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Researchers from the University of Wisconsin-Madison (UW-Madison) have developed a novel approach for 3D printing functional human brain tissue.
The 3D printing process can create active neural networks in and between tissues that grow in a matter of weeks.
The researchers believe that their 3D bioprinted brain tissue provides an effective tool for modeling brain network activity under physiological and pathological conditions, and can also serve as a platform for drug [...]
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Researchers from Politecnico di Milano and Humanitas University are investigating the causes and development of neural diseases like Pitt-Hopkins syndrome (PTHS) using 3D printed neural tissues.
The project has been granted €250,000 by Fondazione Cariplo as part of a call for projects under the banner “Biomedical research conducted by young researchers 2021”, and involves creating an in vitro model of the human cerebral cortex with 3D bioprinted [...]
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Forscher der Universidade Federal de São Paulo (UNIFESP) in Brasilien haben eine Methode zum 3D-Druck von Gehirnzellen entwickelt, die nach dem Druck mindestens 14 Tage lang überleben können.
Die von der Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) finanzierte Studie führte zu einem Modell, das dem Nervengewebe ähnlicher ist als Modelle, die mit bestehenden Ansätzen entwickelt wurden. Laut den Forschern hilft das [...]
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An der Federal University of Sao Paulo (UNIFESP) haben Forscher eine neue Methode zum 3D-Druck von Gehirnzellen, die mindestens 14 Tage überleben können, entwickelt. Mit diesen können sie die Funktionalität neuronaler Zellen in Bezug auf Erkrankungen des zentralen Nervensystems besser verstehen. Die neue Methode soll sich zudem dafür eignen, Materialien zu erforschen, die für die Reparatur von durch Traumata oder Schlaganfälle beschädigte Zellen [...]
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Este estudio, apoyado por la FAPESP, salió publicado en el Journal of Visualized Experiments (JoVE). “En el organismo las células son tridimensionales. Pero cuando se las cultiva en laboratorio tienen plástico abajo y un medio de cultivo encima [ un conjunto de sustancias que permiten la supervivencia y la proliferación celular ]. Esto es algo muy alejado de la organización natural del tejido o del órgano, donde las mismas se encuentran ordenadas [...]
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巴西研究人员开发出3D打印脑细胞的新方法,存活时长达两周以上
2022年2月9日,南极熊获悉,来自巴西圣保罗联邦大学(UNIFESP)的研究人员开发了一种新的方法来3D打印脑细胞,这些脑细胞在打印后能够存活至少14天。
在圣保罗研究基金会(FAPESP)研究经费的 资助 [...]
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Um grupo de pesquisadores da Universidade Federal de São Paulo (Unifesp) desenvolveu um protocolo para a impressão em três dimensões (3D) de células neurais. A chamada biotinta é composta de polímeros naturais que permitem aos astrócitos, um tipo de célula cerebral, sobreviver por pelo menos 14 dias em laboratório depois de passar por uma impressora 3D.
O procedimento resulta num modelo mais parecido com o tecido neural do [...]
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Um grupo de pesquisadores da Universidade Federal de São Paulo (Unifesp) desenvolveu um protocolo para a impressão em três dimensões (3D) de células neurais. A chamada biotinta é composta de polímeros naturais que permitem aos astrócitos, um tipo de célula cerebral, sobreviver por pelo menos 14 dias em laboratório depois de passar por uma impressora 3D.
O procedimento resulta num modelo mais parecido com o tecido neural do [...]
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Researchers from the Federal University of Sao Paulo (UNIFESP) in Brazil have developed a new method to 3D print brain cells that are capable of surviving for at least 14 days after printing.
Funded by a research grant from the Sao Paulo Research Foundation (FAPESP), the study resulted in a model that is reportedly more similar to neural tissue than existing protocols, and which can be used to better understand the functionality of neural cells in relation to central nervous system [...]
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Researchers from the Federal University of Sao Paulo (UNIFESP) in Brazil have developed a new method to 3D print brain cells that are capable of surviving for at least 14 days after printing.
Funded by a research grant from the Sao Paulo Research Foundation (FAPESP), the study resulted in a model that is reportedly more similar to neural tissue than existing protocols, and which can be used to better understand the functionality of neural cells in relation to central nervous system [...]