Artificial Intelligence Aided Design of Tissue Engineering Scaffolds Employing Virtual Tomography and 3D Convolutional Neural Networks

Barrera, María Dolores Bermejillo; Franco-Martínez, Francisco; Lantada, Andrés Díaz

doi:10.3390/ma14185278

Cited by 43 publications

(18 citation statements)

References 24 publications

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“…In order to present a complete study, a computational regression model whose task was to predict the age of the enamel based on information about its broadly understood structure was built. The proposed model is based on artificial neural networks (ANNs), which are computational models regarded as intelligent systems used to solve complex problems with nonlinear relationships using many independent parameters [ 52 , 62 , 63 , 64 ]. MLP network with 13 inputs, one hidden layer and one output ( Figure 11 ) was used to predict the day of postnatal life based on collected data.…”

Section: Resultsmentioning

confidence: 99%

Surface and Structural Studies of Age-Related Changes in Dental Enamel: An Animal Model

et al. 2022

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In the animal kingdom, continuously erupting incisors provided an attractive model for studying the enamel matrix and mineral composition of teeth during development. Enamel, the hardest mineral tissue in the vertebrates, is a tissue sensitive to external conditions, reflecting various disturbances in its structure. The developing dental enamel was monitored in a series of incisor samples extending the first four weeks of postnatal life in the spiny mouse. The age-dependent changes in enamel surface morphology in the micrometre and nanometre-scale and a qualitative assessment of its mechanical features were examined by applying scanning electron microscopy (SEM) and atomic force microscopy (AFM). At the same time, structural studies using XRD and vibrational spectroscopy made it possible to assess crystallinity and carbonate content in enamel mineral composition. Finally, a model for predicting the maturation based on chemical composition and structural factors was constructed using artificial neural networks (ANNs). The research presented here can extend the existing knowledge by proposing a pattern of enamel development that could be used as a comparative material in environmental, nutritional, and pharmaceutical research.

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Section: Resultsmentioning

confidence: 99%

Surface and Structural Studies of Age-Related Changes in Dental Enamel: An Animal Model

et al. 2022

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“…Previously, an approach balancing the mechanical and biological compatibility of polymers was used for designing tissue-engineered vessels [ 55 , 114 ]. The principles applied to the creation and clinical application of biomedical products for regenerative medicine are still under development [ 115 ], but in recent years, an increasing volume of papers have been devoted to the problems of tissue engineering [ 116 , 117 , 118 , 119 ]. Indeed, the use of bioabsorbable bile duct substitutes for bile duct regeneration constitutes a promising approach that will be clinically useful in the future [ 119 ].…”

Section: Challenges and Perspectivesmentioning

confidence: 99%

Biomechanical Behaviors and Degradation Properties of Multilayered Polymer Scaffolds: The Phase Space Method for Bile Duct Design and Bioengineering

et al. 2023

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This article reports the electrospinning technique for the manufacturing of multilayered scaffolds for bile duct tissue engineering based on an inner layer of polycaprolactone (PCL) and an outer layer either of a copolymer of D,L-lactide and glycolide (PLGA) or a copolymer of L-lactide and ε-caprolactone (PLCL). A study of the degradation properties of separate polymers showed that flat PCL samples exhibited the highest resistance to hydrolysis in comparison with PLGA and PLCL. Irrespective of the liquid-phase nature, no significant mass loss of PCL samples was found in 140 days of incubation. The PLCL- and PLGA-based flat samples were more prone to hydrolysis within the same period of time, which was confirmed by the increased loss of mass and a significant reduction of weight-average molecular mass. The study of the mechanical properties of developed multi-layered tubular scaffolds revealed that their strength in the longitudinal and transverse directions was comparable with the values measured for a decellularized bile duct. The strength of three-layered scaffolds declined significantly because of the active degradation of the outer layer made of PLGA. The strength of scaffolds with the PLCL outer layer deteriorated much less with time, both in the axial (p-value = 0.0016) and radial (p-value = 0.0022) directions. A novel method for assessment of the physiological relevance of synthetic scaffolds was developed and named the phase space approach for assessment of physiological relevance. Two-dimensional phase space (elongation modulus and tensile strength) was used for the assessment and visualization of the physiological relevance of scaffolds for bile duct bioengineering. In conclusion, the design of scaffolds for the creation of physiologically relevant tissue-engineered bile ducts should be based not only on biodegradation properties but also on the biomechanical time-related behavior of various compositions of polymers and copolymers.

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“…236 Studies have also indicated that digital tomography-trained AI-based models can predict scaffolds’ mechanical properties with different geometries. 237 Goh et al , in a recent review, highlighted four categories (supervised, unsupervised, semi-supervised, and reinforced) of machine learning and their applicability in 3D printing. They reviewed the scope of machine learning in design, process parameters, geometry, microstructures, and microhardness of 3D printed structures.…”

Section: Future Scopesmentioning

confidence: 99%

Effects of surface patterning and topography on the cellular functions of tissue engineered scaffolds with special reference to 3D bioprinting

et al. 2023

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Artificial Intelligence Aided Design of Tissue Engineering Scaffolds Employing Virtual Tomography and 3D Convolutional Neural Networks

Cited by 43 publications

References 24 publications

Surface and Structural Studies of Age-Related Changes in Dental Enamel: An Animal Model

Surface and Structural Studies of Age-Related Changes in Dental Enamel: An Animal Model

Biomechanical Behaviors and Degradation Properties of Multilayered Polymer Scaffolds: The Phase Space Method for Bile Duct Design and Bioengineering

Effects of surface patterning and topography on the cellular functions of tissue engineered scaffolds with special reference to 3D bioprinting

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