Is there a link between coral skeleton and neurons?
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The coral skeleton has been found to have a link with neurons. Cultivating hippocampal cells on a coralline matrix derived from coral skeletons has been shown to enhance the survival and growth of neural cells in vitro . Aragonite skeletons of corals, when coated with adhesive polymers, support the survival, growth, migration, and elongation of neuronal and astrocytic processes . By grafting coralline scaffolds into brain wounds, control over scar tissue formation can be gained, allowing for cell migration and damage repair . The ultrastructure of the interface between coral skeletons and cultured neural cells has been examined, revealing that neural cells grow on the skeleton surface and infiltrate the skeleton interior . The porous aragonite skeleton obtained from the hydrozoan Millepora dichotoma has been shown to support the organization of dissociated hippocampal cells into highly interconnected 3D ganglion-like tissue formations .
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| Papers (5) | Insight |
|---|---|
16 Citations | Yes, the paper shows that the porous aragonite skeleton obtained from the hydrozoan Millepora dichotoma supports the organization of dissociated hippocampal cells into interconnected ganglion-like tissue formations. |
14 Citations | The paper discusses the interface between coral skeletons and cultured neural cells, indicating a link between coral skeleton and neurons. |
| Yes, there is a link between coral skeleton and neurons. The paper mentions that a scaffold derived from the coral skeleton enhances survival, growth, and connectivity among neurons and glial cells. | |
1 Citations | Yes, there is a link between coral skeleton and neurons. The paper states that aragonite skeletons of corals, specifically the coral Trachyphyllia geoffroyi, support survival and growth of neurons and glia. |
2 Citations | The paper does not explicitly mention a link between coral skeleton and neurons. The paper focuses on using coral skeleton as a matrix to improve the durability and functionality of neural cells in culture. |
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