Papers by Author: Makoto Arisue

Abstract: The aims of this study are to confirm the capacity of hard tissue induction by human demineralized dentin matrics (DDM) and calcified dentin matrics (CDM) in subcutaneous tissues of nude mice, and to report a human pioneering trial following the autotransplantation of DDM for bone augmentation in a case of the atrophied upper jaw. Human DDM and CDM particles were prepared from adult, extracted vital teeth, and were implanted into the subcutaneous tissues of 4-week-old nude mice. DDM induced bone and cartilage independently at 4 weeks after implantation, while CDM did not induce a hard tissue formation. Autogenous DDM prepared from the non-functional second molar of a 58-year-old female were grafted on the atrophied jaw and received to the host. Human dentin can be recycled as autogenous biomaterials for local bone engineering.

Abstract: The aim of this study is to investigate in vivo local BMP-2 PK and bone induction in two bioceramics blocks (HAp, β-TCP), based on different composition and surface structures. We estimated the in vivo release profile of 125I–labeled BMP-2 and bone induction of hard tissues histologically. β-TCP is more effective for both BMP-2 retention and bone induction, compared to HAp, in the ectopic model.

Abstract: Abstract. Bioabsorbable and functionally graded apatites (fg-HAp) ceramics were designed using calcined bovine bone (b-HAp) by the partial dissolution-precipitation methods. The fg-HAp ceramics with micro-pores of 10-160 nm had larger specific surface areas (30-40 m2･g-1) than the b-HAp ceramics, although the two HAp ceramics exhibited same macro-pore sizes of 100-600 µm and porosities of 60-80 %. Surface structure of these ceramics was modified by soaking at 309.5 K for 1-90 days in a simulated body fluid (SBF). At 8 days after the soaking, microstructure of the fg-HAp changed from small grains to dense cocoon-like ones by rapid precipitation of HAp microcrystals, while at 14 days, that of the b-HAp was porous urchin-like grains, suggesting that the fg-HAp had higher bone-bonding ability than the b-HAp.

Abstract: Hydroxyapatite (HAp) has been used as a biomaterial for hard tissues. Critical characteristics of biomaterials will include surface geometry, hydrophobicity and hydrophilicity, crystallinity, biodegradation rates, and release pharmacokinetics (PK) of incorporated molecules such as BMP-2. Optimizing BMP-2 for clinical application may be dependent on localized sustained release from biomaterials. We forcused on in vivo local BMP-2 PK and bone induction in two ceramics systems, based on different surface structures. The functionally graded apatites (fg-HAp) was designed by the step-wise calcinations and partial dissolution-precipitation methods. We estimated the in vivo release profile of 125I-labeled BMP-2 from fg-HAp and the dose response of bone induction by BMP-2 in the back subcutis histologically. Bulk-HAp (b-HAp) by only the step-wise calcinations was prepared as a control. The amount of BMP-2 remaining in the fg-HAp at 1 day after implantation was 83.8%, while that was 34.6% in the b-HAp. Moreover, ectopic bone formation were found surely in the fg-HAp/BMP-2 (0.5μg) system at 3 weeks, not in the b-HAp/BMP-2 system. By using fg-HAp, it is likely that an extremely low dose of BMP-2 is enough to enhance bone induction if BMP-2 is appropriately delivered to the site of action.