摘要:
Bone graft compositions including bioactive glass scaffold and characterized in that the bioactive glass scaffold has a high compressive strength, is osteoconductive and osteostimulative and resorbs at a rate consistent with the formation of new bone are described. Also, methods of using the bone grafts for regeneration of hard tissues and, especially, for treating or correcting developmental dysplasia of the hip are provided.
摘要:
A sol-gel bioactive glass precursor, method for making sol-gel glasses, resultant sol-gel bioactive glasses, and methods of use thereof, which include introducing Na2O into the glass network during the sol-gel process through the use of Na-ethoxide, NaCl, or sodium silicate rather than sodium nitrate. Medical and industrial uses of such glasses.
摘要:
A resorbable, macroporous bioactive glass scaffold comprising approximately 24-45% CaO, 34-50% SiO2, 0-25% Na2O, 5-17% P2O5, 0-5% MgO and 0-1% CaF2 by mass percent, produced by mixing with pore forming agents and specified heat treatments.
摘要翻译:包含大约24-45%的CaO,34-50%的SiO 2,0-25%的Na 2 O,5-17%的P 2 O 5,0-5%的MgO和0-1%的CaF 2的可再吸收的大孔生物活性玻璃支架,按质量%计,由 与成孔剂和特定的热处理混合。
摘要:
A process for making bioactive glasses is described including preparing a reaction mixture of reactants capable of forming a sol-gel, aging the reaction mixture, near equilibrium drying a gel resulting from the reaction mixture, and heating the -near equilibrium-dried gel described. Also described are near equilibrium-dried bioactive glass compositions.
摘要:
A method of manufacturing a resorbable, macroporous bioactive glass scaffold comprising approximately 24-45% CaO, 34-50% SiO2, 0-25% Na2O, 5-17% P2O5, 0-5% MgO and 0-1% CaF2 by mass percent, produced by mixing with pore forming agents and specified heat treatments.
摘要翻译:一种制造可再吸收的大孔生物活性玻璃支架的方法,其包括以质量计约24-45%的CaO,34-50%的SiO 2,0-25%的Na 2 O,5-17%的P 2 O 5,0-5%的MgO和0-1%的CaF 2 百分比,通过与成孔剂混合和特定的热处理产生。
摘要:
A resorbable, macroporous bioactive glass scaffold comprising approximately 24-45% CaO, 34-50% SiO2, 0-25% Na2O, 5-17% P2O5, 0-5% MgO and 0-1% CaF2 by mass percent, produced by mixing with pore forming agents and specified heat treatments.
摘要:
A process for making bioactive glasses is described including preparing a reaction mixture of reactants capable of forming a sol-gel, aging the reaction mixture, near equilibrium drying a gel resulting from the reaction mixture, and heating the -near equilibrium-dried gel described. Also described are near equilibrium-dried bioactive glass compositions.
摘要:
A process for making bioactive glasses is described including preparing a reaction mixture of reactants capable of forming a sol-gel, aging the reaction mixture, near equilibrium drying a gel resulting from the reaction mixture, and heating the near equilibrium-dried gel described. Also described are near equilibrium-dried bioactive glass compositions.
摘要:
A settable osteostimulative bone graft putty composition having a bioactive glass particulate component composed of a long-term and a short-term component; the long-term component having particle sizes greater than 90 micrometers and the short-term component having particle sizes less than 90 micrometers; the long-term component comprising about 60% to 90% of the bioactive glass osteostimulative particulate component dry weight and the short-term component comprising about 40% to 10%; a binder component having a calcium sulfate component and a calcium silicate component; the calcium sulfate component comprising about 35% to 50% of the binder component dry weight and the calcium silicate component comprising about 65% to 50%; the bioactive glass osteostimulative particulate component being about 20% to 60% of the total putty dry weight composition and the binder being about 80% to 40%; the bioactive glass particulate component and the binder component mixable in water to form the putty.
摘要:
A settable osteostimulative bone graft putty composition having a bioactive glass particulate component composed of a long-term and a short-term component; the long-term component having particle sizes greater than 90 micrometers and the short-term component having particle sizes less than 90 micrometers; the long-term component comprising about 60% to 90% of the bioactive glass osteostimulative particulate component dry weight and the short-term component comprising about 40% to 10%; a binder component having a calcium sulfate component and a calcium silicate component; the calcium sulfate component comprising about 35% to 50% of the binder component dry weight and the calcium silicate component comprising about 65% to 50%; the bioactive glass osteostimulative particulate component being about 20% to 60% of the total putty dry weight composition and the binder being about 80% to 40%; the bioactive glass particulate component and the binder component mixable in water to form the putty.