Editing Bone and Implants (TRPM7)

{{tp|p=37258464|t=2023. TRPM7 is Involved in the Regulation of Proliferation, Migration and Osteogenic Differentiation of Human Dental Follicle Cells.|pdf=|usr=}}{{37258464}}
{{ttp|p=37240030|t=2023. Low Magnesium Concentration Enforces Bone Calcium Deposition Irrespective of 1,25-Dihydroxyvitamin D(3) Concentration.|pdf=|usr=}}{{37240030}}
{{tp|p=35964037|t=2022. Low-intensity pulsed ultrasound/nanomechanical force generators enhance osteogenesis of BMSCs through microfilaments and TRPM7.|pdf=|usr=}}{{35964037}}
{{tp|p=34001887|t=2021. TRPM7 kinase-mediated immunomodulation in macrophage plays a central role in magnesium ion-induced bone regeneration.|pdf=|usr=}}{{34001887}}
{{tp|p=33924361|t=2021. TRPM7-Mediated Calcium Transport in HAT-7 Ameloblasts.|pdf=|usr=}}{{33924361}}
{{tp|p=37517617|t=2023. Surface modification of titanium implants with Mg-containing coatings to promote osseointegration.|pdf=|usr=}}{{37517617}}
{{tp|p=36210025|t=2023. Mesenchymal cell TRPM7 expression is required for bone formation via the regulation of chondrogenesis.|pdf=|usr=}}{{36210025}}
{{tp|p=30967513|t=2019. TRPM7 channels mediate spontaneous Ca(2+) fluctuations in growth plate chondrocytes that promote bone development.|pdf=|usr=}}{{30967513}}
{{tp|p=29489440|t=2018. TRPM7 Mediates Mechanosensitivity in Adult Rat Odontoblasts.|pdf=|usr=}}{{29489440}}
{{tp|p=28882757|t=2017. Ion channel functional protein kinase TRPM7 regulates Mg ions to promote the osteoinduction of human osteoblast via PI3K pathway: In vitro simulation of the bone-repairing effect of Mg-based alloy implant.|pdf=|usr=}}{{28882757}}
{{tp|p=28849029|t=2017. Ca2+/Mg2+ homeostasis‑related TRPM7 channel mediates chondrocyte hypertrophy via regulation of the PI3K‑Akt signaling pathway.|pdf=|usr=}}{{28849029}}
{{tp|p=28787130|t=2017. Biological Responses and Mechanisms of Human Bone Marrow Mesenchymal Stem Cells to Zn and Mg Biomaterials.|pdf=|usr=}}{{28787130}}
{{tp|p=32945378|t=2020. Gallium ions promote osteoinduction of human and mouse osteoblasts via the TRPM7/Akt signaling pathway.|pdf=|usr=}}{{32945378}}
{{tp|p=32633723|t=2020. TRPM7 and MagT1 regulate the proliferation of osteoblast-like SaOS-2 cells through different mechanisms.|pdf=|usr=}}{{32633723}}
{{tp|p=32596398|t=2020. TRPM7 Upregulate the Activity of SMAD1 through PLC Signaling Way to Promote Osteogenesis of hBMSCs.|pdf=|usr=}}{{32596398}}
{{tp|p=31921825|t=2019. Human Osteoblast Migration in DC Electrical Fields Depends on Store Operated Ca(2+)-Release and Is Correlated to Upregulation of Stretch-Activated TRPM7 Channels.|pdf=|usr=}}{{31921825}}
{{tp|p=31849975|t=2019. A Biodegradable Mg-Based Alloy Inhibited the Inflammatory Response of THP-1 Cell-Derived Macrophages Through the TRPM7-PI3K-AKT1 Signaling Axis.|pdf=|usr=}}{{31849975}}
{{tp|p=28798480|t=2017. Magnesium Chloride promotes Osteogenesis through Notch signaling activation and expansion of Mesenchymal Stem Cells.|pdf=|usr=}}{{28798480}}
{{tp|p=25263397|t=2015. Brief reports: TRPM7 Senses mechanical stimulation inducing osteogenesis in human bone marrow mesenchymal stem cells.|pdf=|usr=}}{{25263397}}
{{tp|p=25203173|t=2014. TRPM7 and its potential therapeutic target for periodontal diseases: beyond its role in the dental pulp repair process.|pdf=|usr=}}{{25203173}}
{{tp|p=25150531|t=2014. Single-cell RT-PCR and immunocytochemical detection of mechanosensitive transient receptor potential channels in acutely isolated rat odontoblasts.|pdf=|usr=}}{{25150531}}
{{tp|p=27571347|t=2016. Implant-derived magnesium induces local neuronal production of CGRP to improve bone-fracture healing in rats.|pdf=|usr=}}{{27571347}}
{{tp|p=27458382|t=2016. A Critical Role of TRPM7 As an Ion Channel Protein in Mediating the Mineralization of the Craniofacial Hard Tissues.|pdf=|usr=}}{{27458382}}
{{tp|p=26558702|t=2015. Mechanosensitive TRPM7 mediates shear stress and modulates osteogenic differentiation of mesenchymal stromal cells through Osterix pathway.|pdf=|usr=}}{{26558702}}
{{tp|p=24445362|t=2014. Oscillatory shear stress induced calcium flickers in osteoblast cells.|pdf=|usr=}}{{24445362}}
{{tp|p=24138320|t=2014. The effect of TRPM7 suppression on the proliferation, migration and osteogenic differentiation of human dental pulp stem cells.|pdf=|usr=}}{{24138320}}
{{tp|p=21207015|t=2011. Role of melastatin transient receptor potential 7 channels in the osteoblastic differentiation of murine MC3T3 cells.|pdf=|usr=}}{{21207015}}
{{tp|p=19115145|t=2009. Expression of transient receptor potential (TRP) channels in human and murine osteoblast-like cells.|pdf=|usr=}}{{19115145}}
{{tp|p=23440520|t=2013. TRPM7 Is Essential for RANKL-Induced Osteoclastogenesis.|pdf=|usr=}}{{23440520}}
{{tp|p=19929312|t=2010. Transient receptor potential melastatin type 7 channel is critical for the survival of bone marrow derived mesenchymal stem cells.|pdf=|usr=}}{{19929312}}
{{tp|p=19474290|t=2009. Importance of melastatin-like transient receptor potential 7 and magnesium in the stimulation of osteoblast proliferation and migration by platelet-derived growth factor.|pdf=|usr=}}{{19474290}}
{{tp|p=18021175|t=2007. Importance of melastatin-like transient receptor potential 7 and cations (magnesium, calcium) in human osteoblast-like cell proliferation.|pdf=|usr=}}{{18021175}}
{{tp|p=38132557|t=2023. Bone Regeneration Induced by Patient-Adapted Mg Alloy-Based Scaffolds for Bone Defects: Present and Future Perspectives.|pdf=|usr=}}{{38132557}}
{{tp|p=37325184|t=2023. Strategies for in situ tissue engineering of vascularized bone regeneration (Review).|pdf=|usr=}}{{37325184}}
{{tp|p=36942009|t=2023. Magnesium implant degradation provides immunomodulatory and proangiogenic effects and attenuates peri-implant fibrosis in soft tissues.|pdf=|usr=}}{{36942009}}
{{tp|p=36544178|t=2022. Reduced restenosis and enhanced re-endothelialization of functional biodegradable vascular scaffolds by everolimus and magnesium hydroxide.|pdf=|usr=}}{{36544178}}
{{tp|p=36439083|t=2023. Biodegradable magnesium materials regulate ROS-RNS balance in pro-inflammatory macrophage environment.|pdf=|usr=}}{{36439083}}
{{tp|p=36192671|t=2022. Oxidative stress impairs the calcification ability of human dental pulp cells.|pdf=|usr=}}{{36192671}}
{{tp|p=35846837|t=2023. Carboxymethyl chitosan-alginate enhances bone repair effects of magnesium phosphate bone cement by activating the FAK-Wnt pathway.|pdf=|usr=}}{{35846837}}
{{tp|p=35836650|t=2021. Biodegradable magnesium alloys for orthopaedic applications.|pdf=|usr=}}{{35836650}}
{{tp|p=35836649|t=2021. Update on the research and development of magnesium-based biodegradable implants and their clinical translation in orthopaedics.|pdf=|usr=}}{{35836649}}
{{tp|p=35735498|t=2022. Simulating In Vitro the Bone Healing Potential of a Degradable and Tailored Multifunctional Mg-Based Alloy Platform.|pdf=|usr=}}{{35735498}}
{{tp|p=35600975|t=2023. Mg-based materials diminish tumor spreading and cancer metastases.|pdf=|usr=}}{{35600975}}
{{tp|p=35484564|t=2022. Sequential activation of M1 and M2 phenotypes in macrophages by Mg degradation from Ti-Mg alloy for enhanced osteogenesis.|pdf=|usr=}}{{35484564}}
{{tp|p=35415306|t=2022. Construction of a magnesium hydroxide/graphene oxide/hydroxyapatite composite coating on Mg-Ca-Zn-Ag alloy to inhibit bacterial infection and promote bone regeneration.|pdf=|usr=}}{{35415306}}
{{tp|p=35387170|t=2022. Cubic multi-ions-doped Na(2)TiO(3) nanorod-like coatings: Structure-stable, highly efficient platform for ions-exchanged release to immunomodulatory promotion on vascularized bone apposition.|pdf=|usr=}}{{35387170}}
{{tp|p=35371192|t=2022. Feasibility and Efficacy of a Degradable Magnesium-Alloy GBR Membrane for Bone Augmentation in a Distal Bone-Defect Model in Beagle Dogs.|pdf=|usr=}}{{35371192}}
{{tp|p=34901539|t=2022. Zn/Sr dual ions-collagen co-assembly hydroxyapatite enhances bone regeneration through procedural osteo-immunomodulation and osteogenesis.|pdf=|usr=}}{{34901539}}
{{tp|p=34541389|t=2022. Magnesium implantation or supplementation ameliorates bone disorder in CFTR-mutant mice through an ATF4-dependent Wnt/beta-catenin signaling.|pdf=|usr=}}{{34541389}}
{{tp|p=34532429|t=2021. The effects of a biodegradable Mg-based alloy on the function of VSMCs via immunoregulation of macrophages through Mg-induced responses.|pdf=|usr=}}{{34532429}}
{{tp|p=34466724|t=2022. In vivo biocompatibility and degradability of a Zn-Mg-Fe alloy osteosynthesis system.|pdf=|usr=}}{{34466724}}
{{tp|p=33997502|t=2021. Research status of biodegradable metals designed for oral and maxillofacial applications: A review.|pdf=|usr=}}{{33997502}}
{{tp|p=32995676|t=2021. Stepwise 3D-spatio-temporal magnesium cationic niche: Nanocomposite scaffold mediated microenvironment for modulating intramembranous ossification.|pdf=|usr=}}{{32995676}}
{{tp|p=32913933|t=2021. Nano-micrometer surface roughness gradients reveal topographical influences on differentiating responses of vascular cells on biodegradable magnesium.|pdf=|usr=}}{{32913933}}
{{tp|p=32328412|t=2020. Biodegradable Magnesium-Based Implants in Orthopedics-A General Review and Perspectives.|pdf=|usr=}}{{32328412}}
{{tp|p=32045781|t=2020. Magnesium and vitamin C supplementation attenuates steroid-associated osteonecrosis in a rat model.|pdf=|usr=}}{{32045781}}
{{tp|p=27383121|t=2016. Effect of magnesium ion on human osteoblast activity.|pdf=|usr=}}{{27383121}}
{{tp|p=37324030|t=2023. Bone tissue engineering for treating osteonecrosis of the femoral head.|pdf=|usr=}}{{37324030}}
{{tp|p=36523749|t=2022. Comprehensive review of additively manufactured biodegradable magnesium implants for repairing bone defects from biomechanical and biodegradable perspectives.|pdf=|usr=}}{{36523749}}
{{tp|p=36277376|t=2022. Notch signaling and fluid shear stress in regulating osteogenic differentiation.|pdf=|usr=}}{{36277376}}
{{tp|p=36032705|t=2022. Encapsulated vaterite-calcite CaCO(3) particles loaded with Mg(2+) and Cu(2+) ions with sustained release promoting osteogenesis and angiogenesis.|pdf=|usr=}}{{36032705}}
{{tp|p=35875505|t=2022. Strontium Functionalized in Biomaterials for Bone Tissue Engineering: A Prominent Role in Osteoimmunomodulation.|pdf=|usr=}}{{35875505}}
{{tp|p=35677296|t=2022. Mg-, Zn-, and Fe-Based Alloys With Antibacterial Properties as Orthopedic Implant Materials.|pdf=|usr=}}{{35677296}}
{{tp|p=35372297|t=2022. Regulation of Magnesium Matrix Composites Materials on Bone Immune Microenvironment and Osteogenic Mechanism.|pdf=|usr=}}{{35372297}}
{{tp|p=34527185|t=2021. Magnesium ions regulate mesenchymal stem cells population and osteogenic differentiation: A fuzzy agent-based modeling approach.|pdf=|usr=}}{{34527185}}
{{tp|p=34456880|t=2021. Calcium Transport in Specialized Dental Epithelia and Its Modulation by Fluoride.|pdf=|usr=}}{{34456880}}
{{tp|p=33842452|t=2021. MgO Nanoparticles-Incorporated PCL/Gelatin-Derived Coaxial Electrospinning Nanocellulose Membranes for Periodontal Tissue Regeneration.|pdf=|usr=}}{{33842452}}
{{tp|p=33520992|t=2020. Biological Roles and Delivery Strategies for Ions to Promote Osteogenic Induction.|pdf=|usr=}}{{33520992}}
{{tp|p=33494617|t=2022. Regulation of chondrocyte biosynthetic activity by dynamic hydrostatic pressure: the role of TRP channels.|pdf=|usr=}}{{33494617}}
{{tp|p=31138543|t=2019. Calcium Signaling and Tissue Calcification.|pdf=|usr=}}{{31138543}}
{{tp|p=37534007|t=2023. Enhancing bone formation using absorbable AZ31B magnesium alloy membranes during distraction osteogenesis: A new material study.|pdf=|usr=}}{{37534007}}
{{tp|p=37367290|t=2023. In Vitro and In Vivo Applications of Magnesium-Enriched Biomaterials for Vascularized Osteogenesis in Bone Tissue Engineering: A Review of Literature.|pdf=|usr=}}{{37367290}}
{{tp|p=36547545|t=2022. Surface Modification of Additively Fabricated Titanium-Based Implants by Means of Bioactive Micro-Arc Oxidation Coatings for Bone Replacement.|pdf=|usr=}}{{36547545}}
{{tp|p=36547521|t=2022. Biodegradable Mg-Sc-Sr Alloy Improves Osteogenesis and Angiogenesis to Accelerate Bone Defect Restoration.|pdf=|usr=}}{{36547521}}
{{tp|p=36412862|t=2022. AMPK/mTOR Pathway Is Involved in Autophagy Induced by Magnesium-Incorporated TiO(2) Surface to Promote BMSC Osteogenic Differentiation.|pdf=|usr=}}{{36412862}}
{{tp|p=34840576|t=2021. Effect of Magnesium on Dentinogenesis of Human Dental Pulp Cells.|pdf=|usr=}}{{34840576}}
{{tp|p=33477539|t=2021. In Vitro Macrophage Immunomodulation by Poly(epsilon-caprolactone) Based-Coated AZ31 Mg Alloy.|pdf=|usr=}}{{33477539}}
{{tp|p=32707715|t=2020. Optimizing an Osteosarcoma-Fibroblast Coculture Model to Study Antitumoral Activity of Magnesium-Based Biomaterials.|pdf=|usr=}}{{32707715}}
{{tp|p=32316424|t=2020. Biological Factors, Metals, and Biomaterials Regulating Osteogenesis through Autophagy.|pdf=|usr=}}{{32316424}}
{{tp|p=32019244|t=2020. A Comparison of Osteoblast and Osteoclast In Vitro Co-Culture Models and Their Translation for Preclinical Drug Testing Applications.|pdf=|usr=}}{{32019244}}
{{ttp|p=31805704|t=2019. Periprosthetic Osteolysis: Mechanisms, Prevention and Treatment.|pdf=|usr=}}{{31805704}}
{{tp|p=31413570|t=2019. The relative effects of Ca and Mg ions on MSC osteogenesis in the surface modification of microrough Ti implants.|pdf=|usr=}}{{31413570}}
{{tp|p=30658432|t=2019. Magnesium Is a Key Regulator of the Balance between Osteoclast and Osteoblast Differentiation in the Presence of Vitamin D(3).|pdf=|usr=}}{{30658432}}
{{tp|p=29534546|t=2018. Applications of Metals for Bone Regeneration.|pdf=|usr=}}{{29534546}}
{{tp|p=23770672|t=2013. A TRPC1 protein-dependent pathway regulates osteoclast formation and function.|pdf=|usr=}}{{23770672}}
{{tp|p=38105216|t=2023. Reprogramming mitochondrial metabolism of macrophages by miRNA-released microporous coatings to prevent peri-implantitis.|pdf=|usr=}}{{38105216}}
{{tp|p=37481538|t=2023. Biodegradable magnesium screw, titanium screw and direct embedding fixation in pedicled vascularized iliac bone graft transfer for osteonecrosis of the femoral head: a randomized controlled study.|pdf=|usr=}}{{37481538}}
{{tp|p=36263386|t=2022. Development of degradable magnesium-based metal implants and their function in promoting bone metabolism (A review).|pdf=|usr=}}{{36263386}}
{{tp|p=35757033|t=2022. Immunological reaction to magnesium-based implants for orthopedic applications. What do we know so far? A systematic review on in vivo studies.|pdf=|usr=}}{{35757033}}
{{tp|p=35087048|t=2022. Divalent metal cations stimulate skeleton interoception for new bone formation in mouse injury models.|pdf=|usr=}}{{35087048}}
{{tp|p=34660198|t=2021. Immobilization of bioactive vascular endothelial growth factor onto Ca-deficient hydroxyapatite-coated Mg by covalent bonding using polydopamine.|pdf=|usr=}}{{34660198}}
{{tp|p=34620219|t=2021. Astragaloside positively regulated osteogenic differentiation of pre-osteoblast MC3T3-E1 through PI3K/Akt signaling pathway.|pdf=|usr=}}{{34620219}}
{{tp|p=34589198|t=2021. Early osteoimmunomodulatory effects of magnesium-calcium-zinc alloys.|pdf=|usr=}}{{34589198}}
{{tp|p=34500951|t=2021. Resorbable Mg(2+)-Containing Phosphates for Bone Tissue Repair.|pdf=|usr=}}{{34500951}}
{{tp|p=33917786|t=2021. Physicochemical and Biological Properties of Mg-Doped Calcium Silicate Endodontic Cement.|pdf=|usr=}}{{33917786}}
{{tp|p=33825086|t=2021. Investigation of Mg-xLi-Zn alloys for potential application of biodegradable bone implant materials.|pdf=|usr=}}{{33825086}}
{{tp|p=33294153|t=2020. Biomimetic and osteogenic 3D silk fibroin composite scaffolds with nano MgO and mineralized hydroxyapatite for bone regeneration.|pdf=|usr=}}{{33294153}}
{{tp|p=32901870|t=2020. MgCl2 promotes mouse mesenchymal stem cell osteogenic differentiation by activating the p38/Osx/Runx2 signaling pathway.|pdf=|usr=}}{{32901870}}
{{ttp|p=32899725|t=2020. Is There a Role for Absorbable Metals in Surgery? A Systematic Review and Meta-Analysis of Mg/Mg Alloy Based Implants.|pdf=|usr=}}{{32899725}}
{{tp|p=32099804|t=2020. Comparison of bone surface and trough fixation on bone-tendon healing in a rabbit patella-patellar tendon injury model.|pdf=|usr=}}{{32099804}}
{{tp|p=31773769|t=2020. Zebrafish: An Emerging Model for Orthopedic Research.|pdf=|usr=}}{{31773769}}
{{tp|p=30896852|t=2019. TGF‑beta1 promotes the osteoinduction of human osteoblasts via the PI3K/AKT/mTOR/S6K1 signalling pathway.|pdf=|usr=}}{{30896852}}
{{tp|p=29767241|t=2018. Transcriptome sequencing analysis reveals the effect of combinative treatment with low‑intensity pulsed ultrasound and magnesium ions on hFOB1.19 human osteoblast cells.|pdf=|usr=}}{{29767241}}
{{tp|p=29662754|t=2017. Magnesium-based implants: Beyond fixators.|pdf=|usr=}}{{29662754}}
{{tp|p=24644393|t=2014. Bone Regeneration of Rat Calvarial Defect by Magnesium Calcium Phosphate Gelatin Scaffolds with or without Bone Morphogenetic Protein-2.|pdf=|usr=}}{{24644393}}
{{tp|p=38020233|t=2023. Magnesium-based alloys with adapted interfaces for bone implants and tissue engineering.|pdf=|usr=}}{{38020233}}
{{tp|p=37181680|t=2023. Advances in osseointegration of biomimetic mineralized collagen and inorganic metal elements of natural bone for bone repair.|pdf=|usr=}}{{37181680}}
{{tp|p=36631880|t=2023. Harnessing electromagnetic fields to assist bone tissue engineering.|pdf=|usr=}}{{36631880}}
{{tp|p=36333820|t=2022. The crosstalk between macrophages and bone marrow mesenchymal stem cells in bone healing.|pdf=|usr=}}{{36333820}}
{{tp|p=36284747|t=2022. High-purity magnesium screws modulate macrophage polarization during the tendon-bone healing process in the anterior cruciate ligament reconstruction rabbit model.|pdf=|usr=}}{{36284747}}
{{tp|p=36108031|t=2022. The osteogenetic activities of mesenchymal stem cells in response to Mg2+ ions and inflammatory cytokines: a numerical approach using fuzzy logic controllers.|pdf=|usr=}}{{36108031}}
{{tp|p=36092506|t=2022. Osteogenic differentiation of pre-conditioned bone marrow mesenchymal stem cells with Nisin on modified poly-L-lactic-acid nanofibers.|pdf=|usr=}}{{36092506}}
{{tp|p=35890649|t=2022. Controlled and Sequential Delivery of Stromal Derived Factor-1 alpha (SDF-1alpha) and Magnesium Ions from Bifunctional Hydrogel for Bone Regeneration.|pdf=|usr=}}{{35890649}}
{{tp|p=35480864|t=2022. Hydroxyapatite composited PEEK with 3D porous surface enhances osteoblast differentiation through mediating NO by macrophage.|pdf=|usr=}}{{35480864}}
{{tp|p=35476448|t=2022. Dissociation of nanosilicates induces downstream endochondral differentiation gene expression program.|pdf=|usr=}}{{35476448}}
{{tp|p=34650074|t=2021. Multiple channels with interconnected pores in a bioceramic scaffold promote bone tissue formation.|pdf=|usr=}}{{34650074}}
{{tp|p=34211729|t=2021. The biological responses and mechanisms of endothelial cells to magnesium alloy.|pdf=|usr=}}{{34211729}}
{{tp|p=32854589|t=2021. Coupling Osteogenesis and Vasculogenesis in Engineered Orthopedic Tissues.|pdf=|usr=}}{{32854589}}
{{tp|p=32728117|t=2020. Osteogenic cocktail induces calcifications in human breast cancer cell line via placental alkaline phosphatase expression.|pdf=|usr=}}{{32728117}}
{{tp|p=32440359|t=2020. Effect of magnesium ions/Type I collagen promote the biological behavior of osteoblasts and its mechanism.|pdf=|usr=}}{{32440359}}
{{tp|p=32411326|t=2020. MicroRNA-16, via FGF2 Regulation of the ERK/MAPK Pathway, Is Involved in the Magnesium-Promoted Osteogenic Differentiation of Mesenchymal Stem Cells.|pdf=|usr=}}{{32411326}}
{{tp|p=32153988|t=2020. Application of biomaterials for the repair and treatment of osteonecrosis of the femoral head.|pdf=|usr=}}{{32153988}}
{{tp|p=31413945|t=2019. Three-dimensional Printed Mg-Doped beta-TCP Bone Tissue Engineering Scaffolds: Effects of Magnesium Ion Concentration on Osteogenesis and Angiogenesis In Vitro.|pdf=|usr=}}{{31413945}}
{{tp|p=30740238|t=2019. In vitro and in vivo analysis of the biocompatibility of two novel and injectable calcium phosphate cements.|pdf=|usr=}}{{30740238}}
{{tp|p=30704530|t=2019. MagT1 regulated the odontogenic differentiation of BMMSCs induced byTGC-CM via ERK signaling pathway.|pdf=|usr=}}{{30704530}}
{{tp|p=28222767|t=2017. Knockdown of SLC41A1 magnesium transporter promotes mineralization and attenuates magnesium inhibition during osteogenesis of mesenchymal stromal cells.|pdf=|usr=}}{{28222767}}
{{tp|p=23912329|t=2013. Magnesium and osteoporosis: current state of knowledge and future research directions.|pdf=|usr=}}{{23912329}}
{{tp|p=35239157|t=2022. A review of current challenges and prospects of magnesium and its alloy for bone implant applications.|pdf=|usr=}}{{35239157}}
{{tp|p=35161092|t=2022. Magnesium-Based Alloys Used in Orthopedic Surgery.|pdf=|usr=}}{{35161092}}
{{tp|p=33553818|t=2021. Regulation of extracellular bioactive cations in bone tissue microenvironment induces favorable osteoimmune conditions to accelerate in situ bone regeneration.|pdf=|usr=}}{{33553818}}
{{tp|p=33143317|t=2020. Fabrication, Mechanical Properties and In-Vitro Behavior of Akermanite Bioceramic.|pdf=|usr=}}{{33143317}}
{{tp|p=31194022|t=2019. Surface degradation-enabled osseointegrative, angiogenic and antiinfective properties of magnesium-modified acrylic bone cement.|pdf=|usr=}}{{31194022}}
{{tp|p=29744409|t=2017. Influence of mixed organosilane coatings with variable RGD surface densities on the adhesion and proliferation of human osteosarcoma Saos-2 cells to magnesium alloy AZ31.|pdf=|usr=}}{{29744409}}
{{tp|p=27818718|t=2016. Built-in microscale electrostatic fields induced by anatase-rutile-phase transition in selective areas promote osteogenesis.|pdf=|usr=}}{{27818718}}
{{tp|p=27688425|t=2016. Titanium Ions Release from an Innovative Titanium-Magnesium Composite: an in Vitro Study.|pdf=|usr=}}{{27688425}}
{{tp|p=35872985|t=2022. The Extraglycemic Effect of SGLT-2is on Mineral and Bone Metabolism and Bone Fracture.|pdf=|usr=}}{{35872985}}
{{tp|p=37273994|t=2023. 3D printing of biomaterials for vascularized and innervated tissue regeneration.|pdf=|usr=}}{{37273994}}
{{tp|p=36858962|t=2023. The role of autophagy in bone metabolism and clinical significance.|pdf=|usr=}}{{36858962}}
{{tp|p=33015464|t=2020. Sustained Release of Magnesium Ions Mediated by a Dynamic Mechanical Hydrogel to Enhance BMSC Proliferation and Differentiation.|pdf=|usr=}}{{33015464}}
{{tp|p=31867484|t=2019. Preparation and Corrosion Resistance of Microarc Oxidation-Coated Biomedical Mg-Zn-Ca Alloy in the Silicon-Phosphorus-Mixed Electrolyte.|pdf=|usr=}}{{31867484}}
{{tp|p=31482128|t=2019. Chemical Fingerprint of Zn-Hydroxyapatite in the Early Stages of Osteogenic Differentiation.|pdf=|usr=}}{{31482128}}
{{tp|p=29065924|t=2017. Dose-response relationship between lower serum magnesium level and higher prevalence of knee chondrocalcinosis.|pdf=|usr=}}{{29065924}}
{{tp|p=28389033|t=2017. Enamel: Molecular identity of its transepithelial ion transport system.|pdf=|usr=}}{{28389033}}
{{tp|p=35846355|t=2022. Immuno-Modulatory Effects of Intervertebral Disc Cells.|pdf=|usr=}}{{35846355}}
die bandscheibe als immunsuppressiver ort
{{tp|p=34306204|t=2021. Psoralen accelerates osteogenic differentiation of human bone marrow mesenchymal stem cells by activating the TGF-beta/Smad3 pathway.|pdf=|usr=}}{{34306204}}
{{tp|p=26217175|t=2015. Mechanochemical regulation of growth cone motility.|pdf=|usr=}}{{26217175}}
{{tp|p=36926330|t=2023. The transient receptor potential channels in rheumatoid arthritis: Need to pay more attention.|pdf=|usr=}}{{36926330}}
{{tp|p=36644540|t=2023. FTY720 Attenuates LPS-Induced Inflammatory Bone Loss by Inhibiting Osteoclastogenesis via the NF-kappaB and HDAC4/ATF Pathways.|pdf=|usr=}}{{36644540}}
{{tp|p=35733923|t=2022. lncRNA SNHG15 as a ceRNA modulates Osteoclast Differentiation, Proliferation, and Metastasis by Sponging miR-381-3p/NEK2 Axis.|pdf=|usr=}}{{35733923}}
{{tp|p=31319381|t=2019. Homer2 and Homer3 modulate RANKL-induced NFATc1 signaling in osteoclastogenesis and bone metabolism.|pdf=|usr=}}{{31319381}}
{{tp|p=20839232|t=2011. The role of calcium release activated calcium channels in osteoclast differentiation.|pdf=|usr=}}{{20839232}}
{{tp|p=32408474|t=2020. Zinc as a Therapeutic Agent in Bone Regeneration.|pdf=|usr=}}{{32408474}}
{{tp|p=23081848|t=2013. Transient receptor potential melastatin 4 channel controls calcium signals and dental follicle stem cell differentiation.|pdf=|usr=}}{{23081848}}
{{tp|p=32146159|t=2020. TRPM7 activation potentiates SOCE in enamel cells but requires ORAI.|pdf=|usr=}}{{32146159}}
{{tp|p=31823825|t=2019. Magnesium-enriched microenvironment promotes odontogenic differentiation in human dental pulp stem cells by activating ERK/BMP2/Smads signaling.|pdf=|usr=}}{{31823825}}
{{tp|p=30385806|t=2018. TRPM7 and MagT1 in the osteogenic differentiation of human mesenchymal stem cells in vitro.|pdf=|usr=}}{{30385806}}
{{tp|p=36794562|t=2023. Conditional knockout of transient receptor potential melastatin 7 in the enamel epithelium: Effects on enamel formation.|pdf=|usr=}}{{36794562}}
{{tp|p=35034814|t=2022. The effects of a 3D-printed magnesium-/strontium-doped calcium silicate scaffold on regulation of bone regeneration via dual-stimulation of the AKT and WNT signaling pathways.|pdf=|usr=}}{{35034814}}
{{tp|p=30278312|t=2018. Molecular expression of Mg(2+) regulator TRPM7 and CNNM4 in rat odontoblasts.|pdf=|usr=}}{{30278312}}