 2004; 37 (8): 1205–13. https://doi.org/10.1590/s0100-879x2004000800011.; Sukul A., Poddar S.K., Haque S., et al. Synthesis, characterization and comparison of local analgesic, anti-inflammatory, anti-ulcerogenic activity of copper and zinc complexes of indomethacin. Antiinflamm Antiallergy Agents Med Chem. 2017; 15 (3): 221–3. https://doi.org/10.2174/1871523016666170217103402.; Jarosz M., Szkaradek N., Marona H., et al. Evaluation of antiinflammatory and ulcerogenic potential of zinc-ibuprofen and zincnaproxen complexes in rats. Inflammopharmacology. 2017; 25 (6): 653–63. https://doi.org/10.1007/s10787-017-0361-0.; Gaweł M., Lipkowska A., Herman M., et al. Chronic treatment with zinc hydroaspartate induces anti-inflammatory and anti-ulcerogenic activity in rats. Pharmacol Rep. 2014; 66 (5): 862–6. https://doi.org/10.1016/j.pharep.2014.05.007.; Торшин И.Ю., Громова О.А. Экспертный анализ данных в молекулярной фармакологии. М.: МЦНМО; 2012: 687 с.; Торшин И.Ю., Громова О.А., Чучалин А.Г., Журавлев Ю.И. Хемореактомный скрининг воздействия фармакологических препаратов на SARS-CoV-2 и виром человека как информационная основа для принятия решений по фармакотерапии COVID-19. ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология. 2021; 14 (2): 191–211. https://doi.org/10.17749/2070-4909/farmakoekonomika.2021.078.; Торшин И.Ю., Громова О.А., Федотова Л.Э., Громов А.Н. Сравнительный хемореактомный анализ декскетопрофена, кетопрофена и диклофенака. Неврология, нейропсихиатрия, психосоматика. 2018; 10 (1): 47–54. http://doi.org/10.14412/2074-2711-2018-1-47-54.; Торшин И.Ю., Громова О.А., Стаховская Л.В., Семёнов В.А. Хемореактомный анализ молекул толперизона, тизанидина и баклофена: холинолитические, спазмолитические и анальгетические механизмы действия. Неврология, нейропсихиатрия, психосоматика. 2018; 10 (4): 72–80. https://doi.org/10.14412/2074-2711-20184-72-80.; Торшин И.Ю. О задачах оптимизации, возникающих при применении топологического анализа данных к поиску алгоритмов прогнозирования с фиксированными корректорами. Информатика и еe применения. 2023; 17 (2): 2–10. https://doi.org/10.14357/19922264230201.; Torshin I.Yu. Sensing the change: from molecular genetics to personalized medicine (bioinformatics in the post-genomic era). 1st ed. NY: Nova Biomedical Books; 2009: 366 pp.; Громова О.А., Торшин И.Ю. Микронутриенты и репродуктивное здоровье. Руководство. 2-е изд. М.: ГЭОТАР-Медиа; 2022: 832 c.; Torshin I.Yu., Rudakov K.V. On the application of the combinatorial theory of solvability to the analysis of chemographs. Part 1: Fundamentals of modern chemical bonding theory and the concept of the chemograph. Pattern Recognit Image Anal. 2014; 24 (1): 11–23. https://doi.org/10.1134/S1054661814010209.; Torshin I.Yu., Rudakov K.V. On the application of the combinatorial theory of solvability to the analysis of chemographs. Part 2: Local completeness of invariants of chemographs in view of the combinatorial theory of solvability. Pattern Recognit Image Anal. 2014; 24 (2): 196–208. https://doi.org/10.1134/S1054661814020151.; Torshin I.Yu. The study of the solvability of the genome annotation problem on sets of elementary motifs. Pattern Recognit Image Anal. 2011; 21 (4): 652–62. https://doi.org/10.1134/S1054661811040171.; Torshin I.Yu., Rudakov K.V. On the procedures of generation of numerical features over partitions of sets of objects in the problem of predicting numerical target variables. Pattern Recogni Image Anal. 2019; 29 (4): 654–67. https://doi.org/10.1134/S1054661819040175.; Reiterer G., Toborek M., Hennig B. Peroxisome proliferator activated receptors alpha and gamma require zinc for their anti-inflammatory properties in porcine vascular endothelial cells. J Nutr. 2004; 134 (7): 1711–5. https://doi.org/10.1093/jn/134.7.1711.; Baumgardner K.R., Sulfaro M.A. The anti-inflammatory effects of human recombinant copper-zinc superoxide dismutase on pulp inflammation. J Endod. 2001; 27 (3): 190–5. https://doi.org/10.1097/00004770-200103000-00014.; Громова О.А., Торшин И.Ю., Пронин А.В., Кильчевский М.А. Синергидное применение цинка и витамина С для поддержки памяти, внимания и снижения риска развития заболеваний нервной системы. Журнал неврологии и психиатрии им. С.С. Корсакова. 2017; 117 (7): 112–9. https://doi.org/10.17116/jnevro201711771112-119.; Громова О.А., Торшин И.Ю. Важность цинка для поддержания активности белков врожденного противовирусного иммунитета: анализ публикаций, посвященных COVID-19. Профилактическая медицина. 2020; 23 (3): 131–9. https://doi.org/10.17116/profmed202023031131.; Prasad A.S. Zinc is an antioxidant and anti-inflammatory agent: its role in human health. Front Nutr. 2014; 1: 14. https://doi.org/10.3389/fnut.2014.00014.; Громова О.А., Торшин И.Ю., Моисеев В.С. и др. Об использовании цинка и витамина С для профилактики и адъювантной терапии острых респираторных заболеваний. Терапия. 2017; 1 (11): 36–46.; Briassoulis G., Briassoulis P., Ilia S., et al. The Anti-oxidative, antiinflammatory, anti-apoptotic, and anti-necroptotic role of zinc in COVID-19 and sepsis. Antioxidants. 2023; 12 (11): 1942. https://doi.org/10.3390/antiox12111942.; Gaweł M., Librowski T., Lipkowska A. Influence of zinc hydroaspartate on the anti-inflammatory and gastric activity of ketoprofen in rats. Pharmacol Rep. 2013; 65 (1): 214–9. https://doi.org/10.1016/s1734-1140(13)70981-2.; Hessam S., Sand M., Meier N.M., et al. Combination of oral zinc gluconate and topical triclosan: an anti-inflammatory treatment modality for initial hidradenitis suppurativa. J Dermatol Sci. 2016; 84 (2): 197– 202. https://doi.org/10.1016/j.jdermsci.2016.08.010.; Chen Y., Cai J., Liu D., et al. Zinc-based metal organic framework with antibacterial and anti-inflammatory properties for promoting wound healing. Regen Biomater. 2022; 9: rbac019. https://doi.org/10.1093/rb/rbac019.; Guo J., He L., Li T., et al. Antioxidant and anti-inflammatory effects of different zinc sources on diquat-induced oxidant stress in a piglet model. Biomed Res Int. 2020; 2020: 3464068. https://doi.org/10.1155/2020/3464068.; Mei X., Xu D., Xu S., et al. Gastroprotective and antidepressant effects of a new zinc(II)-curcumin complex in rodent models of gastric ulcer and depression induced by stresses. Pharmacol Biochem Behav. 2011; 99 (1): 66–74. https://doi.org/10.1016/j.pbb.2011.04.002.; Mei X., Luo X., Xu S., et al. Gastroprotective effects of a new zinc(II)-curcumin complex against pylorus-ligature-induced gastric ulcer in rats. Chem Biol Interact. 2009; 181 (3): 316–21. https://doi.org/10.1016/j.cbi.2009.06.022.; Bandyopadhyay B., Bandyopadhyay S.K. Protective effect of zinc gluconate on chemically induced gastric ulcer. Indian J Med Res. 1997; 106: 27–32.; Golbabapour S., Gwaram N.S., Hassandarvish P., et al. Gastroprotection studies of Schiff base zinc (II) derivative complex against acute superficial hemorrhagic mucosal lesions in rats. PLoS One. 2013; 8 (9): e75036. https://doi.org/10.1371/journal.pone.0075036.; Yu C., Mei X.T., Zheng Y.P., Xu D.H. Gastroprotective effect of taurine zinc solid dispersions against absolute ethanol-induced gastric lesions is mediated by enhancement of antioxidant activity and endogenous PGE2 production and attenuation of NO production. Eur J Pharmacol. 2014; 740: 329–36. https://doi.org/10.1016/j.ejphar.2014.07.014.; Rainsford K.D., Whitehouse M.W. Anti-ulcer activity of a slow-release zinc complex, zinc monoglycerolate (Glyzinc). J Pharm Pharmacol. 1992; 44 (6): 476–82. https://doi.org/10.1111/j.2042-7158.1992.tb03650.x.; Chao H.C. Zinc deficiency and therapeutic value of zinc supplementation in pediatric gastrointestinal diseases. Nutrients. 2023; 15 (19): 4093. https://doi.org/10.3390/nu15194093.; Bulbena O., Escolar G., Navarro C., et al. Gastroprotective effect of zinc acexamate against damage induced by nonsteroidal anti- inflammatory drugs. A morphological study. Dig Dis Sci. 1993; 38 (4): 730–9. https://doi.org/10.1007/BF01316807.; Donkin J.J., Turner R.J., Hassan I., Vink R. Substance P in traumatic brain injury. Prog Brain Res. 2007; 161: 97–109. https://doi.org/10.1016/S0079-6123(06)61007-8.; https://www.pharmacoeconomics.ru/jour/article/view/971

الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/971
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.238

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14

Academic Journal

Chemoreactome screening of aquacobalamin and heptamethyl ester of cyanoaquacobyrinic acid cytotoxic effects on tumor cells with experimental confirmation on BT-474 and A549 cell ; Хемореактомный скрининг цитотоксических эффектов аквакобаламина и гептаметилового эфира цианоаквакобириновой кислоты на опухолевые клетки с экспериментальными подтверждениями на линиях клеток ВТ-474 и А549

المؤلفون: I. Yu. Torshin, M. V. Filimonova, O. A. Gromova, L. A. Maiorova, M. A. Sorokina, D. E. Frolova, A. N. Gromov, I. A. Reyer, И. Ю. Торшин, М. В. Филимонова, О. А. Громова, Л. А. Майорова, М. А. Сорокина, Д. Е. Фролова, А. Н. Громов, И. А. Рейер

المساهمون: Thе work was supported by the grant of the Russian Science Foundation No. 20-12-00175-p on the base of Ivanovo State University of Chemistry and Technology, Работа выполнена при поддержке гранта Российского научного фонда № 20-12-00175-п на базе ФГБОУ ВО «Ивановский государственный химико-технологический университет»

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Vol 17, No 1 (2024); 95-105 ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Vol 17, No 1 (2024); 95-105 ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: исследования на клетках в культуре, vitamin B12, topological data analysis, pharmacoinformatics, studies on cells in culture, витамин В12, топологический анализ данных, фармакоинформатика

وصف الملف: application/pdf

Relation: https://www.pharmacoeconomics.ru/jour/article/view/921/530; Торшин И.Ю., Громова О.А., Майорова Л.А. О перспективах применения производных витамина В12 в фармакологии. ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология. 2023; 16 (3): 501–11. https://doi.org/10.17749/2070-4909/farmakoekonomika.2023.198.; Wu K., Helzlsouer K.J., Comstock G.W., et al. A prospective study on folate, B12, and pyridoxal 5'-phosphate (B6) and breast cancer. Cancer Epidemiol Biomarkers Prev. 1999; 8 (3): 209–17.; Hernandez B.Y., McDuffie K., Wilkens L.R., et al. Diet and premalignant lesions of the cervix: evidence of a protective role for folate, riboflavin, thiamin, and vitamin B12. Cancer Causes Control. 2003; 14 (9): 859–70. https://doi.org/10.1023/b:caco.0000003841.54413.98.; Nakagawa K., Kudoh S., Matsui K., et al. A phase I studyofpemetrexed (LY231514) supplemented with folate and vitamin B12 in Japanese patients with solid tumours. Br J Cancer. 2006; 95 (6): 677–82. https://doi.org/10.1038/sj.bjc.6603321.; Громова О.А., Торшин И.Ю., Стаховская Л.В., Федотова Л.Э. Хемореактомный анализ молекул тиамина дисульфида, тиамина гидрохлорида и бенфотиамина. Неврология, нейропсихиатрия, психосоматика. 2017; 9 (2): 50–7. https://doi.org/10.14412/2074-27112017-2-50-57.; Громова О.А., Торшин И.Ю., Фролова Д.Е., Филимонова М.В. Противоопухолевые эффекты сочетанного применения витаминов В1, В6 и В12. Неврология и ревматология (Приложение к журналу Consilium Medicum). 2018; 1: 62–6. https://doi.org/10.26442/2414357X_2018.1.62-66.; Громова О.А., Торшин И.Ю., Филимонова М.В., Сорокина М.А. Роль витаминов в профилактике рака и их влияние на эффективность противоопухолевой терапии: систематический анализ доказательных исследований. Терапия. 2018; 4: 108–20.; Sun N.H., Huang X.Z., Wang S.B., et al. A dose-response metaanalysis reveals an association between vitamin B12 and colorectal cancer risk. Public Health Nutr. 2016; 19 (8): 1446–56. https://doi.org/10.1017/S136898001500261X.; Громова О.А., Стаховская Л.В., Торшин И.Ю. и др. О потенциальном противоопухолевом эффекте витамина В12. Российский журнал боли. 2017; 2: 62–73.; Stoffregen C.C., Odin E.A., Carlsson G.U., et al. Reduced folate and serum vitamin metabolites in patients with rectal carcinoma: an openlabel feasibility study of pemetrexed with folic acid and vitamin B12 supplementation. Anticancer Drugs. 2016; 27 (5): 439–46. https://doi.org/10.1097/CAD.0000000000000345.; Gromova O.A., Torshin I.Yu., Maiorova L.A., et al. Bioinformatic and chemoneurocytological analysis of the pharmacological properties of vitamin B12 and some of its derivatives. J Porphyrins Phthalocyanines. 2021; 25 (09): 835–42. https://doi.org/10.1142/S1088424621500644.; Gromova O.A., Maiorova L.A., Salnikov D.S., et al. Vitamin B12 hydrophobic derivative exhibits bioactivity: biomedical and photophysical study. BioNanoSci. 2022; 12: 74–82. https://doi.org/10.1007/s12668-021-00916-4.; Valkova L.A., Glibin A.S., Valli L. Quantitative analysis of compression isotherms of fullerene C60 Langmuir layers. Colloid J. 2008; 70: 6–11. https://doi.org/10.1134/S1061933X0801002X.; Valkova L.A., Glibin A.S., Koifman O.I. Influence of the solvent nature on the structure of two-dimensional nanoaggregates in Langmuir layers of copper tetra-tert-butyltetrabenzotriazaporphyrin. Macroheterocycles. 2011; 4 (3): 222–6.; Valkova L.A., Erokhin V.V., Glibin A.S., Koifman O.I. The influence of molecular structure and π-system extent on nano- and microstructure of Langmuir layers of copper azaporphyrins. J Porphyr Phthalocyanines. 2011; 15: 1044–51. https://doi.org/10.1142/s1088424611004026.; Valkova L.A., Shabyshev L.S., Feigin L.A., Akopova O.B. Formation and X-ray diffraction investigation of Langmuir–Blodgett films of liquid crystalline substituted crown esters. Molecular Crystals and Liquid Crystals. 1996; 6 (4): 291–8.; Valkova L., Borovkov N., Maccioni E., et al. Influence of molecular and supramolecular factors on sensor properties of Langmuir–Blodgett films of tert-butyl-substituted copper azaporphyrines towards hydrocarbons. Colloids and Surfaces A: Physicochemical and Engineering Aspects. 2002; 198: 891–6. https://doi.org/10.1016/S0927-7757(01)01016-0.; Karlyuk M.V., Krygin Yu.Yu., Maiorova-Valkova L.A., et al. Formation of two-dimensional (M) and three-dimensional (V) nanoaggregates of substituted cobalt porphyrin in the Langmuir layers and Langmuir– Schaefer films.russian Chemical Bulletin. 2013; 62: 471–9. https://doi.org/10.1007/s11172-013-0066-5.; Valkova L.A., Betrencourt C., Hochapfel A., et al. Monolayer study of monensin and lasalocid in the gas state. Molecular Crystals and Liquid Crystals. 1996; 287 (1): 269–73. https://doi.org/10.1080/10587259608038763.; Maiorova L.A., Kobayashi N., Salnikov D.S., et al. Supermolecular nanoentities of vitamin B12 derivative as a link in the evolution of the parent molecules during self-assembly at the air-water interface. Langmuir. 2023; 39 (9): 3246–54. https://doi.org/10.1021/acs.langmuir.2c02964.; Торшин И.Ю. О задачах оптимизации, возникающих при применении топологического анализа данных к поиску алгоритмов прогнозирования с фиксированными корректорами. Информатика и ее применения. 2023; 17 (2): 2–10. https://doi.org/10.14357/19922264230201.; Торшин И.Ю. О применении топологического подхода к анализу плохо формализуемых задач для построения алгоритмов виртуального скрининга квантово-механических свойств органических молекул. I: Основы проблемно ориентированной теории. Информатика и ее применения. 2022; 16 (1): 39–45. https://doi.org/10.14357/19922264220106.; Торшин И.Ю. О применении топологического подхода к анализу плохо формализуемых задач для построения алгоритмов виртуального скрининга квантово-механических свойств органических молекул. II: Сопоставление формализма с конструктами квантовой механики и экспериментальная апробация предложенных алгоритмов. Информатика и ее применения. 2022; 16 (2): 35–43. https://doi.org/10.14357/19922264220205.; ChEMBL. Genomics of drug sensitity in cancer screening data. URL: http://www.doi.org/10.6019/CHEMBL1201861 (дата обращения 15.08.2023).; Егоров Е.Е., Терехов С.М., Вишнякова К. и др. Теломеризация как метод получения бессмертных клеток человека, сохраняющих нормальные свойства. Ontogenez. 2003; 34 (3): 183–92.; Шадрин В.С., Кожин П.М., Шошина О.О. и др. Теломеризованные фибробласты как потенциальный объект для 3D-моделирования патологических гипертрофических рубцов in vitro. Вестник Российского государственного медицинского университета. 2020; 5: 82–90. https://doi.org/10.24075/vrgmu.2020.057.; https://www.pharmacoeconomics.ru/jour/article/view/921

الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/921
https://doi.org/10.17749/2070-4909/farmakoekonomika.2023.209

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15

Academic Journal

Problems of using phenol (hydroxybenzene) and parabens as pharmaceutical stabilizers: analysis using machine learning methods ; Проблемы использования фенола (гидроксибензола) и парабенов в качестве стабилизаторов фармацевтических средств: анализ с применением методов машинного обучения

المؤلفون: I. Yu. Torshin, O. A. Gromova, И. Ю. Торшин, О. А. Громова

المساهمون: The research was conducted under the government contract No. 0063-2019-0003 “Mathematical methods of data analysis and forecasting” using the infrastructure of the Shared Research Facilities “High Performance Computing and Big Data” (SRF “Informatics”), of FRC “Computer Science and Control”, RAS (Moscow), Работа выполнялась по государственному заданию № 0063-2019-0003 «Математические методы анализа данных и прогнозирования» с использованием инфраструктуры Центра коллективного пользования «Высокопроизводительные вычисления и большие данные» (ЦКП «Информатика») ФИЦ «Информатика и управление» РАН (г. Москва)

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Online First ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Online First ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: нейропротекторы, parabens, toxicity, pharmaceutical preservatives, chondroprotectors, neuroprotectors, парабены, токсичность, фармацевтические консерванты, хондропротекторы

وصف الملف: application/pdf

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Butyl paraben and propyl paraben modulate bisphenol A and estradiol concentrations in female and male mice. Toxicol Appl Pharmacol. 2017; 325: 18–24. https://doi.org/10.1016/j.taap.2017.04.001.; Liu X., Matsushima A., Nakamura M., et al. Fine spatial assembly for construction of the phenol-binding pocket to capture bisphenol A in the human nuclear receptor estrogen-related receptor γ. J Biochem. 2012; 151 (4): 403–15. https://doi.org/10.1093/jb/mvs008.; Chen J., Ahn K.C., Gee N.A., et al. Antiandrogenic properties of parabens and other phenolic containing small molecules in personal care products. Toxicol Appl Pharmacol. 2007; 221 (3): 278–84. https://doi.org/10.1016/j.taap.2007.03.01541.; Handa O., Kokura S., Adachi S., et al. Methylparaben potentiates UV-induced damage of skin keratinocytes. Toxicology. 2006; 227 (1–2): 62–72. https://doi.org/10.1016/j.tox.2006.07.018.; Alwadi D., Felty Q., Roy D., et al. 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Urinary phenol concentrations and fecundability and early pregnancy loss. Hum Reprod. 2023; 38 (1): 139–55 https://doi.org/10.1093/humrep/deac230.; Ouidir M., Cissé A.H., Botton J., et al. Fetal and infancy exposure to phenols, parabens, and phthalates and anthropometric measurements up to 36 months, in the longitudinal SEPAGES cohort. Environ Health Perspect. 2024; 132 (5): 57002. https://doi.org/10.1289/EHP1364448.; Berger K., Coker E., Rauch S., et al. Prenatal phthalate, paraben, and phenol exposure and childhood allergic and respiratory outcomes: evaluating exposure to chemical mixtures. Sci Total Environ. 2020; 725: 138418. https://doi.org/10.1016/j.scitotenv.2020.138418.; Zhao H., Zheng Y., Zhu L., et al. Paraben exposure related to purine metabolism and other pathways revealed by mass spectrometry-based metabolomics. Environ Sci Technol. 2020; 54 (6): 3447–54. https://doi.org/10.1021/acs.est.9b07634.; Nakiwala D., Noyes P.D., Faure P., et al. Phenol and phthalate effects on thyroid hormone levels during pregnancy: relying on in vitro assays and adverse outcome pathways to inform an epidemiological analysis. Environ Health Perspect. 2022; 130 (11): 117004. https://doi.org/10.1289/EHP10239.; Aker A.M., Johns L., McElrath T.F., et al. Associations between maternal phenol and paraben urinary biomarkers and maternal hormones during pregnancy: a repeated measures study. Environ Int. 2018; 113: 341–9. https://doi.org/10.1016/j.envint.2018.01.006.; Guo J., Wu C., Zhang J., et al. Maternal and childhood urinary phenol concentrations, neonatal thyroid function, and behavioral problems at 10 years of age: the SMBCS study. Sci Total Environ. 2020; 743: 140678. https://doi.org/10.1016/j.scitotenv.2020.140678.; Oskar S., Balalian A.A., Stingone J.A. Identifying critical windows of prenatal phenol, paraben, and pesticide exposure and child neurodevelopment: findings from a prospective cohort study. Sci Total Environ. 2024; 920: 170754. https://doi.org/10.1016/j.scitotenv.2024.170754.; Barkoski J.M., Busgang S.A., Bixby M., et al. Prenatal phenol and paraben exposures in relation to child neurodevelopment including autism spectrum disorders in the MARBLES study. Environ Res. 2019; 179 (Pt A): 108719. https://doi.org/10.1016/j.envres.2019.108719.; Tung C.J., Chen M.H., Lin C.C., Chen P.C. Association between parabens exposure and neurodevelopment in children. Environ Int. 2024; 188: 108671. https://doi.org/10.1016/j.envint.2024.108671.; Lara-Valderrábano L., Rocha L., Galván E.J. Propylparaben reduces the excitability of hippocampal neurons by blocking sodium channels. Neurotoxicology. 2016; 57: 183–93. https://doi.org/10.1016/j.neuro.2016.09.019.; Michałowicz J., Włuka A., Cyrkler M., et al. Phenol and chlorinated phenols exhibit different apoptotic potential in human red blood cells (in vitro study). 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الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/1030
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.263

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16

Academic Journal

Chemoreactomic study of fonturacetam effects: molecular mechanisms of influence on adipose tissue metabolism ; Хемореактомное исследование эффектов препарата Актитропил (фонтурацетам): молекулярные механизмы влияния на метаболизм жировой ткани

المؤلفون: O. A. Gromova, I. Yu. Torshin, О. А. Громова, И. Ю. Торшин

المساهمون: The research was conducted using the infrastructure of the Shared Research Facilities "High Performance Computing and Big Data" (CKP "Informatics"), FRC “Computer Science and Control”, RAS (Moscow)., Работа выполнена с использованием инфраструктуры Центра коллективного пользования «Высокопроизводительные вычисления и большие данные» (ЦКП «Информатика») ФИЦ «Информатика и управление» РАН (г. Москва).

المصدر: FARMAKOEKONOMIKA. Modern Pharmacoeconomics and Pharmacoepidemiology; Vol 17, No 2 (2024); 172-181 ; ФАРМАКОЭКОНОМИКА. Современная фармакоэкономика и фармакоэпидемиология; Vol 17, No 2 (2024); 172-181 ; 2070-4933 ; 2070-4909

مصطلحات موضوعية: топологический анализ данных, fonturacetam, nootropics, racetams, obesity, pharmacoinformatics, topological data analysis, фонтурацетам, ноотропы, рацетамы, ожирение, фармакоинформатика

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الاتاحة: https://www.pharmacoeconomics.ru/jour/article/view/1033
https://doi.org/10.17749/2070-4909/farmakoekonomika.2024.260

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Academic Journal

Systematic analysis of the pharmacology of myoinositol and D-chiroinositola ; Систематический анализ фармакологии миоинозитола и D-хироинозитола

المؤلفون: T. E. Bogacheva, O. A. Gromova, I. Yu. Torshin, Т. Е. Богачева, О. А. Громова, И. Ю. Торшин

المصدر: Pharmacokinetics and Pharmacodynamics; № 1 (2024); 4-13 ; Фармакокинетика и Фармакодинамика; № 1 (2024); 4-13 ; 2686-8830 ; 2587-7836

مصطلحات موضوعية: метаболизм, D-chiro inositol, hepatoprotection, neurocytology, neuroprotection, steatohepatitis, metabolism, D-хироинозитол, гепатопротекция, нейроцитология, нейропротекция, стеатогепатит

وصف الملف: application/pdf

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Electrical signals control wound healing through phosphatidylinositol-3-OH kinase-gamma and PTEN. Nature. 2006 Jul 27;442(7101):457-60. doi:10.1038/nature04925.; Guo MF, Yu JZ, Ma CG. Mechanisms related to neuron injury and death in cerebral hypoxic ischaemia. Folia Neuropathol. 2011;49(2):78-87.; Функциональная ангиоархитектоника головного мозга / И.В. Ганнушкина, В.П. Шафранова, Т.В. Рясина; Акад. мед. наук СССР. Москва : Медицина, 1977. 240 с.; Hernández-Fonseca K, Cárdenas-Rodríguez N, Pedraza-Chaverri J, Massieu L. Calcium-dependent production of reactive oxygen species is involved in neuronal damage induced during glycolysis inhibition in cultured hippocampal neurons. J Neurosci Res. 2008 Jun;86(8):1768-80. doi:10.1002/jnr.21634.; https://www.pharmacokinetica.ru/jour/article/view/405

الاتاحة: https://www.pharmacokinetica.ru/jour/article/view/405
https://doi.org/10.37489/2587-7836-2024-1-4-13

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18

Academic Journal

Pharmacoinformational, basic and clinical studies of 7-hydroxymatairesinol in the context of searching for effective and safe therapeutic approaches to the treatment of mastopathy ; Фармакоинформационные, фундаментальные и клинические исследования 7-гидроксиматаирезинола в контексте поиска эффективных и безопасных терапевтических подходов к лечению мастопатии

المؤلفون: А. N. Rubashkina, I. Yu. Torshin, O. A. Gromova, А. Н. Рубашкина, И. Ю. Торшин, О. А. Громова

المساهمون: This work was supported by a grant from the Russian Science Foundation (project № 23-21-00154)., Работа выполнена по гранту Российского научного фонда (проект № 23-21-00154).

المصدر: Pharmacokinetics and Pharmacodynamics; № 1 (2024); 66-76 ; Фармакокинетика и Фармакодинамика; № 1 (2024); 66-76 ; 2686-8830 ; 2587-7836

مصطلحات موضوعية: транскриптомика, lignans, pathogenetic therapy, pharmacoinformatics, human proteome, transcriptomics, лигнаны, патогенетическая терапия, фармакоинформатика, протеом человека

وصف الملف: application/pdf

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الاتاحة: https://www.pharmacokinetica.ru/jour/article/view/411
https://doi.org/10.37489/2587-7836-2024-1-66-76

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19

Academic Journal

Systematic analysis of the pharmacology of standardized extracts of human placenta ; Систематический анализ фармакологии стандартизированных экстрактов плаценты человека

المؤلفون: T. E. Bogacheva, I. Yu. Torshin, O. A. Gromova, Т. Е. Богачева, И. Ю. Торшин, О. А. Громова

المصدر: Pharmacokinetics and Pharmacodynamics; № 4 (2023); 3-14 ; Фармакокинетика и Фармакодинамика; № 4 (2023); 3-14 ; 2686-8830 ; 2587-7836

مصطلحات موضوعية: протеомные исследования, Laennec, analysis of publications, liver diseases, regeneration, proteomic studies, Лаеннек, анализ публикаций, болезни печени, регенерация

وصف الملف: application/pdf

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الاتاحة: https://www.pharmacokinetica.ru/jour/article/view/387
https://doi.org/10.37489/2587-7836-2023-4-3-14

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Academic Journal

Placenta peptides: antibacterial effects ; Пептиды плаценты: антибактериальные эффекты

المؤلفون: I. Yu. Torshin, T. E. Bogacheva, O. A. Gromova, И. Ю. Торшин, Т. Е. Богачева, О. А. Громова

المصدر: Pharmacokinetics and Pharmacodynamics; № 4 (2023); 15-22 ; Фармакокинетика и Фармакодинамика; № 4 (2023); 15-22 ; 2686-8830 ; 2587-7836

مصطلحات موضوعية: антибактериальный эффект, antibacterial effect

وصف الملف: application/pdf

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DOI:10.1016/j.bbrc.2016.01.037.; https://www.pharmacokinetica.ru/jour/article/view/388

الاتاحة: https://www.pharmacokinetica.ru/jour/article/view/388
https://doi.org/10.37489/2587-7836-2023-4-15-22

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