The effects of the liquid component of commercial acrylic cement and of pure methylmethacrylate monomer on mean arterial blood pressure, central venous pressure, heart rate and cardiac output have been compared in a series of six anaesthetised dogs. No significant differences were found between the two substances

Severe leg pain in a patient after total hip replacement was found to be caused by compression of the sciatic nerve by methylmethacrylate cement which had leaked from the acetabulum during fixation of the acetabular cup. The pain persisted for six years but was immediately relieved by removal of the cement mass

Purpose: The purpose of this study is to evaluate the safety of methylmethacrylate cement balloon kypho-plasty (BK) when applied to five or six levels in the same sitting and the incidence and location of cement leakage. Methods: Eighty nine patients (215 vertebral bodies-VBs) with osteoporotic compressive fractures (OCF), and 24 with osteolytic tumors (OT) (72 VBs) were treated with BK. Of patients with OCF, 27 were treated at one level, 26 at two, 21 at three, 7 at four, 6 at five, 2 at six levels. Of OT patients, 3 were treated at one level, 5 at two, 9 at three, 3 at four, and 4 at five. Results: A drop in blood pressure of more than 25mmHg during cement injection was observed in four patients, and was not associated with the number of VB treated. The procedure was aborted in two patients. Otherwise no significant drop in arterial O2 was noted. One patient treated for 5 levels developed fever and tachepnoea for 24 hours after surgery. Arterial O2 and chest x-rays were normal. Pain significantly improved in 95% of patients with OCF and 98% of patients with tumors. In the osteoporotic group, kyphosis correction was achieved in 91% with a mean correction of 7.89°. Cement leakage occurred in 21/215 VBs (9.7%); Epidural: two (0.9%), intraforaminal: 1 (0.5%), intradiscal: 7 (3.2%) while through the anterior or lateral vertebral wall: 11 (5.1%). In the OT group leakage occurred in 6 VBs (8.3%), including 9 (7.0%) through the anterior or lateral wall and one (1.3%) intradiscal. None of the patients had any clinical consequences associated with cement leakage. Conclusions: BK is a safe and effective procedure, even when applied for 5 or 6 levels. End plate fracture or vertebral wall lytic destruction can effectively be managed by eggshell balloon cementoplasty, thus minimizing the incidence of cement leakage. The incidence of cement leakage with KP (9.8%) is far less than that reported with vertebroplasty, (65.5% shown on CT scans)

We examined the roles of methylmethacrylate (MMA) monomer and cementing technique in the formation, and haemodynamic outcome, of pulmonary fat emboli. The preparation of the femoral canal and the cementing technique were studied in four groups of adult dogs as follows: control (no preparation); lavage; cement pressurisation; and cement pressurisation after lavage. We measured the intramedullary pressure, pulmonary artery pressure (PAP), pulmonary capillary wedge pressure and bilateral femoral vein levels of triglyceride, cholesterol and MMA monomer at rest and after reaming, lavage, and cementing. Femoral vein triglyceride and cholesterol levels did not vary significantly from resting levels despite significant elevations in intramedullary pressure with reaming, lavage and cementing (p = 0.001). PAP was seen to rise significantly with reaming (p = 0.0038), lavage (p = 0.0031), cementing (p = 0.0024) and cementing after lavage (p = 0.0028) while the pulmonary capillary wedge pressure remained unchanged. MMA monomer was detected in femoral vein samples when cement pressurisation was used. Intramedullary lavage before cementing had no significant effect on the MMA level. Haemodynamic evidence of pulmonary embolism was noted with reaming and intramedullary canal preparation, irrespective of the presence of MMA monomer. We found no relationship between MMA monomer level and intramedullary pressure, PAP or pulmonary capillary wedge pressure. Our findings suggest that the presence of MMA monomer in femoral venous blood has no effect on the formation of fat emboli or their pulmonary haemodynamic outcome during cemented hip arthroplasty

We evaluated the impact of pre-coating the tibial component with polymethylmethacrylate (PMMA) on implant survival in a cohort of 16 548 primary NexGen total knee replacements (TKRs) in 14 113 patients. In 13 835 TKRs a pre-coated tray was used while in 2713 TKRs the non-pre-coated version of the same tray was used. All the TKRs were performed between 2001 and 2009 and were cemented. TKRs implanted with a pre-coated tibial component had a lower cumulative survival than those with a non-pre-coated tibial component (p = 0.01). After adjusting for diagnosis, age, gender, body mass index, American Society of Anesthesiologists grade, femoral coupling design, surgeon volume and hospital volume, pre-coating was an independent risk factor for all-cause aseptic revision (hazard ratio 2.75, p = 0.006). Revision for aseptic loosening was uncommon for both pre-coated and non-pre-coated trays (rates of 0.12% and 0%, respectively). Pre-coating with PMMA does not appear to be protective of revision for this tibial tray design at short-term follow-up.

Cite this article: Bone Joint J 2013;95-B:367–70.

The ‘cement reaction’ is a recognised cardio-respiratory response to methylmethacrylate bone cement, characterised by hypotension, reduced cardiac output, and on occasion fatal circulatory collapse. It is seen in 0.5-1% of cemented hip arthroplasties during the insertion and pressurisation of cement into the femur, and is believed to be secondary to marrow thromboembolism, the vasodilatory effect of methylmethacrylate, or a combination of the two. A number of steps, within the operating surgeon's control, can be undertaken to reduce the risk of the ‘cement reaction’ occurring. An e-mail based questionnaire was sent to all trainees and consultants in the West of Scotland containing eight questions relating to cementing technique when performing hemiarthroplasty of the hip. The questions related to measures to reduce the potential for ‘cement reaction’, e.g.: whether or not they routinely use a cement restrictor. Seventy-two complete replies were received. For five of the eight measures, the surgeons routinely employed the suggested practices. For the remaining three, the consensus opinion was contrary to the suggested practice for reduction of the risk of ‘cement reaction’. These were with respect to the surgical approach employed, whether or not to attempt to remove all cancellous bone from the proximal femur, and the use, or not, of a venting tube during cement insertion. In all three cases, the difference was statistically significant on chi-squared testing. The cohort of surgeons questioned routinely employ more than half of the methods suggested to reduce the potential for ‘cement reaction’ in hemiarthroplasty of the hip. Further surveys of why they do, or do not, undertake certain practices during cementing would help improve awareness of ‘cement reaction’, and perhaps reduce the incidence of this potentially fatal phenomenon

In properly chosen patients, cementless total knee arthroplasty has achieved success rates equal to cemented designs. The initial variable results of early cementless total knee replacements were a function of design, surgical technique and patient selection. Important design considerations that have enhanced biologic ingrowth include the use of commercially pure titanium with optimal pore size and porosity, and avoidance of porous-coated stems and plugs that cause stress shielding of the bone-implant interface. Factors in surgical technique that enhance bone ingrowth include precise bone cuts that maximise bone-implant contact, and the application of autogenous bone slurry to cut surfaces. Additional factors are restoration of normal alignment, appropriate ligament balance, and the reproduction of the patient's native tibial slope in order to prevent tibial component subsidence. Young and active patients are ideal biological hosts for the use of cementless knee fixation. Their relatively dense cancellous bone and rich blood supply provides for robust purchase for initial fixation and the appropriate milieu for long-term biologic fixation. With increasing life expectancy, this more durable interface is desirable. With avoidance of porous-coated stems and pegs and prevention of fibrous tissue attachment, potential future revisions are more bone-sparing relative to methylmethacrylate fixation. Numerous reports, as well as the authors’ published 10- to 14-year results, demonstrate that cementless fixation in appropriately selected patients provides results comparable to cemented TKA, with the advantage of conserving bone stock and eliminating the potential problems of cement fixation

In properly chosen patients, cementless total knee arthroplasty has achieved success rates equal to cemented designs. The initial variable results of early cementless total knee replacements were a function of design, surgical technique and patient selection. Important design considerations that have enhanced biologic ingrowth include the use of commercially pure titanium with optimal pore size and porosity, and avoidance of porous-coated stems and plugs that cause stress shielding of the bone-implant interface. Factors in surgical technique that enhance bone ingrowth include precise bone cuts that maximize bone-implant contact, and the application of autogenous bone slurry to cut surfaces. Additional factors are restoration of normal alignment, appropriate ligament balance, and the reproduction of the patient's native tibial slope in order to prevent tibial component subsidence. Young and active patients are ideal biological hosts for the use of cementless knee fixation. Their relatively dense cancellous bone and rich blood supply provides for robust purchase for initial fixation and the appropriate milieu for long-term biologic fixation. With increasing life expectancy, this more durable interface is desirable. With avoidance of porous-coated stems and pegs and prevention of fibrous tissue attachment, potential future revisions are more bone-sparing relative to methylmethacrylate fixation. Numerous reports, as well as the authors' published 10- to 14-year results, demonstrate that cementless fixation in appropriately selected patients provides results comparable to cemented TKA, with the advantage of conserving bone stock and eliminating the potential problems of cement fixation

It is not uncommon to observe bone cement in the pelvis on radiographs after total hip replacement, a finding which is generally considered to be benign. This paper reviews some catastrophic late complications from intrapelvic methylmethacrylate. We also describe a case of progressive, unbearable dyspareunia beginning three years after total hip replacement. A possible explanation of the pathophysiology is suggested. Recommendations for prevention, diagnosis, and treatment of these late complications are offered

Background. Currently, stailess steel, titanium and carbon-fiber reinforced polyetheretherketone (CF-PEEK) plates are available for the treatment of distal radius fractures. Since the possibility to create a less rigid fixation may represent an advantage in case of ostheoporotic or poor quality bone, the aim of this study is to compare the biomechanical properties of these three materials in terms of bending stiffness with a single static load and after cyclical loading, simulating physiologic wrist motion. Materials and Methods. Three volar plating systems with fixed angle were tested: Zimmer stainless steel volar lateral column (Warsaw, IN); Hand Innovations titanium DVR (Miami, FL); Lima Corporate CF-PEEK DiPHOS-RM (San Daniele Del Friuli, Udine, Italy). For each type of plate tested four right synthetic composite bone radii were used. An unstable, extraarticular fracture was simulated by making an 8 mm gap with a saw starting 12 mm proximal to the articular surface of the radius on the distal radio-ulnar joint side. The osteotomies were made perpendicular to the long axis of the bone to allow for a consistent fracture gap on the dorsal and volar sides of the radius. Plates were implanted using all the distal and proximal fixation holes [Fig. 1]. Each synthetic radius model was potted in methylmethacrylate and tested in a bi-axial servo-hydraulic test frame (MTS Minibionix 858, universal testing machine) for load to failure by advancing a cobalt chrome sphere centered over the articular surface at a constant rate of displacement of 5 mm/min. The sphere was advanced until the construct failed or the dorsal edges of the fracture met. The resultant force was defined as bending stiffness pre fatigue. Three constructs for each plate were then dynamically loaded for 6000 cycles of fatigue at a frequency of 10Hz, with a load value corresponding to the 50% of the previously calculated bending strength. Finally, the constructs were loaded to failure, measuring the bending stiffness post fatigue. Results. All fracture constructs survived all phases of the cyclic loading testing. The mean bending stiffness pre fatigue was higher for the Zimmer plate (155.23±1.91 N/mm), in comparison to Hand Innovations (138.67±4.72 N/mm), and DiPHOS-RM (124.75±3.60 N/mm) [Fig. 2]. After cyclic loading, stiffness increased significantly of a mean 24% for the Zimmer plate (190.42±4.33 N/mm); 33% for the Hand Innovations (186.57±1.71 N/mm); and 18% for the DiPHOS-RM (146.28±1.52 N/mm) [Fig. 2–3]. Conclusions. CF-PEEK plate is less stiff than stainless steel and titanium plates, with an elastic modulus more similar to bone as well as the ability to withstand prolonged fatigue strain. From these preliminary data it might be assumed that the CF-PEEK plates could provide a sufficiently stable osteosynthesis, flexible enough to unload the implant-bone interface, minimising peak stresses at the bone- implant interface, making them particularly suitable for fracture fixation in osteoporotic patients. A proper patient selection (avoiding incompliant or non collaborative) should be performed using CF-PEEK plates to avoid possible implant breakage consequent to a fall or a second trauma on the injuried wrist until the complete fracture healing. For any figures or tables, please contact authors directly (see Info & Metrics tab above).

Nine patients with nonunited humeral shaft fractures were treated by open reduction and internal fixation with an intramedullary fibular bone graft and a compression plate. Fixation of the screws was enhanced by passing them through the fibula as well as the two humeral cortices (quadricortical fixation). Eight of the nine fractures united at an average of 3.5 months. Tests on cadaver bones showed that quadricortical fixation was as strong as methylmethacrylate augmentation and significantly better than bicortical fixation

Review of the radiographs of 882 consecutive metal-to-polyethylene hip replacements after a mean follow-up of 6.8 years showed 72 cases (8%) of aseptic femoral loosening, all of which showed a lucent zone or black line between metal and cement. In 97% of the series this appeared within two years of the arthroplasty. Progress of loosening was unpredictable and only 24% had significant symptoms. Improved technique with methylmethacrylate cement in Stanmore prostheses had reduced loosening after two years from 7.9% to 0.4%. Methods of detection of early loosening are discussed

Various classifications of scaphoid fractures have been based on plain radiography, but there are difficulties in defining the actual fracture line without an appreciation of the three-dimensional anatomy. Radiological fracture lines were therefore mapped on transparent methylmethacrylate models of the bone. An analysis of 91 acute fractures showed that 11 were apparently incomplete. The other 80 showed three basic anatomical patterns: transverse through the waist, oblique in the plane of the dorsal sulcus, or of the proximal pole. There was some variation and comminution in these patterns, but no distal fractures of the body were seen. The interpretation of different radiological projections is discussed. The findings have implications for the management and the assessment of outcome

Purpose: estimate efficiency minimally invasive methods of treatment at patients with tumor lesion of bones. Materials and methods: 145 patients, middle age e 42 years. it has been executed 249 percutaneous vertebroplasty, 15 osteoplasty and 46 radiofrequency thermal ablation Most often minimally invasive methods were carried out to patients with bone metastasis lesion of a breast cancer – 65 (44,8%) and kidneys – 14 (10%) patients. Results: reduction in a painful syndrome on a visual analog scale after operation is noted at 126 (87%) by patients. Positive dynamics Watkins scale at 119 (82%). Improvement of quality of a life on scale Karnofski at 94 (65%) the patient. Complications after vertebroplasty and osteoplasty in the form of methylmethacrylate leak into the surrounding tissues at 19 (18,5%) patients. At one patient after radiofrequency thermal ablation has developed burn skin. There were three pathological bone fractures after radiofrequency thermal ablation. Conclusions: vertebroplasty, osteoplasty and radiofrequency thermal ablation – minimally invasive methods of treatment the patients with tumoral lesion of the bones, allowing in short tim stop a painful syndrome, create adequate stability in a bone segment and improve quality of a life of oncological patients

Total hip replacement has been very successful in patients with painful, stiff hips associated with protrusio acetabuli, but the heat of polymerisation of methylmethacrylate cement may cause necrosis of the thin medial wall with consequent danger of migration of the cup. Since 1968 at Wrightington, thin slices of the head of the femur have been used as bone grafts to reinforce the acetabulum. We have reviewed 61 hips in 51 patients at an average of 4 years 3 months after operation. Grading for severity is discussed and the degree of physiological remodelling of the medial wall of the acetabulum after grafting assessed. There was an average of about 4 mm of remodelling, but this varied considerably; most took place within the first year. In no case was there relapse of the protrusio

Giant-cell tumour of bone (GCT) is a locally benign aggressive tumour. The use of adjuvant agents, such as phenol or liquid nitrogen has been recommended to destroy the remaining tumour cells after curettage, and filling of the defect with methylmethacrylate cement has been advocated. Between 1957 and 1992 we treated 92 patients with a GCT with 50% aqueous zinc chloride solution and bone grafting. Their mean age at the time of surgery was 31 years (15 to 59) and the mean follow-up was 11 years (5 to 31). Twelve (13%) had a local recurrence and one had a wound infection. Two developed degenerative changes around the knee. Eighty-six (93%) achieved good or excellent function. Three had moderate function, and three needed amputation. Our findings indicate that treatment with an aqueous solution of zinc chloride and reconstructive bone grafting after curettage gives good results

Pain and kyphosis in vertebral body compression fractures (VBCF) impair quality of life. Conservative treatment has been the proposed solution up to now. Kyphoplasty is a new technique that involves the introduction of inflatable bone tamps (IBT) into the vertebral body by a trans-pedicle approach. The purpose of IBT is to restore the original height of the vertebral body while creating a cavity that can be filled with highly viscous methylmethacrylate. We prospectively evaluated the safety and efficacy of kyphoplasty in the treatment of pain related to pathological vertebral body compression fractures resulting from osteoporotic collapse, multiple myeloma, primary malignant tumours (lymphoma) and metastatic cancer. Clinical results show immediate and maintained pain relief in all patients who received this treatment and a more rapid improvement in function. Pain relief may be related to spinal realignment by restoring the weight-bearing on the anterior column and to biological factors such as damage of pain-receptors due to the high temperature of cement polymerisation

We compared wear particles from two different designs of total hip arthroplasty with polycrystalline alumina-ceramic bearings of different production periods (group 1, before ISO 6474: group 2, according to ISO 6474). The neocapsules and interfacial connective tissue membranes were retrieved after mean implantation times of 131 months and 38 months, respectively. Specimen blocks were freed from embedding media, either methylmethacrylate or paraffin and digested in concentrated nitric acid. Particles were then counted and their sizes and composition determined by SEM and energy-dispersive x-ray analysis (EDXA). The mean numbers and sizes of most alumina wear particles did not differ for both production periods, but the larger sizes of particle in group 1 point to more severe surface destruction. The increased metal wear in group 2 was apparently due to alumina-induced abrasion of the stems. In this study the concentrations of particles in the periprosthetic tissues were 2 to 22 times lower than those observed previously with polyethylene and alumina/polyethylene wear couples

Background. Continual implant stability is an important factor for the long-term success of cementless hip replacements. The increasing lifespan of patients causes a higher frequency of osteoporosis which may result in implant loosening due to bone loss. This study aimed to evaluate stability of long living implants in patients with advanced age. Patients and methods. Nine cementless stems made of Titanium-alloy including adjacent bone tissue obtained post mortem were evaluated by radiologic-microradigraphical, histological and morphometrical analysis. The percentage of the surface area covered by bone (BICI=bone implant contact index) was determined. The age of seven women and two men ranged between 81 and 92 years. The time in situ ranged between 10 and 20 years. From the entire length of the femora bearing implants 5 transverse segments were excised, dehydrated, embedded in methylmethacrylate. After the grinding procedure, the sections were evaluated by light microscopy and morphometrical analysis. The autopsy findings were recorded. Atherosclerosis and their related diseases were evident in all cases. Results. The femora of all female patients revealed features of high bony atrophy with concomitant transformation of the corticalis into spongy bone, whereas in male patients minor to moderate atrophic bone changes in the proximal femoral area without implication of the corticalis could be observed. All of the cementless stems made of Titanium-alloy showed osteointegration. The stabilization of the implant resulted in the forceps-like encasement of the edges of the implant within the cortical anchoring and by the development of compensatory bony hypertrophy. The BICI ranged between 35 und 63 percent. Conclusion. Elderly patients provided with cementless hip replacments revealed stable implants in spite of marked bone atrophy and an implantation period up to 20 years. Simultaneously, severe atherosclerosis and their related diseases, which may contribute to bone loss, were evident. The present findings may result from the favoring properties of cementless endoprostheses made of titanium alloy, cortical prosthesis anchoring, and self regulating bone processes. Pharmacologic and therapeutic consequences together with geriatric assessment should be required to preserve functionality and mobility