Histological Comparison of Biological Fixation and Bone Modeling with Canine and Human Porous-Coated Hip Prostheses

The aim of this study was to modify canine coxofemoral prostheses and the clinical evaluation of the implantation. Fifteen canine hips and femora of cadavers were used in order to study the surface points of modification in prostheses and develop a perforation guide. Femoral stems and acetabular components were perforated and coated with biphasic calcium phosphate layer. Twelve young adult male mongrel dogs were implanted with coxofemoral prostheses. Six were operated upon and implanted with cemented canine modular hip prostheses, establishing the control group. The remaining six were implanted with a novel design of cementless porous tricalcic phosphate-hydroxyapatite coated hip prostheses. Clinical and orthopedic performance, complications, and thigh muscular hypotrophy were assessed up to the 120th post-operatory day. After 120 days, animals with cementless prostheses had similar clinical and orthopedic performance compared to the cemented group despite the increased pain thigh hypotrophy. Animals that underwent cementless hip prosthesis evidenced more pain, compared to animals with cemented hip prosthesis that required longer recuperation time. No luxations, two fractures and two isquiatic neurapraxies were identified in the course of the study. Using both the cemented and the bioactive coated cementless model were suitable to dogs, showing clinical satisfactory results. Osseointegration and biological fixation were observed in the animals with the modified cementless hip prosthesis.

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Novel methods for demonstrating osseointegration of hydroxylapatite-coated titanium hip prostheses

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100084478 ◽

1991 ◽

Vol 49 ◽

pp. 34-35 ◽

Cited By ~ 1

Author(s):

P. Frayssinet ◽

J. Hanker ◽

D. Hardy ◽

B. Giammara

Keyword(s):

Hip Prosthesis ◽

Ethanol Concentration ◽

Bone Matrix ◽

Electron Microscopic Examination ◽

Electron Microscopic ◽

Hip Prostheses ◽

Cellular Inclusions ◽

Microscopic Studies ◽

Diamond Saw ◽

Plasma Sprayed

Prostheses implanted in hard tissues cannot be processed for electron microscopic examination or microanalysis in the same way as those in other tissues. For these reasons, we have developed methods allowing light and electron microscopic studies as well as microanalysis of the interface between bone and a metal biomaterial coated by plasma-sprayed hydroxylapatite(HA) ceramic.An HA-coated titanium hip prosthesis (Corail, Landos, France), which had been implanted for two years, was removed after death (unrelated to the orthopaedic problem). After fixation it was dehydrated in solutions of increasing ethanol concentration prior to embedment in polymethylmethacrylate(PMMA). Transverse femur sections were obtained with a diamond saw and the sections then carefully ground to a thickness of 200 microns. Plastic-embedded sections were stained for calcium with a silver methenamine modification of the von Kossa method for calcium staining and coated by carbon. They have been examined by back-scatter SEM on an ISI-SS60 operated at 25 KV. EDAX has been done on cellular inclusions and extracellular bone matrix.

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Analysis of 18F-FDG uptake patterns in PET for diagnosis of septic and aseptic loosening after total hip arthroplasty

Nuklearmedizin ◽

10.1055/s-0038-1625733 ◽

2003 ◽

Vol 42 (06) ◽

pp. 234-239 ◽

Cited By ~ 21

Author(s):

T. Mumme ◽

P. Reinartz ◽

D. Wirtz ◽

F. U. Niethard ◽

U. Büll ◽

...

Keyword(s):

Aseptic Loosening ◽

Femoral Component ◽

Hip Prosthesis ◽

Prosthetic Infection ◽

Clinical Value ◽

Septic Loosening ◽

Hip Prostheses ◽

Fdg Uptake ◽

Positron Emission ◽

Painful Hip

Summary Aim: Identification of typical patterns for fluorodeoxyglucose (FDG) uptake in positron emission tomography (PET) to detect aseptic loosening of hip prosthesis (ace-tabular and/or femoral component) and prosthetic infection. Methods: 18 patients with painful hip prosthesis underwent PET using a dedicated full ring scanner after application of 200-300 MBq FDG. The interface between bone and surrounding soft tissue or bone as displayed on coronal slices was divided into 12 segments in accordance with the classifications of Delee and Gruen. FDG uptake in each of the segments was scored (0-3) by two independent observers. Intraoperative findings were regarded as the gold standard. Results: After surgical revision 14 acetabular components and 9 femoral components were found to be loose and prosthetic infection was present in 7 prostheses. Loosening of the acetabular component was correlated to enhanced uptake in the middle of the acetabular interface, while loosening of the femoral component was correlated to enhanced uptake in the proximal and middle segment of the lateral femoral interface and the proximal segment of the medial femoral interface. A similar pattern was found in prosthetic infection with high uptake along the middle portion of the lateral fe-moral interface. In 6 of 7 infected prostheses loosening of the acetabular and of the femoral component was present. Taking the typical uptake patterns as criteria for loosening and grade 3 uptake as an additional criterion for septic loosening the accuracy of PET imaging in the detection of loosening of the acetabular or the femoral component and of prosthetic infection was 72, 78 and 89%, respectively. Conclusion: This pilot study presents FDG-PET as a promising diagnostic tool for patients with painful hip prostheses. Its clinical value should be evaluated in a larger patient population.

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Biological fixation, transfer and balance of nitrogen in passion fruit (Passiflora edulis Sims) orchard intercropped with different green manure crops

Australian Journal of Crop Science ◽

10.21475/ajcs.19.13.03.p1559 ◽

2019 ◽

Vol 13 ((03) 2019) ◽

pp. 465-471 ◽

Cited By ~ 1

Author(s):

Edilândia Farias Dantas ◽

Ana Dolores Santiago de Freitas ◽

Maria do Carmo Catanho Pereira de Lyra ◽

Carolina Etienne de Rosália e Silva Santos ◽

Stella Jorge de Carvalho Neta ◽

...

Keyword(s):

Cover Crops ◽

Pigeon Pea ◽

Passion Fruit ◽

Biological Fixation ◽

Mineral Fertilization ◽

Passiflora Edulis ◽

Jack Bean ◽

Positive Balance ◽

Sunn Hemp ◽

Passiflora Edulis Sims

Green manures can replace or supplement mineral fertilization and add organic matter to the soils, ensuring greater sustainability to fruit growing in semiarid regions. Biological fixation, transfer and balance of nitrogen were determined on an irrigated yellow passion fruit orchard (Passiflora edulis Sims) intercropped separately with three cover crops: sunn hemp, Crotalaria juncea (L.); pigeon pea, Cajanus cajan (L.) Mill; and jack bean, Canavalia ensiformis (L.) DC. In a fourth treatment, legumes were not planted, but spontaneous vegetation was left to grow freely. The legumes were croped for 90 days in three lines (0.5 m apart) inside the passion fruit plant lines (2.5 m apart). Fixation and transfers were determined by the 15N natural abundance technique, using sunflower as a reference plant. The three planted legumes nodulated abundantly and fixed nitrogen in high proportions (between 50 and 90% of their N), forming symbiosis with bacteria naturally established in the soil. Jack bean produced more biomass than sunn hemp and pigeon pea, and as much as the spontaneous plants, of which 23% were legumes. The amounts of fixed N (150, 43, 30 and 29 kg ha-1) were determined mainly by the biomass of legumes. More than 40% of the N of passion fruit plants came from the biological nitrogen fixation of the intercropped jack bean, which provided an amount of N higher than that exported in the fruits, generating a positive balance of more than 100 kg ha-1. Therefore, it is recommended to intercrop jack bean in irrigated passion fruit orchards.

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Mineralization of Titanium Surfaces: Biomimetic Implants

Materials ◽

10.3390/ma14112879 ◽

2021 ◽

Vol 14 (11) ◽

pp. 2879

Author(s):

Javier Gil ◽

Jose Maria Manero ◽

Elisa Ruperez ◽

Eugenio Velasco-Ortega ◽

Alvaro Jiménez-Guerra ◽

...

Keyword(s):

Calcium Phosphate ◽

Dental Implants ◽

Early Stage ◽

Calcium Phosphates ◽

Biological Fixation ◽

Biomimetic Surfaces ◽

Titanium Surfaces ◽

Deposition Processes ◽

Fast Dissolution ◽

Plasma Sprayed

The surface modification by the formation of apatitic compounds, such as hydroxyapatite, improves biological fixation implants at an early stage after implantation. The structure, which is identical to mineral content of human bone, has the potential to be osteoinductive and/or osteoconductive materials. These calcium phosphates provoke the action of the cell signals that interact with the surface after implantation in order to quickly regenerate bone in contact with dental implants with mineral coating. A new generation of calcium phosphate coatings applied on the titanium surfaces of dental implants using laser, plasma-sprayed, laser-ablation, or electrochemical deposition processes produces that response. However, these modifications produce failures and bad responses in long-term behavior. Calcium phosphates films result in heterogeneous degradation due to the lack of crystallinity of the phosphates with a fast dissolution; conversely, the film presents cracks, which produce fractures in the coating. New thermochemical treatments have been developed to obtain biomimetic surfaces with calcium phosphate compounds that overcome the aforementioned problems. Among them, the chemical modification using biomineralization treatments has been extended to other materials, including composites, bioceramics, biopolymers, peptides, organic molecules, and other metallic materials, showing the potential for growing a calcium phosphate layer under biomimetic conditions.

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