T. Miclau et al., IN-VITRO PHARMACOKINETICS OF ANTIBIOTIC RELEASE FROM LOCALLY IMPLANTABLE MATERIALS, Journal of orthopaedic research, 11(5), 1993, pp. 627-632
Local deposition of antibiotics has became increasingly popular in the
management of open fractures or osteomyelitis, and several substances
have been employed as the vehicle for delivery. Although the elution
characteristics of some substances have been documented, a comparative
study of the characteristics of the commonly used substances could es
tablish the clinical indications for particular vehicles. Cylindrical
pellets of uniform size (6 x 4 mm) were prepared from bone graft (BG),
demineralized bone matrix (DBM), plaster of Paris (POP), or polymethy
lmethacrylate (PMMA), with 25 mg of tobramycin/g of substance in each
pellet. The pellets were suspended in phosphate buffered saline, and t
he antibiotic concentration in the buffer was determined at various ti
me intervals by an enzyme immunoassay. BG and DBM eluted 70 and 45% of
their antibiotic load by 24 h, and negligible amounts were detected a
t 1 week; POP released 17% of its load by 24 h, with trace amounts det
ected at 3 weeks; and PMMA eluted 7% at 24 h, with trace amounts detec
ted for as long as 14 days. These findings suggest that the optimal ve
hicle for local deposition of antibiotic depends on the clinical setti
ng. BG and DBM may be best employed when brief antibiotic coverage is
required (as for acute contaminated open fractures), whereas POP and P
MMA may be better suited for long-term coverage (such as for establish
ed osteomyelitis).