Hemispheric, porous-ingrowth revision acetabular components (generally with multiple screw fixation) have demonstrated versatility and durability over 25 years. Jumbo cups (minimum diameter of 62mm in women, 66mm in men, or 10mm larger than the normal contralateral acetabulum) are utilised in the majority of revisions with acetabular bone loss, with or without bone grafting, or other augmentation. The popularity of jumbo cups is due to their relative ease of use and the reliability of the result. With up to 20-year follow-up, and failure defined as cup revision for aseptic loosening or radiographic evidence of loosening, implant survival was 97.3% (95% confidence interval, 89.6% to 99.3%) at ten years and 82.8% (95% CI, 59% to 97.6%) at fifteen years. Twenty-year survivorship with 88% free from aseptic loosening of the metal acetabular component has been reported. Instability is decreased in association with larger diameter bearings. Revisions associated with wear of non-crosslinked polyethylene increased in the second decade. Crosslinked polyethylene and ultra-porous materials will likely increase both the durability and the utility of jumbo cups.
Loosening is generally the most common reason for revision TKA. In the AOA NJR, the rate of revision varies depending on fixation. Cemented fixation has a lower rate of revision than cementless fixation; 6.7% vs. 8.2% at 14 years. Loosening does occur more frequently in younger patients and in males. Tibial component loosening is the most common. There is an opportunity for improvement. More durable fixation can be achieved through improved cement technique, rather than going cementless. De-bonding of the tibial baseplate from the cement is the mechanism of failure in up to 2.9% of total knee arthroplasties. Among seven surgeons at one center, there was a 6.4 fold range (0.7%-4.5%) in the occurrence of such loosening with the same prosthesis. This surgeon-related variability in tibial component de-bonding indicates that surgical technique influences loosening. In a laboratory study, earlier application of cement to metal increases bond strength (p<0.01) while later application reduces bond strength (p<0.05). Fat contamination of the tibial tray-cement interface reduces bond strength, but application of cement to the underside of the tibial tray prior to insertion substantially mitigates this (p<0.05).
Both the patient and the surgeon want hip and knee arthroplasties to last a lifetime. As a result, many patients have been told to defer arthroplasty as long as possible. After arthroplasty, many patients have been advised to limit physical activity. Such management strategies prioritise longevity but compromise lifestyle. Given that the technical aspects of the arthroplasty are satisfactory, modern total hip and knee prostheses have demonstrated remarkable durability. Quantitative studies of patient activity have measured up to 48 million cycles in-vivo, with impact, without evidence of loosening, osteolysis, or other impending failure. These data suggest that with current technology, an active lifestyle is compatible with implant longevity.
Age is often used as a surrogate for activity. However, it has been demonstrated that BMI has a stronger correlation to post-operative activity than age. The fundamental exercise in choosing a bearing is maximizing the benefit-to-risk ratio. The following question should be addressed on a patient by patient basis: what available bearing is most likely to meet the needs of this patient, with an acceptable risk of revision surgery during their lifetime, is accepted in my community, and with a justifiable cost? The risk of ceramic fracture is very low with Biolox® Delta, and that risk decreases with increasing head size. However, concerns of taper corrosion, not wear and osteolysis, have driven the increase in utilization of ceramic heads. More research is needed into the etiology of taper corrosion, especially surgeon variability in taper assembly. Crosslinked polyethylene has substantially reduced wear, osteolysis, and revision rates compared to non-crosslinked polyethylene, regardless of the countersurface. In the AOA National Joint Replacement Registry, ceramic/ceramic, metal/XLPE, ceramic/XLPE, and ceramicised metal/XLPE are the most commonly used bearing surfaces. With 12–15 year follow-up, there is no difference in the cumulative percent revision of these four bearings in patients aged <55. Ceramic heads are variably more expensive. The ability to recoup the increased cost of ceramic heads through a diminished lifetime revision cost is dependent on the price premium for ceramic and the age of the patient. A wholesale switch to ceramic bearings regardless of age or cost differential could result in an economic burden to the health system. One measure of “standard” is simply “the most frequently used”. In this regard, market data alone makes the determination of “standard” without regard to clinical or economic outcomes. However, longer follow-up, including financial data, is necessary to better assess the relative value (benefit-to- risk ratio) of all the available bearing couples.
The benefits of femoral head-neck modularity in hip surgery have been recognized for decades. However, reports of head/neck taper fretting & corrosion has led to research being conducted, yet the clinical effect of these processes remains unclear. Whilst femoral head size, material and the characteristics of the taper have been a focus of research, potential contributing variables such as From May 2013 to October 2014, nineteen surgeons who specialized in hip surgery from a wide demographic (North America, Europe and Asia) participated in a video review on current surgical practice in total hip arthroplasty (THA). The surgeons were unaware of any specific parameter, including taper assembly, which would subsequently be analyzed. Twenty-seven THA surgeries were reviewed against a specific set of questions relating to factors in the modular femoral head-neck assembly process. The focus of the current study was the number of impaction blows to seat the modular femoral head on the implanted stem.Introduction
Methods
Intentionally crosslinked polyethylene has improved the survivorship of total hip replacement and is the current standard bearing material for total hip arthroplasty. Regardless of the manufacturing method and counter-surface, the wear rates have been reduced on the order of 90% compared to historical materials, with a substantial reduction in the occurrence of osteolysis. Squeaking is not an issue. The wear of crosslinked polyethylene bearings has not shown the position sensitivity of hard-on-hard bearings. Liner fracture and dissociation have been reported, most commonly in association with malposition, and their occurrence has been decreased by improved modularity. Further, the consequences of a fractured polymeric bearing are substantially less than those of a fractured ceramic bearing. In most markets, there is a cost-differential favoring crosslinked polyethylene. A clinical advantage of ceramic-ceramic must be demonstrated, not theorised, before declaring it to be the new standard.
As a generic technology, intentionally crosslinked polyethylene has improved the durability of total hip replacement. Regardless of the manufacturing method, the wear rates have been reduced on the order of 90% compared to historical materials, with a substantial reduction in the occurrence of osteolysis. Most of the data is with 28 and 32 mm bearings. Larger diameter bearings have been shown to reduce the occurrence of dislocation. However, there is clinical evidence that volumetric wear is increased with larger diameter crosslinked polyethylene bearings, and this may increase the occurrence of osteolysis. Further, modular liner fracture is more likely with larger diameter bearings (thinner liners), which is generally associated with increased cup abduction angle and/or increased anteversion. Contemporary polymers are better than their predecessors, but there is always opportunity for improvement.
There are numerous benefits of femoral head/neck modularity in both primary and revision surgery. Taper corrosion necessitating revision surgery was recognised decades ago, and there are concerns that the incidence is increasing. Variables in design, manufacturing, biomechanics, and modular head assembly have all been implicated. While the incidence of clinically significant taper corrosion is unknown, the adverse local tissue reaction (ALTR) does not appear to occur absent a cobalt chromium interface. The utilization of ceramic heads has increased in recent years. Domestically, more than 50% of femoral heads are now ceramic. This is due, at least in part, to a reduction in patient age at the time of surgery. A stronger influence, however, may be the concern for an adverse local tissue reaction (ALTR) due to taper corrosion with a cobalt chromium femoral head. Ceramic heads have a small risk of in-vivo fracture and cost more. Compared to cobalt chromium alloy, ceramic femoral heads wear less against UHMWPE, although the reduction may not be clinically significant when paired with a crosslinked polyethylene. In the Australian National Joint Replacement Registry, of the five bearing combinations with 14-year cumulative percent revision (CPR) data, the lowest is metal femoral heads with crosslinked polyethylene (5.4%). In-vivo taper assembly technique is variable and can play a role in clinical success or failure, regardless of the head material: taper corrosion with cobalt chromium heads, or fracture of ceramic heads. Standardization of head-neck taper assembly is desirable.
There is increased awareness of the health benefits of regular exercise, and quantifying daily activity has become popular. Consequently, there are an increasing number of devices for measuring physical activity. Healthcare professionals and the general public should know the accuracy and limitations of these devices to better determine which ones suit their needs. Ten devices were tested: one ankle-based device, StepWatch™ Activity Monitor (SAM); two wrist-based devices, FitBit Force™ and Nike+ Fuelband SE; seven waist-based devices, Omron HJ-321 Pedometer, Sportline 340 Strider Pedometer, FitBit One™, Samsung Galaxy S4 utilizing the two most popular applications (Runtastic and Noom Walk), and the iPhone 5 utilizing the two most popular applications (Runtastic and ARGUS). Thirty healthy volunteers, mean age 25.6 years (range 20–30) and mean body mass index 23.5 (range 17.3–29.0), completed the following protocol: (1) walk briskly around a 400-M track simulating community ambulation (2) jog around a 400-M track (3) walk slowly for 10-M, approximating household or workplace pace (4) ascend 10 steps, and (5) descend 10 steps. Each subject completed 3 trials for each task. Manual count was the gold standard (Champion Sports Tally Counter). Accuracy and mean percent error were calculated to demonstrate overall performance and any tendencies for over or undercounting. An Aggregate Accuracy Score was calculated using the mean accuracy of each activity and multiplying by a corresponding weighted value for a prototypical person: 400-M walk represents community ambulation, weighted 40%; 10-M walk represents household and workplace ambulation, weighted 30%; 400-M jog represents jogging or running, weighted 20%; Stair Ascent and Descent represent community and household stair use, weighted 5% each. Device rank based on the Aggregate Accuracy Score was #1 FitBit One™ (98.0%), #2 Omron HJ-321 (97.0%), #3 StepWatch™ Activity Monitor (93.3%), #4 Runtastic Google App (92.7%), #5 Runtastic iPhone App (89.5%), #6 Fitbit Force™ (88.2%), #7 Argus iPhone App (87.2%), #8 Sportline 340 Strider (85.7%), #9 Nike Fuelband (76.1%), #10 Noom Walk Google App (75.9%). The FitBit One™ was 99.5%, 97.8%, 96.7%, 94.3%, and 96.9% accurate in the 400-M walk, 10-M walk, 400-M jog, 10 stair ascent, and 10 stair descent, respectively. The Omron HJ-321 was 99.3%, 94.9%, 97.9%, 92.2%, and 91.3% accurate, respectively. The SAM performed well (>95% accurate) in all activities except one, consistently undercounting the 400-M jog by about 25% (95% CI: −27.2% – −23.9%). The FitBit ForceTM and Nike+ Fuelband SE wrist devices were ≥90% accurate in the 400-M walk and 400-M jog, but ≤83% accurate for all other activities. Three of the 4 smartphone applications were >97% accurate in the 400-M walk, 1 of 4 was 97.3% accurate in the 400-M jog, but all devices performed poorly (≤90% accurate) for all other activities. Smartphones are very popular, but current technology is less accurate for measuring overall daily activity. The relatively inexpensive FitBit One™ and Omron HJ-321 pedometer are highly accurate for quantifying a variety of activities, including running. The StepWatch™ Activity Monitor performs well in lower cadence, but consistently undercounted jogging. Wrist-based activity devices are not as accurate as waist-based. Next generation technologies, including smartphones, should undergo accuracy testing before recommending them for daily use.
Loosening is generally the most common reason for revision TKA. In the AOA NJR, the rate of revision varies depending on fixation. Cemented fixation has a lower rate of revision than cementless fixation; 6.7% vs. 8.2% at 14 years. Loosening does occur more frequently in younger patients and in males. Tibial component loosening is the most common. There is an opportunity for improvement. More durable fixation can be achieved through improved cement technique. De-bonding of the tibial baseplate from the cement is the mechanism of failure in up to 2.9% of total knee prostheses. Among seven surgeons at one center, there was a 6.4-fold range (0.7%-4.5%) in the occurrence of such loosening with the same prosthesis. This surgeon-related variability in tibial component de-bonding suggests that surgical technique influences loosening rates. In a laboratory study, earlier application of cement to metal increases bond strength (p<0.01) while later application reduces bond strength (p<0.05). Fat contamination of the tibial tray-cement interface reduces bond strength, but application of cement to the underside of the tibial tray prior to insertion substantially mitigates this (p<0.05).
Both the patient and the surgeon want hip and knee arthroplasties to last a lifetime. As a result, many patients have been told to defer arthroplasty as long as possible. After arthroplasty, many patients have been advised to limit physical activity. Such management strategies prioritise longevity but compromise lifestyle. Given that the technical aspects of the arthroplasty are satisfactory, modern total hip and knee prostheses have demonstrated remarkable durability. Quantitative studies of patient activity have measured up to 48 million cycles
Patients, and their femurs, come in all shapes, sizes, and types. Fortunately, so do cementless femoral stems! A simple approach is to separately consider A) the part inside the bone and B) the part outside the bone. The inner-cortical geometry (Dorr type), bone density, and presence of any deformity, influence selection of stem shape, length, and extent of ingrowth surface (the part inside the bone). Restoration of limb length and offset is a function of the neck angle and length (the part outside the bone). Clinical data indicates that undersizing of cementless stems increases the risk of revision for aseptic loosening while restoration of limb length and offset favorably affects patient satisfaction and function.
As a generic technology, intentionally cross-linked polyethylene has improved the durability of total hip replacement. Regardless of the manufacturing method, the wear rates have been reduced on the order of 90% compared to historical materials, with a substantial reduction in the occurrence of osteolysis. Most of the data is with 28mm and 32mm bearings. Larger diameter bearings have been shown to reduce the occurrence of dislocation. However, there is clinical evidence that volumetric wear is increased with larger diameter cross-linked polyethylene bearings, and this may increase the occurrence of osteolysis. Further, modular liner fracture is more likely with larger diameter bearings (thinner liners), which is generally associated with increased cup abduction angle and/or increased anteversion. Contemporary polymers are better than their predecessors, but there is always opportunity for improvement.
Outcomes in arthroplasty have 3 general sources of variability: the patient, the prosthesis, and the medical-surgical-rehab. services. There are numerous factors that can contribute to earlier-than-usual clinical failure of a TKA (failure = need for revision). There are intense debates regarding design and material factors. There are technical factors such as misalignment, soft tissue imbalance, and inadequate fixation. The greatest source of variability in the outcome equation is, however, the patient. In cohort studies, the amount and type of patient activity influences the longevity of TKA. Quantitative studies have demonstrated >45-fold variation in the number of steps per day. Semi-quantitative data and survey studies show variability in the types of recreational activities and in the intensity. Age is often used as a surrogate, but BMI has a better correlation with activity than age. There is no formula, however, that can predict the longevity of an arthroplasty in a specific patient. For this reason, activity recommendations following arthroplasty continue to be debated. Which do you prioritise; lifestyle or longevity? More importantly, which does the patient prioritise?
Hemispheric, porous-ingrowth revision acetabular components (generally with multiple screw fixation) have demonstrated versatility and durability over 25 years. Jumbo cups (minimum diameter of 62mm in women, 66mm in men, or 10mm larger than the normal contra-lateral acetabulum) are utilised in the majority of revisions with acetabular bone loss, with or without bone grafting, or other augmentation. The popularity of jumbo cups is due to their relative ease of use and the reliability of the result. With up to 20 year follow-up, and failure defined as cup revision for aseptic loosening or radiographic evidence of loosening, implant survival was 97.3% (95% confidence interval [CI], 89.6% to 99.3%) at ten years and 82.8% (95% CI, 59% to 97.6%) at fifteen years. Instability is decreased in association with larger diameter bearings. Revisions associated with wear of non-crosslinked polyethylene increased in the second decade. Crosslinked polyethylene and ultra-porous materials will likely increase both the durability and the utility of jumbo cups.
In the Registry Era, in the Information Age, and with a competitive and expanding marketplace, the focus has been on the prosthetic joint devices. However, a distinction should be made between mechanical failure of a device, failure of an arthroplasty, and the limitations of technology. The patient and the surgeon play central roles in the majority of revisions (failure of an arthroplasty). Analysis of a large United States database indicates that the most common causes of revision are instability/dislocation (22.5%), mechanical loosening (19.7%), and infection (14.8%). Acetabular component position has been linked to higher wear and instability. Increased odds of component mal-position were found with lower-volume surgeons and patients with a higher body mass index. Medical co-morbidities significantly increase the risk for revision within 12 months of surgery. Patient demographics and pre-operative status have been shown to be more important than implant factors in predicting the presence of thigh pain, dissatisfaction, and a low hip score. The most predictive factors were ethnicity, educational level, poverty level, income, and a low pre-operative WOMAC score or pre-operative SF-12 mental component score.
The elements of my routine pre-operative planning include skin and scar assessment, the limb length (physical exam and radiographic assessments), the socket type, the stem type, and radiographic templating. Blood management is rarely an issue for primary total hips today and I generally do not recommend pre-operative autologous donation. I currently use a low molecular weight heparin for venous thromboembolic prophylaxis for most all patients. All of my patients have pre-operative medical clearance from a hospital intensivist. A press-fit modular cementless socket is my “workhorse”, although I occasionally use supplemental fixation with spikes (low bone density) or screws (shallow or otherwise deficient hemisphere). Cemented fixation is reserved for hips with radiation necrosis. I use a dual-offset tapered cementless stem in most cases but will use a modular stem in dysplastic, post-traumatic, or severely osteoporotic femurs. I template every case. My goals are to determine component sizes - “the part inside the bone” and improve the biomechanics of the hip – “the part outside the bone”. Sizing is relatively straightforward. For the socket, I use the teardrop and the superior bony edge as landmarks for size and position. I use a Johnson's lateral view radiograph to assess socket version and anterior osteophytes. With a tapered stem, proximal fit on the AP radiograph is the goal and the stem does not need to be canal filling. For the neck resection, I reference off the lesser trochanter. Medialisation of the hip center of rotation (COR) decreases the moment arm for body weight; increasing the femoral off-set lengthens the lever arm for the abductor muscles. These changes in hip biomechanics have a double benefit: a reduction in required abductor forces and lower joint reaction forces. There is accumulating clinical evidence that such favorable alterations in biomechanics can improve clinical outcomes and reduce wear. Higher femoral offset has been associated with greater hip abduction motion and abductor muscle strength. In two independent studies, higher femoral offset has been associated with a significant reduction in polyethylene wear. The traditional arthroplasty goal has been to re-create the offset of the operated hip. In an analysis of 41 patients with one arthritic hip and one clinically and radiographically normal hip (Rolfe et al., 2006 ORS), we found that the horizontal femoral offset of the arthritic hip was, on average, 6mm less than that of the normal, contralateral hip. Considering this, and with medialisation of the COR, is it reasonable to make the femoral offset a few millimeters greater than that pre-op. With modular trial components, final offset and limb-length adjustments are made intra-operatively by assessing soft tissue tension, joint stability and range of motion. Applying these principles in a consecutive series of 40 hips, the hip center of rotation was medialised by 5.6mm and the horizontal femoral offset was increased by an average of 9.5mm, being larger than the normal, contralateral hip by an average of 5.2mm. This combination increased the net biomechanical advantage (NBA) of the diseased hip to an average of 12.5% more than the normal, contralateral hip. The increase in femoral offset is compensated for by medialising the center of rotation. The average lateralisation of the proximal femur of 3.9mm did not cause trochanteric bursitis or other pain. When the offset is right, soft tissue tension can be maintained without over-lengthening. In this series, 2.9mm average lengthening resulted in the reconstructed limb being an average of 1.1mm shorter than the normal side.
Hemispheric, porous-ingrowth revision acetabular components (generally with multiple screw fixation) have demonstrated versatility and durability over 25 years. Jumbo cups (minimum diameter of 62mm in women, 66mm in men, or 10mm larger than the normal contra-lateral acetabulum) are utilised in the majority of revisions with acetabular bone loss, with or without bone grafting, or other augmentation. The popularity of jumbo cups is due to their relative ease of use and the reliability of the result. With up to 20 year follow-up, and failure defined as cup revision for aseptic loosening or radiographic evidence of loosening, implant survival was 97.3% (95% confidence interval [CI], 89.6% to 99.3%) at ten years and 82.8% (95% CI, 59% to 97.6%) at fifteen years. Instability is decreased in association with larger diameter bearings. Revisions associated with wear of non-crosslinked polyethylene increased in the second decade. Cross-linked polyethylene and ultra-porous materials will likely increase both the durability and the utility of jumbo cups.
What factors influence tibial tray-cement interface bond strength? We developed a laboratory model to investigate this issue with the goal of providing technical recommendations to mitigate the risk of tibial tray-cement loosening. Forty-eight size 4 Triathlon® tibial trays were cemented into an acrylic holder using two different cements: Simplex® and Palacos®; three different cementing times: early (low viscosity), per manufacturer (normal, medium viscosity), and late (high viscosity); two different cementation techniques: cementing tibial plateau only and cementing tibial plateau and keel; and two different fat (marrow) contamination conditions: metal/cement interface and cement/cement interface. A push-out test was applied at a velocity of 0.05 mm/s, and the load recorded continuously throughout the test at a rate of 10 Hz. The test was stopped when the plate debonded from the cement (i.e. the tray visibly separated from the acrylic support and the load dropped substantially). Statistical analysis was performed using Welch's t-tests and Cohen's d tests.Questions/purposes:
Methods:
Adverse local tissue reactions (ALTR), such as so-called pseudotumours associated with metal-metal bearings, can also occur secondary to corrosion products from modular tapers where at least one side is composed of cobalt alloy. In 1988, Svensson et al. reported a fulminant soft-tissue pseudotumour following a cementless, metal-on-polyethylene total hip. This case had all of the features of ALTR that were subsequently observed in association with contemporary large diameter metal-metal bearings, having the same histological characteristics that Willert and colleagues termed ALVAL in 2005. There is a documented increased risk of femoral taper corrosion in association with larger diameter (>32 mm) metal-metal bearings. There may be a generic increase in the risk of taper corrosion with larger diameter bearings, regardless of acetabular bearing type. Other variables include the design and manufacturing tolerances of the taper and head, the stiffness of the neck, implantation time, and possibly Treatment recommendations are similar to those established for hips with metal-metal bearings and ALTR. Removal of the modular cobalt alloy head and/or neck component is recommended. At this time, there are no established criteria for the degree of “acceptable” femoral taper damage. The dilemma faced by the revising surgeon is whether to expose the patient to the potential morbidity associated with revision of a well-fixed femoral stem, particularly a distally-fixed, extensively porous-coated stem, in the setting of mild-to-moderate fretting and corrosion of the femoral taper. Several manufacturers offer ceramic heads with a titanium alloy taper sleeve inside the head specifically for mating to previously used femoral tapers. It is not recommended to put a ceramic head taper directly onto a used femoral taper. Surface damage of the used femoral taper can create high localised stresses in the ceramic head and predispose to head fracture. The same principles can be applied to corrosion of a stem-neck taper. If the modular neck is made of cobalt alloy, it is preferable to exchange it for one made of titanium alloy (if available). Again, there are no established criteria for the degree of “acceptable” femoral taper damage. The paucity of reported experience with such revisions inhibits further comment at this time. It is prudent to be suspicious of “taperosis” considering that the majority of heads used over the past 5 years are cobalt alloy and >36 mm in diameter, many contemporary stems have narrower, and hence more flexible necks, some tapers are smaller (shorter), more variable
First, we need to define “contemporary UHMWPE”. Then we can discuss whether or not this is “the ultimate bearing partner”. The essential criterion for contemporary UHMWPE is intentional crosslinking. There are a number of such acetabular bearing products in the worldwide marketplace. They can differ in several ways including the base resin, the method of consolidation, the method of crosslinking, remelting v. annealing, the packaging and method of sterilisation, and the incorporation of any antioxidant. Thus “contemporary UHMWPE” is not one material, but a family of materials that may have some practical (clinical) differences. There is one essential similarity: substantially reduced wear and osteolysis compared to UHMWPE that is not intentionally crosslinked. In one literature review, Kurtz et al. reported a weighted-average femoral head penetration rate (wear) for crosslinked acetabular bearings of 0.042 mm/year based on 28 studies (n = 1,503 hips) and 0.137 mm/year for non-crosslinked bearing based on 18 studies (n = 695 hips). The pooled odds ratio for the risk of osteolysis in crosslinked versus conventional liners was 0.13 (95% CI, 0.06–0.27) among studies with minimum 5-year follow-up. Reduction in femoral head penetration or osteolysis risk was not established for large-diameter (>32 mm) femoral heads. In another minimum 5 year follow-up study, Lachiewicz et al. reported that there was no hip with pelvic or femoral osteolysis. They found no association between femoral head size and the linear wear rate, but observed an association between larger (36- and 40-mm) head size with higher volumetric wear rate and higher total volumetric wear. Leung et al. compared wear, osteolysis incidence, location, and volume on CT scans between 40 hips with non-crosslinked UHMWPE and 36 hips with crosslinked UHMWPE, at a minimum of 5 years. The incidence of osteolysis was statistically greater for patients with non-crosslinked UHMWPE (11/40, 28%) compared to patients with crosslinked UHMWPE (3/36, 8%; P = 0.04). The average lesion volume for hips with non-crosslinked liners (7.5 ± 6.7 cm3) was significantly greater than the average lesion volume for hips implanted with crosslinked liners (1.2 ± 0.1 cm3, P = 0.01). Bragdon et al. combined a single-centre and two multicentre studies to include 768 primary patients (head size 26–36 mm) with a minimum of 7 years follow-up. Serial plain radiographs showed no osteolysis. The average femoral head penetration rates did not correlate with time Battenberg et al. quantified the activity of 14 healthy patients with a well-functioning THA at two time periods: early (within 3.5 years of implantation) and late (10–13 postoperative years). Wear was measured on serial radiographs using edge detection-based software. Mean activity decreased by 16% from the early to the late period. Mean gait speed decreased by 9%. Gait speed was 26% slower for patients ≥65 years than for patients <65 years. The mean linear penetration rate decreased by 42% from the first 5 years (early wear rate) to the next 8 years (late wear rate, 5–13 years): 0.043 mm/year to 0.025 mm/year. The greatest patient activity and wear occur during the first 5 years. Walking speed and gait cycles both decreased with aging, resulting in deceasing wear and risk of osteolysis over time. Crosslinked UHMWPE has consistently demonstrated decreased wear and osteolysis with up to 13 years follow-up. Volumetric wear is increased with larger diameter bearings but appears to be below the osteolysis threshold for most hips, especially considering that patient activity decreases with their aging.
The elements of my routine pre-op. planning include skin and scar assessment, the limb length (physical exam and radiographic assessments), the socket type, the stem type, and radiographic templating. Blood management is rarely an issue for primary total hips today and I generally do not recommend pre-operative autologous donation. I currently use a low molecular weight heparin for venous thromboembolic prophylaxis for most all patients. All of my patients have pre-operative medical clearance from a hospital intensivist. A press-fit modular cementless socket is my “workhorse,” although I occasionally use supplemental fixation with spikes (low bone density) or screws (shallow or otherwise deficient hemisphere). Cemented fixation is reserved for hips with radiation necrosis. I use a dual-offset tapered cementless stem in most cases but will use a modular stem in dysplastic, post-traumatic, or severely osteoporotic femurs. I template every case. My goals are to determine component sizes - “the part inside the bone” and improve the biomechanics of the hip – “the part outside the bone”. Sizing is relatively straight forward. For the socket, I use the teardrop and the superior bony edge as landmarks for size and position. I use a Johnson's lateral view radiograph to assess socket version and anterior osteophytes. With a tapered stem, proximal fit on the AP radiograph is the goal and the stem does not need to be canal filling. For the neck resection, I reference off the lesser trochanter. Medialisation of the hip centre of rotation (COR) decreases the moment arm for body weight; increasing the femoral off-set lengthens the lever arm for the abductor muscles. These changes in hip biomechanics have a double benefit: a reduction in required abductor forces and lower joint reaction forces. There is accumulating clinical evidence that such favourable alterations in biomechanics can improve clinical outcomes and reduce wear. Higher femoral off-set has been associated with greater hip abduction motion and abductor muscle strength. In two independent studies, higher femoral off-set has been associated with a significant reduction in polyethylene wear. The traditional arthroplasty goal has been to re-create the off-set of the operated hip. In an analysis of 41 patients with one arthritic hip and one clinically and radiographically normal hip (Rolfe et al., 2006 ORS), we found that the horizontal femoral off-set of the arthritic hip was, on average, 6 mm less than that of the normal, contralateral hip. Considering this, and with medialisation of the COR, is it reasonable to make the femoral off-set a few millimeters greater than that pre-op. With modular trial components, final off-set and limb-length adjustments are made intra-operatively by assessing soft tissue tension, joint stability and range of motion. Applying these principles in a consecutive series of 40 hips, the hip centre of rotation was medialised by 5.6 mm and the horizontal femoral off-set was increased by an average of 9.5 mm, being larger than the normal, contralateral hip by an average of 5.2 mm. This combination increased the net biomechanical advantage of the diseased hip to an average of 12.5% more than the normal, contralateral hip. The increase in femoral off-set is compensated for by medialising the COR. The average lateralisation of the proximal femur of 3.9 mm did not cause trochanteric bursitis or other pain. When the offset is right, soft tissue tension can be maintained without over-lengthening. In this series, 2.9 mm average lengthening resulted in the reconstructed limb being an average of 1.1 mm shorter than the normal side.
Analyses of six different cementing techniques (cemtech) were performed using high viscosity (HVC) (Smart Set GHV, DePuy, Blackpool, England) and low viscosity cement (LVC) (Endurance, DePuy, Blackpool, England):
Manual application HVC ¼filling of the component with LVC and manual appl. ¼filling HVC and manual appl. ½filling LVC ½filling HVC Complete filling with LVC A force of 150N was used to press five shells in each cemtech group on foam specimens. During seating cement pressures and polymerization heat 5 mm under the foam surface were measured. Specimens were cut into quarters, surfaces were digitalized and cement penetration areas and depths were quantified using a pixel-analysis-software. The effects of the cemtech were examined by Kruscal-Wallis and Mann-Whitney-U-tests (two-sided, p-value<
0.05, SPSS)
Maximum temperatures were A) 36.0± 4.1°C, B) 45.0±5.7°C, C) 36.2±4.2°C, D) 53.5±2.5°C, E) 48.3±6.5°C and F) 53.2±12.6°C. D, E and F exceeded 50°C. A provided even cement penetration over the available fixation area without involvement of the internal area and the stem. Cemtech that used LVC cement (B, D and F) showed higher interior area cement contents than HVC (A, E and C). The cement content in the interior area was A) 39.3±26.4mm2, B) 72.1±16.9mm2, C) 37.7±10.5mm2, D) 99.0±24.6mm2, E) 67.5±15.6mm2 and F) 121.0±29.0mm2. A showed mainly complete seating with a cement mantle thickness of 0.5±0.7 mm. All other cemtech had incomplete seating in all specimens with significantly thicker polar cement mantles (p=0.032) up to a maximum of 4.6±1.2mm for E.
Sagittal knee implant design, together with soft tissue and alignment, determines the kinematics of an artificial knee joint. A single-radius design was thought to improve the kinematics and biomechanics of a knee joint prosthesis and therefore also improve rehabilitation. Two total knee joint prosthesis designs, differing only in their sagittal geometry, were compared in vivo. To determine the three-dimensional kinematics and difference between a multi-radius and single-radius implants, six patients, all one-year postoperative, were subjected to video-fluoroscopy while walking on a treadmill, stepping up and down a 20-cm step and doing deep lunges. In a clinical evaluation, differences in range of motion, functional knee score, 40-cm chair raise and anterior pain at 6 weeks and 3, 6 and 12 months were compared in 86 patients with multi-radius and 108 patients with single-radius implants. The age of the patients in the two groups was similar and ranged from 68 to 70 years. Fluoroscopically-determined flexion was 105° in the multi-radius group and 123° in the single-radius group (p <
0.01). External rotation and lateral condyle movement was statistically similar. The single-radius group did not exhibit paradoxical motion of the medial condyle and had less overall movement. The objective knee scores did not differ significantly (p >
0.05). Patients in the single-radius group gained flexion significantly faster (p <
0.001). After one year, there was no difference between the groups. Three months postoperatively, 72% of the single-radius group could rise from a chair without using their arms, compared to 40% of the multi-radius group (p <
0.001). Although this improved in both groups, it remained superior in the single-radius group. Anterior knee pain was present in 59% of the multi-radius group and in only 18% of the single-radius group at three months (p <
0.001). At one-year follow-up, 4% of the single-radius and 29% of the multi-radius groups respectively complained of anterior knee pain (p <
0.001). A single-radius sagittal design knee prosthesis leads to faster rehabilitation better and kinematics than a multi-radius design. The reduced movement of the condyles on the polyethylene insert should result in less long-term wear.
There was no difference in the average number of gait cycles between females and males. However, polyethylene wear per million cycles was significantly higher in males (p=0.006). Even after adjustment for greater height and weight in males, their wear rate was still significantly higher (p<
0.01). Males walked at a higher average speed (p=0.07), spent 33.9% more time walking fast or very fast, had 4% more starts/stops per day, with 13% less strides between stops. The percentage of time spent walking slow (5–9 cycles/minute) was negatively correlated to wear (p<
0.05).
Modular polyethylene acetabular bearings were initially introduced in conjunction with a metal-backed component designed for fixation with cement. It was anticipated that aseptic loosening would be eliminated by the new metal-backed component. A modular liner would allow a simple exchange of the bearing when it was worn. Although this technique has rarely been used with cemented sockets, the concept of modularity had merit for cementless sockets. Early studies of cementless sockets indicated that initial implant stability and increased bone ingrowth occurred with screw fixation. A modular liner allowed screws to be placed through the socket. First-generation modular components were variably plagued by mechanically insufficient locking mechanisms, insufficient support of the poly by the metal shell, insufficient polyethylene thickness (variably oxidized) and excessive motion between the liner and the shell leading to an array of complications including frank dissociation of the liner, back-side wear, generally higher wear rates and more osteolysis, especially retro-acetabular. There is nothing inherently good or bad about modularity; it wholly depends on how it is done. More recent offerings have, at least in theory, addressed the limitations of earlier designs. Current designs are characterised by stronger locking mechanisms and reduced liner-shell motion. Most systems offer choices for initial fixation (press-fit, screws, spikes, etc.), bearing diameters, and face geometries (neutral, face-changing, lipped or hooded). Some systems offer a choice of bearing material (polyethylene(s), metal, ceramic). It will simply take time to learn which material, design, and manufacturing advances translate into long-term clinical success. In an era of hip arthroplasty featuring more wear resistant bearings, it is reasonable to question whether or not modularity is necessary. If satisfactory fixation can be obtained with a simple press-fit and the wear resistance of the bearing is high enough to last the patient’s lifetime, why not use a non-modular component? Modularity allows intraoperative flexibility at the primary surgery and in the event a revision is required. Further, it is not yet known if any or all of the new bearings will demonstrate the anticipated in vivo wear resistance.
To further extend the longevity of total hip replacement, bearings with better wear characteristics are desirable. Despite generally inferior clinical results with metal-on- metal total hip replacements, many metal-on-metal implants lasted over two decades or are still functioning in patients who received the implant at a young age. Acetabular component wear and loosening limit the survival of hips. Because of this, long-term survival rates of the Charnley hip and the McKee-Farrar are similar. Consequently, there is renewed interest in metal-on- metal bearings for total hip arthroplasty. Aseptic loosening of early metal-on-metal prostheses was not uniform due to the metal-on-metal bearings or due to wear. There is evidence indicating that some metal-on-metal bearing couples were poorly designed and/or manufactured leading to high frictional torque and/or excessive wear which could have been the cause of failure. Very low wear has been observed on metal-on- metal bearings retrieved after more than 20 years of use. The wear characteristics are a function of materials, design, and manufacturing. Polar bearing is preferred to reduce frictional torque, but excessive radial clearance is associated with higher wear. As has been demonstrated in hips with metal-on-plastic bearings, clinical success and failure are multifactorial. The chance of success with new metal-on-metal bearings is increased when the bearing is combined with well-established femoral stems and acetabular shells. As has been seen in hips, which have metal-on-polyethylene bearings, loosening of hips with metal-on-metal bearings can occur due to other factors such as suboptimal stem and/or cup design, manufacturing or implantation technique. Studies of the levels of cobalt and chromium in the hair, blood, and urine have shown that metallic content in patients with metal-metal total hips are generally higher than in patients with metal-UHMWPE articulations. While the release of cobalt and chromium ions from metal-metal total hips has been verified, the clinical significance of this finding is still unclear. Cobalt and chromium wear particles have been shown to induce carcinoma in animal models, giving rise to the concern that such alloys could have the same effect if present in sufficient amounts in human tissue for a sufficient length of time. Overall, the available epidemiological data do not demonstrate an increase in cancer risk following total hip replacement. At the same time, it is important to recognise the limitations of the available data with regard to sample size, length of follow-up and lack of stratification for other co-morbidities. The issue of delayed-type hypersensitivity (DTH) to the main elements in metal-metal total hips – cobalt, chromium, and nickel. Skin patch testing is unreliable for the assessment of hypersensitivity to implants, however, this type of testing has shown that cobalt, chromium, and nickel are associated with contact dermatitis. Because there is a higher reported incidence of metal sensitivity in patients with loose components, the association between metal sensitivity and loose implants has fuelled a long-standing debate: does hypersensitivity cause loosening or does loosening cause hypersensitivity? A small number of patients with metal-metal total hips develop an adverse local tissue response and present with unexplained pain and chronic effusions that resolve when the metal-metal bearings are exchanged for metal-UHMWPE hips. The histology of abundant lymphocytes and plasma cells is highly suggestive of an immune response. Caution should be taken in the implantation of a metal-metal bearing in patients with a known sensitivity to metals. Further investigations of the local and systemic effects related to the wear of the primary articulating surfaces are needed. It should be emphasised, however, that clinical success is multifactorial. Patient selection, surgical technique, component fixation, and the other aspects of the prosthetic joint will influence the clinical performance of any articulation.
Cemented Ti-6Al-4V components were used to resurface ten femoral heads in nine young adult patients with osteonecrosis of the femoral head (average age 32 years; range 20 to 51). There were eight hips at Ficat stage III and two at stage IV. Five hips have maintained satisfactory function for an average period of 11.2 years (10 to 12.2) with no radiographic evidence of component loosening or osteolysis; five have been revised after an average period of 7.8 years (3.3 to 10.3) for pain caused by deterioration of the acetabular cartilage. No component required revision for loosening and the specimens retrieved at revision showed no evidence of osteolysis despite burnishing of the titanium bearing surface and the presence of particulate titanium debris in the tissues.
We have reviewed 97 consecutive primary hip replacements with a cemented femoral component and a porous-ingrowth acetabular component at a minimum five-year follow-up (average 6.5 years). The average Harris hip score was 93, and 85 hips had no pain or only slight pain. There had been no deterioration in the results since the two-year follow-up. The hybrid hip is successful for up to eight years and appears to be suitable for many patients. Long-term femoral fixation has been shown to improve with second-generation cementing techniques and in this series was excellent with third-generation techniques, in that only one stem was revised for loosening. No cementless acetabular component was revised for loosening.
In dogs, resection of a length of the ulna equal to twice the diameter of the mid-shaft leaves a defect which consistently fails to unite. In response to an implant of 100 mg of bovine bone morphogenetic protein (BMP), the defect becomes filled by callus consisting of fibrocartilage, cartilage and woven bone within four weeks. The cartilage is resorbed and replaced by new bone in four to eight weeks. Woven bone is then resorbed, colonised by bone marrow cells and remodelled into lamellar bone. Union of the defect is produced by 12 weeks. Control defects filled with autogeneic cortical bone chips unite after the same period. In regeneration induced by bone morphogenetic protein (BMP) and in repair enhanced by bone graft, union depends upon the proliferation of cells within and around the bone ends. Our working hypothesis is that BMP induces the differentiation of perivascular connective tissue cells into chondroblasts and osteoprogenitor cells and thereby augments the process of bone regeneration from the cells already present in the endosteum and periosteum.