Cephalasporin antibiotics have been commonly used for prophylaxis against surgical site infection. To prevent Clostridium difficile, the preferential use of agents such as flucloxacillin and gentamicin has been recommended. The aim of this study was to investigate the bone penetration of these antibiotics during hip and knee arthroplasty, and their efficacy against Staphylococcus aureus and S. epidermidis.

Bone samples were collected from 21 patients undergoing total knee arthroplasty (TKA) and 18 patients undergoing total hip replacement (THA). The concentration of both antibiotics was analysed using high performance liquid chromatography. Penetration was expressed as a percentage of venous blood concentration. The efficacy against common infecting organisms was measured using the epidemiological cut-off value for resistance (ECOFF).

The bone penetration of gentamicin was higher than flucloxacillin. The concentration of both antibiotics was higher in the acetabulum than the femoral head or neck (p=0.007 flucloxacillin; p=0.021 gentamicin). Flucloxacillin concentrations were effective against S. aureus and S. epidermis in all THAs and 20 (95%) TKAs. Gentamicin concentrations were effective against S.epidermis in all bone samples. Gentamicin was effective against S. aureus in 11 (89%) femoral samples. Effective concentrations of gentamicin against S. aureus were only achieved in 4 (19%) femoral and 6 (29%) tibial samples in TKA.

Flucloxacillin and gentamicin was found to effectively penetrate bone during arthroplasty. Gentamicin was effective against S. epidermidis in both THA and TKA, while it was found to be less effective against S. aureus during TKA. Bone penetration of both antibiotics was less in TKA than THA.

Decreased oxygenation and delayed wound healing may negate the advantages of using a medial parapatellar incision in Total Knee Replacement. Tissue biochemical and blood flow data are not currently available in the literature.

20 patients were included in the study and randomised to midline or medial parapatellar skin incision groups, being supervised by one of 3 Consultant surgeons. Cutaneous blood flow was measured using a Speckle Contrast Blood Perfusion Imager at pre-operative and Days 1 & 3 post-operative intervals. Interstitial fluid measurements for lactate, pyruvate, lactate/pyruvate ratio and glucose were obtained from subcutaneous catheters with a dialysis membrane. Pre-operative samples were obtained from a catheter inserted into the prospective lateral wound edge. A catheter inserted after wound closure supplied dialysates at 0.5, 1, 2, 4, 6, 12 and 24-hour intervals. One catheter was corrupted on insertion; therefore the patients with biochemical data numbered 19.

Cutaneous blood flow improved over the 3 post-operative days in both types of incision and both sides, the medial retaining comparatively better flow. At Day 3, the parapatellar incision group displayed better flow on both sides of the wound. The concentration of lactate was highest in the parapatellar incision group of patients at all intervals. Pyruvate concentrations did not appear to differ across the incision types. Similarly, glucose concentrations did not appear to differ until after 4 hours, when higher concentrations were recorded in the midline group. Lactate/pyruvate ratio appeared to be notably greater in the parapatellar incision group. Plotting change in blood flow relative to change in lactate concentration demonstrated an increase in lactate as flow deteriorates.

The study findings suggest medial parapatellar incisions have increased anaerobic metabolites due to tissue hypoperfusion. Previous studies have demonstrated decreased oxygen tension in lateral based flaps and more recently the medial to lateral arterial anatomy has been demonstrated.

The longitudinal midline and medial-parapatellar incision are commonly used in Total Knee Arthroplasty (TKA). Medial-parapatellar incision n offers a smaller wound, avoids creation of thin skin flaps and easier exposure in obese patients. This incision creates a lateral skin flap which may be subject to poor blood supply and delayed wound healing.

We undertook a Randomised Controlled Trial (n=20) comparing midline and medial-parapatellar incisions. Cutaneous blood-flow was measured using a Doppler Imager. Interstitial fluid measurements for lactate, pyruvate, lactate/pyruvate ratio and glucose were obtained from subcutaneous microdialysis catheters. Wound cosmesis was graded and skin sensation tested.

Immediately post-op there was no significant difference in subcutaneous blood flow, but by day 3 patients with medial-parapatellar incisions showed greater bloodflow than midline incisions, particularly on the medial side (387 vs 278units p=0.148). At both day 1 and 3 post-op the lateral flap of the medial parapatellar incision showed decreased blood flow compared to the medial side, though these failed to reach significance. In contrast the midline incision showed no discernable difference in blood flow between the medial and lateral flaps. Concentrations of subcutaneous glucose increased from 4 hours post-op in the midline group, returning to baseline by 24hours. In contrast, the parapatellar group remained at base line throughout. Lactate concentrations increased over time in both groups peaking at 12hours post-op. No difference was noted between incision types with regard to wound cosmesis.

We conclude that the use of a medial-parapatellar incision results in only minimal biochemical changes, which are unlikely to alter wound healing. Medial-parapatellar incision is therefore a safe alternative to a midline incision and can be utilised in appropriate complex cases to aid surgical exposure.