Hydrogel-based Delivery of rhBMP-2 Improves Healing of Large Bone Defects Compared With Autograft

Abstract: Background Autologous bone grafting remains the gold standard in the treatment of large bone defects but is limited by tissue availability and donor site morbidity. Recombinant human bone morphogenetic protein-2 (rhBMP-2), delivered with a collagen sponge, is clinically used to treat large bone defects and complications such as delayed healing or nonunion. For the same dose of rhBMP-2, we have shown that a hybrid nanofiber mesh-alginate (NMA-rhBMP-2) delivery system provides longer-term release and increases f… Show more

“…6B, bright red areas with Safranin-O stain). Most bone in the defect appeared to be mature bone, based on the dark red staining with Mallory's modified aniline blue stain (Fig 6C) as described previously [38]. In contrast, the alginate group showed areas of bone interrupted by large pieces of alginate (Fig.…”

“…Here we evaluated the influence of two delivery scaffolds loaded with the same BMP-2 dose of 120 μg/kg (30 μg per average 250 g rat), which falls in the typical range of doses used clinically: 50–800 μg/kg (based on the assumption of an 80 kg individual) [51, 56]. More importantly, previous studies in this rat segmental defect model [40, 57, 58] have established 2–2.5 μg BMP-2 as the healing dose (12–15 times lower than the dose used here), with superior retention and healing in alginate scaffolds compared to ACS [11] and autograft (5 μg BMP-2 dose) [38]. …”

“…Mid-sagittal 7 μm non-decalcified sections were obtained from the defect center by a tape transfer technique [38, 46] (Section Lab, Hiroshima, Japan). Mineralization was identified by von Kossa staining with Fast Red counterstain.…”

“…Samples were decalcified, paraffin embedded, and sectioned using a tape transfer technique (Section Labs, Hiroshima, Japan). Sagittal sections obtained from the mid-defect region were deparaffinized and stained with H&E to characterize tissue morphology, Safranin-O and Fast Green to identify alginate and cartilage, and Mallory's modified aniline blue stain for identification of mature and immature bone/mineralized tissue, as described extensively for this experimental model [11, 36-38, 40]. …”

“…Thus, the aim of this study was to provide a direct comparison of the effects of the delivery system on bone regeneration and heterotopic ossification, resulting from a supraphysiological dose of recombinant human BMP-2 (rhBMP-2) - delivered in the clinically common ACS or an alginate hydrogel based system. While our group has investigated the hybrid alginate hydrogel system in a pre-clinical animal model of critical sized segmental bone defect [11, 33-41] and demonstrated improved functional bone regeneration compared to autograft [38], and ACS [11, 36, 37] at lower rhBMP-2 doses, the performance of this hybrid system as a carrier for supraphysiological doses of rhBMP-2 has not been evaluated. Moreover, though exuberant ectopic bone formation has been shown as a part of earlier studies using high dose rhBMP-2, its quantitative characterization and temporal evolution have not been adequately described.…”

Delivery vehicle effects on bone regeneration and heterotopic ossification induced by high dose BMP-2

“…6B, bright red areas with Safranin-O stain). Most bone in the defect appeared to be mature bone, based on the dark red staining with Mallory's modified aniline blue stain (Fig 6C) as described previously [38]. In contrast, the alginate group showed areas of bone interrupted by large pieces of alginate (Fig.…”

“…Here we evaluated the influence of two delivery scaffolds loaded with the same BMP-2 dose of 120 μg/kg (30 μg per average 250 g rat), which falls in the typical range of doses used clinically: 50–800 μg/kg (based on the assumption of an 80 kg individual) [51, 56]. More importantly, previous studies in this rat segmental defect model [40, 57, 58] have established 2–2.5 μg BMP-2 as the healing dose (12–15 times lower than the dose used here), with superior retention and healing in alginate scaffolds compared to ACS [11] and autograft (5 μg BMP-2 dose) [38]. …”

“…Mid-sagittal 7 μm non-decalcified sections were obtained from the defect center by a tape transfer technique [38, 46] (Section Lab, Hiroshima, Japan). Mineralization was identified by von Kossa staining with Fast Red counterstain.…”

“…Samples were decalcified, paraffin embedded, and sectioned using a tape transfer technique (Section Labs, Hiroshima, Japan). Sagittal sections obtained from the mid-defect region were deparaffinized and stained with H&E to characterize tissue morphology, Safranin-O and Fast Green to identify alginate and cartilage, and Mallory's modified aniline blue stain for identification of mature and immature bone/mineralized tissue, as described extensively for this experimental model [11, 36-38, 40]. …”

“…Thus, the aim of this study was to provide a direct comparison of the effects of the delivery system on bone regeneration and heterotopic ossification, resulting from a supraphysiological dose of recombinant human BMP-2 (rhBMP-2) - delivered in the clinically common ACS or an alginate hydrogel based system. While our group has investigated the hybrid alginate hydrogel system in a pre-clinical animal model of critical sized segmental bone defect [11, 33-41] and demonstrated improved functional bone regeneration compared to autograft [38], and ACS [11, 36, 37] at lower rhBMP-2 doses, the performance of this hybrid system as a carrier for supraphysiological doses of rhBMP-2 has not been evaluated. Moreover, though exuberant ectopic bone formation has been shown as a part of earlier studies using high dose rhBMP-2, its quantitative characterization and temporal evolution have not been adequately described.…”

Delivery vehicle effects on bone regeneration and heterotopic ossification induced by high dose BMP-2

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