Assessment of prolonged tissue response to porousiron implant by radiodensity approach

@article{Siallagan2015AssessmentOP,
  title={Assessment of prolonged tissue response to porousiron implant by radiodensity approach},
  author={Sitaria Fransiska Siallagan and Gunanti and Arlita Sariningrum and Devi Paramitha and Mokhamad Fakhrul Ulum and Hendra Hermawan and Deni Noviana},
  journal={2015 4th International Conference on Instrumentation, Communications, Information Technology, and Biomedical Engineering (ICICI-BME)},
  year={2015},
  pages={237-240}
}
Porous iron has been recently introduced as new biomaterials for bone scaffolds. As a metal that degrades in the in vivo setting (biodegradable metal), little has been known for its cell-material interaction within the living tissue especially in the view of its applications for bone implant materials. Therefore, the aim of this study is to assess tissue response to the implantation of porous iron in the in vivo setting using rats as animal model and radiographic examination. Ten adult Sprague… CONTINUE READING

Figures from this paper.

References

Publications referenced by this paper.
SHOWING 1-10 OF 17 REFERENCES

Gunanti

B. Panjaitan, D. Noviana
  • I. Sukmana, M. F. Ulum.” Radiodensity Study of Hydroxyapatite Coated Porous Tantalum Implant Material of Rat Animal Model”. AMR, vol. 1112, pp. 470-473
  • 2015
VIEW 1 EXCERPT

H

M. F. Ulum, A. K. Nasution, +4 authors D. Noviana
  • Hermawan,” Evidences of in vivo bioactivity of Fe-bioceramic composites for temporary bone implants”, J Biomed Mater Res B Appl Biomater, vol. 103, pp 1354-1365
  • 2015
VIEW 2 EXCERPTS

Y

K. Ozkan, I. Turkmen, A. Sahin
  • Yildiz,S. Erturk, M. S. Soyleme ,” A biomechanical comparison of proximal femoral nails and locking proximal anatomic femoral plates in femoral fracture fixation”, Indian J Orthrop, vol 49, pp. 347-351
  • 2015
VIEW 2 EXCERPTS

Microstructural and mechanical characteristics of porous iron prepared by powder metallurgy.

  • Materials science & engineering. C, Materials for biological applications
  • 2014
VIEW 1 EXCERPT

“Distribution of Fe-based degradable materials in mice skeletal muscle”

D. Paramitha, S. Estuningsih, D. Noviana, M. F. Ulum, H. Hermawan
  • European Cells and Materials, vol. 26, pp. 55
  • 2013
VIEW 2 EXCERPTS