Potential Causes Of Failure Research Articles

Abstract No. 232: Preliminary experience with percutaneous interventions on thrombosed “HeRO” arteriovenous grafts

To review our experience with percutaneous interventions on thrombosed “HeRO” AV grafts for etiologies of thrombosis and post-interventional outcome. In this novel arteriovenous graft / catheter hybrid, a PTFE graft is attached to a catheter for venous outflow, thereby avoiding venous anastomosis and central venous stenoses as a potential cause for failure.

Immunologic Adverse Reaction Associated with Low-carbide Metal-on-metal Bearings in Total Hip Arthroplasty

An increased incidence of periprosthetic osteolysis, resulting in loss of biologic fixation, has been reported in contemporary THAs with low-carbide metal-on-metal compared with metal-on-polyethylene couple bearings. Although a hypersensitivity reaction attributable to Co and Cr debris is reportedly a potential cause for failure of THAs with high-carbide bearings, there are no evidence-based data for this reaction in low-carbide metal-on-metal bearings, although such hypersensitivity might be related to osteolysis. We investigated whether there were differences in immunologic hypersensitivity reactions in retrievals from revised THAs with ceramic-on-polyethylene versus metal-on-metal bearing couples. We compared newly formed capsule and periprosthetic interface membranes from revision surgery for aseptic failure from 20 patients with low-carbide bearings and 13 patients with ceramic-on-polyethylene bearings. For control tissue, we obtained samples from the hip capsule during the primary THA implantation in 13 patients with low-carbide bearings and seven with ceramic-on-polyethylene bearings. We examined the tissues with conventional histologic and immunohistochemical methods. Compared with tissue from the control subjects and patients with ceramic-on-polyethylene bearings, the tissues from patients with low-carbide metal-on-metal bearings were associated with (1) extensive necrosis and fibrin exudation in the newly formed hip capsule and (2) diffuse and perivascular lymphocytic infiltration of a higher degree than in the hips with ceramic-on-polyethylene bearings in conventional histologic examination, and (3) more T than B cells. The conventional histologic and immunohistochemical findings in tissues retrieved from failed THAs with low-carbide metal-on-metal bearings are consistent with a link between hypersensitivity and osteolysis with low-carbide bearing couples.

Five-year experience with orthodontic miniscrew implants: A retrospective investigation of factors influencing success rates

Introduction Anchorage control is important for efficient orthodontic treatment with fixed appliances. Successful osseointegration encouraged many orthodontists to use dental implants as stationary anchorage units for force application. However, their use has some drawbacks, which led to the development of miniscrew implants (MIs). Our aim was to investigate factors significantly contributing to the success rates of MIs in various orthodontic treatment procedures in white patients. Methods In total, 350 self-tapping (187 Abso Anchor [Dentos, Daegu, South Korea] and 163 Ortho Easy Pin [Forestadent, Pforzheim, Germany]) MIs used to reinforce orthodontic anchorage and placed in 130 consecutively chosen patients were assessed retrospectively. Clinical variables possibly influencing the success rates of MIs were categorized into patient-related, implant-related, location-related, and orthodontic-related. Statistical evaluation included descriptive statistics and survival analysis. The survival curves of the MIs with respect to the various factors were estimated and plotted by using the Kaplan-Meier product-limit estimate. The MI survival distributions for each factor were compared with the log rank test for simple comparisons or the Cox regression for multiple variables. Results The overall success rates of MIs that remained stable during a mean treatment time of 19.2 ± 2.3 months was 93.43%; this was considerably higher than in previous reports. Only a few factors were found to be associated with statistically significant higher success rates of MIs, including deep bites, placement in the attached gingiva of the maxilla, and en-masse distalization of teeth. Conclusions The success rates of MIs in white patients were greater than the corresponding rates reported for Asian patients. Our results confirm the effectiveness of orthodontic MIs as temporary anchorage reinforcement devices and suggest various clinical factors as potential causes of failure.

Editor's Summary and Q&A: Five-year experience with orthodontic miniscrew implants: A retrospective investigation of factors influencing success rates

Anchorage control is important for efficient orthodontic treatment with fixed appliances. Successful osseointegration encouraged many orthodontists to use dental implants as stationary anchorage units for force application. However, their use has some drawbacks, which led to the development of miniscrew implants (MIs). Our aim was to investigate factors significantly contributing to the success rates of MIs in various orthodontic treatment procedures in white patients.In total, 350 self-tapping (187 Abso Anchor [Dentos, Daegu, South Korea] and 163 Ortho Easy Pin [Forestadent, Pforzheim, Germany]) MIs used to reinforce orthodontic anchorage and placed in 130 consecutively chosen patients were assessed retrospectively. Clinical variables possibly influencing the success rates of MIs were categorized into patient-related, implant-related, location-related, and orthodontic-related. Statistical evaluation included descriptive statistics and survival analysis. The survival curves of the MIs with respect to the various factors were estimated and plotted by using the Kaplan-Meier product-limit estimate. The MI survival distributions for each factor were compared with the log rank test for simple comparisons or the Cox regression for multiple variables.The overall success rates of MIs that remained stable during a mean treatment time of 19.2 +/- 2.3 months was 93.43%; this was considerably higher than in previous reports. Only a few factors were found to be associated with statistically significant higher success rates of MIs, including deep bites, placement in the attached gingiva of the maxilla, and en-masse distalization of teeth.The success rates of MIs in white patients were greater than the corresponding rates reported for Asian patients. Our results confirm the effectiveness of orthodontic MIs as temporary anchorage reinforcement devices and suggest various clinical factors as potential causes of failure.

PENERAPAN FUZZY ANALYTIC HIERARCHY PROCESS DALAM METODE MULTI ATTRIBUTE FAILURE MODE ANALYSIS UNTUK MENGIDENTIFIKASI PENYEBAB KEGAGALAN POTENSIAL PADA PROSES PRODUKSI

There are several methods of Total Quality Management (TQM) that can be used to improve quality of product and service. One of those is Multi Attribute Failure Mode Analysis (MAFMA), which can be used to eliminate or minimize the failure probability based on its causal factor, so we can prevent the same failure in the future. MAFMA is development of Failure Mode and Effect Analysis (FMEA) that integrates severity attribute, occurrence, and detect ability with expected cost as financial aspect. In FMEA, determination of potential failure causal factor is done by giving weight to four attributes. Giving weight is using Analytic Hierarchy Process (AHP) with fuzzy logic. Severity, occurrence, detect ability, and expected cost in MAFMA as criteria level in AHP hierarchy structure, whereas the failure causes as alternative level in that hierarchy structure. In case study at PT Pelita Cengkareng Paper & Co. shows that weight for severity criteria is 0.3461, occurrence is 0.0848, detect ability is 0.1741, and expected cost is 0.3950. The potential failure cause is chemical agglutination in weight 0.210.

Predicting response to radiotherapy: Evolutions and revolutions

Purpose: To review the many changes which have occurred in the past decades in the field of predicting outcome after radiotherapy from biological characteristics of the tumour or normal tissue. This review will also describe the present state of the art and emerging trends for the future.Conclusions: From using explanted cells, glass electrodes, exogenous proliferation and hypoxia tracers, and others, there has been a move towards monitoring expression and mutation of genes. Initially this was possible for just one or a few genes, but methods are now available which allow genome-wide monitoring at either the DNA or RNA level. The potential advantage of this evolution is not only to predict but also to understand potential causes of failure, allowing more rational and effective interventions. Comparative genomic hybridisation, mRNA expression profiling, microRNA profiling and promoter methylation profiling have all shown promise in finding signatures correlating with outcome, including after treatment involving radiotherapy. Expected trends for the future are: more signatures relevant to radiotherapy will be discovered; signatures will be refined and reduced to their essentials, such that genome-wide screening will give way to tailored signatures, quantifiable by routine non-array technology; more focus will be on assays predicting which pathway-specific radiosensitising drugs will be effective (exploiting tumour weaknesses); more signatures will be subjected to validation in randomised trials; and proteomics, DNA sequencing and imaging methods will play progressively increasing roles.

Inclusion of human errors assessment in failure frequency analysis—A case study for the transportation of ammonia by rail in Malaysia

AbstractRisk is defined as the probability of a specific adverse event occurring within a specific period, while Quantitative risk assessment (QRA) is the development of a quantitative estimate of risk based on engineering evaluation and mathematical techniques by combining estimate of incident consequences and frequencies. In view of the increase in the use of railways as the mode of transportation for hazardous materials throughout the world, the associated risk analysis should be taken into concern. In this study, the failure frequency of the transportation of ammonia from the Petronas fertilizers Kedah (PFK) plant in Gurun (Northern part of Peninsular Malaysia), to the Chemical Company Malaysia (CCM) fertilizer's facilities in Port Klang (South‐western part of Peninsular Malaysia) was evaluated by incorporating the human error assessment. The study highlighted the importance of human error contributions in the failure frequency analysis and its impact on the selected failure scenarios. Besides, it also shows that the application of the human error assessment and reduction technique (HEART), which is a useful human reliability analysis tool, should be used in parallel with the fuzzy arithmetic approach to reduce the uncertainties involved in the estimation of human error probabilities, and hence, to reduce the likelihood of incorrect risks estimates being assessed. The results suggested that the commonly applied approach in quantitative risk assessments, which only consider equipment failures in the failure frequency estimations, are clearly an underestimate of the potential causes of failures leading to hazardous material releases, and hence, the calculated risks based do not reflect the actual risks. © 2008 American Institute of Chemical Engineers Process Saf Prog, 2009

A Method for Evaluating Quality Assurance Needs in Radiation Therapy

The increasing complexity of modern radiation therapy planning and delivery techniques challenges traditional prescriptive quality control and quality assurance programs that ensure safety and reliability of treatment planning and delivery systems under all clinical scenarios. Until now quality management (QM) guidelines published by concerned organizations (e.g., American Association of Physicists in Medicine [AAPM], European Society for Therapeutic Radiology and Oncology [ESTRO], International Atomic Energy Agency [IAEA]) have focused on monitoring functional performance of radiotherapy equipment by measurable parameters, with tolerances set at strict but achievable values. In the modern environment, however, the number and sophistication of possible tests and measurements have increased dramatically. There is a need to prioritize QM activities in a way that will strike a balance between being reasonably achievable and optimally beneficial to patients. A systematic understanding of possible errors over the course of a radiation therapy treatment and the potential clinical impact of each is needed to direct limited resources in such a way to produce maximal benefit to the quality of patient care. Task Group 100 of the AAPM has taken a broad view of these issues and is developing a framework for designing QM activities, and hence allocating resources, based on estimates of clinical outcome, risk assessment, and failure modes. The report will provide guidelines on risk assessment approaches with emphasis on failure mode and effect analysis (FMEA) and an achievable QM program based on risk analysis. Examples of FMEA to intensity-modulated radiation therapy and high-dose-rate brachytherapy are presented. Recommendations on how to apply this new approach to individual clinics and further research and development will also be discussed.

Analysis of Cartilage Tissue on a Cellular Level in Fresh Osteochondral Allograft Retrievals

Background Fresh human osteochondral allografting is a biological cartilage replacement technique used to treat articular and osteoarticular defects in the knee. A small number of grafts fail, and we analyzed every retrieved graft during a 4-year period in order to learn more about the potential causes of failure. Hypothesis A large percentage of chondrocytes still remain viable many years after fresh osteochondral allografting. Study Design Descriptive laboratory study. Methods Retrieval specimens were obtained at the time of revision surgery and immediately analyzed. Chondrocyte viability and viable cell density were determined using a live/dead staining technique followed by confocal microscopy. Glycosaminoglycan content was a measure of the cartilage matrix. Radiolabeled sulfate uptake served as a biochemical marker of chondrocyte metabolic activity. Cartilage and subchondral bone were examined histologically. Results Fourteen patients yielded a total of 26 retrieval specimens that had been originally implanted as individual fresh osteochondral allografts. Average graft survival was 42 months. Chondrocyte viability was 82% ± 17%, and chondrocyte viable cell density was 15 590 ± 5900 viable cells/mm3. Retrieved tissue demonstrated radiolabeled sulfate uptake of 437 ± 270 counts per minute and 3.5% ± 0.8% hexosamine per dry weight. Histologically, all specimens showed some degree of cartilage fibrillation. There was evidence of bone allograft incorporation in most specimens, as well as pannus formation in 4 specimens, but no evidence of immune rejection. Conclusion A small percentage of fresh osteochondral allografts fail, but the precise cause is unknown. The main theories for failure investigated here include immunologic rejection, failure of bony incorporation, and chondrocyte death causing breakdown of the cartilage matrix. We show that chondrocytes remain viable many years after transplantation, allograft bone incorporates, and immune rejection does not seem to play a primary role in failure. Clinical Relevance Fresh osteochondral allografting is becoming more common in the treatment of articular cartilage defects in the knee. Our findings support the paradigm of fresh osteochondral allografting, the transplantation of hyaline cartilage with biological incorporation of the underlying bone scaffold. The reasons for failure of a small percentage of grafts remain unclear.

Review of pertinent papers trauma 2004

Review of pertinent papers trauma 2004

Non-Union in an Unnoticed Neck Fracture in Resurfacing Total Hip Arthroplasty

The renewed popularity of resurfacing hip arthroplasty (RHA) in the last five years has generated a remarkable quantity of scientific contributions based on mid- and short-term follow-up. In spite of some large series with extremely low complication rates, more than one paper has reported a consistent early revision rate as a consequence of biological or biomechanical failure. Two major complications are commonly described with resurfacing implants: avascular necrosis and neck fracture. A close relationship between these two events has been suggested, but not firmly demonstrated, while surgical exposure and implant positioning seem to be better understood as potential causes of failure. However, it may happen that neither avascular necrosis nor neck fracture can be clearly recognised in a failed resurfacing implant: it is what we have directly experienced, with a missed fracture at the head-neck junction, evolved in non-union, beneath the dome of the femoral component. The present report, besides a brief clinical history, tries to give a possible interpretation of such an unusual complication.

Emergency cricothyrotomy

Emergency cricothyrotomy

Non-union in an unnoticed neck fracture in resurfacing total hip arthroplasty

The renewed popularity of resurfacing hip arthroplasty (RHA) in the last five years has generated a remarkable quantity of scientific contributions based on mid- and short-term follow-up. In spite of some large series with extremely low complication rates, more than one paper has reported a consistent early revision rate as a consequence of biological or biomechanical failure. Two major complications are commonly described with resurfacing implants: avascular necrosis and neck fracture. A close relationship between these two events has been suggested, but not firmly demonstrated, while surgical exposure and implant positioning seem to be better understood as potential causes of failure. However, it may happen that neither avascular necrosis nor neck fracture can be clearly recognised in a failed resurfacing implant: it is what we have directly experienced, with a missed fracture at the head-neck junction, evolved in non-union, beneath the dome of the femoral component. The present report, besides a brief clinical history, tries to give a possible interpretation of such an unusual complication.

Hyperfunctioning intrathyroid parathyroid gland: A potential cause of failure in parathyroidectomy

The surgical success rate of parathyroidectomy is 95%. However, in rare patients, ectopic hyperfunctioning parathyroid glands may be located in the thyroid but missed on imaging studies or during surgery. The aim of the present study was to evaluate the perioperative findings in 6 patients with intrathyroid parathyroid glands treated for hyperparathyroidism in our center over a 5-year period and to review the relevant literature. Of the 426 patients who underwent parathyroidectomy for hyperparathyroidism between 1998 and 2003 in our center, 6 (1.4%) were found to have intrathyroid glands. Their files were reviewed for clinical features, surgical approach, intraoperative findings, parathyroid gland location, and morphologic and histopathologic characteristics. The group included 2 men and 4 women of mean age 66 years. The diagnosis in all patients was based on an increase in serum calcium concentration (10.1-13 mg/100 mL) and parathyroid hormone level (102-320 pg/mL). The clinical symptoms were kidney stones, gastrointestinal complaints, hypertension, and osteopenia. Localization studies included ultrasonography in all patients and sestamibi in 4. When the parathyroid glands were not identified, bilateral neck and mediastinum were explored. Adenoma was diagnosed histologically in 4 patients; 2 had a double adenoma. Intrathyroid parathyroid gland is a rare condition in patients with hyperparathyroidism. In these patients, imaging may miss the pathologic gland. Despite its rarity, the possibility of an intrathyroid parathyroid should be kept in mind, and, when meticulous bilateral exploration of the neck fails to identity the hyperfunctioning gland, the surgeon should consider hemithyroidectomy.

Hypoxia Response Pathways and Radiotherapy for Head and Neck Cancer

Tumor hypoxia has been recognized as a potential cause of failure of treatment with ionizing radiation of carcinomas, both in in vivo animal models and in human cancers such as head and neck carcinomas. The degree of hypoxia is highly variable in human tumors, and tumor reoxygenation can take place during fractionated radiotherapy, hence adding complexity to this phenomenon and making it difficult to predict the response of individual tumors to radiation exposure. In this context, the study by Koukourakis et al in this issue of the Journal of Clinical Oncology aimed to analyze by immunohistochemistry two endogeneous hypoxic tumor markers, the hypoxia inducible factor HIF-2 alpha and the carbonic anhydrase CA9, correlating expression of these markers in tissues with the outcome of patients after radiotherapy. A strong correlation between both HIF-2 alpha and CA9 immunoreactivity was found, for both locoregional control and survival, confirming the importance of tumor hypoxia in head and neck cancer. One interesting feature of their study was to address this question in the frame of the large randomized CHART (Continuous Hyperfractionated Accelerated Radiotherapy) trial, which compared two regimens of radiotherapy. The first regimen was conventional radiotherapy delivering 66 Gy in 6.5 weeks and the second was accelerated radiotherapy, delivering 54 Gy in only 12 days. The overall outcome of the patients with these two regimens was not different. However, one hypothesis to explain the absence of benefit from the more intense regimen was that the time course of this regimen was too short to allow tumor reoxygenation during the course of radiotherapy. In addition, the relatively low total dose (54 Gy) and the small dose per fraction (1.5 Gy) used in the accelerated regimen could have been relatively ineffective in overcoming radioresistance by hypoxia. Confirming this hypothesis, no benefit was found with the accelerated regimen in the group of hypoxic tumors. The number of patients analyzed (n 198) was relatively limited, and the methodology used did not allow firm conclusions. One of the drawbacks of the study was that tumor hypoxia was measured only initially and could not be neasured throughout the course of treatment. Despite these limitations, there is some suggestion from the Koukourakis study that tumors presenting with initial hypoxia, as assessed by immunohistochemistry, were more likely to experience failure with the accelerated regimen. In contrast, tumor hypoxia had no influence on the outcome after conventional radiotherapy, which may allow sufficient time for tumor reoxygenation. This hypothesis is appealing, but needs to be further investigated and confirmed. It might allow one to perform adaptive radiotherapy, and identify among tumors those that could be candidates for hypoxic modifications and/or accelerated radiotherapy. A recent work by Overgaard et al, used another hypoxiarelated marker, the serum level of osteopontin, in a randomized trial that compared in a series of head and neck cancer patients’ radiotherapy with and without an hypoxic sensitizer (nimorazole). The only group of patients who benefited from the hypoxic modification was the one in which high levels of serum osteopontin (suggesting tumor hypoxia) were found, strongly suggesting that measuring tumor hypoxia before radiotherapy may help to individualize irradiation in a more rational way. A further randomized study performed recently by Hicks et al used positron emission tomograph F18-misonidazole imaging (before the onset of radiochemotherapy) for tumor hypoxia in a series of patients with head and neck carcinomas. The patients were randomly assigned to receive tirapazamine, which is cytotoxic, specifically in hypoxic conditions. The control rate of tumors which were hypoxic and received tirapazamine was much higher than that of tumors that were hypoxic and did not receive tirapazamine, but fluorouracil instead. These results, taken together with the study of Koukourakis et al, suggest that evaluating tumor hypoxia before radiotherapy may help to identify tumor characteristics that may allow one to adapt the radiation regimen and hypoxic modifications and bring new insights to the field of radiotherapy and tumor hypoxia.

A Comparison of Resistance to Fracture Among Four Commercially Available Forms of Hydroxyapatite Cement

Hydroxyapatite cement is a relatively new biomaterial that has found widespread use in craniomaxillofacial surgery. Despite its common usage, complication rates as high as 32% have been reported. When failed implants are removed, implant fracture has been cited as a potential cause of failure. The purpose of this study was to evaluate resistance to fracture among 4 commercially available hydroxyapatite cement formulations. The materials tested included Norian Craniofacial Repair System (carbonated apatite cement) (AO North America, Devon, PA), Norian CRS Fast Set Putty (carbonated apatite cement) (AO North America), BoneSource (hydroxyapatite cement) (Stryker Leibinger, Portage, MI), and Mimix (hydroxyapatite cement) (Walter Lorenz Surgical, Inc, Jacksonville, FL). To ensure consistency, all materials were embedded in acrylic wells. Each material was placed into a well 2.54 cm in diameter and 0.953 cm in thickness. The materials were prepared per manufacturer specifications. All materials were incubated at 37.0 degrees C, in 6% CO2, 100% humidity for 36 hours. Using the Bionix MTS Test System, a 12-mm-diameter probe applied incremental force to the center of the disk at a rate of 0.1 mm per second. The transmitted force was measured using a Bionix MTS Axial-Torsional Load Transducer for each disk. The force which resulted in fracture was recorded for each material. Ten disks of each material were processed by this method, for a total of 40 disks. The significance of resistance to fracture for the 4 compounds was analyzed using 1-way analysis of variance with post hoc Scheffe method. Mean fracture force with related P values was plotted for direct comparison of group outcomes. Material type contributed significantly to variance in fracture force for the biomaterials studied. Norian CRS required the greatest mean fracture force (1385 N, SD+/-292 N), followed by Norian CRS Fast Set Putty (1143 N, SD+/-193 N). Mimix required a mean fracture force of 740 N, SD+/-79 N. BoneSource required a mean fracture force of 558 N, SD+/-150 N. Mimix and BoneSource required significantly less force for fracture when compared with Norian CRS and Fast Set Putty (P<0.01). Comparisons of fracture load resistance between 4 commonly used bone substitute materials have not been previously reported. Increasing biomaterial strength may reduce complications resulting from reinjury to cranioplasty sites. In this model, Norian CRS and Norian CRS Fast Set Putty demonstrated a significantly greater resistance to fracture when compared with BoneSource and Mimix.

To Which We Belong: Understanding Tradition in Inter-Organizational Relations

In this article, we explore tradition in the context of collaboration. We take a view of tradition as rooted in reference groups, which are conceptually distinct from membership groups. Through research in two particular collaborations supporting technology business development in the UK, we find that tradition, as a potential cause of failure or inertia, is inter-organizationally significant. We argue that insight into the nature of tradition —in particular its dynamic interplay with culture in the formation of identity— allows participants to develop some useful language that supports more effective reflective practice in collaboration.

Joint integrity management of critical flanges

Plant owners are coming under ever increasing pressure to reduce fugitive emissions for a number of reasons including environmental (legislation) and safety and commercial (plant efficiency). The real cost of fugitive emissions is frequently not fully appreciated. A number of the resultant costs are often difficult to quantify such as loss of product, cost of labour/materials to repair leaks, cost of cleaning the affected area, environmental fines, and image. Joint integrity management service is the total package of services that provides the best possible chance of achieving a leak-free start-up. It includes engineering analysis, unbolting, inspection, machining as required, gasket installation assembly, controlled bolt up and full documentation/traceability. The assembly of a joint is not just about installing a gasket and tightening the bolts. Correct assembly of critical joint requires that the flange is analysed and the correct bolt load to seal the joint is established. It requires the most suitable gasket to be installed for the service, flange flatness/condition to be inspected and for the determined bolt load to be applied in a controlled manner. Incorrect bolt loads, flange distortion, inappropriate gasket selection and uncontrolled flange assembly/bolt tightening methods are the main reasons for joint leaks. By taking some simple steps these potential causes for failure can be eliminated.

Polyethylene liner dislocation in Harris Galante acetabular components

Dislocation and subsequent dissociation of the polyethylene liner as a result of failure of the acetabular locking mechanism is a potential source of failure in the Harris-Galante acetabular component. The purposes of this study are to present seven cases with a liner dislocation due to failure of the liner locking mechanism. Between March 1997 and December 2001, seven patients who had had a total hip arthroplasty presented with clinical and radiologic signs of liner dislocation and signs of polyethylene wear of the liner from a Harris Galante acetabular shell. In all cases the intraoperative findings showed evidence of failure of the liner locking mechanism and subsequent dislocation. The medical records, radiographs, operative notes and explanted retrieved components were reviewed. The components had been in situ for an average of 5.3 years (range 1-9 years). Two components were first generation, five were second generation. The symptoms developed spontaneously in five patients, the other two patients described a minor trauma. Radiographs showed eccentric position of the head in all cases. All acetabular components showed an excellent stability intraoperatively, nevertheless we had to remove the well fixed acetabular shell due to complete destruction of the liner locking mechanism in two cases. Treatment consisted of revision of the shell in two patients and exchange of the liner in five patients. All retrieved liners showed severe deformation and/or fracture of the rim. Harris Galante modular acetabular components have been used widely for primary and revision arthroplasty. The survival of this implant has been well documented in the literature. Failure of the liner locking mechanism and following dislocation or fracture of the polyethylene liner is a potential cause of failure which may possibly occur more often than the literature to date has documented. We report seven cases of liner dislocation, in which two acetabular components had to be removed completely due to destruction of the liner locking mechanism. In the other five cases exchange of the liner was possible thanks to well timed revision. We believe that, as the liner wears and becomes loose due to an inefficient locking mechanism, the load increases on the polyethylene rim until it deforms or fractures. As a consequence of the prosthetic design at that stage nothing can prevent the liner from rotating out of the shell.

Polyethylene liner dissociation in Harris-Galante acetabular components: A report of 7 cases

Harris-Galante modular acetabular components (Zimmer, Warsaw, IN) have been used widely for primary and revision total hip arthroplasties. The survivorship of this implant has been well documented in the literature. Failure of the liner locking mechanism and subsequent dissociation of the polyethylene liner from the metal-backed shell is a potential cause of failure, however. We report 7 cases of liner dissociation and propose the mode of failure. The result in all cases was a well-fixed metal acetabular shell with a failed locking mechanism, which usually is managed by revision of the entire component. This procedure may be accompanied by the potential loss of acetabular bone stock, which should be replenished.