STUDY DESIGN: A rodent model of posterior spinal fusion. OBJECTIVE: The aim of this study was to evaluate the efficacy of low-dose recombinant human bone morphogenetic protein-2 (rhBMP-2) delivered with a heparin based polylectrolyte complex (PEC) carrier in facilitating posterior spinal fusion while concurrently minimizing seroma and heterotopic ossification. SUMMARY OF BACKGROUND DATA: rhBMP-2 is being used to augment spinal fusion. However, complications such as heterotopic ossification and local soft tissue swellings have been reported. These are attributed to supraphysiological amount of rhBMP-2 and the poor modulation capacity of absorbable collagen sponge. METHODS: Forty rats were randomized into 6 groups as follows. Group I: absorbable collagen sponge without rhBMP-2 (n = 4); group II: positive control, absorbable collagen sponge + 10 μg rhBMP-2 (n = 4); group III: alginate-(poly-L-lysine)-heparin (PEC) without rhBMP-2 (n = 8); group IV: PEC + 4.5 μg rhBMP-2 (n = 8); group V: PEC + 1.5 μg rhBMP-2 (n = 8); group VI: PEC + 0.5 μg rhBMP-2 (n = 8). RESULTS: Between postoperative days 5 and 7, seroma was observed in all rhBMP-2 implanted groups irrespective of carrier and dose. However, the rate and size of seroma differed considerably. Although all animals (100%) in positive control group showed seroma, only one animal (12.5%) in group VI developed seroma at the implant site. The size of seroma in group VI was significantly smaller than that in positive control group. Micro-computed tomography evaluation revealed comparable mean fusion scores in all rhBMP-2 implanted groups. More importantly, although new bone was well contained within the cage in group VI, heterotopic ossification beyond the cage was observed in positive control group. CONCLUSION: A new carrier has demonstrated capacity to minimize seroma formation as well as heterotopic ossification associated with rhBMP-2 by reducing the efficacious dose needed for consistent fusion. The results of this study indicate that PEC alginate microbeads may represent a new opportunity to define an efficient rhBMP-2 carrier.
STUDY DESIGN: A rodent model of posterior spinal fusion. OBJECTIVE: The aim of this study was to evaluate the efficacy of low-dose recombinant humanbone morphogenetic protein-2 (rhBMP-2) delivered with a heparin based polylectrolyte complex (PEC) carrier in facilitating posterior spinal fusion while concurrently minimizing seroma and heterotopic ossification. SUMMARY OF BACKGROUND DATA: rhBMP-2 is being used to augment spinal fusion. However, complications such as heterotopic ossification and local soft tissue swellings have been reported. These are attributed to supraphysiological amount of rhBMP-2 and the poor modulation capacity of absorbable collagen sponge. METHODS: Forty rats were randomized into 6 groups as follows. Group I: absorbable collagen sponge without rhBMP-2 (n = 4); group II: positive control, absorbable collagen sponge + 10 μg rhBMP-2 (n = 4); group III: alginate-(poly-L-lysine)-heparin (PEC) without rhBMP-2 (n = 8); group IV: PEC + 4.5 μg rhBMP-2 (n = 8); group V: PEC + 1.5 μg rhBMP-2 (n = 8); group VI: PEC + 0.5 μg rhBMP-2 (n = 8). RESULTS: Between postoperative days 5 and 7, seroma was observed in all rhBMP-2 implanted groups irrespective of carrier and dose. However, the rate and size of seroma differed considerably. Although all animals (100%) in positive control group showed seroma, only one animal (12.5%) in group VI developed seroma at the implant site. The size of seroma in group VI was significantly smaller than that in positive control group. Micro-computed tomography evaluation revealed comparable mean fusion scores in all rhBMP-2 implanted groups. More importantly, although new bone was well contained within the cage in group VI, heterotopic ossification beyond the cage was observed in positive control group. CONCLUSION: A new carrier has demonstrated capacity to minimize seroma formation as well as heterotopic ossification associated with rhBMP-2 by reducing the efficacious dose needed for consistent fusion. The results of this study indicate that PEC alginate microbeads may represent a new opportunity to define an efficient rhBMP-2 carrier.
Authors: David C L Rowland; Thomas Aquilina; Andrei Klein; Osnat Hakimi; Pierre Alexis-Mouthuy; Andrew J Carr; Sarah J B Snelling Journal: J Biomed Mater Res A Date: 2016-07-20 Impact factor: 4.396
Authors: Eleanor L Davis; Corinne Sonnet; ZaWaunyka W Lazard; Gabrielle Henslee; Zbigniew Gugala; Elizabeth A Salisbury; Edward V Strecker; Thomas A Davis; Jonathan A Forsberg; Alan R Davis; Elizabeth A Olmsted-Davis Journal: J Orthop Res Date: 2016-03-14 Impact factor: 3.494
Authors: Kai Stuckensen; José M Lamo-Espinosa; Emma Muiños-López; Purificación Ripalda-Cemboráin; Tania López-Martínez; Elena Iglesias; Gloria Abizanda; Ion Andreu; María Flandes-Iparraguirre; Juan Pons-Villanueva; Reyes Elizalde; Joachim Nickel; Andrea Ewald; Uwe Gbureck; Felipe Prósper; Jürgen Groll; Froilán Granero-Moltó Journal: Materials (Basel) Date: 2019-09-24 Impact factor: 3.623