&lt;i&gt;In vivo&lt;/i&gt; effectiveness of polymer hydrogels impregnated with an antibacterial drug in chronic osteomyelitis

Tsiskarashvili, A. V.; Melikova, R. E.; Volkov, A. V.; Zaytseva, O. S.; Pkhakadze, T. Ya.; Artyukhov, A. A.; Sokorova, N. V.

doi:10.18019/1028-4427-2023-29-5-535-545

jour

2023

DOI: 10.18019/1028-4427-2023-29-5-535-545

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<i>In vivo</i> effectiveness of polymer hydrogels impregnated with an antibacterial drug in chronic osteomyelitis

A. V. Tsiskarashvili,

R. E. Melikova,

A. V. Volkov

et al.

Abstract: Introduction Polymethyl methacrylate (PMMA) is a common depot system in the treatment of chronic osteomyelitis. However, a lot of its shortcomings do not allow us to consider it ideal.Purpose of the work was to study in vivo the effectiveness of a polymer hydrogel containing an antibiotic for chronic osteomyelitis of the tibia in a rabbit model and compare it with PMMA.Materials and methods The study was performed on the lower leg of 25 mature Chinchilla rabbits. A model of chronic osteomyelitis of the tibia w… Show more

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2024

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Bactericidal activity of experimental samples of titanium alloy implants with a calcium phosphate coating and an antibacterial component against gram-negative pathogens (experimental study)

Popkov,

Shastov,

Shipitsyna

et al. 2024

N.N. Priorov Journal of Traumatology and Orthopedics

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BACKGROUND: Induction of osteomyelitis can be caused by gram-negative microflora, most often P.aeruginosa, Acinetobacterspp., Klebsiellaspp., Enterobacterspp. Two-stage treatment using the Masculet method is recognized as effective, but technologies for one-stage surgical treatment are being sought. The use of submersible metal structures with a bioactive calcium phosphate coating in combination with an antibacterial component can prevent the development of infectious complications, reduce the number of relapses of osteomyelitis and at the same time accelerate the processes of osteogenesis. AIM: Assessment of the bactericidal properties of experimental samples of titanium alloy implants with a calcium phosphate coating and an antibacterial component against gram-negative pathogens. MATERIALS AND METHODS: Carried out a single-center, continuous, prospective, unblinded experimental in vitro study. The disk diffusion method was used. We tested discs made of titanium alloy VT6 with a calcium phosphate coating, impregnated with the antibiotics amikacin, cefepime and cefotaxime at concentrations of 2.5/5.0/7.5μg. Test cultures: museum strains of bacteria Pseudomonas aeruginosa ATCC27853, Acinetobacter baumannii ATCC19606, Klebsiella pneumoniae ATCC700603. The results were assessed by the diameter of the zone of growth inhibition of microorganisms around the disk. RESULTS: determined that bactericidal properties against Klebsiella pneumoniae appear when amikacin and cefatoxime are impregnated onto a metal bioactive substrate at a concentration of 2.5μg; cefepime— at a concentration of 7.5mcg. Against Pseudomonas aeruginosa, the bactericidal effect is expressed when amikacin is impregnated at a concentration of 5μg and cefepime at a concentration of 7.5μg. In relation to Acinetobacter baumannii, the tested concentrations of antibacterial drugs did not show bactericidal properties. Limitations of the study: The bactericidal effect was studied only against gram-negative museum strains of bacteria. There may be differences when clinical strains are used. CONCLUSIONS: It is possible to ensure the bactericidal properties of the surface of submersible metal structures intended for traumatology and orthopedics, in particular against gram-negative bacteria, using known antibacterial drugs. However, their effectiveness depends on the antibiotic used and its concentration.

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Bactericidal activity of experimental samples of titanium alloy implants with a calcium phosphate coating and an antibacterial component against gram-negative pathogens (experimental study)

Popkov,

Shastov,

Shipitsyna

et al. 2024

N.N. Priorov Journal of Traumatology and Orthopedics

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Local antibacterial depot systems in the treatment of bone and joint infection

Tsiskarashvili,

Melikova

2024

N.N. Priorov Journal of Traumatology and Orthopedics

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Local depot systems saturated with antibiotics are an integral part of the complex treatment of osteoarticular infections, since they can effectively combat microbial biofilms by creating a concentration of drugs many times higher than necessary for planktonic forms of microorganisms. Currently, there are many carrier matrices with different properties. Only a small part of them have been sufficiently well studied and are actively used in clinical practice, such as bone cement based on polymethyl methacrylate, calcium sulfate, collagen, allografts, etc. The vast majority of local systems have been studied only in vitro and in vivo conditions. This review is devoted to a description of the currently existing depot systems, their main properties, advantages and disadvantages, as well as possible prospects for the further use of a particular matrix both in treatment and for preventive purposes.

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<i>In vivo</i> effectiveness of polymer hydrogels impregnated with an antibacterial drug in chronic osteomyelitis

Cited by 2 publications

References 22 publications

Bactericidal activity of experimental samples of titanium alloy implants with a calcium phosphate coating and an antibacterial component against gram-negative pathogens (experimental study)

Bactericidal activity of experimental samples of titanium alloy implants with a calcium phosphate coating and an antibacterial component against gram-negative pathogens (experimental study)

Local antibacterial depot systems in the treatment of bone and joint infection

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