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Journal ArticleDOI

Accurate characterization of pure silicon-substituted hydroxyapatite powders synthesized by a new precipitation route

David Marchat1, Maria Zymelka1, Cristina Coelho2, Laurent Gremillard3, Lucile Joly-Pottuz3, Florence Babonneau2, Claude Esnouf3, Jérôme Chevalier3, Didier Bernache-Assollant1 
Ecole nationale supérieure des mines de Saint-Étienne1, Pierre-and-Marie-Curie University2, University of Lyon3
01 Jun 2013-Acta Biomaterialia (Acta Biomater)-Vol. 9, Iss: 6, pp 6992-7004
TL;DR: The results, particularly those from infrared spectroscopy, raise serious reservations about the phase purity of previously prepared and biologically evaluated SiHA powders, pellets and scaffolds in the literature.
About: This article is published in Acta Biomaterialia.The article was published on 2013-06-01 and is currently open access. It has received 88 citations till now. The article focuses on the topics: Infrared spectroscopy & Fourier transform infrared spectroscopy.

Summary (1 min read)

Jump to: [1. Introduction][2.1 Powder synthesis][2.2.1 X-ray powder diffraction and Rietveld refinement][2.2.4 Electron microscopy (HR-TEM, SAED and EDX)] and [3.2.4 Electron microscopy]

1. Introduction

  • In order to correctly describe the physical, chemical and biological properties of SiHAs and to compare them to routinely implanted HA and β-TCP, well-characterized pure SiHAs powders first need to be prepared.
  • Therefore, this work was devoted to the development of a new route to synthesize monophasic SiHA powders with controlled stoichiometry.
  • To this purpose, a solution of soluble silicate was first prepared from TEOS via a sol-gel route, and then accurate powder analysis was carried out by means of ICP/AES, Xray powder diffraction, Rietveld refinement, high resolution electron transmission microscopy (HR-TEM) with energy dispersive spectroscopy (EDS) as well as infrared (FT-IR/ATR) and solid-state NMR spectroscopy.
  • Two pH levels of precipitation were studied, as well as six Si/P molar ratios.

2.1 Powder synthesis

  • The as-synthesized powders were heated under air using an alumina crucible.
  • The heating and cooling rate was fixed at 4°C min -1 .

2.2.1 X-ray powder diffraction and Rietveld refinement

  • Crystalline phases were identified by means of a Siemens D5000 θ/2θ X-ray diffractometer.
  • The evolution of the crystallinity of the samples after calcination at 1000°C for 15 h was evaluated by means of the full width at half maximum (FWHM) of the (211) peak at 2θ=31.8°, as it had the highest intensity and minimal overlap with neighboring peaks.

2.2.4 Electron microscopy (HR-TEM, SAED and EDX)

  • Gold was then distributed as crystallized nano-domains which were used as a reference in the selected area electron diffraction (SAED) patterns to calculate as precisely as possible the lattice parameters.
  • The SAED patterns obtained from regions with or without gold on the HA part were the same.

3.2.4 Electron microscopy

  • The results are the average of about ten intervals per pattern.
  • Moreover, other experimental patterns for different zone axes (not shown here) were obtained and compared to theoretical electron diffraction patterns calculated by means of the Java Electron Microscopy Simulation (JEMS) software [87] .
  • The results indicate that the experimental and simulated patterns are perfectly superimposed for 0.734 ≥ c/a ≥ 0.729.

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Citations
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Journal ArticleDOI
Silicon: the evolution of its use in biomaterials.

[...]

James R. Henstock1, L. T. Canham, Susan I. Anderson2
Keele University1, University of Nottingham2
01 Jan 2015-Acta Biomaterialia
TL;DR: This review discusses the current data obtained from original research in biochemistry and biomaterials science supporting the role of silicon in bone, comparing both the biological function of the element and analysing the evolution of silicon-containing biommaterials.

150 citations

Book ChapterDOI
Cationic and Anionic Substitutions in Hydroxyapatite

[...]

Ilaria Cacciotti1
Sapienza University of Rome1
01 Jan 2015

100 citations

Journal ArticleDOI
Biodegradable and Biocompatible Systems Based on Hydroxyapatite Nanoparticles

[...]

Pau Turon, Luis J. del Valle, Carlos Alemán, Jordi Puiggalí
06 Jan 2017-Applied Sciences
TL;DR: The present review is mainly focused on both the capability of HAp nanoparticles to encapsulate diverse compounds as well as the preparation methods of scaffolds incorporating HAp.
Abstract: Composites of hydroxyapatite (HAp) are widely employed in biomedical applications due to their biocompatibility, bioactivity and osteoconductivity properties. In fact, the development of industrially scalable hybrids at low cost and high efficiency has a great impact, for example, on bone tissue engineering applications and even as drug delivery systems. New nanocomposites constituted by HAp nanoparticles and synthetic or natural polymers with biodegradable and biocompatible characteristics have constantly been developed and extensive works have been published concerning their applications. The present review is mainly focused on both the capability of HAp nanoparticles to encapsulate diverse compounds as well as the preparation methods of scaffolds incorporating HAp. Attention has also been paid to the recent developments on antimicrobial scaffolds, bioactive membranes, magnetic scaffolds, in vivo imaging systems, hydrogels and coatings that made use of HAp nanoparticles.

83 citations

Journal ArticleDOI
In vitro three-dimensional bone tissue models: from cells to controlled and dynamic environment.

[...]

Guenaelle Bouet1, David Marchat, Magali Cruel, Luc Malaval, Laurence Vico 
French Institute of Health and Medical Research1
01 Feb 2015-Tissue Engineering Part B-reviews
TL;DR: This review focuses on state-of-the-art and the current advances in the development of 3D culture systems for bone biology research, and details main characteristics and challenges associated with its three main components, that is, scaffold, cells, and perfusion bioreactor systems.
Abstract: Most of our knowledge of bone cell physiology is derived from experiments carried out in vitro on polystyrene substrates However, these traditional monolayer cell cultures do not reproduce the complex and dynamic 3-dimensional (3D) environment experienced by cells in vivo Thus, there is a growing interest in the use of 3D culture systems as tools for understanding bone biology These in vitro engineered systems, less complex than in vivo models, should ultimately recapitulate and control the main biophysical, biochemical and biomechanical cues that define the in vivo bone environment, while allowing their monitoring This review focuses on state of the art and the current advances in the development of 3D culture systems for bone biology research It describes more specifically advantages related to the use of such systems, and details main characteristics and challenges associated with its three main components, ie scaffold, cells and perfusion bioreactor systems Finally, future challenges for non-invasive imaging technologies are addressed

80 citations

Journal ArticleDOI
Ionic substituted hydroxyapatite for bone regeneration applications: A review

[...]

Antonia Ressler1, Andreja Žužić1, Irena Ivanišević1, Nikhil Kamboj2, Hrvoje Ivanković1 
University of Zagreb1, Tallinn University of Technology2
01 Jun 2021
TL;DR: In this paper, a review summarises recent and relevant studies on cationic and anionic substitutions in the HAp lattice that are commonly found in the human body.
Abstract: Biological apatites are characterised by various ionic substitutions within the HAp lattice that are crucial for bone metabolism. The introduction of key role elements within synthetic calcium phosphates (CaP), mainly hydroxyapatite (HAp), can increase osteogenesis and enhance bone regeneration process. The lattice structure of HAp enables cationic and anionic substitutions leading to the enhanced biological performance of synthetic bone graft materials. This review summarises recent and relevant studies on cationic and anionic substitutions in the HAp lattice that are commonly found in the human body. Furthermore, co-substituted HAp obtained from synthetic and biological precursors, along with their influence on the bone regeneration process, has been discussed. Finally, future perspectives for the use of substituted HAp have been presented.

77 citations

References
More filters
Journal ArticleDOI
Si complexes in calcium phosphate biomaterials

[...]

P. Gillespie1, Gang Wu1, Michael Sayer1, Malcolm J. Stott1
Queen's University1
01 Jan 2010-Journal of Materials Science: Materials in Medicine
TL;DR: NMR results showed that in all three materials the silicon dopants formed Q1 structures in which two silicate tetrahedra share an oxygen, creating an oxygen vacancy which compensated the substitution of two silicon for phosphorus, may explain the phase evolution previously found where silicon stabilized α-TCP is found at low temperature after sintering.
Abstract: Silicon complexes in silicon doped calcium phosphate bioceramics have been studied using 29Si magic angle spinning nuclear magnetic resonance spectroscopy with the objective of identifying the charge compensation mechanisms of silicon dopants. Three different materials have been studied: a multiphase material composed predominantly of a silicon stabilized α-tricalcium phosphate (α-TCP) phase plus a hydroxyapatite (HA) phase, a single phase Si-HA material and a single phase silicon stabilized α-TCP material. NMR results showed that in all three materials the silicon dopants formed Q1 structures in which two silicate tetrahedra share an oxygen, creating an oxygen vacancy which compensated the substitution of two silicon for phosphorus. This finding may explain the phase evolution previously found where silicon stabilized α-TCP is found at low temperature after sintering.

18 citations

"Accurate characterization of pure s..." refers methods in this paper

  • ...107 Several methods are used to prepare Si-substituted hydroxyapatites (SiHAs), such as 108 the sol-gel route [48], resuspension processes [20, 33, 34, 63-66], solid state reactions [10, 109 67], hydrothermal techniques [17, 68, 69], mechanoc hemical methods [70], magnetron 110 sputtering [14], pulsed laser deposition [51, 71], electrophoretic deposition [72] and 111 precipitation from aqueous solutions....

    [...]

Journal ArticleDOI
Porous Silica by the Sol-Gel Process

[...]

Lisa C. Klein1, R.H. Woodmann
Rutgers University1
01 Sep 1995-Key Engineering Materials

17 citations

"Accurate characterization of pure s..." refers background in this paper

  • ...[80], was carried o ut by maintaining the molar ratio of 152...

    [...]

Journal ArticleDOI
Étude de l'évolution de l'orthophosphate tricalcique non cristallin en phosphate apatitique à la faveur d'une réaction chimique, à température ordinaire

[...]

J.-C. Heughebaert1, G. Montel1
National Polytechnic Institute of Toulouse1
01 May 1977
TL;DR: In this article, le phosphate tricalcique non cristallin Ca9(PO4) 6, nH2O subit des sa precipitation, a hydrolyse conduisant a la formation dans le solide d'ions HPO2-4 and OH, is revelee par un phenomene endothermique correspondant a ΔH = + 12,9 ± 2,0 kJ/kg de precipite calcine a 900 C.
Abstract: Le phosphate tricalcique non cristallin Ca9(PO4) 6, nH2O subit des sa precipitation une hydrolyse conduisant a la formation dans le solide d'ions HPO2-4 et OH - : en isotherme la teneur en ces ions croit en fonction du temps jusqu'a un compose limite Ca9□(HPO4) (PO4) 5(OH) □. Cette hydrolyse est revelee par un phenomene endothermique correspondant a ΔH = + 12,9 ± 2,0 kJ/kg de precipite calcine a 900 C. Au voisinage de la demi-reaction, le solide non cristallin cristallise en apatite : ce phenomene est revele par un pic exothermique correspondant a ΔH = — 6,1 ± 1,0 kJ/kg de precipite calcine a 900 C. L'existence de ce phenomene exothermique a mi-hydrolyse permet de determiner l'energie d'activation de l'hydrolyse E = 105,3 ± 5,8 kJ/mole.

13 citations

"Accurate characterization of pure s..." refers background in this paper

  • ...However, the most probable limit comes from work 509 of Heughebaert and Montel on the crystallization of calcium phosphates during precipitation 510 [108, 109]....

    [...]

Journal ArticleDOI
Near IR absorption in films of silicon containing oxygen

[...]

S. O. Sari1, P. Hollingsworth Smith1, H. Oona1
University of Arizona1
01 Jan 1978-Journal of Physics and Chemistry of Solids
TL;DR: In this article, a novel reflectance effect has been used to extract new information about oxygen impurity states in silane-vapor-deposited silicon films and a comparison to IR measurements in crystalline silicon yields a substantial wavelength shift of the characteristic 9-μm oxygen transition and may suggest increased film impurity absorption in comparison to the bulk.

12 citations

Journal ArticleDOI
The Osteogenic Behaviour of Silicon Substituted Hydroxyapatite

[...]

Serena M. Best1, Shuo Zou1, Roger A. Brooks1, Jie Huang2, Neil Rushton1, William Bonfield1 
University of Cambridge1, University College London2
01 Nov 2007-Key Engineering Materials
TL;DR: In this article, dense and porous HA and Si-HA discs and granules with varying percentages of silicon substitution have been produced and physically and chemically characterised using scanning electron microscopy, surface area analysis, porosimetry, density measurement, image analysis, Xray diffraction, X-ray fluorescence, FT-infrared spectroscopy and in-vitro and invivo testing.
Abstract: Dense and porous HA and Si-HA discs and granules with varying percentages of silicon substitution have been produced and physically and chemically characterised using scanning electron microscopy, surface area analysis, porosimetry, density measurement, image analysis, Xray diffraction, X-ray fluorescence, FT-infrared spectroscopy and in-vitro and in-vivo testing. Results have shown that cell adhesion in-vitro and bone apposition in-vivo are enhanced by the presence of silicon substitution in the hydroxyapatite structure. The biological response to the materials appears to indicate an optimum outcome for levels of silicon substitution of 0.8wt%.

12 citations

"Accurate characterization of pure s..." refers background in this paper

  • ...28 mol Si molSiHA ) is 71 optimal to induce the development of important bioa ctivity [22-24]....

    [...]

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