Materials (Jan 2022)

Mineralization in a Critical Size Bone-Gap in Sheep Tibia Improved by a Chitosan-Calcium Phosphate-Based Composite as Compared to Predicate Device

  • Gissur Örlygsson,
  • Elín H. Laxdal,
  • Sigurbergur Kárason,
  • Atli Dagbjartsson,
  • Eggert Gunnarsson,
  • Chuen-How Ng,
  • Jón M. Einarsson,
  • Jóhannes Gíslason,
  • Halldór Jónsson

DOI
https://doi.org/10.3390/ma15030838
Journal volume & issue
Vol. 15, no. 3
p. 838

Abstract

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Deacetylated chitin derivatives have been widely studied for tissue engineering purposes. This study aimed to compare the efficacy of an injectable product containing a 50% deacetylated chitin derivative (BoneReg-Inject™) and an existing product (chronOS Inject®) serving as a predicate device. A sheep model with a critical size drill hole in the tibial plateau was used. Holes of 8 mm diameter and 30 mm length were drilled bilaterally into the proximal area of the tibia and BoneReg-Inject™ or chronOS Inject® were injected into the right leg holes. Comparison of resorption and bone formation in vivo was made by X-ray micro-CT and histological evaluation after a live phase of 12 weeks. Long-term effects of BoneReg-Inject™ were studied using a 13-month live period. Significant differences were observed in (1) amount of new bone within implant (p TM, (2) signs of cartilage tissue (p = 0.003), more pronounced in BoneReg-InjectTM, and (3) signs of fibrous tissue (p TM. Mineral content at 13 months postoperative was significantly higher than at 12 weeks (p p < 0.05, for implant core and rim, respectively). The data demonstrate the potential of deacetylated chitin derivatives to stimulate bone formation.

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