AIMC Topic: Biocompatible Materials

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A practical machine learning approach for predicting the quality of 3D (bio)printed scaffolds.

Biofabrication Jul 25, 2024
3D (Bio)printing is a highly effective method for fabricating tissue engineering scaffolds, renowned for their exceptional precision and control. Artificial intelligence (AI) has become a crucial technology in this field, capable of learning and repl...
Neural Networks, Computer Machine Learning Humans Bioprinting Tissue Engineering Tissue Scaffolds Printing, Three-Dimensional Biocompatible Materials Algorithms Cell Line
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Review of Machine Learning Techniques in Soft Tissue Biomechanics and Biomaterials.

Cardiovascular engineering and technology Jul 2, 2024
BACKGROUND AND OBJECTIVE: Advanced material models and material characterization of soft biological tissues play an essential role in pre-surgical planning for vascular surgeries and transcatheter interventions. Recent advances in heart valve enginee...
Animals Prosthesis Design Machine Learning Biomechanical Phenomena Tissue Engineering Finite Element Analysis Models, Cardiovascular Materials Testing Biocompatible Materials Humans
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3D printed PEDOT:PSS-based conducting and patternable eutectogel electrodes for machine learning on textiles.

Biomaterials May 24, 2024
The proliferation of medical wearables necessitates the development of novel electrodes for cutaneous electrophysiology. In this work, poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) is combined with a deep eutectic solvent (DES) a...
Bridged Bicyclo Compounds, Heterocyclic Electric Conductivity Biocompatible Materials Gels Textiles Electromyography Polyethylene Glycols Electrodes Polystyrenes Printing, Three-Dimensional Polymers Machine Learning Wearable Electronic Devices Humans
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Magnetically driven formation of 3D freestanding soft bioscaffolds.

Science advances Feb 2, 2024
3D soft bioscaffolds have great promise in tissue engineering, biohybrid robotics, and organ-on-a-chip engineering applications. Though emerging three-dimensional (3D) printing techniques offer versatility for assembling soft biomaterials, challenges...
Hydrogels Biocompatible Materials Printing, Three-Dimensional Tissue Engineering Robotics
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Fungal skin for robots.

Bio Systems Dec 19, 2023
Advancements in mycelium technology, stemming from fungal electronics and the development of living mycelium composites and skins, have opened new avenues in the fusion of biological and artificial systems. This paper explores an experimental endeavo...
Robotics Electronics Biocompatible Materials
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Redefining biomaterial biocompatibility: challenges for artificial intelligence and text mining.

Trends in biotechnology Oct 17, 2023
The surge in 'Big data' has significantly influenced biomaterials research and development, with vast data volumes emerging from clinical trials, scientific literature, electronic health records, and other sources. Biocompatibility is essential in de...
Electronic Health Records Data Mining Biocompatible Materials Artificial Intelligence
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Photothermal Conversion of Hydrogel-Based Biomaterial.

Chemical record (New York, N.Y.) Jul 26, 2023
Traditional energy from fossil fuels like petroleum and coal is limited and contributes to global environmental pollution and climate change. Developing sustainable and eco-friendly energy is crucial for addressing significant challenges such as clim...
Biocompatible Materials Biomass Hydrogels Humans Artificial Intelligence Anti-Bacterial Agents
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Microrobots for Biomedicine: Unsolved Challenges and Opportunities for Translation.

ACS nano Jul 26, 2023
Microrobots are being explored for biomedical applications, such as drug delivery, biological cargo transport, and minimally invasive surgery. However, current efforts largely focus on proof-of-concept studies with nontranslatable materials through a...
Humans Minimally Invasive Surgical Procedures Biocompatible Materials Drug Delivery Systems Robotics
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De Novo Design of Polyhedral Protein Assemblies: Before and After the AI Revolution.

Chembiochem : a European journal of chemical biology Jul 12, 2023
Self-assembling polyhedral protein biomaterials have gained attention as engineering targets owing to their naturally evolved sophisticated functions, ranging from protecting macromolecules from the environment to spatially controlling biochemical re...
Biocompatible Materials Artificial Intelligence Proteins
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Exploring the Potential of GPT-4 in Biomedical Engineering: The Dawn of a New Era.

Annals of biomedical engineering Apr 28, 2023
Biomedical engineering is a relatively young interdisciplinary field based on engineering, biology, and medicine. Of note, the rapid progress of artificial intelligence (AI)-based technologies has made a significant impact on the biomedical engineeri...
Tissue Engineering Artificial Intelligence Bioengineering Biocompatible Materials Biomedical Engineering
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