A nomenclature consensus for nervous system organoids and assembloids. Pașca, S. P, Arlotta, P., Bateup, H. S, Camp, J G., Cappello, S., Gage, F. H, Knoblich, J. A, Kriegstein, A. R, Lancaster, M. A, Ming, G., Muotri, A. R, Park, I., Reiner, O., Song, H., Studer, L., Temple, S., Testa, G., Treutlein, B., & Vaccarino, F. M Nature, 609(7929):907–910, England, September, 2022. abstract bibtex Self-organizing three-dimensional cellular models derived from human pluripotent stem cells or primary tissue have great potential to provide insights into how the human nervous system develops, what makes it unique and how disorders of the nervous system arise, progress and could be treated. Here, to facilitate progress and improve communication with the scientific community and the public, we clarify and provide a basic framework for the nomenclature of human multicellular models of nervous system development and disease, including organoids, assembloids and transplants.
@ARTICLE{Pasca2022-zl,
title = "A nomenclature consensus for nervous system organoids and
assembloids",
author = "Pașca, Sergiu P and Arlotta, Paola and Bateup, Helen S and Camp,
J Gray and Cappello, Silvia and Gage, Fred H and Knoblich,
J{\"u}rgen A and Kriegstein, Arnold R and Lancaster, Madeline A
and Ming, Guo-Li and Muotri, Alysson R and Park, In-Hyun and
Reiner, Orly and Song, Hongjun and Studer, Lorenz and Temple,
Sally and Testa, Giuseppe and Treutlein, Barbara and Vaccarino,
Flora M",
abstract = "Self-organizing three-dimensional cellular models derived from
human pluripotent stem cells or primary tissue have great
potential to provide insights into how the human nervous system
develops, what makes it unique and how disorders of the nervous
system arise, progress and could be treated. Here, to facilitate
progress and improve communication with the scientific community
and the public, we clarify and provide a basic framework for the
nomenclature of human multicellular models of nervous system
development and disease, including organoids, assembloids and
transplants.",
journal = "Nature",
volume = 609,
number = 7929,
pages = "907--910",
month = sep,
year = 2022,
address = "England",
language = "en"
}
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Here, to facilitate progress and improve communication with the scientific community and the public, we clarify and provide a basic framework for the nomenclature of human multicellular models of nervous system development and disease, including organoids, assembloids and transplants.","journal":"Nature","volume":"609","number":"7929","pages":"907–910","month":"September","year":"2022","address":"England","language":"en","bibtex":"@ARTICLE{Pasca2022-zl,\n title = \"A nomenclature consensus for nervous system organoids and\n assembloids\",\n author = \"Pașca, Sergiu P and Arlotta, Paola and Bateup, Helen S and Camp,\n J Gray and Cappello, Silvia and Gage, Fred H and Knoblich,\n J{\\\"u}rgen A and Kriegstein, Arnold R and Lancaster, Madeline A\n and Ming, Guo-Li and Muotri, Alysson R and Park, In-Hyun and\n Reiner, Orly and Song, Hongjun and Studer, Lorenz and Temple,\n Sally and Testa, Giuseppe and Treutlein, Barbara and Vaccarino,\n Flora M\",\n abstract = \"Self-organizing three-dimensional cellular models derived from\n human pluripotent stem cells or primary tissue have great\n potential to provide insights into how the human nervous system\n develops, what makes it unique and how disorders of the nervous\n system arise, progress and could be treated. 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