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Signal Transduction in Artificial Cells
Small Methods, 2023AbstractIn recent years, significant progress has been made in the emerging field of constructing biomimetic soft compartments with life‐like behaviors. Given that biological activities occur under a flux of energy and matter exchange, the implementation of rudimentary signaling pathways in artificial cells (protocells) is a prerequisite for the ...
Xiaolei Yu +3 more
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Artificial Cells for Dissecting Exocytosis
2022The fusion of vesicles and exocytosis release of neurotransmitters into the extracellular space for detection and chemical signal decoding by neighboring cells is the key process in neuronal communication. It is important to understand what regulates exocytosis because the amount of neurotransmitters released into the synaptic cleft has a direct impact
Yuanmo, Wang, Ann-Sofie, Cans
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Artificial Organs, 1992
Abstract: The first artificial cells were prepared 35 years ago. They contain biologically active materials. They are now being used in medicine and biotechnology. Artificial cells containing adsorbents are already a routine form of treatment in hemoperfusion.
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Abstract: The first artificial cells were prepared 35 years ago. They contain biologically active materials. They are now being used in medicine and biotechnology. Artificial cells containing adsorbents are already a routine form of treatment in hemoperfusion.
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Establishing Communication Between Artificial Cells
Chemistry – A European Journal, 2019AbstractCommunication between artificial cells is essential for the realization of complex dynamical behaviors at the multi‐cell level. It is also an important prerequisite for modular systems design, because it determines how spatially separated functional modules can coordinate their actions.
Lukas Aufinger, Friedrich C. Simmel
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Artificial Cells for Cell and Organ Replacements
Artificial Organs, 2004Abstract: The artificial cell is a Canadian invention (Chang, Science, 1964). This principle is being actively investigated for use in cell and organ replacements. The earliest routine clinical use of artificial cells is in the form of coated activated charcoal for hemoperfusion for use in the removal of drugs, and toxins and waste in uremia and liver
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Artificial Cells for Artificial Liver Support
1992Artificial cells were first conceived as vehicles for adsorbents, organelles, microorganisms, enzymes, and other biological materials [1–5]. Artificial cells are being used in biotechnology and medicine [5], including artificial liver support [6]. For example, coated charcoal hemoperfusion was effective in removing sufficient toxic substances in grade ...
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Artificial Cells in Immobilization Biotechnology
Biomaterials, Artificial Cells and Immobilization Biotechnology, 1992Artificial cells contain biologically active materials. Artificial cells containing adsorbents have been a routine form of treatment in hemoperfusion for patients. This includes acute poisoning, high blood aluminum and iron, and supplement to dialysis in kidney failure. Artificial cells are being tested for use as red blood cell substitutes. Artificial
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Artificial Cells, Encapsulation, and Immobilization
Annals of the New York Academy of Sciences, 1999ABSTRACT: The basic principles of artificial cells, encapsulation and immobilization form the asisS for a number of bioartificial organs. Hemoperfusion based on encapsulated adsorbent has been in routine clinical uses for many years to remove toxins or drugs from the circulating blood.
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Artificial channels for confined mass transport at the sub-nanometre scale
Nature Reviews Materials, 2021Jie Shen, Gong-Ping Liu, Yu Han
exaly