Nerve damage,including conditions such as traumatic brain injury,cerebral palsy,and other neurological disorders,constitutes a major clinical challenge affecting millions of people globally.Recently,magnesium-containi...Nerve damage,including conditions such as traumatic brain injury,cerebral palsy,and other neurological disorders,constitutes a major clinical challenge affecting millions of people globally.Recently,magnesium-containing materials have attracted growing interest in brain research due to their notable biocompatibility,favorable degradation profile,and neuroprotective capabilities.This article provides a comprehensive overview of developments in magnesium-based materials,with a specific focus on their application in brain and neural repair.Leveraging bibliometric analysis and a comprehensive literature review,the therapeutic potential of magnesium-based compounds in neurological disorders is evaluated.These neurological conditions encompass epilepsy,Alzheimer’s disease,and depression.Notably,magnesium-based materials show distinct advantages in enhancing cognitive function and promoting neural regeneration,indicating their strong therapeutic potential.Furthermore,this review also examines key research areas and contemporary trends in brain and neural repair,assesses the current landscape,highlights persistent challenges,and identifies emerging research directions.This synthesis provides a foundation for understanding how magnesium-based materials can inform the development of novel therapeutic strategies.展开更多
As high-grade magnesite and brucite resources(hereinafter referred to as magnesium-containing minerals)are decreasing annually,developing flotation separation technologies capable of efficiently and economically extra...As high-grade magnesite and brucite resources(hereinafter referred to as magnesium-containing minerals)are decreasing annually,developing flotation separation technologies capable of efficiently and economically extracting magnesium resources from low-grade magnesium-containing minerals is necessary.Although efficient flotation separation technologies for magnesium-containing minerals are well researched,related concepts are not yet clarified.Moreover,the industrial development of magnesium-containing mineral flotation technologies is limited by their low separation efficiency and environmental problems.This limitation has inhibited the full utilization of low-grade magnesium-containing minerals.This study comprehensively discusses the research progress of flotation separation technologies for magnesium-containing minerals,focusing on the crystal chemical and surface characteristics of magnesium-containing minerals and their gangue minerals,effect of inevitable ions on mineral flotation behavior,interaction effects of minerals,and research advancement of flotation reagents.The study aims to clarify the future development direction of the flotation separation of magnesium-containing minerals and provide theoretical support and technical references for an efficient separation.展开更多
基金support from National Natural Science Foundation of China(No.81500897)Foundation of the Department of Science&Technology of Liaoning Province(No.2024JH6/100800020)+1 种基金Fund Project of Liaoning Federation of Social Sciences(No.2025lslybwzzkt-164)Scientific Research Fund of Liaoning Provincial Education Department(No.LJ112510166005).
文摘Nerve damage,including conditions such as traumatic brain injury,cerebral palsy,and other neurological disorders,constitutes a major clinical challenge affecting millions of people globally.Recently,magnesium-containing materials have attracted growing interest in brain research due to their notable biocompatibility,favorable degradation profile,and neuroprotective capabilities.This article provides a comprehensive overview of developments in magnesium-based materials,with a specific focus on their application in brain and neural repair.Leveraging bibliometric analysis and a comprehensive literature review,the therapeutic potential of magnesium-based compounds in neurological disorders is evaluated.These neurological conditions encompass epilepsy,Alzheimer’s disease,and depression.Notably,magnesium-based materials show distinct advantages in enhancing cognitive function and promoting neural regeneration,indicating their strong therapeutic potential.Furthermore,this review also examines key research areas and contemporary trends in brain and neural repair,assesses the current landscape,highlights persistent challenges,and identifies emerging research directions.This synthesis provides a foundation for understanding how magnesium-based materials can inform the development of novel therapeutic strategies.
基金financially supported by the Open Foundation of State Key Laboratory of Mineral Processing (No.BGRIMM-KJSKL-2024-07)the Open Project of the Key Laboratory of Solid Waste Treatment and Resource Utilization of the Ministry of Education,China (No.23kfgk02)。
文摘As high-grade magnesite and brucite resources(hereinafter referred to as magnesium-containing minerals)are decreasing annually,developing flotation separation technologies capable of efficiently and economically extracting magnesium resources from low-grade magnesium-containing minerals is necessary.Although efficient flotation separation technologies for magnesium-containing minerals are well researched,related concepts are not yet clarified.Moreover,the industrial development of magnesium-containing mineral flotation technologies is limited by their low separation efficiency and environmental problems.This limitation has inhibited the full utilization of low-grade magnesium-containing minerals.This study comprehensively discusses the research progress of flotation separation technologies for magnesium-containing minerals,focusing on the crystal chemical and surface characteristics of magnesium-containing minerals and their gangue minerals,effect of inevitable ions on mineral flotation behavior,interaction effects of minerals,and research advancement of flotation reagents.The study aims to clarify the future development direction of the flotation separation of magnesium-containing minerals and provide theoretical support and technical references for an efficient separation.
