M
Mikhail M. Moisenovich
Researcher at Moscow State University
Publications - 65
Citations - 942
Mikhail M. Moisenovich is an academic researcher from Moscow State University. The author has contributed to research in topics: Fibroin & Spidroin. The author has an hindex of 13, co-authored 65 publications receiving 785 citations.
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Journal ArticleDOI
Bactericidal effects of non-thermal argon plasma in vitro, in biofilms and in the animal model of infected wounds.
Svetlana Ermolaeva,Alexander F. Varfolomeev,Marina Yu. Chernukha,Dmitry S. Yurov,Mikhail M. Vasiliev,Anastasya A. Kaminskaya,Mikhail M. Moisenovich,Julia M. Romanova,Arcady N. Murashev,I. I. Selezneva,Tetsuji Shimizu,Elena V. Sysolyatina,I.A. Shaginyan,Oleg F. Petrov,Evgeny I. Mayevsky,Vladimir E. Fortov,Gregor E. Morfill,Boris S. Naroditsky,Alexander L. Gintsburg +18 more
TL;DR: Results show considerable potential for non-thermal argon plasma in eliminating pathogenic bacteria from biofilms and wound surfaces, and Gram-negative bacteria were more susceptible to plasma treatment than Gram-positive bacteria.
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Tissue regeneration in vivo within recombinant spidroin 1 scaffolds.
Mikhail M. Moisenovich,O. L. Pustovalova,Julia Shackelford,Tamara V. Vasiljeva,Tatiana V. Druzhinina,Yana A. Kamenchuk,Vitaly V. Guzeev,Olga Sokolova,V. G. Bogush,Debabov Vladimir G,Mikhail P. Kirpichnikov,Igor I. Agapov +11 more
TL;DR: It is suggested that the porous inner structure of the rS1/9 scaffolds provided a better micro-environment for the regenerating tissue, which makes the matrices derived from the recombinant rS 1/9 protein favorable candidates for future in vivo applications.
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Three-dimensional scaffold made from recombinant spider Silk protein for tissue engineering.
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In vitro and in vivo biocompatibility studies of a recombinant analogue of spidroin 1 scaffolds
Mikhail M. Moisenovich,O. L. Pustovalova,A. Yu. Arhipova,T. V. Vasiljeva,Olga Sokolova,V. G. Bogush,Debabov Vladimir G,V. I. Sevastianov,Mikhail P. Kirpichnikov,Igor I. Agapov +9 more
TL;DR: Scaffolds made of the novel recombinant spidroin 1 analogue are potentially applicable in tissue engineering and implanted subcutaneously into Balb/c mice were well tolerated.
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Novel photosensitizers trigger rapid death of malignant human cells and rodent tumor transplants via lipid photodamage and membrane permeabilization.
Mikhail M. Moisenovich,Valentina A. Ol'shevskaya,Tatyana I. Rokitskaya,Alla A. Ramonova,Roza G. Nikitina,Arina N. Savchenko,Victor V. Tatarskiy,Mikhail A. Kaplan,Valery N. Kalinin,Elena A. Kotova,Oleg V. Uvarov,Igor I. Agapov,Yuri N. Antonenko,Alexander A. Shtil +13 more
TL;DR: The multimembrane photodestruction and cell necrosis induced by photoactivation of 2 and 5 are directly associated with membrane permeabilization caused by lipid photodamage.