Ultrasound imaging and regulated mechanotransduction for characteristics, regeneration, and therapeutics of bone

Authors: Yi-Xian Qin

Source: Mechanobiology in Medicine, Vol 3, Iss 1, Pp 100116- (2025)

Subject Terms: Ultrasound imaging, Bone density, LIPUS/LIUS, Biomechanics & mechanobiology, Bone adaptation, Osteopenia, Medical technology, R855-855.5

File Description: electronic resource

Relation: http://www.sciencedirect.com/science/article/pii/S294990702500004X; https://doaj.org/toc/2949-9070

Access URL: https://doaj.org/article/d25052a6b94e49998b704d621f4c5dd5

Toward a clear relationship between mechanical signals and bone adaptation

Authors: Chenlu Wang, Ruisen Fu, Haisheng Yang

Source: Mechanobiology in Medicine, Vol 3, Iss 1, Pp 100115- (2025)

Subject Terms: Bone adaptation, In vivo loading, Animal models, Mechanical signals, Osteocyte, Medical technology, R855-855.5

File Description: electronic resource

Relation: http://www.sciencedirect.com/science/article/pii/S2949907025000038; https://doaj.org/toc/2949-9070

Access URL: https://doaj.org/article/d674cd83545d4c1d80b4ab838decd6c7

Studying Orthodontic Tooth Movement in Mice

Authors: José Alcides Almeida de Arruda, author¹, João Pacheco Colares, author², Mariana de Souza Santos, author³, Victor Zanetti Drumond, author⁴, Talita Martins, author⁵, Carolina Bosso André, author², Flávio Almeida Amaral, author⁶, Ildeu Andrade, Jr, author⁷, Tarcília Aparecida Silva, author⁸, Soraia Macari, author²

Source: Journal of Visualized Experiments. (210)

Availability: http://www.jove.com/video/66884

Effects of aging and exercise training on bone and marrow blood flow and vascular function

Authors: Park, Hyerim ^a, Narayanan, S. Anand ^a, Caldwell, Jacob T. ^a, Behnke, Bradley J. ^b, Muller-Delp, Judy M. ^c, Delp, Michael D. ^{a, ⁎}

Source: In Bone March 2025 192

A whole bone-lacunocanalicular network-osteocyte model examining bone adaptation to distinct loading parameters

Authors: Fu, Ruisen, Wang, Chenlu, Shahneela, Nusrat, Din, Rahman Ud, Yang, Haisheng ^⁎

Source: In International Journal of Mechanical Sciences 15 January 2025 286

Aerobic exercise training-induced bone and vascular adaptations in mice lacking adiponectin

Authors: Park, Hyerim ^a, Trupiano, Samuel P. ^b, Medarev, Steven L. ^b, Ghosh, Payal ^a, Caldwell, Jacob T. ^{b, c}, Yarrow, Joshua F. ^d, Muller-Delp, Judy M. ^{b, ⁎}

Source: In Bone January 2025 190

Optimising parameters of bone-adaptation model using experimental data

Authors: Smotrova-Kayali, Ekaterina ^⁎, Li, Simin, Silberschmidt, Vadim V.

Source: In International Journal of Engineering Science 1 April 2025 209

Bone adaptation to mechanical loading in a mouse model of reduced peripheral sensory nerve function.

Authors: Heffner, Mollie A.¹, Genetos, Damian C.², Christiansen, Blaine A.³ bchristiansen@ucdavis.edu

Source: PLoS ONE. 10/31/2017, Vol. 12 Issue 11, p1-20. 20p.

Subject Terms: *NEUROPEPTIDES, *OSTEOPOROSIS, *MECHANICAL loads, *MUSCULOSKELETAL system, *LABORATORY mice, BONE adaptation

Predicting Bone Modeling Parameters in Response to Mechanical Loading

Authors: Dattatrey, M., Tiwari, A.K., Ghoshal, B., Singh, J.

Source: IEEE Access Access, IEEE. 7:122561-122572 2019

STRONGER BONES in 30 days.

Source: Woman & Home: Feel Good You (2022); Feb2024, Issue 277, p72-75, 4p, 17 Color Photographs

Subject Terms: RISK factors of fractures, BONE testing, MIDDLE age, ANALYSIS of bones, BONE adaptation

A comparative study of orthotropic and isotropic bone adaptation in the femur.

Authors: Geraldes, Diogo M.¹, Phillips, Andrew T. M.¹

Source: International Journal for Numerical Methods in Biomedical Engineering. Sep2014, Vol. 30 Issue 9, p873-889. 17p.

Subject Terms: *COMPARATIVE studies, *ORTHOTROPY (Mechanics), *ISOTROPIC properties, *PEDICLE flaps (Surgery), *BIOMECHANICS, BONE adaptation, FEMUR surgery

Trabecular Bone Structure Correlates with Hand Posture and Use in Hominoids.

Authors: Tsegai, Zewdi J.^1,2, Kivell, Tracy L.^2,3, Gross, Thomas⁴, Nguyen, N. Huynh², Pahr, Dieter H.⁴, Smaers, Jeroen B.^1,5, Skinner, Matthew M.^1,2 m.skinner@ucl.ac.uk

Source: PLoS ONE. Nov2013, Vol. 8 Issue 11, p1-14. 14p.

Subject Terms: *BONES, *PHYSIOLOGICAL stress, *POSTURE, *TISSUE mechanics, *ANISOTROPY, *APES, *ANATOMY, BONE adaptation

Combinations of trabecular and cortical bone properties distinguish various loading modalities between athletes and controls.

Authors: Saers, Jaap P. P.¹ jpps2@cam.ac.uk, DeMars, Lily J.², Stephens, Nicholas B.², Jashashvili, Tea^3,4, Carlson, Kristian J.^3,5, Gordon, Adam D.⁶, Shaw, Colin N., Ryan, Timothy M.², Stock, Jay T.^1,7

Source: American Journal of Physical Anthropology. Mar2021, Vol. 174 Issue 3, p434-450. 17p.

Subject Terms: *COMPACT bone, *PHYSIOLOGICAL adaptation, *CANCELLOUS bone, *ATHLETES, BONE adaptation

Mechanobiology, chondrocyte and cartilage.

Authors: Huselstein, C.^1,2 Celine.Huselstein@medecine.uhp-nancy.fr, Netter, P.^1,2, De Isla, N.^1,2, Wang, Y.^1,2,3, Gillet, P.^1,2, Decot, V.^1,2,4, Muller, S.^1,2, Bensoussan, D.^2,4, Stoltz, J. F.^1,2,4

Source: Bio-Medical Materials & Engineering. 2008, Vol. 18 Issue 4/5, p213-220. 8p.

Subject Terms: *BIOMECHANICS, *CARTILAGE cells, *CELL physiology, *MEDICAL terminology, BONE adaptation

Mesolithic and Chalcolithic Mandibular Morphology: Using Geometric Morphometrics to Reconstruct Incomplete Specimens and Analyse Morphology

Authors: Godinho Ricardo Miguel, Umbelino Cláudia, Gonçalves Célia

Source: Open Archaeology, Vol 8, Iss 1, Pp 536-549 (2022)

Subject Terms: biological anthropology, virtual anthropology, skeletal morphology, population history, bone adaptation, Archaeology, CC1-960

File Description: electronic resource

Relation: https://doaj.org/toc/2300-6560

Access URL: https://doaj.org/article/3d1f15c6caa1461caf276e1d20d8c3c5

Biomaterials for Bone Tissue Engineering

Authors: Sanz, José Antonio

Subject Terms: TA1-2040, T1-995, bone morphogenesis proteins, finite element, bone tissue engineering, electrically active implants, prediction marker, vertebra, direct current electric field, loose sintering, Lattice Boltzmann method, Pelvis, automatic segmentation, MSCs, additive manufacturing, finite element method, bioelectromagnetism, optimization, scaffold design, cone beam computed tomography, computational modelling, bone regeneration, oxygen delivery, biomaterials, bone tissue, spark plasma sintering, critical size defect, musculoskeletal modelling, resonance frequency analysis, minipig, numerical methods in bioengineering, computational fluid dynamics, maxillofacial, osteoporosis, sliding window, osseointegration, mass transfer, substrate-mediated electrical stimulation, Fixation design, dental implants, human dental pulp stem cells, numerical results, elastoplasticity, bone tissue regeneration, finite-element simulation, 3D-printed implant, selective laser melting, Lagrangian scalar tracking, cortical bone, micromechanics, trabeculae, finite element modelling, damage, titanium, powder metallurgy, pelvis, biomechanics, computational mechanobiology, culturing protocol, bone adaptation, stem cell, Bone tumor, trabecular bone score, Xenografts, triply periodic minimal surfaces, computed tomography, multiscale analysis, cartilage, digital image correlation, osteo-differentiation, wollastonite, transport, finite element analysis, bone marrow, fracture risk, von Mises stress, electric stimulation, mechanical behaviour, adipogenesis, biomaterial applications, computational mechanics, Ti6Al4V scaffolds, finite elements, Otsu’s method, 3D virtual surgical plan, History of engineering and technology

File Description: application/octet-stream

Access URL: https://directory.doabooks.org/handle/20.500.12854/42269
https://mdpi.com/books/pdfview/book/2327

Trabecular bone remodeling in the aging mouse: A micro-multiphysics agent-based in silico model using single-cell mechanomics

Authors: Daniele Boaretti, Francisco C. Marques, Charles Ledoux, Amit Singh, Jack J. Kendall, Esther Wehrle, Gisela A. Kuhn, Yogesh D. Bansod, Friederike A. Schulte, Ralph Müller

Source: Frontiers in Bioengineering and Biotechnology, Vol 11 (2023)

Subject Terms: micro-FE, bone adaptation, mechanical signal, numerical simulations, bone cells, Biotechnology, TP248.13-248.65

File Description: electronic resource

Relation: https://www.frontiersin.org/articles/10.3389/fbioe.2023.1091294/full; https://doaj.org/toc/2296-4185

Access URL: https://doaj.org/article/cab6fc58845449c4a5761a0e04d221de

Advancing the deer calcaneus model for bone adaptation studies: ex vivo strains obtained after transecting the tension members suggest an unrecognized important role for shear strains.

Authors: Skedros, John G.^1,2,3 jskedrosmd@uosmd.com, Su, Steven C.^1,2,3, Knight, Alex N.³, Bloebaum, Roy D.³, Bachus, Kent N.^1,2

Source: Journal of Anatomy. Jan2019, Vol. 234 Issue 1, p66-82. 17p.

Subject Terms: *ONTOGENY, *ARTIODACTYLA, *HEEL bone, *MINERALIZATION, BONE adaptation

In silico modeling of bone adaptation to rest-inserted loading: Strain energy density versus fluid flow as stimulus.

Authors: Tiwari, Abhishek Kumar¹, Kumar, Rakesh¹, Tripathi, Dharmendra¹ dtripathi@iitrpr.ac.in, Badhyal, Subham²

Source: Journal of Theoretical Biology. Jun2018, Vol. 446, p110-127. 18p.

Subject Terms: *STRAINS & stresses (Mechanics), *BONE growth, *FLUID flow, *CYCLIC loads, *EXTRACELLULAR fluid, BONE adaptation

Establishing the relationship between loading parameters and bone adaptation.

Authors: Tiwari, Abhishek Kumar^1,2,3 ktabhishek@iitrpr.ac.in, Kumar, Navin¹ nkumar@iitrpr.ac.in

Source: Medical Engineering & Physics. Jun2018, Vol. 56, p16-26. 11p.

Subject Terms: *OSTEOGENESIS imperfecta, *COLLAGEN diseases, *STRUCTURAL dynamics, *BONE abnormalities, BONE adaptation