AIMC Topic: Biocompatible Materials

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Machine learning-based label-free macrophage phenotyping in immune-material interactions.

Journal of materials chemistry. B May 21, 2025
The rapid advancement of implantable biomedical materials necessitates a comprehensive understanding of macrophage interactions to optimize implant immunocompatibility. Macrophages, key immune regulators, exhibit phenotypic plasticity by polarizing i...
Humans Machine Learning THP-1 Cells Biocompatible Materials Collagen Macrophages Cytokines Phenotype
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Machine-Learning Framework to Predict the Performance of Lipid Nanoparticles for Nucleic Acid Delivery.

ACS applied bio materials May 19, 2025
Lipid nanoparticles (LNPs) are highly effective carriers for gene therapies, including mRNA and siRNA delivery, due to their ability to transport nucleic acids across biological membranes, low cytotoxicity, improved pharmacokinetics, and scalability....
Quantitative Structure-Activity Relationship Biocompatible Materials Surface Properties Nucleic Acids Machine Learning Humans Particle Size Nanoparticles Lipids Cell Survival Materials Testing
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Artificial intelligence in biomaterials: a call for unified biocompatibility standards.

Trends in biotechnology Feb 1, 2025
A standardized definition of biocompatibility is essential for advancing biomaterials research. This letter emphasizes the need for clear guidelines and interdisciplinary frameworks in assessing biocompatibility, with artificial intelligence (AI) pla...
Materials Testing Biocompatible Materials Humans Artificial Intelligence
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Biomedical optical fibers.

Lab on a chip Feb 23, 2021
Optical fibers with the ability to propagate and transfer data via optical signals have been used for decades in medicine. Biomaterials featuring the properties of softness, biocompatibility, and biodegradability enable the introduction of optical fi...
Prostheses and Implants Optical Fibers Biocompatible Materials Humans Artificial Intelligence Printing, Three-Dimensional
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Photonic artificial muscles: from micro robots to tissue engineering.

Faraday discussions Oct 23, 2020
Light responsive shape-changing polymers are able to mimic the function of biological muscles accomplishing mechanical work in response to selected stimuli. A variety of manufacturing techniques and chemical processes can be employed to shape these m...
Tissue Engineering Optics and Photonics Muscles Biocompatible Materials Artificial Organs Printing, Three-Dimensional Robotics Polymers
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Metal or muscle? The future of biologically inspired robots.

Science robotics Jan 22, 2020
Biology has inspired the development of agile robots, and it is now teaching us how to grow machines from living cells.
Biomechanical Phenomena Tissue Engineering Equipment Design Biocompatible Materials Biomimetic Materials Animals Bioengineering Biomimetics Muscles Metals Robotics
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Memristive synapses with high reproducibility for flexible neuromorphic networks based on biological nanocomposites.

Nanoscale Jan 2, 2020
Memristive synapses from biomaterials are promising for building flexible and implantable artificial neuromorphic systems due to their remarkable mechanical and biological properties. However, these biological devices have relatively poor memristive ...
Biomimetic Materials Carrageenan Electric Conductivity Nanocomposites Biocompatible Materials Synapses Reproducibility of Results Silver Neural Networks, Computer Machine Learning
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Inferring material properties in robotic bone drilling processes.

Acta of bioengineering and biomechanics Jan 1, 2019
PURPOSE: Recent innovations in robotics have enabled the development of automatic bone drilling tools which allows surgeons to improve the precision of their surgical operations. However, these tools still lack valuable tactile information about the ...
Robotics Biocompatible Materials Bone and Bones Animals Orthopedic Procedures Biomechanical Phenomena Swine Resins, Synthetic Cattle
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Medical microbots need better imaging and control.

Nature May 24, 2017
Humans Therapeutics Robotics Clinical Trials as Topic Motion Diagnostic Equipment Biocompatible Materials Microchemistry Nanomedicine
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Antimicrobial Activity and Biocompatibility of the Psidium cattleianum Extracts for Endodontic Purposes.

Brazilian dental journal Jan 1, 2017
Psidium cattleianum (PC) has been displaying inhibitory effect against a variety of microorganisms, but this effect has not yet been tested against endodontic pathogens. The aim of this study was to evaluate the antimicrobial activity and biocompatib...
Actinobacteria Plant Extracts Male Biocompatible Materials Rats, Wistar Anti-Infective Agents Biofilms Enterococcus faecalis Psidium Candida albicans Animals Root Canal Therapy Microbial Sensitivity Tests Pseudomonas aeruginosa
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