المؤلفون: L. Bogdanov A., N. Osyaev Yu., Yu. Bogdanova D., R. Mukhamadiyarov A., A. Shabaev R., А. Evtushenko V., A. Kutikhin G., Л. Богданов А., Н. Осяев Ю., Ю. Богданова Д., Р. Мухамадияров А., А. Шабаев Р., А. Евтушенко В., А. Кутихин Г.

المساهمون: Работа выполнена при поддержке комплексной программы фундаментальных научных исследований СО РАН в рамках фундаментальной темы НИИ КПССЗ № 0546-2019-0002 «Патогенетическое обоснование разработки имплантатов для сердечно-сосудистой хирургии на основе биосовместимых материалов с реализацией пациент-ориентирован-ного подхода с использованием математического моделирования, тканевой инженерии и геномных предикторов»

المصدر: Complex Issues of Cardiovascular Diseases; Том 10, № 3 (2021); 26-33 ; Комплексные проблемы сердечно-сосудистых заболеваний; Том 10, № 3 (2021); 26-33 ; 2587-9537 ; 2306-1278

مصطلحات موضوعية: atherosclerosis, calcific aortic stenosis, mineralization, calcification, elemental analysis, calcium phosphate, атеросклероз, кальцинирующий аортальный стеноз, минерализация, кальцификация, элементный анализ, фосфат кальция

وصف الملف: application/pdf

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Role of Vascular Smooth Muscle Cell Phenotypic Switching and Calcification in Aortic Aneurysm Formation. Arterioscler Thromb Vasc Biol. 2019; 39(7): 13511368. doi:10.1161/ATVBAHA.119.312787.; Halevi R., Hamdan A., Marom G., Lavon K., Ben-Zekry S., Raanani E., Haj-Ali R. A New Growth Model for Aortic Valve Calcification. J Biomech Eng. 2018; 140(10). doi:10.1115/1.4040338.; Lindman B.R., Clavel M.A., Mathieu P, Iung B., Lancellotti P., Otto C.M., Pibarot P. Calcific aortic stenosis. Nat Rev Dis Primers. 2016; 2: 16006. doi:10.1038/nrdp.2016.6.; Di Vito A., Donato A., Presta I., Mancuso T., Brunetti F.S., Mastroroberto P, Amorosi A., Malara N., Donato G. Extracellular Matrix in Calcific Aortic Valve Disease: Architecture, Dynamic and Perspectives. Int J Mol Sci. 202; 22(2): 913. doi:10.3390/ijms22020913.; Demer L.L., Tintut Y Inflammatory, metabolic, and genetic mechanisms of vascular calcification. Arterioscler Thromb Vasc Biol. 2014; 34(4): 715-23. doi:10.1161/ATVBAHA.113.302070.; Massera D., Kizer J.R., Dweck M.R. Mechanisms of mitral annular calcification. Trends Cardiovasc Med. 2020 Jul;30(5):289-295. doi:10.1016/j.tcm.2019.07.011; Shroff R.C., McNair R., Skepper J.N., Figg N., Schurgers L. J., Deanfield J., Rees L., Shanahan C.M. Chronic mineral dysregulation promotes vascular smooth muscle cell adaptation and extracellular matrix calcification. J Am Soc Nephrol. 2010; 21: 103-112. doi:10.1681/ASN.2009060640.; Kapustin A.N., Chatrou M.L., Drozdov I., Zheng Y, Davidson S.M., Soong D., Furmanik M., Sanchis P., De Rosales R.T., Alvarez-Hernandez D., Shroff R., Yin X., Muller K., Skepper J.N., Mayr M., Reutelingsperger C.P., Chester A., Bertazzo S., Schurgers L.J., Shanahan C.M. Vascular smooth muscle cell calcification is mediated by regulated exosome secretion. Circ Res. 2015; 116(8): 1312-23. doi:10.1161/CIRCRESAHA.116.305012.; Mayr M., Grainger D., Mayr U., Leroyer A.S., Leseche G., Sidibe A., Herbin O., Yin X., Gomes A., Madhu B., Griffiths J.R., Xu Q., Tedgui A., Boulanger C.M. Proteomics, metabolomics, and immunomics on microparticles derived from human atherosclerotic plaques. Circ Cardiovasc Genet. 2009; 2: 379-388. doi:10.1161/CIRCGENETICS.108.842849.; New S.E., Goettsch C., Aikawa M., Marchini J.F., Shibasaki M. , Yabusaki K., Libby P, Shanahan C.M., Croce K., Aikawa E. Macrophage-derived matrix vesicles: an alternative novel mechanism for microcalcification in atherosclerotic plaques. Circ Res. 2013; 113: 72-77. doi:10.1161/CIRCRESAHA.113.301036.; Cote N., El Husseini D., Pepin A., Guauque-Olarte S., Ducharme Vi, Bouchard-Cannon P, Audet A, Fournier D, Gaudreault N. Derbali H, McKee MD, Simard C, Despres JP, Pibarot P, Bosse Y, Mathieu P. ATP acts as a survival signal and prevents the mineralization of aortic valve. J Mol Cell Cardiol. 2012; 52: 1191-202.; Durham A.L., Speer M.Y., Scatena M., Giachelli C.M., Shanahan C.M. Role of smooth muscle cells in vascular calcification: implications in atherosclerosis and arterial stiffness. Cardiovasc. Res. 2018; 114(4): 590-600. doi:10.1093/cvr/cvy010.; Allahverdian S., Chaabane C., Boukais K., Francis G.A., Bochaton-Piallat M.L. Smooth muscle cell fate and plasticity in atherosclerosis. Cardiovasc. Res. 2018; 114(4): 540-550. doi:10.1093/cvr/cvy022.; Chistiakov D.A., Orekhov A.N., Bobryshev Y.V. Vascular smooth muscle cell in atherosclerosis. Acta Physiol. (Oxf). 2015; 214(1): 33-50. doi:10.1111/apha.12466.; Reynolds J.L., Skepper J.N., McNair R., Kasama T., Gupta K., Weissberg PL., Jahnen-Dechent W., Shanahan C.M. Multifunctional roles for serum protein fetuin-a in inhibition of human vascular smooth muscle cell calcification. 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Genesis and growth of extracellular-vesicle-derived microcalcification in atherosclerotic plaques. Nat Mater. 2016; 15(3): 335-43. doi:10.1038/nmat4519.; Burgmaier M., Milzi A., Dettori R., Burgmaier K., Marx N., Reith S. Colocalization of plaque macrophages with calcification is associated with a more vulnerable plaque phenotype and a greater calcification burden in coronary target segments as determined by OCT. PLoS One. 2018; 13(10): e0205984. doi:10.1371/journal.pone.0205984.; Fuery M.A., Liang L., Kaplan F.S., Mohler E.R. 3rd. Vascular ossification: Pathology, mechanisms, and clinical implications. Bone. 2018; 109: 28-34. doi:10.1016/j.bone.2017.07.006.; Carino A., Ludwig C., Cervellino A., Muller E., Testino A. Formation and transformation of calcium phosphate phases under biologically relevant conditions: Experiments and modelling. Acta Biomater. 2018; 74: 478-488. doi:10.1016/j.actbio.2018.05.027.; Lee J.S., Morrisett J.D., Tung C.H. Detection of hydroxyapatite in calcified cardiovascular tissues. Atherosclerosis. 2012; 224(2): 340-7. doi:10.1016/j.atherosclerosis.2012.07.023.; Cheng C.L., Chang H.H., Huang P.J., Wang W.C., Lin S.Y. Ex vivo assessment of valve thickness/ calcification of patients with calcific aortic stenosis in relation to in vivo clinical outcomes. J Mech Behav Biomed Mater. 2017; 74: 324-332. doi:10.1016/j.jmbbm.2017.06.020.; Cottignoli V, Relucenti M., Agrosi G., Cavarretta E., Familiari G., Salvador L., Maras A. Biological niches within human calcified aortic valves: towards understanding of the pathological biomineralization process. Biomed Res Int. 2015; 2015: 542687. doi:10.1155/2015/542687.; Mangialardo S., Cottignoli V., Cavarretta E., Salvador L., Postorino P., Maras A. Pathological biominerals: raman and infrared studies of bioapatite deposits in human heart valves. Appl Spectrosc. 2012; 66(10): 1121-7. doi:10.1366/12-06606.; Cottignoli V, Cavarretta E., Salvador L., Valfre C., Maras A. Morphological and chemical study of pathological deposits in human aortic and mitral valve stenosis: a biomineralogical contribution. Patholog Res Int. 2015; 2015: 342984. doi:10.1155/2015/342984.; Bischetti S., Scimeca M., Bonanno E., Federici M., Anemona L., Menghini R., Casella S., Cardellini M., Ippoliti A., Mauriello A. Carotid plaque instability is not related to quantity but to elemental composition of calcification. Nutr Metab Cardiovasc Dis. 2017; 27(9): 768-774. doi:10.1016/j.numecd.2017.05.006.; Pettenazzo E., Deiwick M., Thiene G., Molin G., Glasmacher B., Martignago F., Bottio T., Reul H., Valente M. Dynamic in vitro calcification of bioprosthetic porcine valves evidence of apatite crystallization. J Thorac Cardiovasc Surg. 2001; 121(3): 500-9. doi:10.1067/mtc.2001.112464.; https://www.nii-kpssz.com/jour/article/view/944

الاتاحة: https://www.nii-kpssz.com/jour/article/view/944
https://doi.org/10.17802/2306-1278-2021-10-3-26-33

المؤلفون: E. Chezganova A., O. Efimova S., S. Sozinov A., A. Efimova R., V. Sakharova M., A. Kutikhin G., M. Osnova V., Z. Ismagilov R., E. Brusina B., Е. Чезганова А., О. Ефимова С., С. Созинов А., А. Ефимова Р., В. Сахарова М., А. Кутихин Г., М. Основа В., З. Исмагилов Р., Е. Брусина Б.

المصدر: Epidemiology and Vaccinal Prevention; Том 18, № 4 (2019); 82-92 ; Эпидемиология и Вакцинопрофилактика; Том 18, № 4 (2019); 82-92 ; 2619-0494 ; 2073-3046 ; 10.31631/2073-3046-2019-18-4

مصطلحات موضوعية: Air pollution, particulate matter, hospital environment, healthcare-associated infections, reservoir, multidrug-resistant organisms, пылевое загрязнение, мелкодисперсные взвешенные вещества, больничная пыль, инфекции, связанные с оказанием медицинской помощи, резервуар, госпитальный штамм Конфликт интересов не заявлен

وصف الملف: application/pdf

Relation: https://www.epidemvac.ru/jour/article/view/804/564; Beggs C.B. The airborne transmission of infection in hospital buildings: fact or fiction? // Indoor Built Environ. 2003. N 12. P. 9–18.; Eames I., Tang J.W., Li Y., Wilson P. Airborne transmission of disease in hospitals // J R Soc Interface. 2009. N 6. P. S697–702.; Hobday R.A., Dancer S.J. Roles of sunlight and natural ventilation for controlling infection: historical and current perspectives // J Hosp Infect. 2013. Vol. 84, N 4. P. 271–82.; Sattar S.A., Ijaz M.K. The Role of Indoor Air as a Vehicle for Human Pathogens: Summary of Presentations, Knowledge Gaps, and Directions for the Future // Am J Infect Control. 2016. Vol. 44, N 9. P. 144–S146.; Surgical operations and procedures statistics. Доступно по: https://ec.europa.eu/eurostat/statistics-explained/index.php?title=Surgical_operations_and_procedures_ statistics#Increasing_and_decreasing_surgical_operations_and_procedures Ссылка активна на 20 июня 2019.; Hooshmand J., Allena P., Pakroua N., Votea B.J. Laminar airflow system use across the operating surface for airborne infection prevention in office-based surgical procedures // J Hosp Infect. 2018. Vol. 99, N 3. P. 308–309.; Mannucci P.M., Harari S., Martinelli I., Franchini M. Effects on health of air pollution: a narrative review // Intern Emerg Med. 2015. Vol. 10, N 6. P. 657–662.; Qian H., Zheng X. Ventilation control for airborne transmission of human exhaled bio-aerosols in buildings // J Thorac Dis. 2018. N 10, Suppl. 19. P. S2295–S2304.; Besta E., Parnella P., Couturierb J., et al. Environmental contamination by bacteria in hospital washrooms according to hand-drying method: a multi-centre study // J Hosp Infect. 2018. Vol. 100, N 4. P. 469–475.; Брико Н.И., Брусина Е.Б., Зуева Л.П. и др. Госпитальный штамм – непознанная реальность // Эпидемиология и вакцинопрофилактика. 2013. № 1 (68). С. 30–35.; Брусина Е.Б. Эпидемиология инфекций, связанных с оказанием медицинской помощи, вызванных возбудителями группы сапронозов // Эпидемиология и вакцинопрофилактика. 2015. Т. 14, № 2 (81). С. 50–56.; Zemouri C., de Soet H., Crielaard W., Laheij A. A scoping review on bio-aerosols in healthcare and the dental environment // PLoS One. 2017. Vol. 12, N 5. P. e0178007.; Chauveaux D. Preventing surgical-site infections: measures other than antibiotics // Orthop Traumatol Surg Res. 2015. Vol. 101 (Suppl). P. S77–83.; Акимкин В.Г., Покровский В.И. Нозокомиальный сальмонеллез взрослых. М.: Издательство РАМН; 2002. 136 с.; Bonifait L., Charlebois R., Vimont A., et al. Detection and quantification of airborne norovirus during outbreaks in healthcare facilities // Clin Infect Dis. 2015. Vol. 61. P. 299–304.; Sękowska A. Raoultella spp. – clinical significance, infections and susceptibility to antibiotics // Folia Microbiol (Praha). 2017. Vol. 62, N 3. P. 221–227.; Xu C., Wei M., Chen J., et al. Mellouki A Profile of inhalable bacteria in PM2.5 at Mt. Tai, China: Abundance, community, and influence of air mass trajectories // Ecotoxicol Environ Saf. 2019. Vol. 168. P. 110–119.; Hansen D., Krabs C., Benner D., et al. Laminar air flow provides high air quality in the operating field even during real operating conditions, but personal protection seems to be necessary in operations with tissue combustion // Int J Hyg Environ Health. 2005. Vol. 208, N 6. P. 455–60.; https://www.epidemvac.ru/jour/article/view/804

الاتاحة: https://www.epidemvac.ru/jour/article/view/804
https://doi.org/10.31631/2073-3046-2019-18-4-82-92

المؤلفون: D. Shishkova K., T. Glushkova V., O. Efimova S., A. Popova N., V. Malysheva Yu., R. Kolmykov P., Z. Ismagilov R., A. Gutakovsky K., Yu. Zhivodkov A., A. Kozhukhov S., V. Dolganyuk F., O. Barbarash L., A. Kutikhin G., Д. Шишкова К., Т. Глушкова В., О. Ефимова С., А. Попова Н., В. Малышева Ю., Р. Колмыков П., З. Исмагилов Р., А. Гутаковский К., Ю. Живодков А., А. Кожухов С., В. Долганюк Ф., О. Барбараш Л., А. Кутихин Г.

المصدر: Complex Issues of Cardiovascular Diseases; Том 8, № 1 (2019); 59-69 ; Комплексные проблемы сердечно-сосудистых заболеваний; Том 8, № 1 (2019); 59-69 ; 2587-9537 ; 2306-1278 ; 10.17802/2306-1278-2019-8-1

مصطلحات موضوعية: nanoparticles, bions, shape, toxicity, endothelium, atherosclerosis, elemental analysis, mineral profile, organic profile, protein profile, наночастицы, бионы, форма, токсичность, эндотелий, атеросклероз, элементный анализ, минеральный состав, органический состав, белковый профиль

وصف الملف: application/pdf

Relation: https://www.nii-kpssz.com/jour/article/view/531/396; Wu C.Y., Young L., Young D., Martel J., Young J.D. Bions: a family of biomimetic mineralo-organic complexes derived from biological fluids. PLoS One. 2013; 8 (9): e75501. doi:10.1371/journal.pone.0075501.; Kutikhin A.G., Velikanova E.A., Mukhamadiyarov R.A., Glushkova T.V., Borisov V.V., Matveeva V.G., Antonova L.V., Filip'ev D.E., Golovkin A.S., Shishkova D.K., Burago A.Y., Frolov A.V., Dolgov V.Y., Efimova O.S., Popova A.N., Malysheva V.Y., Vladimirov A.A., Sozinov S.A., Ismagilov Z.R., Russakov D.M., Lomzov A.A., Pyshnyi D.V., Gutakovsky A.K., Zhivodkov Y.A., Demidov E.A., Peltek S.E., Dolganyuk V.F., Babich O.O., Grigoriev E.V., Brusina E.B., Barbarash O.L., Yuzhalin A.E. Apoptosis-mediated endothelial toxicity but not direct calcification or functional changes in anticalcification proteins defines pathogenic effects of calcium phosphate bions. 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Circulating calcium concentrations, vascular disease and mortality: a systematic review. J Intern Med. 2016; 279 (6): 524-540. doi:10.1111/joim.12464.; Yurdagul A. Jr., Finney A.C., Woolard M.D., Orr A.W. The arterial microenvironment: the where and why of atherosclerosis. Biochem J. 2016; 473 (10): 1281-1295. doi:10.1042/BJ20150844.; Gimbrone M.A. Jr., García-Cardeña G. Endothelial Cell Dysfunction and the Pathobiology of Atherosclerosis. Circ Res. 2016; 118 (4): 620-636. doi:10.1161/CIRCRESAHA.115.306301.; Jensen H.A., Mehta J.L. Endothelial cell dysfunction as a novel therapeutic target in atherosclerosis. Expert Rev Cardiovasc Ther. 2016; 14 (9): 1021-1033. doi:10.1080/14779072.2016.1207527.; Cahill P.A., Redmond E.M. Vascular endothelium - Gatekeeper of vessel health. Atherosclerosis. 2016; 248: 97- 109. doi:10.1016/j.atherosclerosis.2016.03.007.; Young J.D., Martel J., Young D., Young A., Hung C.M., Young L, Chao Y.J., Young J., Wu C.Y. Characterization of granulations of calcium and apatite in serum as pleomorphic mineralo-protein complexes and as precursors of putative nanobacteria. PLoS One. 2009; 4 (5): e5421. doi:10.1371/journal.pone.0005421.; Peng H.H., Wu C.Y., Young D., Martel J., Young A., Ojcius D.M., Lee Y.H., Young J.D. Physicochemical and biological properties of biomimetic mineralo-protein nanoparticles formed spontaneously in biological fluids. Small. 2013; 9 (13): 2297-2307. doi:10.1002/smll.201202270.; Young J.D., Martel J., Young L., Wu C.Y., Young A., Young D. Putative nanobacteria represent physiological remnants and culture by-products of normal calcium homeostasis. PLoS One. 2009; 4 (2): e4417. doi:10.1371/journal.pone.0004417.; Martel J., Young D., Young A., Wu C.Y., Chen C.D., Yu J.S., Young J.D. Comprehensive proteomic analysis of mineralnanoparticles derived from human body fluids and analyzed by liquid chromatography-tandem mass spectrometry. 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Fatty acids and small organic compounds bind to mineralo-organic nanoparticles derived from human body fluids as revealed by metabolomic analysis. Nanoscale. 2016; 8 (10): 5537-5545. doi:10.1039/c5nr08116e.; Wu C.Y., Martel J., Young J.D. Comprehensive organic profiling of biological particles derived from blood. Sci Rep. 2018; 8 (1): 11310. doi:10.1038/s41598-018-29573-6.; Барбараш Л.С., Рогулина Н.В., Рутковская Н.В., Овчаренко Е.А. Механизмы развития дисфункций биологических протезов клапанов сердца. Комплексные проблемы сердечно-сосудистых заболеваний. 2018; 7 (2): 10-24; https://www.nii-kpssz.com/jour/article/view/531

الاتاحة: https://www.nii-kpssz.com/jour/article/view/531
https://doi.org/10.17802/2306-1278-2019-8-1-59-69

المؤلفون: M. Khutornaya V., A. Ponasenko V., A. Radivilko S., A. Kutikhin G., I. Zhidkova I., S. Krutitskiy S., R. Salakhov R., E. Grigoryev V., A. Golovkin S., М. Хуторная В., А. Понасенко В., А. Радивилко С., А. Кутихин Г., И. Жидкова И., С. Крутицкий С., Р. Салахов Р., Е. Григорьев В., А. Головкин С.

المساهمون: Данная работа была поддержана Фондом молодых ученых в области биомедицинских наук в 2016 году (научный проект № 15-005).

المصدر: Translational Medicine; Том 4, № 5 (2017); 15-27 ; Трансляционная медицина; Том 4, № 5 (2017); 15-27 ; 2410-5155 ; 2311-4495 ; 10.18705/2311-4495-2017-4-5

مصطلحات موضوعية: coronary artery disease, multiple organ failure, coronary bypass grafting, innate immunity, TREM-1, TLR, ишемическая болезнь сердца, полиорганная недостаточность, коронарное шунтирование, врожденный иммунитет

وصف الملف: application/pdf

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الاتاحة: https://transmed.almazovcentre.ru/jour/article/view/356
https://doi.org/10.18705/2311-4495-2017-4-5-15-27

Additional Titles: Растворимая форма триггерного рецептора миелоидных клеток-1 (sTREM-1) и полиморфные варианты TREM-1 при развитии полиорганной недостаточности после операции коронарного шунтирования

المؤلفون: M. Khutornya V.; Research Institute of complex problems of cardiovascular disease, A. Ponasenko V.; Research Institute of complex problems of cardiovascular disease, A. Tsepokina V.; Research Institute of complex problems of cardiovascular disease, A. Radivilko S.; Research Institute of complex problems of cardiovascular disease, I. Zhidkova I.; Research Institute of complex problems of cardiovascular disease, A. Kutikhin G.; Research Institute of complex problems of cardiovascular disease, S. Krutitsky S.; Research Institute of complex problems of cardiovascular disease, A. Golovkin S.; V. A. Almazov National Medical Research Center, Ministry of Health of Russia, E. Grigoriev V.; Research Institute of complex problems of cardiovascular disease, М. Хуторная В.; НИИ комплексных проблем сердечно-сосудистых заболеваний, А. Понасенко В.; НИИ комплексных проблем сердечно-сосудистых заболеваний, А. Цепокина В.; НИИ комплексных проблем сердечно-сосудистых заболеваний, А. Радивилко С.; НИИ комплексных проблем сердечно-сосудистых заболеваний, И. Жидкова И.; НИИ комплексных проблем сердечно-сосудистых заболеваний, А. Кутихин Г.; НИИ комплексных проблем сердечно-сосудистых заболеваний, С. Крутицкий С.; НИИ комплексных проблем сердечно-сосудистых заболеваний, А. Головкин С.; Национальный медицинский исследовательский центр им. В. А. Алмазова Минздрава России, Е. Григорьев В.; НИИ комплексных проблем сердечно-сосудистых заболеваний

المصدر: General Reanimatology; Том 15, № 3 (2019); 48-60; Общая реаниматология; Том 15, № 3 (2019); 48-60; 2411-7110; 1813-9779; 10.15360/1813-9779-2019-3

مصطلحات الفهرس: coronary artery disease; multiple organ dysfunction syndrome; coronary artery bypass grafting, innate immunity; TREM-1, ишемическая болезнь сердца; полиорганная недостаточность; коронарное шунтирование, врожденный иммунитет; TREM-1, info:eu-repo/semantics/article, info:eu-repo/semantics/publishedVersion

URL: https://www.reanimatology.com/rmt/article/view/1775/1312
https://www.reanimatology.com/rmt/article/view/1775/1312
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