Biomechanical evaluation of amorphous calcium phosphate coated TNTZ implants prepared using a radiofrequency magnetron sputtering system

Naru Shiraishi; Rong Tu; Risa Uzuka; Takahisa Anada; Takayuki Narushima; Takashi Goto; Mitsuo Niinomi; Keiichi Sasaki; Osamu Suzuki

doi:10.2320/matertrans.M2012078

Biomechanical evaluation of amorphous calcium phosphate coated TNTZ implants prepared using a radiofrequency magnetron sputtering system

Naru Shiraishi, Rong Tu, Risa Uzuka, Takahisa Anada, Takayuki Narushima, Takashi Goto, Mitsuo Niinomi, Keiichi Sasaki, Osamu Suzuki

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Ti29Nb13Ta4.6Zr alloy (TNTZ), a new β-type Ti alloy, has excellent advantages as a biomaterial, such as low Young's modulus and cytotoxicity, and the absence of allergens. However, it is unclear whether TNTZ can achieve sufficient osseointegration for it to be used as a dental implant. The effectiveness of surface modification of TNTZ implants by radiofrequency (RF) magnetron sputtering is also unclear. We investigated the biomechanical behaviors of TNTZ implants in vivo, using cylindrical implants of four types: pure Ti, TNTZ, and pure Ti and TNTZ coated with amorphous calcium phosphate (ACP). The implants were inserted in rat femurs, and the femurs were subjected to biomechanical analyses after various time intervals. The results suggest that TNTZ implants can achieve osseointegration similar to that of pure Ti, and that surface modification with ACP by RF magnetron sputtering improves osseointegration, especially in the later stages of healing.

Original language	English
Pages (from-to)	1343-1348
Number of pages	6
Journal	Materials Transactions
Volume	53
Issue number	7
DOIs	https://doi.org/10.2320/matertrans.M2012078
Publication status	Published - 2012

Keywords

Amorphous calcium phosphate
Dental implant
Osseointegration
Push-in test
Ti29Nb13Ta4.6Zr (TNTZ)

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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title = "Biomechanical evaluation of amorphous calcium phosphate coated TNTZ implants prepared using a radiofrequency magnetron sputtering system",

abstract = "Ti29Nb13Ta4.6Zr alloy (TNTZ), a new β-type Ti alloy, has excellent advantages as a biomaterial, such as low Young's modulus and cytotoxicity, and the absence of allergens. However, it is unclear whether TNTZ can achieve sufficient osseointegration for it to be used as a dental implant. The effectiveness of surface modification of TNTZ implants by radiofrequency (RF) magnetron sputtering is also unclear. We investigated the biomechanical behaviors of TNTZ implants in vivo, using cylindrical implants of four types: pure Ti, TNTZ, and pure Ti and TNTZ coated with amorphous calcium phosphate (ACP). The implants were inserted in rat femurs, and the femurs were subjected to biomechanical analyses after various time intervals. The results suggest that TNTZ implants can achieve osseointegration similar to that of pure Ti, and that surface modification with ACP by RF magnetron sputtering improves osseointegration, especially in the later stages of healing.",

keywords = "Amorphous calcium phosphate, Dental implant, Osseointegration, Push-in test, Ti29Nb13Ta4.6Zr (TNTZ)",

author = "Naru Shiraishi and Rong Tu and Risa Uzuka and Takahisa Anada and Takayuki Narushima and Takashi Goto and Mitsuo Niinomi and Keiichi Sasaki and Osamu Suzuki",

year = "2012",

doi = "10.2320/matertrans.M2012078",

language = "English",

volume = "53",

pages = "1343--1348",

journal = "Materials Transactions",

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T1 - Biomechanical evaluation of amorphous calcium phosphate coated TNTZ implants prepared using a radiofrequency magnetron sputtering system

AU - Shiraishi, Naru

AU - Tu, Rong

AU - Uzuka, Risa

AU - Anada, Takahisa

AU - Narushima, Takayuki

AU - Goto, Takashi

AU - Niinomi, Mitsuo

AU - Sasaki, Keiichi

AU - Suzuki, Osamu

PY - 2012

Y1 - 2012

N2 - Ti29Nb13Ta4.6Zr alloy (TNTZ), a new β-type Ti alloy, has excellent advantages as a biomaterial, such as low Young's modulus and cytotoxicity, and the absence of allergens. However, it is unclear whether TNTZ can achieve sufficient osseointegration for it to be used as a dental implant. The effectiveness of surface modification of TNTZ implants by radiofrequency (RF) magnetron sputtering is also unclear. We investigated the biomechanical behaviors of TNTZ implants in vivo, using cylindrical implants of four types: pure Ti, TNTZ, and pure Ti and TNTZ coated with amorphous calcium phosphate (ACP). The implants were inserted in rat femurs, and the femurs were subjected to biomechanical analyses after various time intervals. The results suggest that TNTZ implants can achieve osseointegration similar to that of pure Ti, and that surface modification with ACP by RF magnetron sputtering improves osseointegration, especially in the later stages of healing.

AB - Ti29Nb13Ta4.6Zr alloy (TNTZ), a new β-type Ti alloy, has excellent advantages as a biomaterial, such as low Young's modulus and cytotoxicity, and the absence of allergens. However, it is unclear whether TNTZ can achieve sufficient osseointegration for it to be used as a dental implant. The effectiveness of surface modification of TNTZ implants by radiofrequency (RF) magnetron sputtering is also unclear. We investigated the biomechanical behaviors of TNTZ implants in vivo, using cylindrical implants of four types: pure Ti, TNTZ, and pure Ti and TNTZ coated with amorphous calcium phosphate (ACP). The implants were inserted in rat femurs, and the femurs were subjected to biomechanical analyses after various time intervals. The results suggest that TNTZ implants can achieve osseointegration similar to that of pure Ti, and that surface modification with ACP by RF magnetron sputtering improves osseointegration, especially in the later stages of healing.

KW - Amorphous calcium phosphate

KW - Dental implant

KW - Osseointegration

KW - Push-in test

KW - Ti29Nb13Ta4.6Zr (TNTZ)

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Biomechanical evaluation of amorphous calcium phosphate coated TNTZ implants prepared using a radiofrequency magnetron sputtering system

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