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Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_II | Pages 197 - 197
1 May 2011
Bori G Garcia S Font L Muñoz-Mahamud E Gallart X Mallofre C Riba J Mensa J Sierra J Tomas X Fuster D Zumbado A Soriano A
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Introduction: The histology of prosthetic tissue is a gold standard for the diagnosis of prosthetic joint infection. However, the specificity and sensitivity of histology has never been 100% and this could be due to several causes. A possible cause for inconsistencies in histological results could be the type of specimen submitted to laboratory. The majority of authors obtain specimens from pseudocapsule, interface membrane and any tissue area suspicious of infection.

Aim: The objective of our study was to elucidate which is the most accurate specimen for histological diagnosis of prosthetic joint infection.

Methods: Prospective study including all revision arthroplasties performed in Hospital Clinic of Barcelona (Spain) from January 2007 to June of 2009. Specimens from pseudocapsule and from interface membrane were obtained from each patient. Definitive diagnosis of infection was considered when ≥2 cultures were positive for the same microorganism or the presence of pus around the prosthesis. Patients were classified in two groups:

patients submitted to hip revision arthroplasty due to an aseptic loosening in whom cultures (at least 5) obtained during surgery were negative and

patients submitted to hip revision arthroplasty due to a septic loosening confirmed by the presence of pus or ≥2 positive culture for the same microorganism.

Results: A total of 69 revisions were included in the study; 57 were classified in the group A and 12 were classified in the group B. The percentage of positive interface membrane histology in patients with prosthetic joint infection (group B) was significantly higher than the percentage of positive pseudocapsule histology (83.3% vs 41.6%, p=0.04, Fisher exact test).

Conclusion: The results suggest that the best specimen of periprosthetic soft tissue for histological study to diagnose the chronic periprosthetic infection in a revision total hip arthroplasty is the periprosthetic interface membrane.


Orthopaedic Proceedings
Vol. 93-B, Issue SUPP_II | Pages 152 - 152
1 May 2011
Font L García S Muñoz-Mahamud E Bori G Gallart X Fernández-Valencia J Riba J Casanova L Mensa J Soriano A
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Introduction: The most important cause of prosthetic joint infection (PJI) is the contamination of the wound during the surgery. Nowadays, it doesn’t exist any image or laboratory test for early detection of prosthesis with a higher risk of developing a PJI.

Aim: The primary aim was to evaluate the usefulness of different intraoperative samples during the surgery of implantation of a primary hip arthroplasty (PHA) as a predicting factor of PJI.

Methods: A prospective cohort study was performed. All patients (n= 278) who underwent a PHA from January ’06 to November ’08 were included. Three samples: a piece of articular capsule (TS), a swab (S) and synovial fluid (SF) inoculated into blood flask were taken in each patient during the first 45 minutes of surgery. Other possible risk factors of PJI like age, sex, ASA, comorbidity and surgical time were registered.

Results: A total of 278 patients were included. 30 cultures (8 SF, 13 TS and 9 S) were positive in 29 patients. The most frequent microorganism isolated was Coagulase-negative staphylococci (CNS) (66.6%). The rate of PJI (early and late) in the subgroup of patients with positive intraoperative cultures for CNS was 25% while in the subgroup with all negative cultures was 5.2% (RR=4.8; p=0.007). Other factors significantly associated with a higher rate of PJI in the univariate analysis were: ASA III (RR=9.12; p=0.02), cardiopathy (RR= 2.82; p=0.04), obstructive pulmonary chronic disease (RR=5; p=0.02) and rheumatoid arthritis (RR=4.16; p=0.04). Multivariate analysis found ASA III (Odds ratio 10.9; CI 95% 1.27–94.6; p=0.02) and a positive intraoperative culture for CNS (Odds ratio 5.92; CI 95%=1.8–19.85; p=0.03) as independent risk factors for PJI.

Conclusion: Positive intraoperative culture for CNS during PHA was independently associated with the development of PJI.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_I | Pages 169 - 169
1 Mar 2009
Fernández-Valencia J Font L Robert I Domingo A Ríos M Gallart X Prat S Segur J Riba J
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Purpose: To review the results of periprosthetic femoral fractures treated using cortical strut allograft and plate internal fixation.

Material & Methods: Between November 1996 and July 2006, 17 patients with periprosthetic fractures of the femur after hip arthroplasty were treated using deep-frozen cortical strut allografts as an adjunct support after internal fixation. The average age was 79 years (range 56 to 96 years) with 13 woman and 4 men. According to the Vancouver classification system, there were 6 type B1, 5 type B2, 1 type B3 and 5 type C fractures. All fractures were closed except for one type I of Gustilo. Twelve patients had internal fixation of the fracture using a Dall-Miles cable and plate system, 5 using a AO/ASIF 4.5 dynamic compression plate, and 2 had an associated revision arthroplasty of the stem. Cortical strut allograft was used from the femur in 6 cases and from the tibia in 11 cases. Mean follow-up was of 97.5 weeks.

Results: One patient presented a rupture of a screw and varus displacement of the fracture, but healed without symptomatic complaints. A superficial infection occurred in the patient with open fracture. All the patients, except for two, required allogenic blood transfusion. Mean inhospital stay was of 18.6 days and walk with weigh was allowed at a mean of 50.9 days. Two patients died few weeks after the treatment due to complications of their previous pathological disorders. Aseptic loosening of a hip arthroplasty occurred at two years follow-up requiring revision surgery. Three patients referred mild pain at the last follow-up visit.

Conclusions: Cortical strut allograft associated with internal fixation has provided satisfactory results in the present serie. We consider this procedure safe and effective, specially for type B1 and C periprosthetic femoral fractures.


Orthopaedic Proceedings
Vol. 88-B, Issue SUPP_I | Pages 80 - 80
1 Mar 2006
Esteban-Navarro P Garcia-Ramiro S Cofan F Riba J Oppenheimer F Suso S
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Introduction: A hip replacement is an usually procedure in patients with chronic renal failure (CRF) affected of osteoarthritis, avascular necrosis of the femoral head or femoral neck fracture. The infection of the prosthesis is the most severe and important complication related to hip arthroplasty (HA). Patients with CRF have a immunosupression status, that increases the infection risk. The aim of the study was to evaluate the results of HA in patients on renal replacement therapy (RRT) through haemodialysis (HD) or renal transplantation (RT) .

Material and methods: Between 1990 and 2002, 23 HA have been performed in 18 patients on RRT (9 patients on HD and 9 RT). There were 9 women and 9 men, with an average age of 56 years old (range 30–83). In 5 patients the procedure was bilateral. The average time on RRT was 13.1 years (range 4–28). Preoperative diagnostic was: avascular necrosis of the femoral head (15 hips), femoral neck fracture (6 hips) and hip dysplasia (2 hips).

Results: The average follow-up was 59 months (range 3–140). All patients received antibiotic prophylaxis. Bleeding was the most frequent complication (74%, n=17). Infectious complications occurred in 33% of HA (n=6) in the early postoperative period and in 9% of HA (n=2) during the long-term follow-up. Early infections were: urinary tract infection (n=2 – Pseudomona species) and deep wound infection [n=4 – Pseudomona aeruginosa (n=1), Candida parapsilosis (n=1), Entero-coccus faecalis (n=1) and unknown aetiology (n=1), that required surgical debridement. Two patients had later infection of the prostheses (9%), and a two-stage revision in one case and resection arthroplasty in the other was performed. In-hospital mortality was 5.5% (n=1) and long-term mortality was 16.6% (n=3).

Conclusions: Infectious morbidity associated with HA in patients with chronic renal failure is important. The priority in this patients is individualize the surgical indication. An intensive medical control is needed.


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_II | Pages 139 - 139
1 Feb 2004
Torner-Pifarré P Gallart-Castany X García-Ramiro S Sastre-Solsona S Lázaro-Amoròs A Segur-Vilalta JM Riba-Ferret J
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Introduction and Objectives: Periprosthetic fractures present some difficult problems: the inability to use intramedullary implants, difficulty in inserting screws (since the cavity is occupied), bone fragility, great mechanical demands, elderly patients, and associated conditions. We have used two osteosynthesis reinforcement techniques in these cases: massive intramedullary cementation and implantation of bone allograph counterplates. Both techniques give a simple solution for complex peri-prosthetic fractures.

Materials and Methods: We used this technique to treat 9 periprosthetic fractures of the femur between 1999 and 2003. In 3 cases, massive intramedullary cementation was used (Johansson type III, distal to the prosthetic stem) and in 6 cases a bone allograft counterplate (Johansson type II, around the prosthesis), associated with the stem replacement in 2 cases. Allografts came from the Tissue Bank of the Institut Clinic de l’Aparell Locomotor (ICAL). There were 7 females and 2 males, with an average age of 76 years (range: 66–83). Average follow-up time was 14 months (range: 6 months to 3.5 years).

Results: In 8 of 9 cases (89%), fracture consolidation was achieved in 3.5 months, with patients regaining the same ability to walk as before the injury. In one case with intramedullary cementation, non-union developed with breakage of the plate at 10 months post-intervention. This case was treated with compression osteosynthesis with a new plate and bone allograft counterplate, and final outcome was satisfactory (consolidation at 4 months) with the patient walking with full weight bearing without crutches.

Discussion and Conclusions: We believe both techniques are useful in the resolution of periprosthetic fractures of the femur over porous bone. However, a very precise surgical technique is necessary, as well as respect for the classical principles of osteosynthesis: fracture fixation with anatomic reduction, interfragmentary compression, and maximum care afforded soft tissue.