Restoration of the microvasculature and hemodynamics in the oral mucosa wound defects area with and without a piezoelectric polymer membrane

Коняева, А. Д.; Varakuta, E. Yu.; Leiman, A.E.; Bolbasov, E.N.; Stankevich, Ksenia S.

doi:10.31088/cem2022.11.3.56-66

Clin. Exp. Morphology

2022

DOI: 10.31088/cem2022.11.3.56-66

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Restoration of the microvasculature and hemodynamics in the oral mucosa wound defects area with and without a piezoelectric polymer membrane

А. Д. Коняева¹,

E. Yu. Varakuta²,

A.E. Leiman³

et al.

Abstract: Introduction. Restoration of blood supply to tissues is crucial for the regeneration of wound defects. The purpose of this research was to study the effect of piezoelectric polymers on the restoration of microcirculation and hemodynamics in the area of oral mucosa wound defects. Materials and methods. The study was carried out on 60 Wistar rats divided into four groups (15 rats each): control (intact) and 3 experimental groups. In group 1, the animals had an open wound defect. In groups 3 and 2, the rats had … Show more

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Cited by 2 publications

References 16 publications

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Applications of piezoelectric biomaterials in dental treatments: A review of recent advancements and future prospects

Zeng,

Lin,

Liu

et al. 2024

Materials Today Bio

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Applications of piezoelectric biomaterials in dental treatments: A review of recent advancements and future prospects

Zeng,

Lin,

Liu

et al. 2024

Materials Today Bio

View full text Add to dashboard Cite

Morphological peculiarities of regeneration of oral mucosa associated with use of polymeric piezoelectric membranes

Koniaeva,

Varakuta,

Leiman

et al. 2023

BRSMU

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Wound defects of the oral mucosa are a common pathology the treatment of which often involves synthetic membranes. Development of varieties of such membranes is an ongoing process. This study aimed to register morphological features of the oral mucosa regeneration process in the presence of one of the varieties, the polymer piezoelectric membranes. The study involved 45 Wistar rats divided into 3 groups: 1) animals with an open wound defect; 2) animals with a wound defect covered with a copper-coated polymer membrane; 3) intact animals. The samples for morphometric study were collected on the 3rd, 7th and 12th days. On the 3rd day, rats of group 1 had the specific area of granulation tissue 1.4 times greater than that in group 2 (p = 0.033). In group 1 rats, endotheliocytes expressed more VEGF than in the animals of group 2. In group 2, the defect was ultimately completely covered with the epithelial layer, which was not the case in group 1. On the 7th day, the epithelium in rats of group 2 was twice as thick as the layer registered in group 1 (p = 0.019). Granulation tissue was replaced by loose fibrous connective tissue. In group 1, the specific area of inflammatory infiltration was greater than that of loose fibrous connective tissue, and the VEGF expression level was lower than in group 2. On the 12th day, the predominant tissue in group 2 was the loose fibrous connective tissue, the VEGF expression level equaled that of group 3, and peripheral nerves began to grow. In group 1, the specific area of dense fibrous tissue was 3.9 times greater than that in group 2 (p = 0.012), the epithelium had pathological changes and the VEGF expression was below control values. Thus, a polymer piezoelectric membrane had a positive effect on the post-wound restoration of the oral mucosa tissues.

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Restoration of the microvasculature and hemodynamics in the oral mucosa wound defects area with and without a piezoelectric polymer membrane

Cited by 2 publications

References 16 publications

Applications of piezoelectric biomaterials in dental treatments: A review of recent advancements and future prospects

Applications of piezoelectric biomaterials in dental treatments: A review of recent advancements and future prospects

Morphological peculiarities of regeneration of oral mucosa associated with use of polymeric piezoelectric membranes

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