Can anodised zirconium implants stimulate bone formation? Preliminary study in rat model

The mechanical properties and good biocompatibility of zirconium and some of its alloys make these materials good candidates for biomedical applications. The attractive in vivo performance of zirconium is mainly due to the presence of a protective oxide layer. In this preliminary study, the surface...

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Published in:	Progress in biomaterials Vol. 3; no. 1; pp. 24 - 10
Main Authors:	Katunar, Maria R., Gomez Sanchez, Andrea, Ballarre, Josefina, Baca, Matias, Vottola, Carlos, Orellano, Juan C., Schell, Hanna, Duffo, Gustavo, Cere, Silvia
Format:	Journal Article
Language:	English
Published:	Berlin/Heidelberg Springer Berlin Heidelberg 01-06-2014 Springer Nature B.V
Subjects:	Apposition Biocompatibility Biomaterials Biomedical materials Bone growth Bone implants Chemistry and Materials Science Cylinders In vivo methods and tests Labeling Materials Science Materials selection Mechanical properties Original Research Osseointegration Osteocytes Osteogenesis Osteotomy Oxides Scanning electron microscopy Surgery Surgical implants Transplants & implants Zirconium Orthopaedic implant Osseointegration In vivo model Zirconium Anodisation
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Abstract	The mechanical properties and good biocompatibility of zirconium and some of its alloys make these materials good candidates for biomedical applications. The attractive in vivo performance of zirconium is mainly due to the presence of a protective oxide layer. In this preliminary study, the surface of pure zirconium modified by anodisation in acidic media at low potentials to enhance its barrier protection given by the oxides and osseointegration. Bare, commercially pure zirconium cylinders were compared to samples anodised at 30 V through electrochemical tests and scanning electron microscopy (SEM). For both conditions, in vivo tests were performed in a rat tibial osteotomy model. The histological features and fluorochrome-labelling changes of newly bone formed around the implants were evaluated on the non-decalcified sections 63 days after surgery. Electrochemical tests and SEM images show that the anodisation treatment increases the barrier effect over the material and the in vivo tests show continuous newly formed bone around the implant with a different amount of osteocytes in their lacunae depending on the region. There was no significant change in bone thickness around either kind of implant but the anodised samples had a significantly higher mineral apposition, suggesting that the anodisation treatment stimulates and assists the osseointegration process. We conclude that anodisation treatment at 30 V can stimulate the implant fixation in a rat model, making zirconium a strong candidate material for permanent implants.
AbstractList	The mechanical properties and good biocompatibility of zirconium and some of its alloys make these materials good candidates for biomedical applications. The attractive in vivo performance of zirconium is mainly due to the presence of a protective oxide layer. In this preliminary study, the surface of pure zirconium modified by anodisation in acidic media at low potentials to enhance its barrier protection given by the oxides and osseointegration. Bare, commercially pure zirconium cylinders were compared to samples anodised at 30 V through electrochemical tests and scanning electron microscopy (SEM). For both conditions, in vivo tests were performed in a rat tibial osteotomy model. The histological features and fluorochrome-labelling changes of newly bone formed around the implants were evaluated on the non-decalcified sections 63 days after surgery. Electrochemical tests and SEM images show that the anodisation treatment increases the barrier effect over the material and the in vivo tests show continuous newly formed bone around the implant with a different amount of osteocytes in their lacunae depending on the region. There was no significant change in bone thickness around either kind of implant but the anodised samples had a significantly higher mineral apposition, suggesting that the anodisation treatment stimulates and assists the osseointegration process. We conclude that anodisation treatment at 30 V can stimulate the implant fixation in a rat model, making zirconium a strong candidate material for permanent implants. The mechanical properties and good biocompatibility of zirconium and some of its alloys make these materials good candidates for biomedical applications. The attractive in vivo performance of zirconium is mainly due to the presence of a protective oxide layer. In this preliminary study, the surface of pure zirconium modified by anodisation in acidic media at low potentials to enhance its barrier protection given by the oxides and osseointegration. Bare, commercially pure zirconium cylinders were compared to samples anodised at 30 V through electrochemical tests and scanning electron microscopy (SEM). For both conditions, in vivo tests were performed in a rat tibial osteotomy model. The histological features and fluorochrome-labelling changes of newly bone formed around the implants were evaluated on the non-decalcified sections 63 days after surgery. Electrochemical tests and SEM images show that the anodisation treatment increases the barrier effect over the material and the in vivo tests show continuous newly formed bone around the implant with a different amount of osteocytes in their lacunae depending on the region. There was no significant change in bone thickness around either kind of implant but the anodised samples had a significantly higher mineral apposition, suggesting that the anodisation treatment stimulates and assists the osseointegration process. We conclude that anodisation treatment at 30 V can stimulate the implant fixation in a rat model, making zirconium a strong candidate material for permanent implants.
ArticleNumber	24
Author	Ballarre, Josefina Orellano, Juan C. Katunar, Maria R. Cere, Silvia Vottola, Carlos Duffo, Gustavo Schell, Hanna Baca, Matias Gomez Sanchez, Andrea
Author_xml	– sequence: 1 givenname: Maria R. surname: Katunar fullname: Katunar, Maria R. email: mkatunar@fi.mdp.edu.ar organization: Corrosion Division, INTEMA, Universidad Nacional de Mar del Plata-CONICET – sequence: 2 givenname: Andrea surname: Gomez Sanchez fullname: Gomez Sanchez, Andrea organization: Corrosion Division, INTEMA, Universidad Nacional de Mar del Plata-CONICET – sequence: 3 givenname: Josefina surname: Ballarre fullname: Ballarre, Josefina organization: Corrosion Division, INTEMA, Universidad Nacional de Mar del Plata-CONICET – sequence: 4 givenname: Matias surname: Baca fullname: Baca, Matias organization: Traumatologia y Ortopedia, Hospital Interzonal General de Agudos “Oscar Alende” – sequence: 5 givenname: Carlos surname: Vottola fullname: Vottola, Carlos organization: Traumatologia y Ortopedia, Hospital Interzonal General de Agudos “Oscar Alende” – sequence: 6 givenname: Juan C. surname: Orellano fullname: Orellano, Juan C. organization: Traumatologia y Ortopedia, Hospital Interzonal General de Agudos “Oscar Alende” – sequence: 7 givenname: Hanna surname: Schell fullname: Schell, Hanna organization: Center of Muskuloeskeletal Surgery, Charite-Universitätsmedizin Berlin – sequence: 8 givenname: Gustavo surname: Duffo fullname: Duffo, Gustavo organization: Departamento de Materiales, Comisión Nacional de Energía Atómica, CONICET, Universidad Nacional de Gral. San Martín – sequence: 9 givenname: Silvia surname: Cere fullname: Cere, Silvia organization: Corrosion Division, INTEMA, Universidad Nacional de Mar del Plata-CONICET
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Keywords	Orthopaedic implant Osseointegration In vivo model Zirconium Anodisation
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Snippet	The mechanical properties and good biocompatibility of zirconium and some of its alloys make these materials good candidates for biomedical applications. The...
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SubjectTerms	Apposition Biocompatibility Biomaterials Biomedical materials Bone growth Bone implants Chemistry and Materials Science Cylinders In vivo methods and tests Labeling Materials Science Materials selection Mechanical properties Original Research Osseointegration Osteocytes Osteogenesis Osteotomy Oxides Scanning electron microscopy Surgery Surgical implants Transplants & implants Zirconium
Title	Can anodised zirconium implants stimulate bone formation? Preliminary study in rat model
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