| Q64051750 | 50 years of scanning electron microscopy of bone—a comprehensive overview of the important discoveries made and insights gained into bone material properties in health, disease, and taphonomy |
| Q36894220 | A Comparative Evaluation of the Mechanical Properties of Two Calcium Phosphate/Collagen Composite Materials and Their Osteogenic Effects on Adipose-Derived Stem Cells |
| Q63947467 | A High Coordination of Cross-Links Is Beneficial for the Strength of Cross-Linked Fibers |
| Q82087569 | A Molecular Rationale of Shock Absorption and Self‐Healing in a Biomimetic Apatite–Collagen Composite under Mechanical Load |
| Q89551430 | A New Biomimetic Composite Structure with Tunable Stiffness and Superior Toughness via Designed Structure Breakage |
| Q34786698 | A comparative study of zwitterionic ligands-mediated mineralization and the potential of mineralized zwitterionic matrices for bone tissue engineering |
| Q36296930 | A direct role of collagen glycation in bone fracture |
| Q94572175 | A review of the latest insights into the mechanism of action of strontium in bone |
| Q41786588 | AFM study of morphology and mechanical properties of a chimeric spider silk and bone sialoprotein protein for bone regeneration |
| Q36639204 | Activation of intracellular calcium signaling in osteoblasts colocalizes with the formation of post-yield diffuse microdamage in bone matrix. |
| Q92422375 | Adhesive Cements That Bond Soft Tissue Ex Vivo |
| Q34402472 | Age-dependence of power spectral density and fractal dimension of bone mineralized matrix in atomic force microscope topography images: potential correlates of bone tissue age and bone fragility in female femoral neck trabeculae. |
| Q34004460 | Age-related changes in the plasticity and toughness of human cortical bone at multiple length scales. |
| Q30501027 | Age-related factors affecting the postyield energy dissipation of human cortical bone |
| Q91521103 | Antiresorptive and anabolic agents in the prevention and reversal of bone fragility |
| Q63761539 | Artful interfaces within biological materials |
| Q35530049 | Atomic force microscopy in biomaterials surface science |
| Q39722275 | Atomic force microscopy of the morphology and mechanical behaviour of barnacle cyprid footprint proteins at the nanoscale |
| Q41015572 | Autonomous self-healing structural composites with bio-inspired design |
| Q37339914 | Bi-material attachment through a compliant interfacial system at the tendon-to-bone insertion site |
| Q87438680 | Bioinformatics analysis of time-series genes profiling to explore key genes affected by age in fracture healing |
| Q50849144 | Bioinspired Interface Engineering in Elastomer/Graphene Composites by Constructing Sacrificial Metal-Ligand Bonds. |
| Q38262669 | Bioinspired structural materials. |
| Q34218524 | Biomaterials-Based Strategies for the Engineering of Mechanically Active Soft Tissues |
| Q85330781 | Biomaterials: Recipe for squid beak |
| Q36226220 | Biomimetic Fabrication of Genetically-Engineered Collagen Peptide-Assembled Freestanding Films Reinforced by Quantum Dot Joints |
| Q38268705 | Biomimetic materials research: what can we really learn from nature's structural materials? |
| Q30557170 | Biomimetic silicification of demineralized hierarchical collagenous tissues |
| Q33422756 | Biomimetics: lessons from nature--an overview |
| Q37786597 | Biominerals—hierarchical nanocomposites: the example of bone |
| Q43509107 | Bone Tissue Properties Measurement by Reference Point Indentation in Glucocorticoid-Induced Osteoporosis |
| Q53101663 | Bone as a Composite Material |
| Q38417534 | Bone as a Structural Material |
| Q53105004 | Bone histomorphometry of transiliac paired bone biopsies after 6 or 12 months of treatment with oral strontium ranelate in 387 osteoporotic women: randomized comparison to alendronate. |
| Q35211086 | Bone microdamage, remodeling and bone fragility: how much damage is too much damage? |
| Q46279597 | Bone resembling apatite by amorphous-to-crystalline transition driven self-organisation |
| Q38364893 | Bone's Material Constituents and their Contribution to Bone Strength in Health, Disease, and Treatment. |
| Q81913547 | Calcite incorporated in silica/collagen xerogels mediates calcium release and enhances osteoblast proliferation and differentiation |
| Q38647414 | Calcium Phosphate Bioceramics: A Review of Their History, Structure, Properties, Coating Technologies and Biomedical Applications |
| Q50079190 | Calcium carbonate with nanogranular microstructure yields enhanced toughness |
| Q46949380 | Calcium-mediated secondary cross-linking of bisphosphonated oligo(poly(ethylene glycol) fumarate) hydrogels |
| Q33357266 | Cartilage aggrecan can undergo self-adhesion |
| Q41940713 | Cartilage stress-relaxation is affected by both the charge concentration and valence of solution cations |
| Q35519604 | Characterization of the effects of x-ray irradiation on the hierarchical structure and mechanical properties of human cortical bone |
| Q37217886 | Collagen insulated from tensile damage by domains that unfold reversibly: in situ X-ray investigation of mechanical yield and damage repair in the mussel byssus |
| Q37379438 | Collagen-Based Substrates with Tunable Strength for Soft Tissue Engineering. |
| Q30478259 | Cooperative deformation of mineral and collagen in bone at the nanoscale |
| Q33358763 | Cooperativity in adhesion cluster formation during initial cell adhesion |
| Q42047988 | Damage accumulation of bovine bone under variable amplitude loads |
| Q28235746 | Deformation and failure of protein materials in physiologically extreme conditions and disease |
| Q38729367 | Dentin on the nanoscale: Hierarchical organization, mechanical behavior and bioinspired engineering |
| Q36045489 | Designed to fail: a novel mode of collagen fibril disruption and its relevance to tissue toughness |
| Q47894425 | Designing toughness and strength for soft materials. |
| Q34468075 | Dilatational band formation in bone |
| Q45820363 | Direct measurements of non-ionic attraction and nanoscaled lubrication in biomimetic composites from nanofibrillated cellulose and modified carboxymethylated cellulose. |
| Q33640012 | Distinct defects in collagen microarchitecture underlie vessel-wall failure in advanced abdominal aneurysms and aneurysms in Marfan syndrome |
| Q35925095 | Do Non-collagenous Proteins Affect Skeletal Mechanical Properties? |
| Q57355948 | Double network hydrogels with extremely high toughness and their applications |
| Q34657851 | Dynamics of polymer molecules with sacrificial bond and hidden length systems: towards a physically-based mesoscopic constitutive law. |
| Q91729334 | EFTUD2 gene deficiency disrupts osteoblast maturation and inhibits chondrocyte differentiation via activation of the p53 signaling pathway |
| Q33347427 | Effect of Ca2+ ions on the adhesion and mechanical properties of adsorbed layers of human osteopontin |
| Q35205161 | Effect of biomimetic remineralization on the dynamic nanomechanical properties of dentin hybrid layers. |
| Q57220529 | Effect of changes in tropocollagen residue sequence and hydroxyapatite mineral texture on the strength of ideal nanoscale tropocollagen-hydroxyapatite biomaterials |
| Q36703444 | Effect of water on nanomechanics of bone is different between tension and compression |
| Q36032326 | Effects of bone matrix proteins on fracture and fragility in osteoporosis |
| Q35429093 | Effects of non-enzymatic glycation on cancellous bone fragility. |
| Q30540287 | Elastin-like polypeptide based hydroxyapatite bionanocomposites |
| Q57218450 | Embedded proteins and sacrificial bonds provide the strong adhesive properties of gastroliths |
| Q34985651 | Energetic basis for the molecular-scale organization of bone. |
| Q50989634 | Energy dissipation and recovery in a simple model with reversible cross-links. |
| Q30481143 | Evidence for an elementary process in bone plasticity with an activation enthalpy of 1 eV. |
| Q37488186 | Exercise and bone mass in adults |
| Q36134257 | Extensible byssus of Pinctada fucata: Ca(2+)-stabilized nanocavities and a thrombospondin-1 protein |
| Q87193251 | Fatigue-resistant adhesion of hydrogels |
| Q53539879 | Formation of ceramophilic chitin and biohybrid materials enabled by a genetically engineered bifunctional protein. |
| Q28080834 | Fragility of Bone Material Controlled by Internal Interfaces |
| Q63761665 | From brittle to ductile fracture of bone |
| Q39440740 | From molecules to macrostructures: recent development of bioinspired hard tissue repair. |
| Q38973655 | Gels with sense: supramolecular materials that respond to heat, light and sound |
| Q38813752 | Glycation Contributes to Interaction Between Human Bone Alkaline Phosphatase and Collagen Type I. |
| Q56828185 | Growth of single crystals in structured templates |
| Q50856544 | Hierarchical and Heterogeneous Bioinspired Composites-Merging Molecular Self-Assembly with Additive Manufacturing. |
| Q37856755 | Hierarchical assembly of micro-/nano-building blocks: bio-inspired rigid structural functional materials. |
| Q40799933 | Hierarchical modeling of the elastic properties of bone at submicron scales: the role of extrafibrillar mineralization |
| Q30494296 | Hierarchy of Bone Microdamage at Multiple Length Scales |
| Q27320591 | High-performance mussel-inspired adhesives of reduced complexity. |
| Q53528857 | High-speed photography of the development of microdamage in trabecular bone during compression |
| Q42124346 | Hybrid Supramolecular and Colloidal Hydrogels that Bridge Multiple Length Scales |
| Q37352207 | Hybrid multicomponent hydrogels for tissue engineering |
| Q35753698 | Hybrid supramolecular and colloidal hydrogels that bridge multiple length scales |
| Q42061988 | Hysteresis of soft joints embedded with fluid-filled microchannels |
| Q56763589 | Identification of proteins from human permanent erupted enamel |
| Q40512863 | In vitro mineralization of dense collagen substrates: a biomimetic approach toward the development of bone-graft materials. |
| Q91329973 | In vivo Labeling of Bone Microdamage in an Animal Model of Type 1 Diabetes Mellitus |
| Q40301507 | Increased excretion of collagen crosslinks in irradiated patients indicates destruction of collagen |
| Q88668826 | Intrafibrillar, bone-mimetic collagen mineralization regulates breast cancer cell adhesion and migration |
| Q36583064 | Intrinsic mechanical behavior of femoral cortical bone in young, osteoporotic and bisphosphonate-treated individuals in low- and high energy fracture conditions |
| Q37940859 | Layered nanocomposites inspired by the structure and mechanical properties of nacre |
| Q53528788 | Localization of Phosphorylated Serine, Osteopontin, and Bone Sialoprotein on Bone Fracture Surfaces |
| Q93135936 | Material properties and osteoporosis |
| Q34801708 | Materials design principles of ancient fish armour |
| Q38145005 | Measuring bone quality. |
| Q30489924 | Mechanical behavior of human cortical bone in cycles of advancing tensile strain for two age groups |
| Q50694900 | Mechanical energy transfer and dissipation in fibrous beta-sheet-rich proteins. |
| Q37191885 | Microfibres and macroscopic films from the coordination-driven hierarchical self-assembly of cylindrical micelles |
| Q44804833 | Microindentation for in vivo measurement of bone tissue material properties in atypical femoral fracture patients and controls. |
| Q30979077 | Microindentation for in vivo measurement of bone tissue mechanical properties in humans. |
| Q36442946 | Micromechanical modeling of R-curve behaviors in human cortical bone |
| Q58676204 | Mineralized Peptide Nanofiber Gels for Enhanced Osteogenic Differentiation |
| Q41887242 | Modelling the mechanics of partially mineralized collagen fibrils, fibres and tissue |
| Q98205041 | Molecular design principles of Lysine-DOPA wet adhesion |
| Q33374806 | Molecular energy dissipation in nanoscale networks of Dentin Matrix Protein 1 is strongly dependent on ion valence |
| Q36815517 | Molecular mechanics of mineralized collagen fibrils in bone |
| Q57352462 | Multi-scale simulations of apatite–collagen composites: from molecules to materials |
| Q34293665 | Multidimensional Atomic Force Microscopy: A Versatile Novel Technology for Nanopharmacology Research |
| Q37396367 | Multifunctional role of osteopontin in directing intrafibrillar mineralization of collagen and activation of osteoclasts |
| Q27025025 | Multiscale imaging of bone microdamage |
| Q34594663 | Mussel-designed protective coatings for compliant substrates |
| Q41911680 | Mussel-inspired histidine-based transient network metal coordination hydrogels |
| Q37513381 | NMR investigation of the role of osteocalcin and osteopontin at the organic-inorganic interface in bone |
| Q30468701 | Nano-mechanical properties of individual mineralized collagen fibrils from bone tissue |
| Q38223017 | Nanobiotechnology and bone regeneration: a mini-review |
| Q38848812 | Nanoindentation analysis of the micromechanical anisotropy in mouse cortical bone |
| Q41887266 | Nanointerfacial strength between non-collagenous protein and collagen fibrils in antler bone. |
| Q47102427 | Nanomedicine for safe healing of bone trauma: Opportunities and challenges |
| Q33791856 | Nanoscale chemical tomography of buried organic-inorganic interfaces in the chiton tooth. |
| Q90910862 | Nanoscale deformation mechanics reveal resilience in nacre of Pinna nobilis shell |
| Q34630299 | Nanoscale heterogeneity promotes energy dissipation in bone. |
| Q44284384 | Nanoscale structures and mechanics of barnacle cement. |
| Q37808165 | Nanosized hydroxyapatite and other calcium phosphates: Chemistry of formation and application as drug and gene delivery agents |
| Q36807625 | Nanostructured materials for applications in drug delivery and tissue engineering |
| Q38814671 | Nanotechnology in Dental Sciences: Moving towards a Finer Way of Doing Dentistry. |
| Q56991677 | On the elastic properties of mineralized turkey leg tendon tissue: multiscale model and experiment |
| Q39863648 | Orientation and size-dependent mechanical modulation within individual secondary osteons in cortical bone tissue |
| Q50962209 | Osteonectin-derived peptide increases the modulus of a bone-mimetic nanocomposite. |
| Q33872326 | Osteopontin deficiency increases bone fragility but preserves bone mass |
| Q47228437 | Periosteum Extracellular-Matrix-Mediated Acellular Mineralization during Bone Formation |
| Q30476509 | Perspective on post-menopausal osteoporosis: establishing an interdisciplinary understanding of the sequence of events from the molecular level to whole bone fractures |
| Q46269953 | Physical hydrogels composed of polyampholytes demonstrate high toughness and viscoelasticity |
| Q38942134 | Post-yield and failure properties of cortical bone |
| Q58566559 | Preservation of Bone Tissue Integrity with Temperature Control for In Situ SR-MicroCT Experiments |
| Q30504141 | Primary structure and phosphorylation of dentin matrix protein 1 (DMP1) and dentin phosphophoryn (DPP) uniquely determine their role in biomineralization |
| Q47721192 | Progress in bio-inspired sacrificial bonds in artificial polymeric materials. |
| Q83719476 | Reduced stress concentration and enhanced fracture toughness by yielding-rehardening combination |
| Q55452557 | Reducing uncertainties in energy dissipation measurements in atomic force spectroscopy of molecular networks and cell-adhesion studies. |
| Q39119189 | Reference point indentation is not indicative of whole mouse bone measures of stress intensity fracture toughness |
| Q37413852 | Relating crack-tip deformation to mineralization and fracture resistance in human femur cortical bone |
| Q53361937 | Repair mechanisms for microdamage in bone. |
| Q57346861 | Reversible Programing of Soft Matter with Reconfigurable Mechanical Properties |
| Q44554544 | Sacrificial bonds and hidden length in biomaterials: a kinetic constitutive description of strength and toughness in bone. |
| Q42264982 | Sacrificial ionic bonds need to be randomly distributed to provide shear deformability |
| Q92891994 | Self-Healing Hydrogels: The Next Paradigm Shift in Tissue Engineering? |
| Q46163358 | Significant Performance Enhancement of Polymer Resins by Bioinspired Dynamic Bonding |
| Q50021725 | Skeletal fragility in diabetes |
| Q30485554 | Small animal bone biomechanics |
| Q34996607 | Stochastic interdigitation as a toughening mechanism at the interface between tendon and bone |
| Q48053637 | Strong and tuneable wet adhesion with rationally designed layer-by-layer assembled triblock copolymer films |
| Q44743773 | Strontium localization in bone tissue studied by X-ray absorption spectroscopy. |
| Q38081878 | Structural biological materials: critical mechanics-materials connections |
| Q57784251 | Structural role of osteocalcin and osteopontin in energy dissipation in bone |
| Q46611265 | Structure and scale of the mechanics of mammalian dental enamel viewed from an evolutionary perspective |
| Q36569536 | Sulfobetaine as a zwitterionic mediator for 3D hydroxyapatite mineralization |
| Q27334660 | Synchrotron radiation micro-CT at the micrometer scale for the analysis of the three-dimensional morphology of microcracks in human trabecular bone |
| Q41883660 | Synthesis of bone-like nanocomposites using multiphosphorylated peptides |
| Q34177629 | Systemic treatment with strontium ranelate accelerates the filling of a bone defect and improves the material level properties of the healing bone. |
| Q50489065 | Temporal changes in bone composition, architecture, and strength following estrogen deficiency in osteoporosis. |
| Q33771252 | Tensile properties of human collagen fibrils and fascicles are insensitive to environmental salts |
| Q28087034 | The Mineral-Collagen Interface in Bone |
| Q53699099 | The Role of Matrix Composition in the Mechanical Behavior of Bone. |
| Q39980752 | The ameloblastin extracellular matrix molecule enhances bone fracture resistance and promotes rapid bone fracture healing. |
| Q34792341 | The bone diagnostic instrument II: indentation distance increase |
| Q38004934 | The contribution of the extracellular matrix to the fracture resistance of bone |
| Q26784190 | The fracture mechanics of human bone: influence of disease and treatment |
| Q46011363 | The importance of intrinsic damage properties to bone fragility: a finite element study. |
| Q35089416 | The loss of activating transcription factor 4 (ATF4) reduces bone toughness and fracture toughness |
| Q38258839 | The mechanical role of metal ions in biogenic protein-based materials |
| Q46089187 | The microstructure and micromechanics of the tendon-bone insertion. |
| Q46119345 | The nanocomposite nature of bone drives its strength and damage resistance |
| Q30519161 | The nanometre-scale physiology of bone: steric modelling and scanning transmission electron microscopy of collagen-mineral structure |
| Q46290453 | The predominant role of collagen in the nucleation, growth, structure and orientation of bone apatite |
| Q38223620 | The role of nanoscale toughening mechanisms in osteoporosis. |
| Q35842303 | The role of organic proteins on the crack growth resistance of human enamel |
| Q100559700 | The structural role of osteocalcin in bone biomechanics and its alteration in Type-2 Diabetes |
| Q59440311 | The true toughness of human cortical bone measured with realistically short cracks |
| Q47433180 | Three dimensional printed calcium phosphate and poly(caprolactone) composites with improved mechanical properties and preserved microstructure. |
| Q31033006 | Three structural roles for water in bone observed by solid-state NMR. |
| Q57217925 | Towards high-performance bioinspired composites |
| Q38079559 | Towards patient-specific material modeling of trabecular bone post-yield behavior. |
| Q57291534 | Transformation of amorphous calcium phosphate to bone-like apatite |
| Q38586132 | Type 2 diabetes and the skeleton: new insights into sweet bones |
| Q39384622 | Universal structure motifs in biominerals: a lesson from nature for the efficient design of bioinspired functional materials. |
| Q38111693 | Vertical bone augmentation procedures: basics and techniques in dental implantology |
| Q30689261 | Water-mediated structuring of bone apatite |
| Q50893648 | Weak reversible cross links may decrease the strength of aligned fiber bundles. |
| Q63761624 | When the cracks begin to show |
| Q37428921 | Women with previous stress fractures show reduced bone material strength |
| Q39017377 | X-ray diffraction as a promising tool to characterize bone nanocomposites |
| Q36660116 | pH-Based Regulation of Hydrogel Mechanical Properties Through Mussel-Inspired Chemistry and Processing |