The effect of calcium sulfate with alloplast on the periodontal regeneration in one-wall intrabony defect of beagle dogs

Sung Bae Hong, Young Taek Kim, Kyung Joon Chai, Seongho Choi, Kyoo Sung Cho, Jung Kiu Chai, Chong Kwan Kim

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Calcium sulfate used in this study is newly fabricated to overcome its disadvantages; brittleness, difficult handling properties, rapid resorption and reaction heating. Especially when calcium sulfate is used in the graft procedure, it is difficult to control the setting time, solubility into blood and body fluid. To improve the handling properties, Calcium sulfate is mixed with Carboxylmethylcellulose (CMS). The putty type calcium sulfate used in the present study presented lower values in cementum formation and new bone formation than the control group. This may be due to use of poor osteoinductive calcium sulfate alone in the defect, limiting new bone formation. In addition, complete resorption of calcium sulfate after 8 weeks presents that addition of polymer failed to delay the resorption rate of calcium sulfate. Rather, it seemed to disturb the natural healing of the defect when compared with the findings in the control group. But the favorable result of calcium sulfate is shown when used with alloplast. The material used in the present study was developed for easier formability and manipulation avoiding scattering or dissolving of the material with blood or body fluid. However, the results reveal that further studies on effect of calcium sulfate with various other bone graft materials and ideal ratios in mixing the two should be determined in the future.However, the results reveal that further studies on effect of calcium sulfate with various other bone graft materials and ideal ratios in mixing the two should be determined in the future.

Original languageEnglish
Title of host publicationMulti-functional Materials and Structures - International Conference on Multifunctional Materials and Structures
PublisherTrans Tech Publications
Pages213-217
Number of pages5
ISBN (Print)0878493786, 9780878493784
Publication statusPublished - 2008 Jan 1
EventMulti-functional Materials and Structures - International Conference on Multifunctional Materials and Structures - Hong Kong, P.R., China
Duration: 2008 Jul 282008 Jul 31

Publication series

NameAdvanced Materials Research
Volume47-50 PART 1
ISSN (Print)1022-6680

Other

OtherMulti-functional Materials and Structures - International Conference on Multifunctional Materials and Structures
CountryChina
CityHong Kong, P.R.
Period08/7/2808/7/31

Fingerprint

Calcium
Defects
Bone
Grafts
Body fluids
Blood
Putty
Sulfates
Brittleness
Formability
Solubility
Scattering
Heating
Polymers

All Science Journal Classification (ASJC) codes

  • Engineering(all)

Cite this

Hong, S. B., Kim, Y. T., Chai, K. J., Choi, S., Cho, K. S., Chai, J. K., & Kim, C. K. (2008). The effect of calcium sulfate with alloplast on the periodontal regeneration in one-wall intrabony defect of beagle dogs. In Multi-functional Materials and Structures - International Conference on Multifunctional Materials and Structures (pp. 213-217). (Advanced Materials Research; Vol. 47-50 PART 1). Trans Tech Publications.
Hong, Sung Bae ; Kim, Young Taek ; Chai, Kyung Joon ; Choi, Seongho ; Cho, Kyoo Sung ; Chai, Jung Kiu ; Kim, Chong Kwan. / The effect of calcium sulfate with alloplast on the periodontal regeneration in one-wall intrabony defect of beagle dogs. Multi-functional Materials and Structures - International Conference on Multifunctional Materials and Structures. Trans Tech Publications, 2008. pp. 213-217 (Advanced Materials Research).
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abstract = "Calcium sulfate used in this study is newly fabricated to overcome its disadvantages; brittleness, difficult handling properties, rapid resorption and reaction heating. Especially when calcium sulfate is used in the graft procedure, it is difficult to control the setting time, solubility into blood and body fluid. To improve the handling properties, Calcium sulfate is mixed with Carboxylmethylcellulose (CMS). The putty type calcium sulfate used in the present study presented lower values in cementum formation and new bone formation than the control group. This may be due to use of poor osteoinductive calcium sulfate alone in the defect, limiting new bone formation. In addition, complete resorption of calcium sulfate after 8 weeks presents that addition of polymer failed to delay the resorption rate of calcium sulfate. Rather, it seemed to disturb the natural healing of the defect when compared with the findings in the control group. But the favorable result of calcium sulfate is shown when used with alloplast. The material used in the present study was developed for easier formability and manipulation avoiding scattering or dissolving of the material with blood or body fluid. However, the results reveal that further studies on effect of calcium sulfate with various other bone graft materials and ideal ratios in mixing the two should be determined in the future.However, the results reveal that further studies on effect of calcium sulfate with various other bone graft materials and ideal ratios in mixing the two should be determined in the future.",
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Hong, SB, Kim, YT, Chai, KJ, Choi, S, Cho, KS, Chai, JK & Kim, CK 2008, The effect of calcium sulfate with alloplast on the periodontal regeneration in one-wall intrabony defect of beagle dogs. in Multi-functional Materials and Structures - International Conference on Multifunctional Materials and Structures. Advanced Materials Research, vol. 47-50 PART 1, Trans Tech Publications, pp. 213-217, Multi-functional Materials and Structures - International Conference on Multifunctional Materials and Structures, Hong Kong, P.R., China, 08/7/28.

The effect of calcium sulfate with alloplast on the periodontal regeneration in one-wall intrabony defect of beagle dogs. / Hong, Sung Bae; Kim, Young Taek; Chai, Kyung Joon; Choi, Seongho; Cho, Kyoo Sung; Chai, Jung Kiu; Kim, Chong Kwan.

Multi-functional Materials and Structures - International Conference on Multifunctional Materials and Structures. Trans Tech Publications, 2008. p. 213-217 (Advanced Materials Research; Vol. 47-50 PART 1).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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N2 - Calcium sulfate used in this study is newly fabricated to overcome its disadvantages; brittleness, difficult handling properties, rapid resorption and reaction heating. Especially when calcium sulfate is used in the graft procedure, it is difficult to control the setting time, solubility into blood and body fluid. To improve the handling properties, Calcium sulfate is mixed with Carboxylmethylcellulose (CMS). The putty type calcium sulfate used in the present study presented lower values in cementum formation and new bone formation than the control group. This may be due to use of poor osteoinductive calcium sulfate alone in the defect, limiting new bone formation. In addition, complete resorption of calcium sulfate after 8 weeks presents that addition of polymer failed to delay the resorption rate of calcium sulfate. Rather, it seemed to disturb the natural healing of the defect when compared with the findings in the control group. But the favorable result of calcium sulfate is shown when used with alloplast. The material used in the present study was developed for easier formability and manipulation avoiding scattering or dissolving of the material with blood or body fluid. However, the results reveal that further studies on effect of calcium sulfate with various other bone graft materials and ideal ratios in mixing the two should be determined in the future.However, the results reveal that further studies on effect of calcium sulfate with various other bone graft materials and ideal ratios in mixing the two should be determined in the future.

AB - Calcium sulfate used in this study is newly fabricated to overcome its disadvantages; brittleness, difficult handling properties, rapid resorption and reaction heating. Especially when calcium sulfate is used in the graft procedure, it is difficult to control the setting time, solubility into blood and body fluid. To improve the handling properties, Calcium sulfate is mixed with Carboxylmethylcellulose (CMS). The putty type calcium sulfate used in the present study presented lower values in cementum formation and new bone formation than the control group. This may be due to use of poor osteoinductive calcium sulfate alone in the defect, limiting new bone formation. In addition, complete resorption of calcium sulfate after 8 weeks presents that addition of polymer failed to delay the resorption rate of calcium sulfate. Rather, it seemed to disturb the natural healing of the defect when compared with the findings in the control group. But the favorable result of calcium sulfate is shown when used with alloplast. The material used in the present study was developed for easier formability and manipulation avoiding scattering or dissolving of the material with blood or body fluid. However, the results reveal that further studies on effect of calcium sulfate with various other bone graft materials and ideal ratios in mixing the two should be determined in the future.However, the results reveal that further studies on effect of calcium sulfate with various other bone graft materials and ideal ratios in mixing the two should be determined in the future.

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M3 - Conference contribution

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Hong SB, Kim YT, Chai KJ, Choi S, Cho KS, Chai JK et al. The effect of calcium sulfate with alloplast on the periodontal regeneration in one-wall intrabony defect of beagle dogs. In Multi-functional Materials and Structures - International Conference on Multifunctional Materials and Structures. Trans Tech Publications. 2008. p. 213-217. (Advanced Materials Research).