AIMC Topic: Regenerative Medicine

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Induced Pluripotent Stem Cells in Cardiomyopathy: Advancing Disease Modeling, Therapeutic Development, and Regenerative Therapy.

International journal of molecular sciences May 22, 2025
Cardiomyopathies are a heterogeneous group of heart muscle diseases that can lead to heart failure, arrhythmias, and sudden cardiac death. Traditional animal models and in vitro systems have limitations in replicating the complex pathology of human c...
Humans Cell Differentiation Regenerative Medicine Precision Medicine Animals Induced Pluripotent Stem Cells Myocytes, Cardiac Cardiomyopathies
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Re-imagining human cell culture media: Challenges, innovations, and future directions.

Biotechnology advances Mar 16, 2025
The development of optimized culture media is pivotal to advancements in human cell culture, underpinning progress in regenerative medicine, cell therapies, and personalized medicine. While foundational formulations like Eagle's Minimum Essential Med...
Humans Regenerative Medicine Cell Culture Techniques Precision Medicine Culture Media
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Innovative construction and application of bile duct organoids: Unraveling the complexity of bile duct diseases and potential therapeutic strategies.

Cancer letters Mar 10, 2025
The biliary system is crucial for liver function, regulating bile production, secretion, and transport. Dysfunctions within this system can lead to various diseases, such as cholangiopathies and biliary fibrosis, which may progress from benign to mal...
Organoids Tissue Engineering Bile Duct Diseases Humans Precision Medicine Regenerative Medicine Animals Bile Ducts
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Advancing regenerative medicine: the Aceman system's pioneering automation and machine learning in mesenchymal stem cell biofabrication.

Biofabrication Feb 27, 2025
Mesenchymal stem cells (MSCs) are pivotal in advancing regenerative medicine; however, the large-scale production of MSCs for clinical applications faces significant challenges related to efficiency, cost, and quality assurance. We introduce the Auto...
Automation Tissue Engineering Regenerative Medicine Humans Machine Learning Mesenchymal Stem Cells
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Importance of dataset design in developing robust U-Net models for label-free cell morphology evaluation.

Journal of bioscience and bioengineering Feb 10, 2025
Advances in regenerative medicine highlighted the need for label-free cell image analysis to replace conventional microscopic observation for non-invasive cell quality evaluation. Image-based evaluation provides an efficient, quantitative, and automa...
Cell Shape Regenerative Medicine Datasets as Topic Humans Neural Networks, Computer Animals Image Processing, Computer-Assisted
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Artificial intelligence powers regenerative medicine into predictive realm.

Regenerative medicine Dec 11, 2024
The expanding regenerative medicine toolkit is reaching a record number of lives. There is a pressing need to enhance the precision, efficiency, and effectiveness of regenerative approaches and achieve reliable outcomes. While regenerative medicine h...
Artificial Intelligence Regenerative Medicine Humans
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AI-Based solutions for current challenges in regenerative medicine.

European journal of pharmacology Oct 24, 2024
The emergence of Artificial Intelligence (AI) and its usage in regenerative medicine represents a significant opportunity that holds the promise of tackling critical challenges and improving therapeutic outcomes. This article examines the ways in whi...
Humans Artificial Intelligence Genetic Therapy Regenerative Medicine Machine Learning Tissue Engineering Animals
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The use of artificial intelligence in induced pluripotent stem cell-based technology over 10-year period: A systematic scoping review.

PloS one May 21, 2024
BACKGROUND: Stem cell research, particularly in the domain of induced pluripotent stem cell (iPSC) technology, has shown significant progress. The integration of artificial intelligence (AI), especially machine learning (ML) and deep learning (DL), h...
Induced Pluripotent Stem Cells Regenerative Medicine Artificial Intelligence Machine Learning Humans
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Advances in volumetric bioprinting.

Biofabrication Nov 28, 2023
The three-dimensional (3D) bioprinting technologies are suitable for biomedical applications owing to their ability to manufacture complex and high-precision tissue constructs. However, the slow printing speed of current layer-by-layer (bio)printing ...
Tissue Engineering Bioprinting Ink Printing, Three-Dimensional Tissue Scaffolds Regenerative Medicine Robotics
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Humans and robots: Friends of the future? A bird's eye view of biomanufacturing industry 5.0.

Biotechnology advances Aug 20, 2023
The evolution of industries have introduced versatile technologies, motivating limitless possibilities of tackling pivotal global predicaments in the arenas of medicine, environment, defence, and national security. In this direction, ardently emerges...
Tissue Engineering Friends Humans Robotics Regenerative Medicine
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