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

General Orthopaedics

DOES LOCAL VANCOMYCIN INCORPORATED INTO BONE SUBSTITUTE INCREASE PLASMA CONCENTRATIONS OF VANCOMYCIN IN PATIENTS WITH OSTEOMYELITIS AND INFLUENCE THE NEED TO PERFORM MORE FREQUENT DOSAGE ADJUSTMENTS?

The European Bone and Joint Infection Society (EBJIS) Meeting, Basel, Switzerland, 12–14 October 2023.



Abstract

Aim

The use of bone substitutes such as calcium sulfate (CaSO4) and hydroxyapatite with local antibiotics are crucial in the treatment of osteomyelitis. They allow the treatment of the dead space and locally provide large concentrations of antibiotics. However, it is unknown whether use of local vancomycin may elute and influence on vancomycin plasma levels. The aim of this study is to assess whether the addition of vancomycin to CaSO4 with hydroxyapatite may increase vancomycin plasma concentrations in in patients with osteomyelitis and therefore alter dosage adjustments.

Method

The present study investigates the vancomycin plasma concentrations at 72–94 h post-surgery after the application of local vancomycin within CaSO4 (660mg vancomycin/10cc) and hydroxyapatite bone substitute in patients treated with empiric intravenous vancomycin and surgically treated for osteomyelitis.

Vancomycin plasma concentrations were analyzed in twelve patients with osteomyelitis surgically treated with local release of vancomycin by CaSO4 and hydroxyapatite and undergoing therapeutic drug monitoring (TDM) of their vancomycin plasma concentrations as it is routinely done in our hospital. From 2019 to 2022, demographic data, microbiology, type of osteomyelitis, amount of local vancomycin applied, alteration of renal function, and vancomycin levels were retrospectively analyzed.

Results

Twelve patients were included: 9(75%) were men. Median (range) demographic and clinical data: age: 51(26–67) years; body mass index: 27.7(18–46.4) kg/m2;baseline serum creatinine: 0.85 (0.7–1.24)mg/dl and 5(41.7%) with and glomerular filtration rate < 90ml/min(CPD-EPI, ml/min). Most frequently isolated microorganisms were Staphylococci (58%). Seven (54%) patients were classified as Cierny-Mader Osteomyelitis type III, 3(23%) as type IV and 2(23%) as type I.

Treatment data: initial dose of vancomycin: 1g/8h in 9(75.0%) and 1g/12h in 3(25%) patients, total daily dose/body weight: 35.3(15.9–46.2) mg/kg. Pharmacokinetic data:days of iv vancomycin treatment until first TDM measurement: 3(3–4) days; minimum and maximum vancomycin plasma concentrations: 9.4(3–17.3) mg/L and 19.6(11.3–33.4) mg/L, respectively; patients with therapeutic concentrations: 6(50%); infratherapeutic: 4(33.3%) and supratherapeutic/potentially toxic: 2(16.7%). These 2 patients were young, had a baseline conserved renal function and were receiving the higher dose of 1g/8h.

Conclusions

Vancomycin incorporated into the bone substitute appears not to increase blood concentrations of the glycopeptide in patients with osteomyelitis treated surgically and with intravenous vancomycin. However, 2 of the 12 patients presented supratherapeutic and potentially nephrotoxic vancomycin concentrations in the first TDM measurement, even though they were young and without renal impairment and needed and unexpected dose reduction.

These results suggest the need to confirm the safety of local vancomycin in further larger clinical studies.


Email: