Sample block apparatus and method of maintaining a microcard on a sample block
First Claim
1. A thermal cycling device for thermally cycling samples of biological material, the thermal cycling device comprising:
- a microcard having a top surface and a bottom surface, the top surface having a plurality of chambers each containing samples of biological material and at least one primer, the bottom surface being non-perforated;
a sample block having an upper surface and a plurality of channels formed along the upper surface, the upper surface supporting the bottom surface of the microcard such that the bottom surface of the microcard overlays the plurality of channels to form a sealed volume, said plurality of channels being positioned such that they are not immediately vertically below said plurality of chambers of said microcard;
a temperature control system operably coupled to the sample block, the temperature control system cycling the sample block through a polymerase chain reaction temperature cycle;
a vacuum device in fluid communication with the plurality of channels formed in the sample block, said vacuum device exerting and maintaining a vacuum within the sealed volume to urge the microcard toward the sample block to maximize thermal contact between the microcard and the sample block and permit generally uniform and consistent temperature cycling of the microcard; and
an optical detection system detecting at least one characteristic of the samples of biological material contained in at least one of the plurality of chambers in the microcard.
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Accused Products
Abstract
A thermal cycling device for thermally cycling samples of biological material contained in a microcard having a top and bottom surface. The thermal cycling device can include a sample block having an upper surface configured for engaging the bottom surface of a microcard, a vacuum device, and a temperature control system operatively connected with the sample block. The upper surface of the sample block may include a plurality of channels, the channels defining spaces between the sample block and the bottom surface of a microcard that may be positioned thereon. The vacuum device may be in fluid communication with the sample block for drawing gas out of the spaces defined by the channels in the sample block. The vacuum device may be configured for substantially maintaining a vacuum between the sample block and microcard so that a retention force is imparted on the microcard to urge the microcard toward the sample block. Methods of maintaining a microcard on a sample block of a thermal cycling device are also provided.
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Citations
9 Claims
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1. A thermal cycling device for thermally cycling samples of biological material, the thermal cycling device comprising:
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a microcard having a top surface and a bottom surface, the top surface having a plurality of chambers each containing samples of biological material and at least one primer, the bottom surface being non-perforated; a sample block having an upper surface and a plurality of channels formed along the upper surface, the upper surface supporting the bottom surface of the microcard such that the bottom surface of the microcard overlays the plurality of channels to form a sealed volume, said plurality of channels being positioned such that they are not immediately vertically below said plurality of chambers of said microcard; a temperature control system operably coupled to the sample block, the temperature control system cycling the sample block through a polymerase chain reaction temperature cycle; a vacuum device in fluid communication with the plurality of channels formed in the sample block, said vacuum device exerting and maintaining a vacuum within the sealed volume to urge the microcard toward the sample block to maximize thermal contact between the microcard and the sample block and permit generally uniform and consistent temperature cycling of the microcard; and an optical detection system detecting at least one characteristic of the samples of biological material contained in at least one of the plurality of chambers in the microcard. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification