@misc{behr_impact_of_2020, 
author={Behr, S.},
title={Impact of magnesium based degradable alloys on a coculture model of osteoblast and osteoclast},
year={2020},
howpublished = {doctoral thesis: Universität Hamburg},
abstract = {IV In addition, Mg-Pure and magnesium-silver alloys have also been shown to interact with the calcium  sensing  receptor.  This  interaction  led  to  an  inhibition  of  the  receptor  signal.  Nevertheless, a positive effect on bone formation of both magnesium and silver ions remained, indicating  other  implicated  pathways.  Indeed,  magnesium  positively  influenced  bone  growth  via the  transient  receptor  potential  cation  channel  7  /  phosphoinositide  3-kinase  pathway.  Furthermore, silver via the increased formation of reactive oxygen species supported alkaline phosphatase expression. Finally, a combination of the three materials magnesium, silver and gadolinium could be useful to combine their positive properties.},
note = {Behr, S.: Impact of magnesium based degradable alloys on a coculture model of osteoblast and osteoclast. Universität Hamburg, 2020.}}