E. V. Zinoviev scite author profile

E. V. Zinoviev

4Publications

32Citation Statements Received

92Citation Statements Given

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Affiliations

Saint-Petersburg I. I. Dzhanelidze Research Institute of Emergency Medicine, Saint Petersburg State Pediatric Medical University, Kirov Military Medical Academy

Publications

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Effects of new wound dressings on healing of thermal burns of the skin in acute radiation disease

Legeza

Galenko-Yaroshevskii²,

Zinoviev

et al. 2004

Bull Exp Biol Med

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Effects of new wound dressing bacterial cellulose impregnated with SOD and poviargol (Procel-Super and Procel-PA) and Inerpan hydrogel dressing on the reparative processes in deep dermal burns (IIIa-IIIb degree) in rats exposed to total even irradiation in a dose of 4 Gy were studied. Inerpan and Procel-Super dressings proved to be the most effective under these conditions: they accelerated healing of burn wounds by 17.0 and 5.5%, respectively.

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Effects of new wound dressings on healing of thermal burns of the skin in acute radiation disease

Legeza

Galenko-Yaroshevskii²,

Zinoviev

et al. 2004

Bull Exp Biol Med

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Crystal and Supramolecular Structure of Bacterial Cellulose Hydrolyzed by Cellobiohydrolase from Scytalidium Candidum 3C: A Basis for Development of Biodegradable Wound Dressings

et al. 2020

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The crystal and supramolecular structure of the bacterial cellulose (BC) has been studied at different stages of cellobiohydrolase hydrolysis using various physical and microscopic methods. Enzymatic hydrolysis significantly affected the crystal and supramolecular structure of native BC, in which the 3D polymer network consisted of nanoribbons with a thickness T ≈ 8 nm and a width W ≈ 50 nm, and with a developed specific surface SBET ≈ 260 m2·g−1. Biodegradation for 24 h led to a ten percent decrease in the mean crystal size Dhkl of BC, to two-fold increase in the sizes of nanoribbons, and in the specific surface area SBET up to ≈ 100 m2·g−1. Atomic force and scanning electron microscopy images showed BC microstructure “loosening“after enzymatic treatment, as well as the formation and accumulation of submicron particles in the cells of the 3D polymer network. Experiments in vitro and in vivo did not reveal cytotoxic effect by the enzyme addition to BC dressings and showed a generally positive influence on the treatment of extensive III-degree burns, significantly accelerating wound healing in rats. Thus, in our opinion, the results obtained can serve as a basis for further development of effective biodegradable dressings for wound healing.

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Application of chitosan-based wound coatings ‘ChitoPran’ in the treatment of patients with burn trauma

Поляков

Богданов

Afanasov

et al. 2019

Innovacionnaâ medicina Kubani

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Introduction The analysis of clinical experience for using biodegradable wound coating based on «HitoPran» chitosan in treatment of patients with burn trauma is presented.Background Our work included an analysis of clinical experience for using a biodegradable wound coating based on «HitoPran» chitosan for surgical treatment in patients with local and common thermal burns.Material and Methods A treatment analysis was conducted in 46 male and female patients, aged from 1 to 63 years with thermal burns on an area of 5 to 56% of the body surface. All injured were given surgical treatment in the complex with the use of low-temperature air plasma of arc discharge with atmospheric pressure in the conditions of our burn center in 2017-2018. Depending on the area and depth of the lesion, the patients were divided into two clinical groups: with local burns of II degree and area to 5% of the body surface and common burns of II and III degree and body surface 10% and more. In the course of early surgical treatment in patients with local border burns, the use of the wound coating «HitoPran» allows to achieve spontaneous epithelialization of wounds in dry environment after dermabrasion or escharotomy within the surface layers of dermis due to chitosan adhesion to the wound bottom, to reduce the number of dressings in the postoperative period. Covering skin grafts with perforation index 1:4 and 1:6 with wound «ChitoPran» coating in case of autodermoplasty in deep burn wounds provides satisfactory cellular epithelialization, reduces risk of regression of grafts, reduces consumption of wound coating and dressing material.Conclusion Application of Russian modern biodegradable coatings based on «HitoPran» chitosan in complex treatment in patients with local and common burns with different depth allows to optimize local treatment of burn injuries, as well as to reduce the cost of used dressing material in comparison with foreign alternatives.

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E. V. Zinoviev

Effects of new wound dressings on healing of thermal burns of the skin in acute radiation disease

Effects of new wound dressings on healing of thermal burns of the skin in acute radiation disease

Crystal and Supramolecular Structure of Bacterial Cellulose Hydrolyzed by Cellobiohydrolase from Scytalidium Candidum 3C: A Basis for Development of Biodegradable Wound Dressings

Application of chitosan-based wound coatings ‘ChitoPran’ in the treatment of patients with burn trauma

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