13Patients with mutation in the TRPM6 gene experience severe hypomagnesemia and secondary hypocalcemia. As demonstrated for the small intestine, an active transcellular transport involving TRPM6, a member of the transient receptor potential family of cation channels, localized along apical distal convoluted tubule membranes and at brush-border membranes of the duodenum, seems to play a role. Published by AIP Publishing.Little is known about the mechanisms underlying magnesium reabsorption in the distal convoluted tubule. Gottstein, “ Mechanisms of exceptional ductility of magnesium single crystal during deformation at room temperature: Multiple twinning and dynamic recrystallization,” Acta Mater. Gottstein, “ On the ductility of magnesium single-crystals at ambient temperature,” Metall. Siebel, “ Stress-strain curves of Mg single crystals,” Z. ( Cambridge University Press, Cambridge UK, 1997), Chap. Sherby, “ Types of superplasticity,” in Superplasticity in Metals and Ceramics, 1st ed. Bridgman, “ Crystals and their manufacture,” U.S. Nichols, “ Orientation and temperature effects on the electrical resistivity of high purity magnesium,” J. Smith, “ Single crystal elastic constants of magnesium and magnesium alloys,” Acta Metall. Robertson, “ The crystallographic characteristics of fracture in magnesium single crystals,” Acta Metall. Hibbard, “ Plastic deformation of magnesium single crystals,” J. Mochalov, “ Procedure for Obtaining Single Crystals of Magnesium from the Melt,” J. Frankel, “ Influence of dichromate ions on corrosion processes on pure magnesium,” J. Lillard, “ Crystallographic pitting in magnesium single crystals,” Corros. Lucas, “ Biocompatible magnesium alloys as absorbable implant materials-Adjusted surface and subsurface properties by machining processes,” CIRP Ann. Wang, “ Evaluation of cyto-toxicity and corrosion behavior of alkali-heat-treated magnesium in simulated body fluid,” Surf. Zúberová, “ Bio-corrosion of a magnesium alloy with different processing histories,” Mater. Chu, “ Corrosion resistance and cytocompatibility of biodegradable surgical magnesium alloy coated with hydrogenated amorphous silicon,” J. Zhang, “ Calcium phosphate coating on magnesium alloy by biomimetic method: Investigation of morphology, composition and formation process,” Front. Wilk, “ Corrosion protection and repassivation of magnesium alloys coated with protective magnesium fluoride layer,” Magnesium Technol. Zheng, “ The development of binary Mg-Ca alloys for use as biodegradable materials within bone,” Biomaterials 29, 1329– 1344 (2008). Li, “ Electrochemical behavior of anodized Mg alloy AZ91D in chloride containing aqueous solution,” Corros. Löffler, “ MgZnCa glasses without clinically observable hydrogen evolution for biodegradable implants,” Nat.
Mantovani, “ Developments in metallic biodegradable stents,” Acta Biomater. Song, “ A possible biodegradable magnesium implant material,” Adv. Witte, “ The history of biodegradable magnesium implants: A review,” Acta Biomater. Rodriguez-Gonzalez, Biomaterials in Orthopedic Surgery ( ASM International, Materials Park, OH, 2009). Feyerabend, “ Degradable biomaterials based on magnesium corrosion,” Curr. Blawert, “ Progress and challenge for magnesium alloys as biomaterials,” Adv. Webster, “ An overview of nano-polymers for orthopedic applications,” Macromol.
0 kommentar(er)
