Your search keyword '"Gheduzzi, S"' showing total 12 results

1. Basic biomechanics and biomaterials.

Author

Miles, A.W. and Gheduzzi, S.

Subjects

BIOMECHANICS, BIOMATERIALS, BIOLOGICAL specimen analysis, ANATOMY textbooks, BONES, ORTHOPEDIC surgery, DRUG information materials

Abstract

Abstract: This paper outlines the basic knowledge that should form an integral component of a training programme in basic biomechanics and biomaterials for orthopaedic residents. For a comprehensive learning package the reader is directed to the substantive textbooks listed in the suggested reading section. [Copyright &y& Elsevier]

Published

2012

2. Influence of setting liquid composition and liquid-to-powder ratio on properties of a Mg-substituted calcium phosphate cement.

Author

Pina, S., Olhero, S.M., Gheduzzi, S., Miles, A.W., and Ferreira, J.M.F.

Subjects

CALCIUM phosphate, MAGNESIUM compounds, HEAT treatment of metals, PRECIPITATION (Chemistry), WOUNDS & injuries, SURGERY, CITRIC acid, BONE cements, THERAPEUTICS

Abstract

Abstract: The influence of four variables on various properties of a Mg-substituted calcium phosphate cement (CPC) was investigated. The variables were the heat treatment temperature of the precipitated powders, the composition of the setting liquid, the liquid-to-powder ratio (LPR), and the time over which hardened specimens were cured in air. The properties analysed were the phase composition of the starting powder, the initial setting time, the evolution of the storage shear modulus (G′) and the loss shear modulus (G″) with the cement paste curing time (t), and the compressive strength. The presence of α-TCP in CPC facilitated the setting and hardening properties due to its progressive dissolution and the formation of brushite crystals. As far as the liquid composition is concerned, in cases where citric acid was used, adding a rheology modifier (10wt.% polyethylene glycol or 0.5wt.% hydroxyl propylmethylcellulose) to the acid led to an increase in the initial setting time, while an increase in the acid concentration led to a decrease in the initial setting time. The initial setting time showed to be very sensitive towards the LPR. The evolution of G′ and G″ with curing time reflected the internal structural changes of cement pastes during the setting process. The compressive strength of the wet-hardened cement specimens with and without Mg increased with curing time increasing, being slightly higher in the case of Mg-substituted CPC. The results suggest that Mg-substituted CPC holds a promise for uses in orthopaedic and trauma surgery such as for filling bone defects. [Copyright &y& Elsevier]

Published

2009

3. Basic biomechanics and biomaterials.

Author

Miles, A.W. and Gheduzzi, S.

Subjects

BIOMECHANICS, ORTHOPEDICS, BIOMEDICAL materials, BIOMEDICAL engineering

Abstract

Abstract: This paper outlines the basic knowledge that should form an integral component of a training programme in basic biomechanics and biomaterials for orthopaedic residents. For a comprehensive learning package the reader is directed to the substantive textbooks listed in the suggested reading section. [Copyright &y& Elsevier]

Published

2009

4. The development of a model for in vitro testing of femoral stems in impaction bone grafting.

Author

Heal, J. S., Gozzard, C., Gheduzzi, S., Grimm, B., Learmonth, I. D., and Miles, A. W.

Subjects

BONE grafting, ORTHOPEDIC implants, ARTIFICIAL implants, PROSTHETICS, BONE substitutes, ARTIFICIAL joints, BIOLOGICAL models, COMPUTER simulation, ELASTICITY, PROGNOSIS, PHYSIOLOGIC strain, COMPRESSIVE strength, FEMUR head, SURGERY, THERAPEUTICS

Abstract

Comprehension of the biomechanical behaviour of orthopaedic implants is essential. This paper describes the development of an in vitro model to investigate the behaviour of femoral implants in the revision setting. The development of a femoral model and a bone graft substitute is described. The properties of human, bovine, ovine morselized bone graft, and a graft substitute were compared. On measuring hoop strain after impaction bone grafting there was no significant difference between the ovine bone graft and graft substitute with the size 1 Exeter stem. The results suggest that this bone graft substitute is a viable alternative for in vitro testing. The authors recommend the use of the graft substitute and the femoral model to predict femoral stem biomechanics. [ABSTRACT FROM AUTHOR]

Published

2007

5. A review of pre-clinical testing of femoral stem subsidence and comparison with clinical data.

Author

Gheduzzi, S. and Miles, A. W.

Subjects

TOTAL hip replacement, FEMUR, ARTHROPLASTY, HIP surgery, ARTIFICIAL hip joints, ARTIFICIAL joints, BIOLOGICAL models, CLINICAL trials, JOINT hypermobility, MEDICAL research, MEDICAL equipment reliability, FEMUR head, DIAGNOSIS, SURGERY

Abstract

Immediate postoperative stability of femoral stems is one of the key factors for the long-term success of total hip replacement. The need to develop a reliable technique to assess in vitro implant stability under physiological loading conditions is widely recognized. A critical review of the in vitro techniques developed for the assessment of implant stability is presented. In vitro predictions of subsidence are compared to in vivo clinical data available from Roentgen stereophotogrammetric analysis (RSA) studies. Limited correlation between in vitro predictions of stability and clinical measurements of subsidence obtained through RSA data was found even though similar migration patterns could be distinguished. [ABSTRACT FROM AUTHOR]

Published

2007

6. Numerical predictions of the thermal behaviour and resultant effects of grouting cements while setting prosthetic components in bone.

Author

Quarini, G. L., Learmonth, I. D., and Gheduzzi, S.

Subjects

CEMENT, ARTIFICIAL joints, MONOMERS, TEMPERATURE, NECROSIS

Abstract

Acrylic cements are commonly used to attach prosthetic components in joint replacement surgery. The cements set in short periods of time by a complex polymerization of initially liquid monomer compounds into solid structures with accompanying significant heat release. Two main problems arise from this form of fixation: the first is the potential damage caused by the temperature excursion, and the second is incomplete reaction leaving active monomer compounds, which can potentially be slowly released into the patient. This paper presents a numerical model predicting the temperature-time history in an idealized prosthetic-cement-bone system. Using polymerization kinetics equations from the literature, the degree of polymerization is predicted, which is found to be very dependent on the thermal history of the setting process. Using medical literature, predictions for the degree of thermal bone necrosis are also made. The model is used to identify the critical parameters controlling thermal and unreacted monomer distributions. [ABSTRACT FROM AUTHOR]

Published

2006

7. Clinical experience with metal-on-metal total joint replacements: indications and results.

Author

Learmonth, I. D., Gheduzzi, S., and Vail, T. P.

Subjects

ARTIFICIAL joints, TOTAL hip replacement, ARTHROPLASTY, HIP surgery, ARTIFICIAL hip joints, BIOMEDICAL materials, INFECTION, JOINT hypermobility, MATERIALS testing, METALS, PARTICLES, PROSTHETICS, COMPLICATIONS of prosthesis, FOREIGN body reaction, TREATMENT effectiveness, SURFACE properties

Abstract

Survivorship of total joint arthroplasty depends on the durability of fixation and durability of articulation. The metal-on-polyethylene articular couple has been the most widely used. Polyethylene wear (and the associated cytochemical events that culminate in osteolysis) has been identified as a major factor adversely influencing the durability of joint replacement. This stimulated the orthopaedic community to explore the possibility of using alternative bearings with lower wear rates. Hard-on-hard bearings have been shown to be associated with reduced wear. Metal-on-metal bearings have wear rates that are 20-100 times lower than metal on conventional polyethylene. However, patients with metal-on-metal articulations have increased levels of cobalt and chromium in the serum and urine, and this has raised concerns about toxicity, mutagenesis, and hypersensitivity. At this stage there is no epidemiological evidence to suggest that the risk of carcinogenesis is anything more than theoretical. Successful long-term results have been reported with the cast cobalt-chromium metal-on-metal couples of the mid-1960s. Tissues retrieved at revision of these implants did not show the giant-cell inflammatory response associated with polyethylene particles. Several researchers have reported excellent mid-term results with the current generation of high-precision metal-on-metal bearings. [ABSTRACT FROM AUTHOR]

Published

2006

8. An in-vitro investigation into the cement pressurization achieved during insertion of four different femoral stems.

Author

Gozzard, C., Gheduzzi, S., Miles, A. W., and Learmonth, I. D.

Subjects

BONE cements, BONE surgery, PROSTHETICS, ADHESIVES in surgery, FEMUR, ARTIFICIAL joints, COMPARATIVE studies, RESEARCH methodology, MEDICAL cooperation, POLYMETHYLMETHACRYLATE, PRESSURE, RESEARCH, EVALUATION research, TOTAL hip replacement, MEDICAL equipment reliability, SURFACE properties, EQUIPMENT & supplies

Abstract

Adequate cement pressurization during stem insertion improves the interdigitation of cement into bone. This increases the strength of the cement-bone interface, thus contributing to the reduction of the incidence of aseptic loosening, the commonest cause of revision surgery. This in-vitro study compared the cement pressurization achieved during insertion of four different stems of equivalent sizes: the Elite Plus (DePuy, UK), C-Stem (DePuy, UK), Exeter (Stryker, USA), and CPS-Plus (Plus Orthopedics, Switzerland). The maximum pressures attained at the time of stem insertion were recorded at proximal, mid and distal stem levels. The Elite Plus generated significantly higher distal pressures than the other stems. The CPS-Plus generated significantly greater proximal cement pressures than the Elite Plus, C-Stem, and Exeter prostheses. The triple taper of the C-Stem increased the cement pressurization medial to the stem. The stem shape and the presence or absence of a proximal stem centralizer affect cement pressurization. The presence of a proximal stem centralizer, a large stem volume, and a lateral-medial taper are all factors associated with increased cement pressurization during stem insertion. [ABSTRACT FROM AUTHOR]

Published

2005

9. In vitro method for assessing the biomechanics of the patellofemoral joint following total knee arthroplasty

Author

Coles, LG, Gheduzzi, S, and Miles, AW

Abstract

The patellofemoral joint is a common site of pain and failure following total knee arthroplasty. A contributory factor may be adverse patellofemoral biomechanics. Cadaveric investigations are commonly used to assess the biomechanics of the joint, but are associated with high inter-specimen variability and often cannot be carried out at physiological levels of loading. This study aimed to evaluate the suitability of a novel knee simulator for investigating patellofemoral joint biomechanics. This simulator specifically facilitated the extended assessment of patellofemoral joint biomechanics under physiological levels of loading. The simulator allowed the knee to move in 6 degrees of freedom under quadriceps actuation and included a simulation of the action of the hamstrings. Prostheses were implanted on synthetic bones and key soft tissues were modelled with a synthetic analogue. In order to evaluate the physiological relevance and repeatability of the simulator, measurements were made of the quadriceps force and the force, contact area and pressure within the patellofemoral joint using load cells, pressure-sensitive film, and a flexible pressure sensor. The results were in agreement with those previously reported in the literature, confirming that the simulator is able to provide a realistic physiological loading situation. Under physiological loading, average standard deviations of force and area measurements were substantially lower and comparable to those reported in previous cadaveric studies, respectively. The simulator replicates the physiological environment and has been demonstrated to allow the initial investigation of factors affecting patellofemoral biomechanics following total knee arthroplasty.

Published

2014

10. Ultrasonic propagation in cortical bone mimics

Author

Dodd, S P, Cunningham, J L, Miles, A W, Gheduzzi, S, and Humphrey, V F

Abstract

Understanding the velocity and attenuation characteristics of ultrasonic waves in cortical bone and bone mimics is important for studies of osteoporosis and fractures. Three complementary approaches have been used to help understand the ultrasound propagation in cortical bone and bone mimics immersed in water, which is used to simulate the surrounding tissue in vivo. The approaches used were Lamb wave propagation analysis, experimental measurement and two-dimensional (2D) finite difference modelling. First, the water loading effects on the free plate Lamb modes in acrylic and human cortical bone plates were examined. This theoretical study revealed that both the S0and S1mode velocity curves are significantly changed in acrylic: mode jumping occurs between the S0and S1dispersion curves. However, in human cortical bone plates, only the S1mode curve is significantly altered by water loading, with the S0mode exhibiting a small deviation from the unloaded curve. The Lamb wave theory predictions for velocity and attenuation were then tested experimentally on acrylic plates using an axial transmission technique. Finally, 2D finite difference numerical simulations of the experimental measurements were performed. The predictions from Lamb wave theory do not correspond to the measured and simulated first arrival signal (FAS) velocity and attenuation results for acrylic and human cortical bone plates obtained using the axial transmission technique, except in very thin plates.

Published

2006

11. Antibiotic Elution from Bone Cement: A Study of Common Cement-Antibiotic Combinations

Author

Armstrong, M., Spencer, R.F., Lovering, A.M., Gheduzzi, S., Miles, A.W., and Learmonth, I.D.

Abstract

The in vitro antibiotic elution characteristics (including the effects of cement fracture) of the following cements were studied: 1) CMW 1 with gentamicin, 2) Palacos R with gentamicin, 3) Palacos LV with gentamicin, 4) CMW 1 with gentamicin and vancomycin, 5) Palacos R with gentamicin and vancomycin, 6) CMW 1 with gentamicin and flucloxacillin, and 7) Palacos R with gentamicin and flucloxacillin. Elution of both gentamicin and vancomycin was satisfactory in all cases. There tended to be a peak of antibiotic release on cement fracture, suggesting sequestration of active antibiotic within deeper layers of the cement. Palacos LV exhibited the best antibiotic elution characteristics but with the highest post-fracture peak. Palacos R was superior to CMW 1. Flucloxacillin was present only until day 4. Adulteration of proprietary Palacos R/gentamicin with flucloxacillin produced prolonged high elution of gentamicin, possibly due to porosity. Flucloxacilloic acid (micro-biologically inactive) was present from day 4 onwards after flucloxacillin was added to cement. These findings suggest that flucloxacillin is not a suitable additive to bone cement in revision surgery.

Published

2002

12. The biomechanics of lag screw insertion: a comparison of the Synthes Dynamic Hip Screw, Dynamic Helical Hip Screw, Proximal Femoral Nail Antirotation and the Stryker Gamma 3 lag screws.

Author

McCarthy, M.J.H., McFarlane, J., Long, R., Weston, R., Gheduzzi, S., Keenan, J., and Miles, A.

Published

2010