Pharmacokinetic Interpretation of Applying Local Drug Delivery System for the Treatment of Deep Surgical Site Infection in the Spine

Madadi, Ahmad Khalid; Sohn, Moon-Jun

doi:10.3390/pharmaceutics16010094

Pharmaceutics

2024

DOI: 10.3390/pharmaceutics16010094

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Pharmacokinetic Interpretation of Applying Local Drug Delivery System for the Treatment of Deep Surgical Site Infection in the Spine

Ahmad Khalid Madadi,

Moon-Jun Sohn

Abstract: Surgical site infections (SSIs) after spinal surgery present significant challenges, including poor antibiotic penetration and biofilm formation on implants, leading to frequent treatment failures. Polymethylmethacrylate (PMMA) is widely used for localized drug delivery in bone infections, yet quantifying individual drug release kinetics is often impractical. This retrospective study analyzed 23 cases of deep SSIs (DSSIs) following spinal surgery treated with antibiotic-loaded PMMA. A mathematical model estima… Show more

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2024

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Cited by 2 publications

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Functionalized Bone Implant Inspired by Lattice Defense Strategy: Grid Management, Precise and Effective Multiple‐Prevention of Osteomyelitis Recurrence and Promote Bone Regeneration

Zhang,

Sun

et al. 2024

Adv Healthcare Materials

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Osteomyelitis with a high recurrence rate. Timely‐prevention can avoid severe consequence and death. However, conventional drug response‐release has the disadvantages of unnecessary release and waste, causing ineffective prevention. Inspired by “Lattice‐defense technology”, gridding lesion areas and constructing a “Triggered‐precise response‐release system” may be an effective multiple‐prevention method. Here, a new strict pH‐triggered response drug controlled‐release mechanism was proposed innovatively to construct a “Triggered‐precise response‐release system” and achieve multiple‐effective prevention. PO43−‐Ce3+ strict pH responsive release system is prepared through simultaneous hydration reaction of solution‐polymerization and compounded in bone‐implant. The dispersed system only targets micro‐interface contact areas, achieving gridded management of the lesion site. In a normal environment, Ce3+ is captured by PO43− and kept electrostatic‐attraction balance, ensuring the zero‐concentration Ce3+ release continuously. Once osteomyelitis recurs and pH decrease, H+ at the interface will combine with PO43− under electrostatic drive and disrupt potential balance, achieving the release of Ce3+ only when the infection recurs. In vivo experiments was confirmed effective prevention and excellent promote bone regeneration. The adoption of “Lattice defense technology” has achieved accuracy spatiotemporal of drug delivery. Even if other lesion sites unfortunately recur again, effective‐prevention can be guaranteed. Bone‐implant show great potential in preventing osteomyelitis.

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Functionalized Bone Implant Inspired by Lattice Defense Strategy: Grid Management, Precise and Effective Multiple‐Prevention of Osteomyelitis Recurrence and Promote Bone Regeneration

Zhang,

Sun

et al. 2024

Adv Healthcare Materials

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Release of antibiotics from the materials for postosteomyelitic bone defect filling

Stogov,

Shastov,

Kireeva

et al. 2024

jour

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Introduction The search for materials for bone defect filling that would provide a release of antibiotics in therapeutic levels over a long period is a pressing issue in the treatment of patients with osteomyelitis.The purpose of the work was to compare the kinetics of antibiotic release from materials based on polyurethane polymers for filling post-osteomyelitic bone defects.Materials and methods A comparative in vitro analysis of the kinetic release of cefotaxime, vancomycin, and meropenem from two materials was performed: one was based on polyurethane polymers (RK series) and the other on polymethyl methacrylate (PMMA series). In each series, antibiotics were added to the original materials in three proportions: polymer/ antibiotic — 10:1 (group 1); 10:0.5 (group 2), and 10:0.25 (group 3). The samples were incubated in 10 ml of saline at 37 °C. The incubation solution was changed daily during the first week, and then once a week. Six samples were incubated in each group.Results It was revealed that the volume of eluted cefotaxime in the PMMA series was higher than in the RK series for all antibiotic concentrations. In turn, for vancomycin and meropenem, it was observed only for group 1 samples. For groups 0.5 and 0.25, a larger volume of released antibiotics was noted in the RK series than in the PMMA series. It was found that in the RK series, the release of vancomycin and cefotaxime in an effective (therapeutic) concentration was more prolonged. In the RK series, there was prolonged release of effective concentrations but in a smaller volume of released antibiotic than in the PMMA series.Discussion Each material showed its own antibiotic elution profile and each of them may have its own indications. The RK-based material has advantages in terms of the duration of antibiotic elution in therapeutic doses.Conclusion The release of the studied antibiotics in effective concentrations from the material based on polyurethane polymers is longer than from the PMMA-based material.

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Pharmacokinetic Interpretation of Applying Local Drug Delivery System for the Treatment of Deep Surgical Site Infection in the Spine

Cited by 2 publications

References 37 publications

Functionalized Bone Implant Inspired by Lattice Defense Strategy: Grid Management, Precise and Effective Multiple‐Prevention of Osteomyelitis Recurrence and Promote Bone Regeneration

Functionalized Bone Implant Inspired by Lattice Defense Strategy: Grid Management, Precise and Effective Multiple‐Prevention of Osteomyelitis Recurrence and Promote Bone Regeneration

Release of antibiotics from the materials for postosteomyelitic bone defect filling

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