Apparatus and methods for simultaneous operation of miniaturized reactors
First Claim
1. An apparatus for parallel operation of a plurality of microreactors comprising:
- a chamber equipped with at least one element that supports or secures a microreactor tray inside the chamber, wherein the microreactor tray holds a plurality of microreactors;
a supporting component that holds a signal transmission device, wherein the supporting component and microreactor tray are controllably movable with respect to one another;
a plurality of support structures that contain or support an actuating device, wherein the support structures are movable with respect to the microreactor tray and wherein movement of the supporting component brings the supporting component into contact with a support structure, thereby moving the support structure so as to allow the supporting component to position a sensing device held by the supporting component into operably close proximity to microreactors mounted in or on a microreactor tray installed in the chamber; and
at least one spring that extends from the support structure to a wall of the chamber, and wherein movement of the support structure resulting from contact with the supporting component compresses the at least one spring.
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Abstract
The present invention provides a variety of microscale bioreactors (microfermentors) and microscale bioreactor arrays for use in culturing cells. The microfermentors include a vessel for culturing cells and means for providing oxygen to the interior of the vessel at a concentration sufficient to support cell growth, e.g., growth of bacterial cells. Depending on the embodiment, the microfermentor vessel may have various interior volumes less than approximately 1 ml. The microfermentors may include an aeration membrane and optionally a variety of sensing devices. The invention further provides a chamber to contain the microfermentors and microfermentor arrays and to provide environmental control. Certain of the microfermentors include a second chamber that may be used, e.g., to provide oxygen, nutrients, pH control, etc., to the culture vessel and/or to remove metabolites, etc. Various methods of using the microfermentors, e.g., to select optimum cell strains or bioprocess parameters are provided. The invention provides microreactors having a variety of different designs, some of which incorporate active stirring and/or have the capability to operate in batch or fed-batch mode. The invention further provides an apparatus and methods for simultaneous operation of a plurality of microreactors, with monitoring of the individual microreactors during a run. The invention further provides methods of performing gene expression analysis on cells cultured in microreactors.
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Citations
2 Claims
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1. An apparatus for parallel operation of a plurality of microreactors comprising:
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a chamber equipped with at least one element that supports or secures a microreactor tray inside the chamber, wherein the microreactor tray holds a plurality of microreactors; a supporting component that holds a signal transmission device, wherein the supporting component and microreactor tray are controllably movable with respect to one another; a plurality of support structures that contain or support an actuating device, wherein the support structures are movable with respect to the microreactor tray and wherein movement of the supporting component brings the supporting component into contact with a support structure, thereby moving the support structure so as to allow the supporting component to position a sensing device held by the supporting component into operably close proximity to microreactors mounted in or on a microreactor tray installed in the chamber; and at least one spring that extends from the support structure to a wall of the chamber, and wherein movement of the support structure resulting from contact with the supporting component compresses the at least one spring. - View Dependent Claims (2)
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Specification