AI Article Synopsis

  • Continuous local antibiotic perfusion (CLAP) involves high concentrations of gentamicin (1,200 μg/ml) infused directly into the bone marrow to treat orthopedic infections, but its effects on bone cells are not well understood.
  • In vitro experiments showed that high levels of gentamicin significantly reduced live cell rates and alkaline phosphatase (ALP) activity while increasing apoptosis rates in bone-derived cells, particularly at concentrations of 500 μg/ml and above.
  • The study indicates that the concentration and duration of antibiotic exposure during CLAP can impact bone cell functions, suggesting a need for further research to find the optimal dosage for clinical use.

Article Abstract

Aims: Continuous local antibiotic perfusion (CLAP) has recently attracted attention as a new drug delivery system for orthopaedic infections. CLAP is a direct continuous infusion of high-concentration gentamicin (1,200 μg/ml) into the bone marrow. As it is a new system, its influence on the bone marrow is unknown. This study aimed to examine the effects of high-concentration antibiotics on human bone tissue-derived cells.

Methods: Cells were isolated from the bone tissue grafts collected from six patients using the Reamer-Irrigator-Aspirator system, and exposed to different gentamicin concentrations. Live cells rate, apoptosis rate, alkaline phosphatase (ALP) activity, expression of osteoblast-related genes, mineralization potential, and restoration of cell viability and ALP activity were examined by in vitro studies.

Results: The live cells rate (the ratio of total number of cells in the well plate to the absorbance-measured number of live cells) was significantly decreased at ≥ 500 μg/ml of gentamicin on day 14; apoptosis rate was significantly increased at ≥ 750 μg/ml, and ALP activity was significantly decreased at ≥ 750 μg/ml. Real-time reverse transcription-polymerase chain reaction results showed no significant decrease in the ALP and activating transcription factor 4 transcript levels at ≥ 1,000 μg/ml on day 7. Mineralization potential was significantly decreased at all concentrations. Restoration of cell viability was significantly decreased at 750 and 1,000 μg/ml on day 21 and at 500 μg/ml on day 28, and ALP activity was significantly decreased at 500 μg/ml on day 28.

Conclusion: Our findings suggest that the exposure concentration and duration of antibiotic administration during CLAP could affect cell functions. However, further in vivo studies are needed to determine the optimal dose in a clinical setting.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10904204PMC
http://dx.doi.org/10.1302/2046-3758.133.BJR-2023-0198.R1DOI Listing

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