Effects of heat treatment of spherical shape tetracalcium phosphate on the reactivity and injectability of apatite cement

Research output: Contribution to journalConference article

Abstract

Although injectability through syringe is one of the key advantages of apatite cement (AC), injectability of current AC is not satisfactory for its clinical use. In this investigation, therefore, effects of powder shape on injectability were studied using spherical tetracalcium phosphate (s-TTCP) prepared with plasma melting method. Bulk density of AC using s-TTCP (s-AC) was 1.13 ± 0.04g/cc and this value was significantly larger than AC using irregular TTCP (i-TTCP) (i-AC) which was 0.61 ± 0.02 (g/cc). Also we found better injectability in the case of i-AC. For example, cement spread area used as an index of consistency of the s-AC paste was 512 mm2 whereas that of ordinary AC with irregular TTCP (i-AC) was 158 mm2 when powder to liquid mixing ratio was 2.5. However, diametral tensile strength of set s-AC (1.4 MPa) was significantly lower than i-AC (10.7 MPa). X-ray powder diffraction (XRD) analysis revealed limited transformation to apatite in the case of set s-AC. XRD analysis also revealed that trace amount of thermal decomposition products were formed in the case of s-TTCP. To avoid the drawback due to plasma melting method, s-TTCP was again heated to 1500 degree for four hours and quenched to room temperature (q-TTCP). AC using q-TTCP (q-AC) transformed to apatitic mineral and showed the similar DTS value with i-AC. We concluded, therefore, spherical powder is very useful to improve the injectability of AC. Also, we found re-heat treatment of TTCP is useful if s-TTCP is prepared using plasma melting method.

Original languageEnglish
Pages (from-to)3177-3182
Number of pages6
JournalMaterials Science Forum
Volume426-432
Issue number4
Publication statusPublished - Jul 18 2003
EventThermec 2003 Processing and Manufacturing of Advanced Materials - Madrid, Spain
Duration: Jul 7 2003Jul 11 2003

Fingerprint

Apatites
Apatite
apatites
cements
phosphates
Cements
Phosphates
heat treatment
reactivity
Heat treatment
Powders
tetracalcium phosphate
Melting
melting
Plasmas
X ray powder diffraction
syringes
Syringes

All Science Journal Classification (ASJC) codes

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

Cite this

Effects of heat treatment of spherical shape tetracalcium phosphate on the reactivity and injectability of apatite cement. / Ishikawa, Kunio.

In: Materials Science Forum, Vol. 426-432, No. 4, 18.07.2003, p. 3177-3182.

Research output: Contribution to journalConference article

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abstract = "Although injectability through syringe is one of the key advantages of apatite cement (AC), injectability of current AC is not satisfactory for its clinical use. In this investigation, therefore, effects of powder shape on injectability were studied using spherical tetracalcium phosphate (s-TTCP) prepared with plasma melting method. Bulk density of AC using s-TTCP (s-AC) was 1.13 ± 0.04g/cc and this value was significantly larger than AC using irregular TTCP (i-TTCP) (i-AC) which was 0.61 ± 0.02 (g/cc). Also we found better injectability in the case of i-AC. For example, cement spread area used as an index of consistency of the s-AC paste was 512 mm2 whereas that of ordinary AC with irregular TTCP (i-AC) was 158 mm2 when powder to liquid mixing ratio was 2.5. However, diametral tensile strength of set s-AC (1.4 MPa) was significantly lower than i-AC (10.7 MPa). X-ray powder diffraction (XRD) analysis revealed limited transformation to apatite in the case of set s-AC. XRD analysis also revealed that trace amount of thermal decomposition products were formed in the case of s-TTCP. To avoid the drawback due to plasma melting method, s-TTCP was again heated to 1500 degree for four hours and quenched to room temperature (q-TTCP). AC using q-TTCP (q-AC) transformed to apatitic mineral and showed the similar DTS value with i-AC. We concluded, therefore, spherical powder is very useful to improve the injectability of AC. Also, we found re-heat treatment of TTCP is useful if s-TTCP is prepared using plasma melting method.",
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