Lara Schorn1, Tim Fienitz2, Maximilian F Gerstenberg3, Anja Sterner-Kock4, Alexandra C Maul4, Julian Lommen1, Henrik Holtmann5, Daniel Rothamel1,5. 1. Department of Oral-, Maxillofacial and Facial Plastic Surgery, University Hospital Düsseldorf, Moorenstr. 5, Düsseldorf, Germany. 2. Department of Oral-, Maxillofacial and Facial Plastic Surgery, Evangelisches Krankenhaus Bethesda, Ludwig-Weber-Straße 15, 41061, Mönchengladbach, Germany. Tim.Fienitz@mg.johanniter-kliniken.de. 3. Department of Oral-, Maxillofacial and Facial Plastic Surgery, University Hospital of Cologne, Kerpener Str. 64, 50937, Cologne, Germany. 4. Center for Experimental Medicine, Faculty of Medicine and University Hospital Cologne, University of Cologne, Kerpener Str. 64, 50937, Cologne, Germany. 5. Department of Oral-, Maxillofacial and Facial Plastic Surgery, Evangelisches Krankenhaus Bethesda, Ludwig-Weber-Straße 15, 41061, Mönchengladbach, Germany.
Abstract
OBJECTIVES: Biphasic calcium phosphate (BCP) is a bioceramic material successfully used in alloplastic bone augmentation. Despite many advantages, a disadvantage of BCP seems to be a difficult application and position instability. The aim of this study was to determine how different carrier materials influence BCP-induced quantitative and qualitative bone regeneration. MATERIALS AND METHODS: A total of 70 critical size defects were set in the frontal bone of 14 domestic pigs (5 each) and filled randomly with either BCP alone (BCP), BCP in combination with nano-hydroxyapatite (BCP + NHA), BCP embedded in native porcine type I/III collagen blocks (BCP + C), autologous bone (AB), or were left empty (ED). Specimens were harvested after 4 and 8 weeks and were evaluated histologically as well as histomorphometrically. RESULTS: Significantly lowest rate of new bone formation was found in ED (p = < 0.001) and BCP + NHA groups (p = 0.05). After 8 weeks, the highest percentage of new bone formation was observed in the BCP + C group. Fibrous matrix was detected highest in BCP alone. The lowest residual bone substitute material was found in BCP + C after 8 weeks. CONCLUSIONS: BCP-induced bone regeneration is indeed affected by different carrier types. Surface morphology and bioactive characteristics influence osseointegration and new bone formation in vivo. The combination of type I/III collagen seems most suitable for qualitative and quantitative bone regeneration. CLINICAL RELEVANCE: Stabilization of granular bone substitutes using type I/III collagen might be an alternative to granulates alone, indicating excellent volume stability, satisfactory plasticity, and easy application.
OBJECTIVES: Biphasic calcium phosphate (BCP) is a bioceramic material successfully used in alloplastic bone augmentation. Despite many advantages, a disadvantage of BCP seems to be a difficult application and position instability. The aim of this study was to determine how different carrier materials influence BCP-induced quantitative and qualitative bone regeneration. MATERIALS AND METHODS: A total of 70 critical size defects were set in the frontal bone of 14 domestic pigs (5 each) and filled randomly with either BCP alone (BCP), BCP in combination with nano-hydroxyapatite (BCP + NHA), BCP embedded in native porcine type I/III collagen blocks (BCP + C), autologous bone (AB), or were left empty (ED). Specimens were harvested after 4 and 8 weeks and were evaluated histologically as well as histomorphometrically. RESULTS: Significantly lowest rate of new bone formation was found in ED (p = < 0.001) and BCP + NHA groups (p = 0.05). After 8 weeks, the highest percentage of new bone formation was observed in the BCP + C group. Fibrous matrix was detected highest in BCP alone. The lowest residual bone substitute material was found in BCP + C after 8 weeks. CONCLUSIONS:BCP-induced bone regeneration is indeed affected by different carrier types. Surface morphology and bioactive characteristics influence osseointegration and new bone formation in vivo. The combination of type I/III collagen seems most suitable for qualitative and quantitative bone regeneration. CLINICAL RELEVANCE: Stabilization of granular bone substitutes using type I/III collagen might be an alternative to granulates alone, indicating excellent volume stability, satisfactory plasticity, and easy application.
Entities:
Keywords:
Biphasic calcium phosphate; Bone augmentation; Bone substitute material; Critical size defects; Nano-hydroxyapatite; Type I/III collagen
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