Smart Polylactic Acid Films with Ceftriaxone Loaded Microchamber Arrays for Personalized Antibiotic Therapy

Bacterial infections are a severe medical problem, especially in traumatology, orthopedics, and surgery. The local use of antibiotics-elution materials has made it possible to increase the effectiveness of acute infections treatment. However, the infection prevention problem remains unresolved. Here, we demonstrate the fabrication of polylactic acid (PLA) smart films with microchamber arrays. These microchambers contain ceftriaxone as a payload in concentrations ranging from 12 +/- 1 mu g/cm(2) to 38 +/- 8 mu g/cm(2), depending on the patterned film thickness formed by the different PLA concentrations in chloroform. In addition, the release profile of the antibiotic can be prolonged up to 72 h in saline. At the same time, on the surface of agar plates, the antibiotic release time increases up to 96 h, which has been confirmed by the growth suppression of the Staphylococcus aureus bacteria. The efficient loading and optimal release rate are obtained for patterned films formed by the 1.5 wt % PLA in chloroform. The films produced from 1.5 and 2 wt % PLA solutions (thickness-0.42 +/- 0.12 and 0.68 +/- 0.16 mu m, respectively) show an accelerated ceftriaxone release upon the trigger of the therapeutic ultrasound, which impacted as an expansion of the bacterial growth inhibition zone around the samples. Combining prolonged drug elution with the on-demand release ability of large cargo amount opens up new approaches for personalized and custom-tunable antibacterial therapy.

Automated summary

This study demonstrates the fabrication of smart films with microchamber arrays made of polylactic acid (PLA) that can effectively release antibiotics and prolong release duration. The concentration and thickness of the films affect the release amount and time of the antibiotic. Additionally, the therapeutic ultrasound can trigger accelerated antibiotic release, which inhibits bacterial growth.