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Literature DB >> 18704657

Injectable acrylic bone cements for vertebroplasty based on a radiopaque hydroxyapatite. Formulation and rheological behaviour.

Abstract

The utilization of injectable acrylic bone cement is crucial to the outcome of vertebroplasty and kyphoplasty. However, only a few cements that are in clinical use today are formulated specifically for use in these procedures and even these formulations are not regarded as "ideal" injectable bone cements. The aim of this work is to prepare bioactive bone cements by adding strontium hydroxyapatite (SrHA) to a cement formulation based on polymethylmethacrylate. Thus, the cement combines the immediate mechanical support given by the setting of the acrylic matrix with optimum radiopacity and bioactivity due to the incorporation of the SrHA. Formulations of bioactive cement were prepared with 10 and 20 wt% of SrHA as synthesised and after a surface treatment with the monomer. Cements loaded with treated particles showed an enhancement of their handling properties, and hence, an improvement on their rheological behaviour, injectabilities and compressive parameters. Further experiments were also carried out to determine their bioactivity and biocompatibility and results appear in other publication.

Entities: Chemical

Mesh：

Substances：

Year: 2008 PMID： 18704657 DOI： 10.1007/s10856-008-3542-y

Source DB: PubMed Journal: J Mater Sci Mater Med ISSN： 0957-4530 Impact factor: 3.896

21 in total

1. Bioactive polymethyl methacrylate-based bone cement: comparison of glass beads, apatite- and wollastonite-containing glass-ceramic, and hydroxyapatite fillers on mechanical and biological properties.

Authors: S Shinzato; M Kobayashi; W F Mousa; M Kamimura; M Neo; Y Kitamura; T Kokubo; T Nakamura
Journal: J Biomed Mater Res Date: 2000-08

2. Strontium-containing hydroxyapatite bioactive bone cement in revision hip arthroplasty.

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Journal: Biomaterials Date: 2006-05-02 Impact factor: 12.479

3. Burst fracture of the spine involving vertebrae presenting no other lesions: the role of vertebroplasty.

Authors: Nicolas Amoretti; Etienne Hovorka; Pierre-Yves Marcy; Carinne Lamasse; Philippe Brunner; Christian Roux; Patrick Chevallier; Pascal Boileau; Jean-Noël Bruneton
Journal: Clin Imaging Date: 2005 Nov-Dec Impact factor: 1.605

4. Biocement--a new material. Results of its experimental use for osseous repair of skull cap defects with lesions of the dura mater and liquorrhea, reconstruction of the anterior wall of the frontal sinuses and fixation of alloimplants.

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Journal: Acta Otolaryngol Date: 1982 Sep-Oct Impact factor: 1.494

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Authors: S M Belkoff; J M Mathis; E M Erbe; D C Fenton
Journal: Spine (Phila Pa 1976) Date: 2000-05-01 Impact factor: 3.468

6. New aspects of the effect of size and size distribution on the setting parameters and mechanical properties of acrylic bone cements.

Authors: B Pascual; B Vázquez; M Gurruchaga; I Goñi; M P Ginebra; F J Gil; J A Planell; B Levenfeld; J San Román
Journal: Biomaterials Date: 1996-03 Impact factor: 12.479

7. Increasing hydroxyapatite incorporation into poly(methylmethacrylate) cement increases osteoblast adhesion and response.

Authors: M J Dalby; L Di Silvio; E J Harper; W Bonfield
Journal: Biomaterials Date: 2002-01 Impact factor: 12.479

8. Injectable acrylic bone cements for vertebroplasty based on a radiopaque hydroxyapatite. Bioactivity and biocompatibility.

Authors: Lidia Hernández; Juan Parra; Blanca Vázquez; Antonio López Bravo; Francisco Collía; Isabel Goñi; Marilo Gurruchaga; Julio San Román
Journal: J Biomed Mater Res B Appl Biomater Date: 2009-01 Impact factor: 3.368

9. Surface treatment of injectable strontium-containing bioactive bone cement for vertebroplasty.

Authors: F Zhao; W W Lu; K D K Luk; K M C Cheung; C T Wong; J C Y Leong; K D Yao
Journal: J Biomed Mater Res B Appl Biomater Date: 2004-04-15 Impact factor: 3.368

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Authors: M Saito; A Maruoka; T Mori; N Sugano; K Hino
Journal: Biomaterials Date: 1994-01 Impact factor: 12.479

9 in total

1. Direct and interactive effects of three variables on properties of PMMA bone cement for vertebral body augmentation.

Authors: Alejandro López; Erik Unosson; Håkan Engqvist; Cecilia Persson
Journal: J Mater Sci Mater Med Date: 2011-04-28 Impact factor: 3.896

2. Synthesis and characterization of calcium phosphate loaded with Ho-166 and Sm-153: a novel biomaterial for treatment of spine metastases.

Authors: B A Donanzam; T P R Campos; I Dalmázio; E S Valente
Journal: J Mater Sci Mater Med Date: 2013-08-03 Impact factor: 3.896

3. Effect of osteoporosis induced by ovariectomy on vertebral bone defect/fracture in rat.

Authors: Geng-Yang Shen; Hui Ren; Jing-Jing Tang; Ting Qiu; Zhi-Da Zhang; Wen-Hua Zhao; Xiang Yu; Jin-Jing Huang; Zhen-Song Yao; Zhi-Dong Yang; Xiao-Bing Jiang
Journal: Oncotarget Date: 2017-09-01

4. Clinical outcome comparison of polymethylmethacrylate bone cement with and without mineralized collagen modification for osteoporotic vertebral compression fractures.

Authors: Xi Wang; Jian-Ming Kou; Yang Yue; Xi-Sheng Weng; Zhi-Ye Qiu; Xi-Feng Zhang
Journal: Medicine (Baltimore) Date: 2018-09 Impact factor: 1.817

5. Cement-augmented screw fixation for calcaneal fracture treatment: a biomechanical study comparing two injectable bone substitutes.

Authors: Konrad F Fuchs; Philipp Heilig; Miriam McDonogh; Sebastian Boelch; Uwe Gbureck; Rainer H Meffert; Stefanie Hoelscher-Doht; Martin C Jordan
Journal: J Orthop Surg Res Date: 2020-11-14 Impact factor: 2.359