慢性肾脏病矿物质和骨异常(chronic kidney disease-mineral and bone disorder,CKD-MBD)是慢性肾脏病(chronic kidney disease,CKD)患者的常见并发症,是一种涉及不同矿物质和骨代谢异常的全身性疾病,也包括血管钙化的发生,对患者的生...慢性肾脏病矿物质和骨异常(chronic kidney disease-mineral and bone disorder,CKD-MBD)是慢性肾脏病(chronic kidney disease,CKD)患者的常见并发症,是一种涉及不同矿物质和骨代谢异常的全身性疾病,也包括血管钙化的发生,对患者的生存质量和长期预后产生重要影响。尽管多年来对CKD-MBD发病机制的认识已不断完善,但血镁水平对其演变的影响和重要性直到近年才得到重视。本文综述了血镁的生理功能、血镁与CKD及CKD-MBD的关系及相互作用机制,调控血镁水平有可能成为治疗CKD-MBD的新靶点。展开更多
A new magnesium phosphate bone cement (MPBC) was prepared as a byproduct of boroncontaining magnesium oxide (B-MgO) after extracting Li2CO3 from salt lakes. We analyzed the elementary composition of the B-MgO raw ...A new magnesium phosphate bone cement (MPBC) was prepared as a byproduct of boroncontaining magnesium oxide (B-MgO) after extracting Li2CO3 from salt lakes. We analyzed the elementary composition of the B-MgO raw materials and the effects of calcination temperature on the performance of MPBC. The phase composition and microstructure of the B-MgO raw materials and the hydration products (KMgPO4.6H2O) of MPBC were analyzed by X-ray diffraction and scanning electron microscopy. The results showed that ionic impurities and the levels of toxic elements were sufficiently low in B-MgO raw materials to meet the medical requirements for MgO (Chinese Pharmacopeia, 2O10 Edition) and for hydroxyapatite surgical implants (GB23101.1-2O08). The temperature of B-MgO calcination had a marked influence on the hydration and hardening of MPBC pastes. Increasing calcination temperature prolonged the time required for the MPBC slurry to set, significantly decreased the hydration temperature, and prolonged the time required to reach the highest hydration temperature. However, the compressive strength of hardened MPBC did not increase with higher calcination temperatures. In the 900-1 000 ~C temperature range, the hardened MPBC had a higher compressive strength. Imaging analysis suggested that the setting time and the highest hydration temperature of MPBC pastes were dependent on the size and crystal morphology of the B-MgO materials. The production and microstructure compactness of KMgPOa'6H2O, the main hydration product, determined the compressive strength.展开更多
Three-dimensional honeycomb-structured magnesium (Mg) scaffolds with interconnected pores of accurately controlled pore size and porosity were fabricated by laser perforation technique. Biodegradable and bioactiveβ...Three-dimensional honeycomb-structured magnesium (Mg) scaffolds with interconnected pores of accurately controlled pore size and porosity were fabricated by laser perforation technique. Biodegradable and bioactiveβ- tricalcium phosphate (β-TCP) coatings were prepared on and the biodegradation mechanism was simply evaluated the porous Mg to further improve its biocompatibility, in vitro. It was found that the mechanical properties of this type of porous Mg significantly depended on its porosity. Elastic modulus and compressive strength similar to human bones could be obtained for the porous Mg with porosity of 42.6%-51%. It was observed that the human osteosarcoma cells (UMR106) were well adhered and proliferated on the surface of the β- TCP coated porous Mg, which indicates that theβ-TCP coated porous Mg is promising to be a bone tissue engineering scaffold material.展开更多
文摘慢性肾脏病矿物质和骨异常(chronic kidney disease-mineral and bone disorder,CKD-MBD)是慢性肾脏病(chronic kidney disease,CKD)患者的常见并发症,是一种涉及不同矿物质和骨代谢异常的全身性疾病,也包括血管钙化的发生,对患者的生存质量和长期预后产生重要影响。尽管多年来对CKD-MBD发病机制的认识已不断完善,但血镁水平对其演变的影响和重要性直到近年才得到重视。本文综述了血镁的生理功能、血镁与CKD及CKD-MBD的关系及相互作用机制,调控血镁水平有可能成为治疗CKD-MBD的新靶点。
基金Funded by the National Natural Science Foundation of China(No.21276264)the Qinghai Province Science and TechnologyDepartment(No.2013-G-208)
文摘A new magnesium phosphate bone cement (MPBC) was prepared as a byproduct of boroncontaining magnesium oxide (B-MgO) after extracting Li2CO3 from salt lakes. We analyzed the elementary composition of the B-MgO raw materials and the effects of calcination temperature on the performance of MPBC. The phase composition and microstructure of the B-MgO raw materials and the hydration products (KMgPO4.6H2O) of MPBC were analyzed by X-ray diffraction and scanning electron microscopy. The results showed that ionic impurities and the levels of toxic elements were sufficiently low in B-MgO raw materials to meet the medical requirements for MgO (Chinese Pharmacopeia, 2O10 Edition) and for hydroxyapatite surgical implants (GB23101.1-2O08). The temperature of B-MgO calcination had a marked influence on the hydration and hardening of MPBC pastes. Increasing calcination temperature prolonged the time required for the MPBC slurry to set, significantly decreased the hydration temperature, and prolonged the time required to reach the highest hydration temperature. However, the compressive strength of hardened MPBC did not increase with higher calcination temperatures. In the 900-1 000 ~C temperature range, the hardened MPBC had a higher compressive strength. Imaging analysis suggested that the setting time and the highest hydration temperature of MPBC pastes were dependent on the size and crystal morphology of the B-MgO materials. The production and microstructure compactness of KMgPOa'6H2O, the main hydration product, determined the compressive strength.
基金supported by Chinese Academy of Sciences (The Applied Research of Bioactive Bone Implantation Materials, No. KGCX2-YW-207)
文摘Three-dimensional honeycomb-structured magnesium (Mg) scaffolds with interconnected pores of accurately controlled pore size and porosity were fabricated by laser perforation technique. Biodegradable and bioactiveβ- tricalcium phosphate (β-TCP) coatings were prepared on and the biodegradation mechanism was simply evaluated the porous Mg to further improve its biocompatibility, in vitro. It was found that the mechanical properties of this type of porous Mg significantly depended on its porosity. Elastic modulus and compressive strength similar to human bones could be obtained for the porous Mg with porosity of 42.6%-51%. It was observed that the human osteosarcoma cells (UMR106) were well adhered and proliferated on the surface of the β- TCP coated porous Mg, which indicates that theβ-TCP coated porous Mg is promising to be a bone tissue engineering scaffold material.