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Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_1 | Pages 67 - 67
1 Jan 2017
Perino G Ricciardi B Von Rhuland C Purdue E Xia Z
Full Access

Increased failure rates due to metallic wear particle-associated adverse local tissue reactions (ALTR) is a significant clinical problem in resurfacing and total hip arthroplasty. Histological analysis and particle characterization are important elements for understanding the biological mechanisms of the reaction and different histological subtypes may have unique needs for longitudinal clinical follow-up and complication rates after revision arthroplasty.

Consecutive patients (N=285 cases) presenting with ALTR from three major hip implant classes, metal-on-metal resurfacing and total hip arthroplasty (THA) and non-metal-on-metal THA with dual modular neck were identified from our prospective Osteolysis Tissue Database and Repository and 53 cases were selected for wear particle nano-analysis.

Conventional histology: Tissue samples taken from multiple regions around the hip with extensive sampling performed at macroscopic examination were examined by light microscopy.

Particle analysis: Tissue samples selected after frozen section evaluation for cellularity and particle content were examined by scanning electron microscopy (SEM), backscatter scanning electron microscopy (BSEM), BSEM-energy-dispersive X-ray spectroscopy (EDS) element mapping examination, transmission electron microscopy (TEM), TEM-EDS element mapping, and X-ray diffraction spectrometry (XRD) examination.

ALTR encompasses three main histological patterns: 1) macrophage predominant, 2) mixed lymphocytic and macrophagic, and 3) predominant sarcoid-like granulomas. Duration of implantation and composition of periprosthetic cellular infiltrates was significantly different among the three implant types examined. Distinct differences in the size, shape, and element composition of the metallic particulate material were detected in each implant class, with correlation of the severity of the adverse reaction with element complexity of the particles.

ALTR encompasses a diverse range of histological patterns, which are reflective of both the implant configuration independent of manufacturer and clinical features such as duration of implantation. Distinct differences in the metallic particulate material can contribute to explain the histological features of the ALTR and variability of performance of the implants.

ALTR exhibits different histological patterns and is dependent on the characteristics of the wear particulate material of each implant class and host immunological reaction.


Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_16 | Pages 9 - 9
1 Dec 2015
Dvorzhinskiy A Perino G Chojnowski R Van Der Meulen M Ross F Bostrom M Yang X
Full Access

To test the hypothesis that: CERAMENT[™]|G (C-G) would improve new bone growth and decrease infection rate after debridement as compared with 1) CERAMENT|BONE VOID FILLER (CBVF) and 2) no void filler in a rat osteomyelitis model.

72 Sprague Dawley rats were injected with 1.5 × 10∧6 CFU of S. aureus into a drill hole in the right tibia. After 3 weeks, the osteomyelitic defect was debrided, and filled with either: 1) C-G (n=32), 2) CBVF (n=20), or 3) nothing (n=20). 6 weeks after the second surgery, 20 rats from each group were sacrificed and the right tibias were harvested. A long-term group (n=12) of C-G treated rats were also sacrificed at 6 months after the second surgery. The tissues were sonicated and the colony forming units in the sonicate were quantified by serial dilutions and culture. MicroCT was used to quantify the new bone growth (BV/TV) in the debrided osteomyelitic void. Histological samples were analyzed for the presence of a neutrophil response by a blinded pathologist.

(*: p<0.05)

Positive cultures in:

○ 30% of animals treated with CBVF

○ 25% of animals treated with no void filler

○ 0% of animals treated with C-G (*)

Neutrophil reaction in:

○ 35% of animals treated with CBVF

○ 50% of animals treated with no void filler

○ 0% of animals treated with C-G (*)

The BV/TV in:

○ C-G treated rats was 24% greater than CBVF treated rats (*)

○ C-G treated rats was 94% greater than rats treated with no void filler (*)

○ CBVF treated rats was 56% greater than rats treated with no void filler (*)

Animals sacrificed at 6 months which were treated with C-G did not have any evidence of infection by culture or histology. The bone mass of the implanted limb was higher than the contralateral (non-operated) side.

CERAMENT|G decreased the rate of infection and increased new bone growth as compared with both CBVF and no void filler in a debrided osteomyelitic environment. Animals treated with C-G at 6 months showed no evidence of infection and retained a higher bone mass relative to the contralateral (non-operated) side.

This study supports the use of CERAMENT|G as a readily available void filler which could be used in osteomyelitic environments after debridement.