All Stories

  1. Mechanical and morphological characterization of PMMA/bone composites in human femoral heads
  2. Cemented short‐stem total hip arthroplasty: Characteristics of line‐to‐line versus undersized cementing techniques using a validated CT‐based finite element analysis
  3. Finite Element Analysis of Custom Shoulder Implants Provides Accurate Prediction of Initial Stability
  4. Automated muscle elongation measurement during reverse shoulder arthroplasty planning
  5. Nonlinear voxel-based finite element model for strength assessment of healthy and metastatic proximal femurs
  6. Finite element models for fracture prevention in patients with metastatic bone disease. A literature review
  7. Integration of cortical thickness data in a statistical shape model of the scapula
  8. Estrogen receptor alpha signaling in extrahypothalamic neurons during late puberty decreases bone size and strength in female but not in male mice
  9. Cement augmentation of metastatic lesions in the proximal femur can improve bone strength
  10. Does Unicondylar Knee Arthroplasty Affect Tibial Bone Strain? A Paired Cadaveric Comparison of Fixed- and Mobile-bearing Designs
  11. Reply Letter to the Editor: Clinical in Vivo Assessment of Bone Microarchitecture With CT Scanners: An Enduring Challenge
  12. Skull fracture prediction through subject-specific finite element modelling is highly sensitive to model parameters
  13. Correlation Between Cone‐Beam Computed Tomography and High‐Resolution Peripheral Computed Tomography for Assessment of Wrist Bone Microstructure
  14. Effect of anatomical variability on stress‐shielding induced by short calcar‐guided stems: Automated finite element analysis of 90 femora
  15. Diffusion of charged and uncharged contrast agents in equine mandibular condylar cartilage is not affected by an increased level of sugar-induced collagen crosslinking
  16. Androgen Receptor in Neurons Slows Age‐Related Cortical Thinning in Male Mice
  17. Computer-based automatic classification of trabecular bone pattern can assist radiographic bone quality assessment at dental implant site
  18. Mobility and structural constraints of the bonobo trapeziometacarpal joint
  19. Quantification of bone microstructure in the wrist using cone-beam computed tomography
  20. Mechanical Loading Differentially Affects Osteocytes in Fibulae from Lactating Mice Compared to Osteocytes in Virgin Mice: Possible Role for Lacuna Size
  21. Aging does not change the compressive stiffness of mandibular condylar cartilage in horses
  22. Age-related changes in female mouse cortical bone microporosity
  23. A novel contact interaction formulation for voxel-based micro-finite-element models of bone
  24. Unraveling the compromised biomechanical performance of type 2 diabetes- and Roux-en-Y gastric bypass bone by linking mechanical-structural and physico-chemical properties
  25. Mechanical stiffness of TMJ condylar cartilage increases after artificial aging by ribose
  26. In vivo biomechanical behavior of the trapeziometacarpal joint in healthy and osteoarthritic subjects
  27. Patient-specific in silico models can quantify primary implant stability in elderly human bone
  28. Aging, Osteocytes, and Mechanotransduction
  29. Accuracy and reproducibility of mouse cortical bone microporosity as quantified by desktop microcomputed tomography
  30. A novel method for segmenting and aligning the pre- and post-implantation scaffolds of resorbable calcium-phosphate bone substitutes
  31. A novel in silico method to quantify primary stability of screws in trabecular bone
  32. Ex vivo thickness measurement of cartilage covering the temporomandibular joint
  33. A μCT-based investigation of the influence of tissue modulus variation, anisotropy and inhomogeneity on ultrasound propagation in trabecular bone
  34. Quantifying thumb opposition kinematics using dynamic computed tomography
  35. Screw insertion in trabecular bone causes peri-implant bone damage
  36. Technical Note: Cortical thickness and density estimation from clinical CT using a prior thickness-density relationship
  37. Mechanical competence of ovariectomy-induced compromised bone after single or combined treatment with high-frequency loading and bisphosphonates
  38. Computational analysis of primary implant stability in trabecular bone
  39. Positive association between serum silicon levels and bone mineral density in female rats following oral silicon supplementation with monomethylsilanetriol
  40. Geometrical characterization and micro-structural modeling of short steel fiber composites
  41. Load Sharing and Ligament Strains in Balanced, Overstuffed and Understuffed UKA. A Validated Finite Element Analysis
  42. Quantification of trabecular spatial orientation from low-resolution images
  43. Trabecular Bone Adaptation to Low-Magnitude High-Frequency Loading in Microgravity
  44. Role of subject-specific musculoskeletal loading on the prediction of bone density distribution in the proximal femur
  45. Experimental quantification of bone mechanics
  46. From histology to micro-CT: Measuring and modeling resorption cavities and their relation to bone competence
  47. Peri-implant bone microstructure determines dynamic implant cut-out
  48. Transmission of Whole-Body Vibration and Its Effect on Muscle Activation
  49. High-throughput quantification of the mechanical competence of murine femora — A highly automated approach for large-scale genetic studies
  50. Time-lapsed imaging of implant fixation failure in human femoral heads
  51. Subject-specific bone loading estimation in the human distal radius
  52. The effect of resorption cavities on bone stiffness is site dependent
  53. Glucocorticoid-Induced Changes in the Geometry of Osteoclast Resorption Cavities Affect Trabecular Bone Stiffness
  54. Enhancement of Implant Osseointegration by High-Frequency Low-Magnitude Loading
  55. DETERMINATION OF PHYSIOLOGICAL LOADING CONDITIONS AT THE HUMAN DISTAL RADIUS
  56. IMPORTANCE OF PERI-IMPLANT BONE MICROSTRUCTURE IN DYNAMIC IMPLANT CUT-OUT
  57. The discrete nature of trabecular bone microarchitecture affects implant stability
  58. The different contributions of cortical and trabecular bone to implant anchorage in a human vertebra
  59. In vivo assessment of the effect of controlled high- and low-frequency mechanical loading on peri-implant bone healing
  60. The importance of murine cortical bone microstructure for microcrack initiation and propagation
  61. A non-linear homogeneous model for bone-like materials under compressive load
  62. Abnormal Bone Microarchitecture and Evidence of Osteoblast Dysfunction in Premenopausal Women with Idiopathic Osteoporosis
  63. Use of micro-CT-based finite element analysis to accurately quantify peri-implant bone strains: a validation in rat tibiae
  64. Implant stability is affected by local bone microstructural quality
  65. Augmentation of peri-implant bone improves implant stability: Quantification using simulated bone loss
  66. 3D characterization of bone strains in the rat tibia loading model
  67. Computational finite element bone mechanics accurately predicts mechanical competence in the human radius of an elderly population
  68. Mechanisms of reduced implant stability in osteoporotic bone
  69. Fast and accurate specimen-specific simulation of trabecular bone elastic modulus using novel beam–shell finite element models
  70. Experimental and finite element analysis of the mouse caudal vertebrae loading model: prediction of cortical and trabecular bone adaptation
  71. Towards validation of computational analyses of peri-implant displacements by means of experimentally obtained displacement maps
  72. In Memoriam: Rik Huiskes (1944–2010)
  73. Mechanical stability in a human radius fracture treated with a novel tissue-engineered bone substitute: a non-invasive, longitudinal assessment using high-resolution pQCT in combination with finite element analysis
  74. Quantitative, structural, and image-based mechanical analysis of nonunion fracture repaired by genetically engineered mesenchymal stem cells
  75. Computational analyses of small endosseous implants in osteoporotic bone
  76. Extreme scalability challenges in micro-finite element simulations of human bone
  77. Sexual dimorphism in cortical bone size and strength but not density is determined by independent and time-specific actions of sex steroids and IGF-1: Evidence from pubertal mouse models
  78. A new route to produce starch-based fiber mesh scaffolds by wet spinning and subsequent surface modification as a way to improve cell attachment and proliferation
  79. Automated, High-Throughput, Multi-scale Assessment of Bone Morphology and Bone Competence
  80. Comparison of optical coherence tomography, microcomputed tomography, and histology at a three-dimensionally imaged trabecular bone sample
  81. Hydroxyapatite particles maintain peri-implant bone mantle during osseointegration in osteoporotic bone
  82. Regional, age and gender differences in architectural measures of bone quality and their correlation to bone mechanical competence in the human radius of an elderly population
  83. Mechanical competence of bone-implant systems can accurately be determined by image-based micro-finite element analyses
  84. Assessing forearm fracture risk in postmenopausal women
  85. Time-lapsed assessment of microcrack initiation and propagation in murine cortical bone at submicrometer resolution
  86. Three-dimensional bone imaging: optical coherence tomography versus micro computer tomography
  87. Towards Improved Assessment of Bone Fracture Risk
  88. Bone Structure at the Distal Radius During Adolescent Growth
  89. Assessment of trabecular and cortical architecture and mechanical competence of bone by high-resolution peripheral computed tomography: comparison with transiliac bone biopsy
  90. In silico biology of bone modelling and remodelling: adaptation
  91. Multi-level patient-specific modelling of the proximal femur. A promising tool to quantify the effect of osteoporosis treatment
  92. A fast convolution-based methodology to simulate 2-Dd/3-D cardiac ultrasound images
  93. Non-invasive bone competence analysis by high-resolution pQCT: An in vitro reproducibility study on structural and mechanical properties at the human radius
  94. A Validated Skeleton-based Finite Element Mesh for Parametric Analysis of Trabecular Bone Competence
  95. Microstructural quality of vertebral trabecular bone can be assessed from ultrasonic wave propagation
  96. A Convolution-based Methodology to Simulate Cardiac Ultrasound Data Sets: Integration of Realistic Beam Profiles
  97. Microstructural simulation of ultrasonic wave propagation through vertebral bone samples
  98. CT-based visualization and quantification of bone microstructure in vivo
  99. Tissue modulus calculated from beam theory is biased by bone size and geometry: Implications for the use of three-point bending tests to determine bone tissue modulus
  100. A novelin vivomouse model for mechanically stimulated bone adaptation – a combined experimental and computational validation study
  101. Differential regulation of bone and body composition in male mice with combined inactivation of androgen and estrogen receptor- 
  102. Quantification of Bone Structural Parameters and Mechanical Competence at the Distal Radius
  103. Differential Effects of Bone Structural and Material Properties on Bone Competence in C57BL/6 and C3H/He Inbred Strains of Mice
  104. Bone Morphometry Strongly Predicts Cortical Bone Stiffness and Strength, but Not Toughness, in Inbred Mouse Models of High and Low Bone Mass
  105. A scalable multi-level preconditioner for matrix-free µ-finite element analysis of human bone structures
  106. Femoral stiffness and strength critically depend on loading angle: a parametric study in a mouse-inbred strain
  107. Pedicled Vascularized Rib Transfer for Reconstruction of Clavicle Nonunions with Bony Defects: Anatomical and Biomechanical Considerations
  108. Contribution of In Vivo Structural Measurements and Load/Strength Ratios to the Determination of Forearm Fracture Risk in Postmenopausal Women
  109. Nondestructive micro-computed tomography for biological imaging and quantification of scaffold–bone interaction in vivo
  110. Specimen-specific beam models for fast and accurate prediction of human trabecular bone mechanical properties
  111. In vivo behavior of calcium phosphate scaffolds with four different pore sizes
  112. Micro-computed tomography determination of glass fibre reinforced polymer meso-structure
  113. Evaluation of an in situ formed synthetic hydrogel as a biodegradable membrane for guided bone regeneration
  114. The influence of surface coatings of dicalcium phosphate (DCPD) and growth and differentiation factor-5 (GDF-5) on the stability of titanium implants in vivo
  115. Prediction of failure load using micro-finite element analysis models: Toward in vivo strength assessment
  116. Trabecular bone failure at the microstructural level
  117. Functional microimaging: an integrated approach for advanced bone biomechanics and failure analysis
  118. Importance of Individual Rods and Plates in the Assessment of Bone Quality and Their Contribution to Bone Stiffness
  119. Functional Micro-imaging at the Interface of Bone Mechanics and Biology
  120. Local delivery of bisphosphonate from coated orthopedic implants increases implants mechanical stability in osteoporotic rats
  121. Synthesis and characterization of porous β-tricalcium phosphate blocks
  122. Engineering craniofacial scaffolds
  123. Preparation, radiochemical purity control and stability of99mTc-mertiatide (Mag-3)
  124. A Finite Element Beam-model for Efficient Simulation of Large-scale Porous Structures
  125. Ganciclovir nucleotides accumulate in mitochondria of rat liver cells expressing the herpes simplex virus thymidine kinase gene
  126. Stemmed femoral knee prostheses: Effects of prosthetic design and fixation on bone loss
  127. How morphology predicts mechanical properties of trabecular structures depends on intra-specimen trabecular thickness variations
  128. Increase in bone volume fraction precedes architectural adaptation in growing bone
  129. Frictional heating of total hip implants, Part 1: measurements in patients
  130. Frictional heating of total hip implants. Part 2: finite element study
  131. The Prospects of Estimating Trabecular Bone Tissue Properties from the Combination of Ultrasound, Dual-Energy X-Ray Absorptiometry, Microcomputed Tomography, and Microfinite Element Analysis
  132. A Computer-simulation Model Relating Bone-cell Metabolism to Mechanical Adaptation of Trabecular Architecture
  133. Effects of mechanical forces on maintenance and adaptation of form in trabecular bone
  134. Speed of sound reflects Young’s modulus as assessed by microstructural finite element analysis
  135. Correlation between pre-operative periprosthetic bone density and post-operative bone loss in THA can be explained by strain-adaptive remodelling
  136. Stress Shielding After Total Knee Replacement May Cause Bone Resorption In The Distal Femur