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Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_15 | Pages 67 - 67
1 Aug 2017
Berry D
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Introduction. The use of stems in TKA revision surgery is well established. Stems off-load stress over a broad surface area of the diaphysis and help protect the metaphyseal interface areas from failure. Stems can provide an area of extra fixation. Uncemented Stems. Pros and Cons. Advantages. (1) Expeditious, (2) Compatible with intramedullary based revision instrumentation (3) Easy to remove if necessary (4) By filling diaphysis they help guarantee axial alignment. Disadvantages. (1) They help off load stress, but how much fixation do they really provide? (2) They don't fit all canal deformities, and under some circumstances can actually force implants into malalignment. (3) ? potential for end of stem pain. Cemented Stems. Pros and Cons. Advantages. (1) Cemented stem adds fixation in fresh metaphyseal and diaphyseal bone. (2) Proven 10-year track record. (3) Allow the surgeon to adjust for canal geometry abnormalities. Disadvantages. (1) More difficult to remove, if required. (2) They don't fill the canal so they don't guarantee alignment as well under most circumstances. Results. Favorable results with uncemented and cemented stems have been reported in several series. Cemented stems have longer term data. Technique Issues. Uncemented Stems. (1) Take advantage of offset bolts, tibial trays, stems to fit the stem/implant to the patient's anatomy. (2) Don't let the stem force you into suboptimal implant position. (3) Longer stems can be narrower but help engage more diaphysis. (4) Do a good job of restoring/uncovering cancellous bone in metaphysis for cement interdigitation. The cement provides the fixation. Cemented Stems. (1) Intra-operative x-ray with trials helps guarantee optimal alignment. (2) Use cement restrictors. (3) Cement tibia/femur separately. Metaphyseal Fixation. (1) Area of new emphasis. (2) Cones and sleeves can improve cemented and uncemented fixation


Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_1 | Pages 114 - 114
1 Feb 2015
Berry D
Full Access

Introduction. The use of stems in TKA revision surgery is well established. Stems off-load stress over a broad surface area of the diaphysis and help protect the metaphyseal interface areas from failure. Stems can provide an area of extra fixation. Uncemented Stems: Advantages – Expeditious; Compatible with intramedullary based revision instrumentation; Easy to remove if necessary; By filling diaphysis they help guarantee axial alignment. Disadvantages - They help off load stress, but how much fixation do they really provide?; They don't fit all canal deformities, and under some circumstances can actually force implants into malalignment; ? potential for end of stem pain. Cemented Stems: Advantages - Cemented stem adds fixation in fresh metaphyseal and diaphyseal bone; Proven 10-year track record; Allow the surgeon to adjust for canal geometry abnormalities. Disadvantages - More difficult to remove if required; They don't fill the canal so they don't guarantee alignment as well under most circumstances. Results:. Favorable results with uncemented and cemented stems have been reported in several series; Cemented stems have longer term data. Technique Issues: Uncemented Stems - Take advantage of offset bolts, tibial trays, stems to fit the stem/implant to the patient's anatomy. Don't let the stem force you into suboptimal implant position; Longer stems can be narrower but help engage more diaphysis; Do a good job of restoring/uncovering cancellous bone in metaphysis for cement interdigitation. The cement provides the fixation. Cemented Stems - Intraoperative x-ray with trials helps guarantee optimal alignment; Use cement restrictors; Cement tibia/femur separately. Metaphyseal Fixation - Area of new emphasis; Cover and sleeves can improve cemented and uncemented fixation


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_17 | Pages 75 - 75
1 Nov 2016
Meneghini R
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Cementless femoral components have an excellent track record that includes efficient implantation and long-term survival, thus are the predominant stem utilised in North America. Femoral component stability and resistance to subsidence are critical for osseointegration and clinical success. Implant design, surgical technique, anatomic fit, and patient characteristics, such as bone quality, can all effect initial implant stability and resistance to subsidence. Variability in stem shape and in the anatomy of the proximal femoral metaphysis has been implicated in the failure of some stem designs. Biologic fixation obtained with osseointegration of cementless implants may improve implant longevity in young, active, and obese patients. Lack of intimate fit can lead to clinical complications such as subsidence, aseptic loosening, and peri-prosthetic fracture. Currently, there are several stem designs, all of which aim to achieve maximal femoral stability and minimal subsidence and include: Fit and Fill / Double Taper Proximally Porous Coated Stems; Parallel Sided Taper Wedge or “Blade” Stems; Wagner Style Conical Shape Splined Titanium Stems; Tapered Rectangular Cross-Section Zweymuller Stem; Fully-Porous Coated Stems; Modular Proximal Sleeve Fluted Stem; Anatomic Proximally Porous Coated Stems. The majority of patients with relatively straightforward anatomy can be treated with any of the aforementioned femoral implant types. However, more complicated femoral anatomy frequently requires a particular implant type to maximise stability and promote osseointegration. Stems with femoral deformity in the meta-diaphyseal region may require a shorter stem in order to avoid an osteotomy. Distorted femoral anatomy typically seen in childhood diseases, such as dysplasia, may require a modular proximal sleeve tapered fluted stem or Wagner style cone stem to impart optimal stem anteversion separate from the native femoral neck version. The most severe forms of dysplasia may require a shortening osteotomy and subsequent distal fixation and neck version flexibility, which can be addressed with a modular proximal sleeve fluted or fully porous coated stem. A stovepipe or osteoporotic femur may require a stem that engages more distally such as a conical splined tapered stem, a fully porous coated stem or even a cemented stem to achieve adequate stability. Finally, obese patients are a particular challenge and emerging data suggests that a morphologically based parallel-sided taper wedge stems may confer greater stability and resistance to subsidence in these patients. Ultimately, an appropriate selection algorithm will facilitate an appropriate match of the patient morphology with femoral implant geometry that facilitates stable fixation and osseointegration


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_16 | Pages 48 - 48
19 Aug 2024
Falez F Casella F Zaccagno S
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Post-operative peri-prosthetic femoral fracture (PO-PPFF) is one of the most relevant complications in primary Total Hip Arthroplasty (pTHA), accountable for a significant clinical and socio-economic burden both in revision and fixation settings. We retrospectively reviewed of our series of 1586 cementless total hip arthroplasty performed between 1999 and 2019 (achieving a minimum of 5-years follow-up) with different short stems. We have observed a cumulative low incidence of PO-PPFF of 0,33% (5 cases): we divided Po-PPFF in two groups: fracture occurred around a short stem (A) and around a standard shortened stem (B), according to French Hip & Knee Classification of Short Stems. Despite the length of observed period (mean follow-up 12 years, min 5 years max 24 years) a total of 1512 cases (mean age at surgery 61 years, max 74, min 40 years) were available to clinical and radiographic follow-up, being this population enrolled in elective surgery clinical protocols. Our data exceed the low incidence of post-operative femoral fracture around bone -preserving previously reported by Kim in 2018 (12 fracture out of 1089 cases:1.1%). No correlation have been observed among occurrence of PO-PPF age of the patient and no fracture occurred around cemented short stems despite patient's characteristics were unfavourable in term of age and bone quality. This result is not unexpected, giving the lower incidence of peri-prosthetic fracture even cemented conventional stems, as reported in all registry and systematic reviews. A similar behaviour was reported in 2020 Australian Joint Registry, where Post-operative periprosthetic femoral fracture showed a steep curve in early period, but remaining firmly below 1% during the following 12 years. Our clinical data seems to confirm previous studies by Jones (conducted on synthetic bone and fresh-frozen cadaveric femurs) where higher fracture angles and higher fracture torque were detected in short hips compared to standard stems


Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_8 | Pages 68 - 68
1 May 2019
Gustke K
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Stems provide short- and long-term stability to the femoral and tibial components. Poorer epiphyseal and metaphyseal bone quality will require sharing or offloading the femoral and tibial component interfaces with a stem. One needs to use stem technique most appropriate for each individual case because of variable anatomy and bone loss situations. The conflict with trying to obtain stability via the stem is that most stems are cylindrical but femoral and tibial metaphyseal/diaphyseal areas are conical in shape. Viable stem options include fully cemented short and long stems, uncemented long stems, offset uncemented stems, and a hybrid application of a cemented proximal end of longer uncemented diaphyseal engaging stems. Stems are not without their risk. The more the load is transferred to the cortex, the greater the risk of proximal interface stress shielding. A long uncemented stem has similar stress shielding as a short cemented stem. Long diaphyseal engaging stems that are cemented or uncemented have the potential to have end of stem pain, especially if more diaphyseal reaming is done to obtain greater cortical contact. A conical shaped long stem can provide more stability than a long cylindrical stem and avoid diaphyseal reaming. Use of long stems may create difficulty in placement of the tibial and femoral components in an optimal position. If the femoral or tibial components do not allow an offset stem insertion, using a long offset stem or short cemented stem is preferred. The amount of metaphyseal bone loss will drive the choice of stem used. Short cemented stems will not have good stability in poor metaphyseal bone without getting the cement out to the cortex. Long cemented stems provide satisfactory survivorship, however, most surgeons avoid cementing long stems due to the difficulty of removal, if a subsequent revision is required. If the metaphyseal bone is excellent, use of a short cemented stem or long uncemented stem can be expected to have good results. Long fully uncemented stems must have independent stability to be effective, or should be proximally cemented as a hybrid technique. Cases with AOI type IIb and III tibial and femoral defects are best managed with use of metaphyseal cones with short cemented stems or long hybrid straight or offset stems. Some studies also suggest that if the cone is very stable, no stem may be required. My preference is to use a short cemented stem or hybrid conical stem in patients with good metaphyseal bone. If significant metaphyseal bone loss is present, I will use a porous cone with either a short cemented stem, hybrid cylindrical or offset stem depending on the primary stability of the cone and whether the femoral or tibial component can be placed in an optimal position in patients with good metaphyseal bone


Orthopaedic Proceedings
Vol. 100-B, Issue SUPP_10 | Pages 117 - 117
1 Jun 2018
Whiteside L
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Stems are a crucial part of implant stabilization in revision total knee arthroplasty. In most cases the metaphyseal bone is deficient, and stabilization in the diaphyseal cortical bone is necessary to keep the implant tightly fixed to bone and to prevent tilt and micromotion. While sleeves and cones can be effective in revision total joint arthroplasty, they are technically difficult and may lead to major bone loss in cases of loosening or infection, especially if the stem is cemented past the cone. A much more conservative method is to ream the diaphysis to the least depth possible to achieve tight circumferential fixation, and to apply porous augments to the undersurface of the tibial tray or inner surface of the femoral component to allow them to bottom out against the bone surface and apply compressive load. If a robust, strong taper, stem and component combination is used, rim contact on only one side is necessary to achieve rigid permanent fixation. Porous and non-porous stems are available. The non-porous stems should have a spline surface that engages the diaphyseal bone and achieves rigid initial fixation but does not provide long-term axillary support. In that way the porous rim-engaging surface can bear compressive load and finally unload the stem and taper junction. Correctly designed stems do not stress relieve unless they are porous-coated. In situations where metaphyseal bone is not available, porous-coated stems that link to hinge prostheses are a very important part of the armamentarium in complex revision arthroplasty. Use of stems requires experience and special technique. Slight underreaming and initial scratch fit are necessary techniques. This does not result in tight fixation every time because split of the cortex does occasionally occur. In most cases these splits do not need to be repaired, but when there is a question, an intra-operative x ray should be taken and the surgeon should be prepared to repair the fracture. Stems are an essential part of revision total knee arthroplasty. A tightly fit stem in the diaphysis is necessary for fixation when metaphyseal bone is deficient. No amount of cement pressed into the deficient metaphyseal bone will substitute for rigid stem fixation


The Journal of Bone & Joint Surgery British Volume
Vol. 94-B, Issue 8 | Pages 1009 - 1015
1 Aug 2012
Scott CEH Biant LC

Stems improve the mechanical stability of tibial components in total knee replacement (TKR), but come at a cost of stress shielding along their length. Their advantages include resistance to shear, reduced tibial lift-off and increased stability by reducing micromotion. Longer stems may have disadvantages including stress shielding along the length of the stem with associated reduction in bone density and a theoretical risk of subsidence and loosening, peri-prosthetic fracture and end-of-stem pain. These features make long stems unattractive in the primary TKR setting, but often desirable in revision surgery with bone loss and instability. In the revision scenario, stems are beneficial in order to convey structural stability to the construct and protect the reconstruction of bony defects. Cemented and uncemented long stemmed implants have different roles depending on the nature of the bone loss involved. This review discusses the biomechanics of the design of tibial components and stems to inform the selection of the component and the technique of implantation


Orthopaedic Proceedings
Vol. 105-B, Issue SUPP_2 | Pages 38 - 38
10 Feb 2023
Batinica B Bolam S Zhu M D'Arcy M Peterson R Young S Monk A Munro J
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Little information exists regarding optimal tibial stem usage in revision total knee arthroplasty (rTKA) utilising a tibial trabecular metal (TM) cone. The purpose of this study was to compare 1) functional outcomes, 2) radiographic outcomes, and 3) implant survivorship in rTKA utilising TM cones combined with either short stems (SS) or long stems (LS) at minimum two-years clinical follow-up.

In this retrospective, multi-centre study, patients undergoing TM cone utilising rTKA between 2008 and 2019 were included. Patients were divided into: SS group (no diaphyseal engagement), and LS group (diaphyseal engagement). All relevant clinical charts and post-operative radiographs were examined. Oxford Knee Score (OKS) and EuroQol-5D (EQ-5D-5L) data were collected at most recent follow-up.

In total, 44 patients were included: 18 in the SS group and 26 in the LS group. The mean time of follow-up was 4.0 years. Failure free survival was 94.5% for the SS group and 92.3% for the LS group. All failures were for prosthetic joint infections managed with debridement, antibiotics, and implant retention. At most recent follow-up, 3 patients demonstrated radiographic signs of lucency (1 SS 2 LS, p = 1) and the mean OKS were 37 ± 4 and 36 ± 6 (p = 0.73) in the SS and LS groups, respectively.

Tibial SS combined with TM cones performed as well as LS in rTKA at minimum two-years follow-up. A tibial SS in combination with a TM cone is a reliable technique to achieve stable and durable fixation in rTKA.


Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_16 | Pages 27 - 27
19 Aug 2024
Solomon M Plaskos C Pierrepont J
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The purpose of this study was to investigate the influence of surgical approach on femoral stem version in THA. This was a retrospective database review of 830 THAs in 830 patients that had both preoperative and postoperative CT scans. All patients underwent staged bilateral THAs and received CT-based 3D planning on both sides. Stem version was measured in the second CT-scan and compared to the native neck axis measured in the first CT-scan, using the posterior condyles as the reference for both. Cases were performed by 104 surgeons using either a direct anterior (DAA, n=303) or posterior (PA, n=527) approach and one of four stem designs: quadrangular taper, calcar-guided short stem, flat taper and fit-and-fill. Sub-analyses investigated changes in version for low (≤5°), neutral (5–25°) and high (≥25°) native version subgroups and for the different implant types. Native version was not different between approaches (DAA = 12.6°, PA = 13.6°, p = 0.16). Overall, DAA stems were more anteverted relative to the native neck axis vs PA stems (5.9° vs 1.4°, p<0.001). This trend persisted in hips with high native version (3.2° vs -5.3°, p<0.01) and neutral native version (5.3° vs 1.3°, p<0.001), but did not reach significance in the low native version subgroup (8.9° vs 5.9°, p=0.13). Quadrangular taper, calcar-guided, and flat taper stem types had significantly more anteversion than native for DAA, while no differences were found for PA. Stems implanted with a direct anterior approach had more anteversion than those implanted with a posterior approach. The smaller surgical field, soft tissue tension and lack of a “tibial” vertical reference frame may contribute to this finding


Orthopaedic Proceedings
Vol. 104-B, Issue SUPP_12 | Pages 46 - 46
1 Dec 2022
Sheridan G Garbuz D Masri B
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The demand for revision total knee arthroplasty (TKA) has grown significantly in recent years. The two major fixation methods for stems in revision TKA include cemented and ‘hybrid’ fixation. We explore the optimal fixation method using data from recent, well-designed comparative studies.

We performed a systematic review of comparative studies published within the last 10 years with a minimum follow-up of 24 months. To allow for missing data, a random-effects meta-analysis of all available cases was performed. The odds ratio (OR) for the relevant outcome was calculated with 95% confidence intervals. The effects of small studies were analyzed using a funnel plot, and asymmetry was assessed using Egger's test. The primary outcome measure was all-cause failure. Secondary outcome measures included all-cause revision, aseptic revision and radiographic failure.

There was a significantly lower failure rate for hybrid stems when compared to cemented stems (p = 0.006) (OR 0.61, 95% CI 0.42-0.87). Heterogeneity was 4.3% and insignificant (p = 0.39). There was a trend toward superior hybrid performance for all other outcome measures including all-cause re-revision, aseptic re-revision and radiographic failure.

Recent evidence suggests a significantly lower failure rate for hybrid stems in revision TKA. There is also a trend favoring the use of hybrid stems for all outcome variables assessed in this study. This is the first time a significant difference in outcome has been demonstrated through systematic review of these two modes of stem fixation. We therefore recommend the use, where possible, of hybrid stems in revision TKA.


Orthopaedic Proceedings
Vol. 101-B, Issue SUPP_8 | Pages 104 - 104
1 May 2019
Haddad F
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There has been an evolution in revision hip arthroplasty towards cementless reconstruction. Whilst cemented arthroplasty works well in the primary setting, the difficulty with achieving cement fixation in femoral revisions has led to a move towards removal of cement, where it was present, and the use of ingrowth components. These have included proximally loading or, more commonly, distally fixed stems. We have been through various iterations of these, notably with extensively porous coated cobalt chrome stems and recently with taper-fluted titanium stems. As a result of this, cemented stems have become much less popular in the revision setting. Allied to concerns about fixation and longevity of cemented fixation revision, there were also worries in relation to bone cement implantation syndrome when large cement loads were pressurised into the femoral canal at the time of stem cementation. This was particularly the case with longer stems. Technical measures are available to reduce that risk but the fear is nevertheless there. In spite of this direction of travel and these concerns, there is, however, still a role for cemented stems in revision hip arthroplasty. This role is indeed expanding. First and foremost, the use of cement allows for local antibiotic delivery using a variety of drugs both instilled in the cement at the time of manufacture or added by the surgeon when the cement is mixed. This has advantages when dealing with periprosthetic infection. Thus, cement can be used both as interval spacers but also for definitive fixation when dealing with periprosthetic hip infection. The reconstitution of bone stock is always attractive, particularly in younger patients or those with stove pipe canals. This is achieved well using impaction grafting with cement and is another extremely good use of cement. In the very elderly or those in whom proximal femoral resection is needed at the time of revision surgery, distal fixation with cement provides a good solution for immediate weight bearing and does not have the high a risk of fracture seen with large cementless stems. Cement is also useful in cases of proximal femoral deformity or where cement has been used in a primary arthroplasty previously. We have learnt that if the cement is well-fixed then the bond of cement-to-cement is excellent and therefore retention of the cement mantle and recementation into that previous mantle is a great advantage. This avoids the risks of cement removal and allows for much easier fixation. Stems have been designed specifically to allow this cement-in-cement technique. It can be used most readily with polished tapered stems - tap out a stem, gain access at the time of revision surgery and reinsert it. It is, however, now increasingly used when any cemented stems are removed provided that the cement mantle is well fixed. The existing mantle is either wide enough to accommodate the cement-in-cement revision or can be expanded using manual instruments or ultrasonic tools. The cement interface is then dried and a new stem cemented in place. Whilst the direction of travel in revision hip arthroplasty has been towards cementless fixation, particularly with tapered distally fixed designs, the reality is that there is still a role for cement for its properties of immediate fixation, reduced fracture risk, local antibiotic delivery, impaction grafting and cement-in-cement revision


Orthopaedic Proceedings
Vol. 97-B, Issue SUPP_13 | Pages 67 - 67
1 Nov 2015
Sculco T
Full Access

For most revision total knee replacement there is associated soft tissue and bone loss. A constrained condylar implant can be useful in improving the stability of the knee after revision. Augmentation is commonly used to deal with bone loss on the femoral and tibial side of the joint. Stems are known to reduce the load at the interface of the femoral and tibial component and transfer the load into the medullary canals. There are problems with using stems in the revision setting however, which include: (1) increased cost, (2) difficulty with removal should further revision be necessary, (3) violation of the intramedullary canals if infection occurs, (4) increased operating time. For these reasons a CCK implant was developed without stems in 1998. The use of this device must be very selective and it is primarily used for severe valgus deformity in elderly patients. In a revision setting where there is good preservation of femoral and/or tibial bone but the need for increased constraint is present (e.g. unicompartmental, cruciate retaining knee) a CCK without stems can be used with good results. We retrospectively reviewed 36 primary constrained condylar knee implants without stem extensions from 1998 to 2000 in 31 patients with knees in 15 degrees valgus or greater. All patients were followed up for a minimum 10 years (range, 10 to 12 years). One patient had aseptic loosening and needed to be revised with stemmed components at 9 years post-surgery. Wear was found in two patients. One patient, with severe rheumatoid arthritis, had infection and required a two-stage re-implantation procedure. Patients who are very active or heavy body weight where stresses may be excessive at the implant bone interface should have stems utilised


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_22 | Pages 108 - 108
1 May 2013
Sculco T
Full Access

For most revision total knee replacement there is associated soft tissue and bone loss. A constrained condylar implant can be useful in improving the stability of the knee after revision. Augmentation is commonly used to deal with bone loss on the femoral and tibial side of the joint. Stems are known to reduce the load at the interface of the femoral and tibial component and transfer the load into the medullary canals. There are problems with using stems in the revision setting, however, which include: (1) increased cost, (2) difficulty with removal should further revision be necessary, (3) violation of the intramedullary canals if infection occurs, (4) increased operating time. For these reasons a CCK implant was developed without stems in 1998. The use of this device must be very selective and it is primarily used for severe valgus deformity in elderly patients. In a revision setting where there is good preservation of femoral and/or tibial bone but the need for increased constraint is present (e.g. unicompartmental, cruciate retaining knee) a CCK without stems can be used with good results. We retrospectively reviewed 36 primary constrained condylar knee implants without stem extensions from 1998 to 2000 in 31 patients with knees in 15° valgus or greater. All patients were followed up for a minimum 10 years (range, 10 to 12 years). One patient had aseptic loosening and needed to be revised with stemmed components at nine years post-surgery. Wear was found in two patients. One patient, with severe rheumatoid arthritis, had infection and required a two-stage re-implantation procedure. Patients who are very active or heavy body weight where stresses may be excessive at the implant bone interface should have stems utilised


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_22 | Pages 91 - 91
1 Dec 2016
Sculco T
Full Access

For most complex primary total knee replacement there is associated soft tissue and bone loss. A constrained condylar implant can be useful in improving the stability of the knee after revision. Augmentation is commonly used to deal with bone loss on the femoral and tibial side of the joint. Stems are known to reduce the load at the interface of the femoral and tibial component and transfer the load into the medullary canals. There are problems with using stems in the complex primary knee setting however, which include: (1) increased cost, (2) difficulty with removal should further revision be necessary, (3) violation of the intramedullary canals if infection occurs, (4) increased operating time. For these reasons a CCK implant was developed without stems in 1998. The use of this device must be very selective and it is primarily used for severe valgus deformity in elderly patients. In a revision setting where there is good preservation of femoral and/or tibial bone but the need for increased constraint is present (e.g. unicompartmental, cruciate retaining knee) a CCK without stems can be used with good results. We retrospectively reviewed 36 primary constrained condylar knee implants without stem extensions from 1998 to 2000 in 31 patients with knees in 15 degrees valgus or greater. All patients were followed up for a minimum 10 years (range, 10 to 12 years). One patient had aseptic loosening and needed to be revised with stemmed components at 9 years post surgery. Wear was found in two patients. One patient, with severe rheumatoid arthritis, had infection and required a two-stage re-implantation procedure. Patients who are very active or heavy body weight where stresses may be excessive at the implant bone interface should have stems utilised


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_22 | Pages 90 - 90
1 Dec 2016
Vince K
Full Access

Some DEFINITIONS are necessary: “STEMS” refers to “intramedullary stem extensions”, which may be of a variety of lengths and diameters, fixed with cement, porous coating or press fit alone and which may be modular or an inherent part of the prosthesis. The standard extension keel on the tibia does not qualify as a “stem (extension)”. COMPLEX implies multiple variables acting on the end result of the arthroplasty with the capability of inducing failure, as well as necessary variations to the standard surgical technique. A lesser degree of predictability is implied. More specifically, the elements usually found in an arthritic knee and used for the arthroplasty are missing, so that cases of COMPLEX primary TKA include: Soft tissue coverage-(not relevant here), Extensor mechanism deficiency-patellectomy, Severe deformity, Extra-articular deformity, Instability: Varus valgus, Instability: Plane of motion, Instability: Old PCL rupture, Dislocated patella, Stiffness, Medical conditions: Neuromuscular disorder, Ipsilateral arthroplasty, Prior incisions, Fixation hardware, Osteopenia, Ipsilateral hip arthrodesis, Ipsilateral below knee amputation, etc. Complexity includes MORE than large deformity, i.e., success with large deformity does NOT mean success with constrained implants regardless of indication. In addition, the degree of constraint must be specified to be meaningful. NECESSARY presumably this means: “necessary to ensure durable fixation in the face of poor bone quality or more mechanically constrained” and SUFFICIENT suggests that stems, by themselves or in some shape of form, by themselves “will ensure success (specifically here) of fixation”. If we can start with the second proposal, that STEMS are SUFFICIENT for success the answer is: “NO”, many more aspects of surgical technique and implant design are required. Even if all other aspects of the technique are exemplary, some types of stems or techniques are inadequate, e.g., completely uncemented, short stem extensions. The answer to the first proposal is: “YES, in many cases”. The problem will be to determine which cases. There are philosophical analogies to this question that we already know the answer to. ANALOGY: Is a life-raft necessary on a boat? Yes, you may not use it, but it is considered necessary. Is a life-raft “sufficient” on a boat? No, other problems may occur. Are seat belts necessary? Are child seats necessary? The AAOS already has a position on child restraints, an analogous situation, where a party who cannot control their situation (anesthetised patient/ child) functions in the care of a responsible party. The objection may be argued in terms of cost saving by NOT using increased fixation. A useful analogy, (that would of course require specific analysis), is that of patellar resurfacing: universal resurfacing is cost-effective when considering the expense of even a small number of secondary resurfacings. Of course a complex arthroplasty that requires a revision procedure is far more expensive than secondary patellar resurfacing and so universal use of the enhanced fixation in the face of increased constraint makes sense. The human cost of revision surgery tips the balance irrefutably. DANGER-We must avoid the glib conclusion, often based on poor quality data, that constrained implants do not need additional intramedullary fixation (with stem extensions). When “complexity” is involved, complex analysis is appropriate to select the best course


Bone & Joint Open
Vol. 2, Issue 11 | Pages 921 - 925
9 Nov 2021
Limberg AK Wyles CC Taunton MJ Hanssen AD Pagnano MW Abdel MP

Aims

Varus-valgus constrained (VVC) devices are typically used in revision settings, often with stems to mitigate the risk of aseptic loosening. However, in at least one system, the VVC insert is compatible with the primary posterior-stabilized (PS) femoral component, which may be an option in complex primary situations. We sought to determine the implant survivorship, radiological and clinical outcomes, and complications when this VVC insert was coupled with a PS femur without stems in complex primary total knee arthroplasties (TKAs).

Methods

Through our institution’s total joint registry, we identified 113 primary TKAs (103 patients) performed between 2007 and 2017 in which a VVC insert was coupled with a standard cemented PS femur without stems. Mean age was 68 years (SD 10), mean BMI was 32 kg/m2 (SD 7), and 59 patients (50%) were male. Mean follow-up was four years (2 to 10).


Orthopaedic Proceedings
Vol. 87-B, Issue SUPP_II | Pages 137 - 137
1 Apr 2005
Langlais F Portillo M Lambotte J Ropars M Thomazeau H
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Purpose: A consecutive series of 32 metaphyseal locked hydroxyapatite coated stems were reviewed at a maximum 5 years to analyse the effect of the type of distal (diaphyseal) and proximal (metaphyseal) fixation on clinical and radiological outcome (distal shaft fixation: tight or moderate; hydroxyapatite coating: complete or limited to metaphysic; approach: window or endofemoral). Material and methods: Stems were used to treat femoral osteolysis (35% SOFCOT stage III and IV femoral loosening) with significant acetabular osteolysis (59% segmentary osteolysis and 47% revisions with structural allografts). Nineteen stems were implanted with a femoral window and 13 via endofemoral access. Twenty-six were screw locked. To study the effect of the type of fixation on clinical and radiographic outcome, we studied metaphyseal “regeneration”, and intraoperative diaphyseal anchorage. Anchorage was considered tight when the endosteum and the stem were in contact over at least 40 mm, and the difference in diameter between the stem and the endosteum was 1 mm or less. Anchorage was considered moderate when the height of contact was less than 40 mm and the endosteumstem difference in diameter was greater than 2 mm. Results: The results were encouraging, with a clinical score (PMA) of 15/18, and stable diaphyseal fixation of the prosthesis in 31 hips (one migration of about 1 cm with secondary blockage in one non-locked stem). There were few complications: no infections, one isolated dislocation, one screw fracture, but three replacements of overly long stems, one trochanteric non-union which was not reoperated. In 22 hips with more than one year follow-up, shaft fixation of the stem was complete (no osteolytic lucent line), and a line of bone densification (particularly in hips with less solid anchorage) was seen in ten hips. There appeared to be bone regeneration around the hydroxy-apatite metaphysis in 50% of the cases. There were no cases of secondary osteolysis. This “regeneration” did not appear to be different after window or endofemoral replacement. It was the same with tight (63% of hips) or moderate anchorage. There was no stress shielding even when the distal stem was coated with hydroxyapatite. Conclusion: It appears that good results can be obtained at mid-term with this type of prosthesis using a short distal (60 mm) fixation, limiting the diaphyseal escalation and requirement for femoral window


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_34 | Pages 483 - 483
1 Dec 2013
Porter D Urban R Jacobs JJ Rodriguez J Cooper J
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There is renewed concern surrounding the potential for corrosion at the modular head-neck junction to cause early failure in modern hip implants. Although taper corrosion involves a complex interplay of many factors, previous studies have correlated decreasing flexural rigidity of the femoral trunnion with an increased likelihood of corrosion at retrieval. A multicenter retrieval analysis of 85 modular femoral stems was performed to calculate the flexural rigidity of various femoral trunnions. Stems were implanted between 1991–2012 and retrieved between 2004–2012. There were 10 different taper designs from 16 manufacturers. Digital calipers were used to measure taper geometries by two independent observers. Mean flexural rigidity was 262 Nm. 2. , however there was a wide range of values among the various stems spanning nearly an order of magnitude between the most flexible (80 Nm. 2. ) and most rigid (623 Nm. 2. ) trunnions, which was due in part to the taper geometry and in part to the material properties of the base alloy. There was a modest but significant negative correlation between flexural rigidity of the trunnion and release date of the stem. This wide variability in flexural rigidity may predispose particular stem designs to an increased risk of corrosion at the modular head-neck taper, and may in part explain why taper corrosion is being seen with increasing frequency in modern hip arthroplasty


Orthopaedic Proceedings
Vol. 86-B, Issue SUPP_III | Pages 260 - 261
1 Mar 2004
Glyn-Jones S Gill H McLardy-Smith P Murray D
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Aim: Small amounts of subsidence may be beneficial in stabilising a stem & appears to be a featue of polished tapered stems. Stem rotation (measured as posterior head migration) within the cement mantle, however, is probably a more important mechanism of failure than subsidence. Stems with a wider proximal portion are thought to better resist rotation. The CPS (Endoplus, UK) is such a device; here we compare its’ stability with that of the Exeter (Stryker-Howmedica, UK). Method: 20 patients received the CPS-plus stem & underwent RSA examinations at 3, 6 & 12 months postoperatively. The Exeter 1 year migration data (32 hips) was used as a comparison. Both groups underwent a Hardinge approach & the prosthesis was secured with CMW3G cement. Results: Both stems subsided about 1mm. The CPS showed less medio-lateral & A-P movement of the proximal stem than the Exeter over 1 year, as shown below: 1 Year Mean Migration ± SEM (mm) Discussion: The CPS internally rotates less than the Exeter, as demonstrated by the smaller amount of posterior head migration. It has a lateral flare of the shoulder; making its’ cross-section wider than the Exeter’s, this probably produces a greater resistance to rotation. The CPS also undergoes less medio-lateral proximal stem migration. Its’ lateral shoulder flare is probably responsible for this axial subsidence, as it prevents the shoulder from moving laterally whilst subsiding onto the calcar. Increasing the width of the proximal section of a polished tapered stem enhances its rotational stability


Orthopaedic Proceedings
Vol. 98-B, Issue SUPP_10 | Pages 34 - 34
1 May 2016
Shin Y Lee J Han S
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A matched comparison was made between femoral neck-preserving short, tapered stems (n = 50) and conventional length femoral stems (n = 50) in cementless total hip arthroplasty between January 2008 and January 2012. Patients were matched for age, sex, body mass index, height, surgical approach, and surgeon. In group A, mean preoperative HHS and WOMAC scores of 55.0 and 53.0, respectively, improved to mean postoperative scores of 98.6 and 3.3, respectively, at an average follow–up of 37.2 months. In group B, mean preoperative HHS and WOMAC scores of 53.0 and 49.5, respectively, improved to mean postoperative scores 97.8 and 4.4, respectively, at an average follow–up of 35.3 months. In addition, no significant differences in mean postoperative HHS (P = 0.168) or WOMAC scores (P = 0.158) were observed between the two groups according to the independent sample t-test. Table 1 shows two stems (4%) located in valgus (greater than 5° from neutral). The mean preoperative and postoperative HHS and WOMAC scores were similar to those of stems neutrally located in group A. All group A stems displayed bone bridging and endosteal spot welds distributed in Gruen zones 2 and 6 as evidence of bony ingrowth with no radiolucencies (Fig. 1). Two patients in group B had the slight decrease in bone density, mostly in Gruen zone 1 and 7. No radiographic evidence of osteolytic lesions, cortical hypertrophy, or acetabular fractures was detected in either group. Furthermore, no patient required revision surgery for aseptic loosening. The chi–square (Fisher's exact) test showed no significant difference between the two groups with respect to patient complications (Table 2). One patient in group A with a CCD angle of 135° had subsidence (greater than 2 mm, P =0.313) that displayed bony ingrowth with no further progression of subsidence at final follow-up. An intraoperative minor femur neck fracture (P =1.00) occurred in two patients (one in group A and one in group B). These patients were treated by cerclage wires without further incident. Three patients (two in group A: valgus and a CCD angle 135°, and one in group B: varus) had malalignment (P = 0.554) that was not associated with loosening. One patient in group A with a CCD angle of 135° had greater than 1 cm leg length discrepancy (shortening, P = 0.313). Two patients in group B had thigh pain (P = 0.151) that disappeared after a few months. Three patients (one in group A and two in group B) had heterotopic ossifications (P = 0.554) that were categorized as Brooker class I in two patients and class II in one patient without limiting their activities. In conclusion, no significant differences in the clinical and radiographic outcomes as well as component-specific complications were observed between the two groups, showing satisfactory performance at the 5-year follow-up. Group A had a higher incidence of malalignment and subsidence and a lower incidence of thigh pain and proximal bone resorption than group B.