Advertisement for orthosearch.org.uk
Orthopaedic Proceedings Logo

Receive monthly Table of Contents alerts from Orthopaedic Proceedings

Comprehensive article alerts can be set up and managed through your account settings

View my account settings

Visit Orthopaedic Proceedings at:

Loading...

Loading...

Full Access

Trauma

PRE-PACKING OF COST EFFECTIVE ANTIBIOTIC CEMENT BEADS FOR THE TREATMENT OF TRAUMATIC OSTEOMYELITIS IN THE DEVELOPING WORLD: AN IN-VITRO STUDY BASED IN CAMBODIA

British Limb Reconstruction Society (BLRS) AGM & Instructional Course



Abstract

Introduction:

The developing world often lacks the resources to effectively treat the most serious injuries, potentially resulting in severe complications of orthopaedic trauma, including osteomyelitis following open fractures or surgical fracture treatment. Antibiotic cement beads are now a widely accepted method of delivering antibiotics locally to the infected area following trauma. This study is based in Cambodia, a low income country struggling to recover from a recent genocide.

Aims:

This project studied the effectiveness of locally made antibiotic beads, analysing their effectiveness after being gas sterilised, packaged and kept in storage.

Methods:

Different antibiotic beads were manufactured locally using Simplex cement and tested against MRSA bacteria grown from a case of osteomyelitis. Each antibiotic was tested before and after a process of gas sterilisation as well as later being tested after storage in packaging up to 42 days.

Results:

The gentamicin, vancomycin, amikacin and ceftriaxone beads all inhibited growth of the MRSA on the TSB and agar plates, both before and after gas sterilisation. All four antibiotics continued to show similar zones of inhibition after 42 days of storage, with slight fluctuations from week to week.

Conclusion:

The four antibiotic beads manufactured using limited resources and in the austere environment were all effective in inhibiting bacterial growth. The growth of MRSA was inhibited by the antibiotic beads. Gas sterilisation or storage at room temperature for up to 42 days did not adversely deteriorate the efficacy of the beads. The results show significant promise to produce beads with locally obtainable ingredients in an austere environment and improve cost effectiveness by storing them in a sterilised condition