Experimental study of the antibacterial activity of the lytic Staphylococcus aureus bacteriophage ph20 and lytic Pseudomonas aeruginosa bacteriophage ph57  during modelling of its impregnation into poly(methylmetacrylate) orthopedic implants (bone cement)

Samokhin, A. G.; Геннадьевич, Самохин Александр; Kozlova, Yu. N.; Николаевна, Козлова Юлия; Korneev, Denis V.; Владимирович, Корнеев Денис; Taranov, Oleg S.; Святославович, Таранов Олег; Fedorov, E. A.; Александрович, Федоров Евгений; Павлов, В. В.; Викторович, Павлов Виталий; Morozova, Vera; Витальевна, Морозова Вера; Tikunova, Nina; Викторовна, Тикунова Нина

doi:10.15690/vramn905

Cited by 7 publications

(2 citation statements)

References 4 publications

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“…In the SG, 6.0 mL of a staphylococcal bacteriophage solution was added during mixing bone cement, without vacuum, before placement of the endoprosthesis components. Such an application of phages has been previously developed by in vitro deposition of phage particles in surface cavities of polymethyl methacrylate implants prepared ex tempore [ 41 ]. After surgery completion, 20.0 mL of a commercial staphylococcal bacteriophage, whose activity against the pathogen was confirmed in vitro before surgery, was injected into the periprosthetic area daily for ten days through a drainage that was left in the post-operative wound.…”

Section: Methodsmentioning

confidence: 99%

Short-Term Outcomes of Phage-Antibiotic Combination Treatment in Adult Patients with Periprosthetic Hip Joint Infection

Fedorov

Samokhin

Kozlova

et al. 2023

Viruses

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Implant-associated infections are the most costly problem in modern orthopedics due to the continued increase in the occurrence of antibiotic-resistant bacterial strains that requires the development of new effective antimicrobials. A non-randomized, prospective, open-label, with historical control study on the use of combined phage/antibiotic therapy of periprosthetic joint infection (PJI) was carried out. Forty-five adult patients with deep PJI of the hip joint were involved in the study, with a 12-month follow-up after one-stage revision surgery. Patients from a prospective study group (SG, n = 23) were treated with specific phage preparation and etiotropic antibiotics, whereas patients from a retrospective comparator group (CG, n = 22) received antibiotics only. The rate of PJI relapses in the SG was eight times less than that in the CG: one case (4.5%) versus eight cases (36.4%), p = 0.021. The response rate to treatment was 95.5% (95% confidence interval (CI) = 0.7511–0.9976) in the SG and only 63.6% (95% CI = 0.4083–0.8198) in the CG. The odds ratio for PJI relapse in patients of the SG was 0.083 (95% CI = 0.009–0.742), which was almost 12 times lower than that in the CG. The obtained results support the efficacy of the combined phage-antibiotic treatment of PJI.

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Section: Methodsmentioning

confidence: 99%

Short-Term Outcomes of Phage-Antibiotic Combination Treatment in Adult Patients with Periprosthetic Hip Joint Infection

Fedorov

Samokhin

Kozlova

et al. 2023

Viruses

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“…The optimal form of delivery of phages to the joint implant site is unclear. Phages can be impregnated into bone cement, polymethyl methacrylate ( Samokhin et al, 2018 ). However, once phages are impregnated into polymethyl methacrylate they lose their effective titer between over 1–2 weeks.…”

Section: Phages Preventing Pjimentioning

confidence: 99%

The Rationale for Using Bacteriophage to Treat and Prevent Periprosthetic Joint Infections

et al. 2020

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Prosthetic joint infection (PJI) is a devastating complication after a joint replacement. PJI and its treatment have a high monetary cost, morbidity, and mortality. The lack of success treating PJI with conventional antibiotics alone is related to the presence of bacterial biofilm on medical implants. Consequently, surgical removal of the implant and prolonged intravenous antibiotics to eradicate the infection are necessary prior to re-implanting a new prosthetic joint. Growing clinical data shows that bacterial predators, called bacteriophages (phages), could be an alternative treatment strategy or prophylactic approach for PJI. Phages could further be exploited to degrade biofilms, making bacteria more susceptible to antibiotics and enabling potential combinatorial therapies. Emerging research suggests that phages may also directly interact with the innate immune response. Phage therapy may play an important, and currently understudied, role in the clearance of PJI, and has the potential to treat thousands of patients who would either have to undergo revision surgery to attempt to clear an infections, take antibiotics for a prolonged period to try and suppress the re-emerging infection, or potentially risk losing a limb.

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Phage Therapy in Orthopaedic Implant-Associated Infections

Rogóż

Amanatullah

Międzybrodzki

et al. 2019

Phage Therapy: A Practical Approach

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Experimental study of the antibacterial activity of the lytic Staphylococcus aureus bacteriophage ph20 and lytic Pseudomonas aeruginosa bacteriophage ph57 during modelling of its impregnation into poly(methylmetacrylate) orthopedic implants (bone cement)

Cited by 7 publications

References 4 publications

Short-Term Outcomes of Phage-Antibiotic Combination Treatment in Adult Patients with Periprosthetic Hip Joint Infection

Short-Term Outcomes of Phage-Antibiotic Combination Treatment in Adult Patients with Periprosthetic Hip Joint Infection

The Rationale for Using Bacteriophage to Treat and Prevent Periprosthetic Joint Infections

Phage Therapy in Orthopaedic Implant-Associated Infections

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