human | Q5 |
P2080 | AcademiaNet ID | 1144670 |
P6178 | Dimensions author ID | 0635631206.97 |
P1960 | Google Scholar author ID | Wd9eK9AAAAAJ |
P496 | ORCID iD | 0000-0002-5050-9230 |
P2038 | ResearchGate profile ID | Laoise_Mcnamara |
P10861 | Springer Nature person ID | 0635631206.97 |
P2002 | X username | LaoiseMcnamara |
P27 | country of citizenship | Ireland | Q27 |
P108 | employer | University of Galway | Q644478 |
P734 | family name | McNamara | Q21450738 |
McNamara | Q21450738 | ||
McNamara | Q21450738 | ||
P735 | given name | Laoise | Q64153702 |
Laoise | Q64153702 | ||
P106 | occupation | biomedical engineer | Q19902880 |
P21 | sex or gender | female | Q6581072 |
P8687 | social media followers | 1255 |
Q47865863 | * Mimicking the Biochemical and Mechanical Extracellular Environment of the Endochondral Ossification Process to Enhance the In Vitro Mineralization Potential of Human Mesenchymal Stem Cells. |
Q91975746 | A Developmental Engineering-Based Approach to Bone Repair: Endochondral Priming Enhances Vascularization and New Bone Formation in a Critical Size Defect |
Q97528518 | A Novel 3D Osteoblast and Osteocyte Model Revealing Changes in Mineralization and Pro-osteoclastogenic Paracrine Signaling During Estrogen Deficiency |
Q47776404 | A coupled diffusion-fluid pressure model to predict cell density distribution for cells encapsulated in a porous hydrogel scaffold under mechanical loading |
Q36767931 | A fluid-structure interaction model to characterize bone cell stimulation in parallel-plate flow chamber systems. |
Q36023747 | A model for the role of integrins in flow induced mechanotransduction in osteocytes |
Q84279743 | A three-scale finite element investigation into the effects of tissue mineralisation and lamellar organisation in human cortical and trabecular bone |
Q96168974 | Administration of Human Non-Diabetic Mesenchymal Stromal Cells to a Murine Model of Diabetic Fracture Repair: A Pilot Study |
Q93208366 | Alterations in osteocyte mediated osteoclastogenesis during estrogen deficiency and under ROCK-II inhibition: An in vitro study using a novel postmenopausal multicellular niche model |
Q48204171 | Altered architecture and cell populations affect bone marrow mechanobiology in the osteoporotic human femur |
Q35333544 | Altered mechanical environment of bone cells in an animal model of short- and long-term osteoporosis. |
Q51835112 | An Experimental and Computational Investigation of Bone Formation in Mechanically Loaded Trabecular Bone Explants. |
Q46282248 | An in vitro bone tissue regeneration strategy combining chondrogenic and vascular priming enhances the mineralization potential of mesenchymal stem cells in vitro while also allowing for vessel formation |
Q53578266 | An in vitro evaluation of the impact of eccentric deployment on transcatheter aortic valve hemodynamics. |
Q58117095 | An in vitro model quantifying the effect of calcification on the tissue-stent interaction in a stenosed aortic root |
Q43994605 | Are all osteocytes equal? Multiscale modelling of cortical bone to characterise the mechanical stimulation of osteocytes. |
Q33817347 | Attachment of osteocyte cell processes to the bone matrix |
Q38252467 | Biomimetic approaches in bone tissue engineering: Integrating biological and physicomechanical strategies. |
Q90153610 | Bone Mineral Is More Heterogeneously Distributed in the Femoral Heads of Osteoporotic and Diabetic Patients: A Pilot Study |
Q38940248 | Bone cell mechanosensation of fluid flow stimulation: a fluid-structure interaction model characterising the role integrin attachments and primary cilia |
Q37113961 | Bone mechanical properties and changes with osteoporosis |
Q51141355 | Bone remodelling algorithms incorporating both strain and microdamage stimuli. |
Q53560550 | Bone tissue material properties are altered during osteoporosis. |
Q35314068 | Cell morphology and focal adhesion location alters internal cell stress |
Q98281267 | Comparison of Surgical Smoke Generated During Electrosurgery with Aerosolized Particulates from Ultrasonic and High-Speed Cutting |
Q36767954 | Comparison of in vitro human endothelial cell response to self-expanding stent deployment in a straight and curved peripheral artery simulator |
Q44036544 | Computational modelling of the mechanics of trabecular bone and marrow using fluid structure interaction techniques. |
Q89615749 | Dielectric characterization of diseased human trabecular bones at microwave frequency |
Q53235967 | Differential β3 and β1 Integrin Expression in Bone Marrow and Cortical Bone of Estrogen Deficient Rats. |
Q45170732 | Effects of ageing, prolonged estrogen deficiency and zoledronate on bone tissue mineral distribution. |
Q36255294 | Effects of in vitro endochondral priming and pre-vascularisation of human MSC cellular aggregates in vivo. |
Q48967555 | Endochondral Priming: A Developmental Engineering Strategy for Bone Tissue Regeneration |
Q57879608 | Estrogen Plus Estrogen Receptor Antagonists Alter Mineral Production by Osteoblasts In Vitro |
Q50937405 | Estrogen deficiency attenuates fluid flow-induced [Ca2+]i oscillations and mechanoresponsiveness of MLO-Y4 osteocytes. |
Q64091103 | Estrogen deficiency impairs integrin αβ-mediated mechanosensation by osteocytes and alters osteoclastogenic paracrine signalling |
Q39436028 | Estrogen plus estrogen receptor antagonists alter mineral production by osteoblasts in vitro |
Q35085829 | Estrogen withdrawal from osteoblasts and osteocytes causes increased mineralization and apoptosis |
Q86560614 | Fluid flow in the osteocyte mechanical environment: a fluid-structure interaction approach |
Q36348524 | Heat-shock-induced cellular responses to temperature elevations occurring during orthopaedic cutting. |
Q46286331 | How bone tissue and cells experience elevated temperatures during orthopaedic cutting: an experimental and computational investigation |
Q47737787 | In silico study of bone tissue regeneration in an idealised porous hydrogel scaffold using a mechano-regulation algorithm |
Q93094774 | Integrins in Osteocyte Biology and Mechanotransduction |
Q53405782 | Investigating the interplay between substrate stiffness and ligand chemistry in directing mesenchymal stem cell differentiation within 3D macro-porous substrates. |
Q34901255 | Investigation of the optimal timing for chondrogenic priming of MSCs to enhance osteogenic differentiation in vitro as a bone tissue engineering strategy. |
Q35581420 | Loss of trabeculae by mechano-biological means may explain rapid bone loss in osteoporosis |
Q53425321 | Mechanical stimulation of bone marrow in situ induces bone formation in trabecular explants. |
Q104478704 | Mechanical stimuli and matrix properties modulate cancer spheroid growth in three-dimensional gelatin culture |
Q51324538 | Mechanisms of osteocyte stimulation in osteoporosis. |
Q88027172 | Multiscale fluid-structure interaction modelling to determine the mechanical stimulation of bone cells in a tissue engineered scaffold |
Q85896610 | Multiscale modeling of trabecular bone marrow: understanding the micromechanical environment of mesenchymal stem cells during osteoporosis |
Q38863522 | Osteocyte differentiation and the formation of an interconnected cellular network in vitro. |
Q42814254 | Osteocyte differentiation is regulated by extracellular matrix stiffness and intercellular separation |
Q41657953 | Osteogenic Differentiation of Mesenchymal Stem Cells by Mimicking the Cellular Niche of the Endochondral Template |
Q83224587 | Osteogenic differentiation of mesenchymal stem cells is regulated by osteocyte and osteoblast cells in a simplified bone niche |
Q51365785 | Perforation of cancellous bone trabeculae by damage-stimulated remodelling at resorption pits: a computational analysis. |
Q30476509 | Perspective on post-menopausal osteoporosis: establishing an interdisciplinary understanding of the sequence of events from the molecular level to whole bone fractures |
Q94547331 | Primary Human Osteoblasts Cultured in a 3D Microenvironment Create a Unique Representative Model of Their Differentiation Into Osteocytes |
Q49727816 | Primary cilia exist in a small fraction of cells in trabecular bone and marrow |
Q46277301 | Primary cilia expression in bone marrow in response to mechanical stimulation in explant bioreactor culture |
Q51828585 | Quantification of fluid shear stress in bone tissue engineering scaffolds with spherical and cubical pore architectures. |
Q99212438 | ROCK-II inhibition suppresses impaired mechanobiological responses in early estrogen deficient osteoblasts |
Q108214896 | Shear Stress Within Trabecular Bone Marrow due to Low Magnitude High Frequency Vibration |
Q53063421 | Simulation of self expanding transcatheter aortic valve in a realistic aortic root: implications of deployment geometry on leaflet deformation. |
Q57879683 | Site specific increase in heterogeneity of trabecular bone tissue mineral during oestrogen deficiency |
Q41951923 | Strain amplification and integrin based signaling in osteocytes |
Q36188622 | Strain amplification in bone mechanobiology: a computational investigation of the in vivo mechanics of osteocytes |
Q51216511 | Strength of cancellous bone trabecular tissue from normal, ovariectomized and drug-treated rats over the course of ageing. |
Q51281429 | Stress-concentrating effect of resorption lacunae in trabecular bone. |
Q50489065 | Temporal changes in bone composition, architecture, and strength following estrogen deficiency in osteoporosis |
Q50863261 | The effect of equiaxial stretching on the osteogenic differentiation and mechanical properties of human adipose stem cells. |
Q35333586 | The effect of substrate stiffness, thickness, and cross-linking density on osteogenic cell behavior |
Q57879700 | The effects of estrogen deficiency and bisphosphonate treatment on tissue mineralisation and stiffness in an ovine model of osteoporosis |
Q91054912 | The impact of implantation depth of the Lotus™ valve on mechanical stress in close proximity to the bundle of His |
Q85896639 | The in situ mechanics of trabecular bone marrow: the potential for mechanobiological response |
Q45940157 | The role of adhesion junctions in the biomechanical behaviour and osteogenic differentiation of 3D mesenchymal stem cell spheroids. |
Q52655557 | The role of integrin α(V)β(3) in osteocyte mechanotransduction. |
Q35191566 | Thermally induced osteocyte damage initiates a remodelling signaling cascade. |
Q37078423 | Thermally induced osteocyte damage initiates pro-osteoclastogenic gene expression in vivo |
Q36449788 | Total ellipse of the heart valve: the impact of eccentric stent distortion on the regional dynamic deformation of pericardial tissue leaflets of a transcatheter aortic valve replacement |
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