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| Reologija hidroge lova× | FEA pregradnja kosti× | Analiza poroznosti skela× | |
|---|---|---|---|
| Područje | Biomehanika | Biomehanika | Biomehanika |
| Obitelj | Process / pipeline | Process / pipeline | Process / pipeline |
| Godina nastanka≠ | 1994 | 1987 | 2000 |
| Tvorac≠ | Christopher Macosko | Rik Huiskes | Dietmar Hutmacher |
| Vrsta≠ | Mechanical material characterization | Multi-physics finite element pipeline | Quantitative morphological analysis |
| Temeljni izvor≠ | Almquist, B. D., & Lu, T. W. (2002). A simple stochastic parameter estimation technique for complex models. IEEE Transactions on Biomedical Engineering, 49(10), 1188-1193. link ↗ | Huiskes, R., Weinans, H., Grootenboer, H. J., Dalstra, M., Fudala, B., & Slooff, T. J. (1987). Adaptive bone-remodeling theory applied to prosthetic-design analysis. Journal of Biomechanics, 20(11-12), 1135-1150. DOI ↗ | Hutmacher, D. W. (2000). Scaffolds in tissue engineering bone and cartilage. Biomaterials, 21(24), 2529-2543. DOI ↗ |
| Drugi nazivi | Viscoelastic analysis, Storage modulus, Gel characterization | Bone remodeling simulation, Trabecular architecture adaptation, Mechano-regulation | Pore size distribution, Porosity measurement, Scaffold characterization |
| Srodne | 3 | 3 | 3 |
| Sažetak≠ | Hydrogel rheology characterizes the mechanical viscoelastic properties of hydrogels used in tissue engineering, drug delivery, and biomedical devices. By measuring storage modulus (elastic component), loss modulus (viscous component), and their frequency dependence, practitioners assess gel stiffness, degradation, and suitability for specific applications. | Finite element analysis (FEA) for bone remodeling predicts how bone tissue density and architecture adapt to changes in mechanical loading over time. Pioneered by Rik Huiskes and Donald Carter in the 1980s, this computational approach integrates stress analysis with biophysical remodeling rules to simulate the long-term response of bone to disease, aging, or surgical intervention. | Scaffold porosity analysis characterizes the pore structure of tissue engineering scaffolds, including total porosity, pore size distribution, pore shape, and pore interconnectivity. Essential for predicting cell seeding, nutrient diffusion, and mechanical properties, this quantitative approach bridges scaffold design and biological performance. |
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