В. Й. Савчук scite author profile

В. Й. Савчук

5Publications

28Citation Statements Received

21Citation Statements Given

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Affiliations

Institute of Urology of the National Academy of Medical Sciences of Ukraine, Pirogov Russian National Research Medical University, Institute of Normal Physiology named after P.K. Anokhin

Publications

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Cytokine profile of the blood in mice with normal and abnormal heart rhythm

et al. 2012

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Differences in the pools of 10 cytokine were found in blood samples from the caudal vein of mice with normal and abnormal heart rhythm. Both groups were albino mice bred by us and differing from mdx albino mice by the absence of mutation in muscular dystrophin gene. Mice with normal heart rhythm had low IL-17 content and elevated concentrations of proinflammatory cytokines IL-6 and IL-1α in comparison with the normal (according to published data). In mice with bradyarrhythmias, increased blood levels of IL-10, IL-6, IL-5, IL-2, IL-1α, IL-17, IL-4, TNF-α, and granulocyte-macrophage colony-stimulating factor were detected. The relative content of IL-4 and IL-17 in the total cytokine pool increased. The lifespan of mice with bradyarrhythmias and cytokine hyperexpression was shorter by 2-3 months in comparison with mice without heart rhythm disturbances and moderate changes in the cytokine pool.

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Yarygin

Сухих

Sitnikov

et al. 2003

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Human embryonic myogenic precursors were transplanted into muscles of mdx mice with hereditary dystrophin-deficient muscular dystrophy. Transplantation induced the synthesis of human dystrophin. The number of dystrophin-positive fibers progressively decreased, however, some of them were preserved even 5 months after transplantation. Our results indicate that xenogeneic transplantation of embryonic myogenic precursors compensates the genetic defect in dystrophin-deficient mice.

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A New Genetic Variant of MDX Mice: Study of the Phenotype

et al. 2009

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Genetic selection in a colony of mdx mice (suffering from X-chromosome-linked muscular dystrophy) resulted in generation of their new genetic variant. In this new variant, the genetic, biochemical, and histological markers of muscular dystrophy are combined with signs of oculocutaneous albinism (skin and fur depigmentation), transillumination of the iris, sharply reduced pigmentation of the retinal epithelium, and increase of the eyeball refraction). Two sensorimotor tests (negative geotaxis and wire back down hanging) detected other phenotypical characteristics of albino mdx mice carrying, in addition to the mutation in the dystrophin gene exon 23 (intrinsic of the "classical" black mdx mice), an extra mutation responsible for pigmentation disorders. Slow geotaxis, despite longer wire back down hanging capacity, was regarded as aggravation of the neurological dysfunction in albino mdx mice in comparison with black mdx mice.

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Hereditary muscular dystrophy in MDX mice as a homologous model for introduction of cell technologies in the treatment of progressive muscular dystrophies in humans

Стенина¹,

Савчук²,

Sitnikov³

et al. 2004

Bull Exp Biol Med

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Life-time monitoring of the main clinical and laboratory manifestations of hereditary muscular dystrophy in mdx mice confirmed the presence of mutation in exon 23 of dystrophin gene and the absence of this protein in skeletal muscles of mutant animals. Muscular dystrophy in mice was similar to human progressive muscle disorder, which allows the use of this model for the development of cell technologies for the treatment of hereditary muscular diseases in humans.

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Rationale for metaphylactics calcium oxalate nephrolithiasis taking into account the type of hypercrystalluria

Черненко

Савчук

et al. 2018

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