Emerging carbon-supported single-atom catalysts for biomedical applications
Carbon-supported single-atom catalysts (SACs) are very promising for biomedical
applications due to their unique superiorities, including uniform size in nanoscale, ease of …
applications due to their unique superiorities, including uniform size in nanoscale, ease of …
Wearable bioelectronics for chronic wound management
Chronic wounds are a major healthcare issue and can adversely affect the lives of millions
of patients around the world. The current wound management strategies have limited clinical …
of patients around the world. The current wound management strategies have limited clinical …
[HTML][HTML] Organ-on-a-chip meets artificial intelligence in drug evaluation
S Deng, C Li, J Cao, Z Cui, J Du, Z Fu, H Yang… - Theranostics, 2023 - ncbi.nlm.nih.gov
Drug evaluation has always been an important area of research in the pharmaceutical
industry. However, animal welfare protection and other shortcomings of traditional drug …
industry. However, animal welfare protection and other shortcomings of traditional drug …
Immunotherapy discovery on tumor organoid-on-a-chip platforms that recapitulate the tumor microenvironment
Cancer immunotherapy has achieved remarkable success over the past decade by
modulating patients' own immune systems and unleashing pre-existing immunity. However …
modulating patients' own immune systems and unleashing pre-existing immunity. However …
Knowledge gaps in generating cell-based drug delivery systems and a possible meeting with artificial intelligence
N Mozafari, N Mozafari, A Dehshahri… - Molecular …, 2023 - ACS Publications
Cell-based drug delivery systems are new strategies in targeted delivery in which cells or
cell-membrane-derived systems are used as carriers and release their cargo in a controlled …
cell-membrane-derived systems are used as carriers and release their cargo in a controlled …
Microfluidic organoids-on-a-chip: Quantum leap in cancer research
Simple Summary Organoids, also known as self-organized 3D organ-like clusters, represent
almost a physiological system for studying cells, stem cells, tissues, and diseases, especially …
almost a physiological system for studying cells, stem cells, tissues, and diseases, especially …
Artificial intelligence-assisted selection and efficacy prediction of antineoplastic strategies for precision cancer therapy
ZHE Zhang, X Wei - Seminars in Cancer Biology, 2023 - Elsevier
The rapid development of artificial intelligence (AI) technologies in the context of the vast
amount of collectable data obtained from high-throughput sequencing has led to an …
amount of collectable data obtained from high-throughput sequencing has led to an …
Revolutionizing drug development: harnessing the potential of organ-on-chip technology for disease modeling and drug discovery
N Sunildutt, P Parihar… - Frontiers in …, 2023 - frontiersin.org
The inefficiency of existing animal models to precisely predict human pharmacological
effects is the root reason for drug development failure. Microphysiological system/organ-on …
effects is the root reason for drug development failure. Microphysiological system/organ-on …
[HTML][HTML] Multifunctional nanostructures: Intelligent design to overcome biological barriers
Over the past three decades, nanoscience has offered a unique solution for reducing the
systemic toxicity of chemotherapy drugs and for increasing drug therapeutic efficiency …
systemic toxicity of chemotherapy drugs and for increasing drug therapeutic efficiency …
3D bioprinted liver tissue and disease models: Current advances and future perspectives
L Sun, Y Wang, S Zhang, H Yang, Y Mao - Biomaterials Advances, 2023 - Elsevier
Abstract Three-dimensional (3D) bioprinting is a promising technology for fabricating
complex tissue constructs with biomimetic biological functions and stable mechanical …
complex tissue constructs with biomimetic biological functions and stable mechanical …