ISOLATING LIVE CELLS AFTER HIGH-THROUGHPUT, LONG-TERM, TIME-LAPSE MICROSCOPY
A microfluidic device comprises a cell flow layer and a control layer. The cell flow layer includes a growth channel, a collection channel, a plurality of bridge channels connecting the growth channel and the collection channel, a plurality of bridge valve portions, and a plurality of cell growth tr...
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| Main Authors | , , |
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| Format | Patent |
| Language | English French |
| Published |
24.12.2020
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| Subjects | |
| Online Access | Get full text |
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| Abstract | A microfluidic device comprises a cell flow layer and a control layer. The cell flow layer includes a growth channel, a collection channel, a plurality of bridge channels connecting the growth channel and the collection channel, a plurality of bridge valve portions, and a plurality of cell growth trenches coupled to the growth channel. The growth channel includes an inlet valve portion and an outlet valve portion controlling flow into and out of the growth channel. The collection channel includes an inlet valve portion and an outlet valve controlling flow into and out of the collection channel. The bridge valve portions control flow between the growth channel and the collection channel. The control layer includes a fist control channel actuating the bridge valve portions and a second control channel actuating the inlet valve portions and the outlet valve portions of the growth channel and the collection channel.
L'invention concerne un dispositif microfluidique comprenant une couche d'écoulement de cellule et une couche de commande. La couche d'écoulement de cellules comprend un canal de croissance, un canal de collecte, une pluralité de canaux de pont reliant le canal de croissance et le canal de collecte, une pluralité de parties vanne de pont, et une pluralité de tranchées de croissance de cellules accouplées au canal de croissance. Le canal de croissance comprend une partie vanne d'entrée et une partie vanne de sortie régulant l'écoulement à l'intérieur et à l'extérieur du canal de croissance. Le canal de collecte comprend une partie vanne d'entrée et une vanne de sortie régulant l'écoulement à l'intérieur et à l'extérieur du canal de collecte. Les parties vanne de pont commandent l'écoulement entre le canal de croissance et le canal de collecte. La couche de commande comprend un premier canal de commande actionnant les parties vanne de pont et un second canal de commande actionnant les parties vanne d'entrée et les parties vanne de sortie du canal de croissance et du canal de collecte. |
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| AbstractList | A microfluidic device comprises a cell flow layer and a control layer. The cell flow layer includes a growth channel, a collection channel, a plurality of bridge channels connecting the growth channel and the collection channel, a plurality of bridge valve portions, and a plurality of cell growth trenches coupled to the growth channel. The growth channel includes an inlet valve portion and an outlet valve portion controlling flow into and out of the growth channel. The collection channel includes an inlet valve portion and an outlet valve controlling flow into and out of the collection channel. The bridge valve portions control flow between the growth channel and the collection channel. The control layer includes a fist control channel actuating the bridge valve portions and a second control channel actuating the inlet valve portions and the outlet valve portions of the growth channel and the collection channel.
L'invention concerne un dispositif microfluidique comprenant une couche d'écoulement de cellule et une couche de commande. La couche d'écoulement de cellules comprend un canal de croissance, un canal de collecte, une pluralité de canaux de pont reliant le canal de croissance et le canal de collecte, une pluralité de parties vanne de pont, et une pluralité de tranchées de croissance de cellules accouplées au canal de croissance. Le canal de croissance comprend une partie vanne d'entrée et une partie vanne de sortie régulant l'écoulement à l'intérieur et à l'extérieur du canal de croissance. Le canal de collecte comprend une partie vanne d'entrée et une vanne de sortie régulant l'écoulement à l'intérieur et à l'extérieur du canal de collecte. Les parties vanne de pont commandent l'écoulement entre le canal de croissance et le canal de collecte. La couche de commande comprend un premier canal de commande actionnant les parties vanne de pont et un second canal de commande actionnant les parties vanne d'entrée et les parties vanne de sortie du canal de croissance et du canal de collecte. |
| Author | OKUMUS, Burak PAULSSON, Johan LURO, Scott |
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| DocumentTitleAlternate | ISOLATION DE CELLULES VIVANTES APRÈS UNE VIDÉOMICROSCOPIE À HAUT DÉBIT À LONG TERME |
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| Snippet | A microfluidic device comprises a cell flow layer and a control layer. The cell flow layer includes a growth channel, a collection channel, a plurality of... |
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| SubjectTerms | INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIRCHEMICAL OR PHYSICAL PROPERTIES MEASURING PHYSICS TESTING |
| Title | ISOLATING LIVE CELLS AFTER HIGH-THROUGHPUT, LONG-TERM, TIME-LAPSE MICROSCOPY |
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