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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0940315 (2007-11-14) |
등록번호 | US-8088616 (2012-01-03) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 74 인용 특허 : 408 |
The present technology provides for a heater substrate that contains networks of heater elements configured to controllably and selectively deliver heat to one or more PCR reaction chambers in a microfluidic substrate with which the heater substrate makes contact. In exemplary embodiments, the heate
The present technology provides for a heater substrate that contains networks of heater elements configured to controllably and selectively deliver heat to one or more PCR reaction chambers in a microfluidic substrate with which the heater substrate makes contact. In exemplary embodiments, the heater substrate can deliver heat to 12, 24, 48, or 96 chambers independently of one another, or simultaneously. The heater substrate is located in a heater unit that may be introduced into a diagnostic apparatus that can receive and position a microfluidic substrate, such as in a cartridge, in contact with the heater unit, receive one or more polynucleotide containing samples into one or more lanes in the microfluidic substrate, and cause amplification of the polynucleotides to occur, and detect presence of absence of specified polynucleotides in the amplified samples.
1. A heater substrate, comprising: a plurality of groups of resistive heaters, and at least one temperature sensor per group of heaters, wherein a portion of the substrate is removed from around the resistive heaters to reduce the effective thermal mass adjacent to the heater group; andcontrol circu
1. A heater substrate, comprising: a plurality of groups of resistive heaters, and at least one temperature sensor per group of heaters, wherein a portion of the substrate is removed from around the resistive heaters to reduce the effective thermal mass adjacent to the heater group; andcontrol circuitry for supplying electric current to the plurality of groups of resistive heaters at selected intervals, whereinthe substrate has a surface configured to make thermal contact with a microfluidic cartridge having a plurality of PCR reaction chambers, and to deliver heat from the plurality of groups of resistive heaters to regions of the cartridge, such that each of the groups of resistive heaters delivers heat to a select PCR reaction chamber to perform a reaction, wherein the heat delivery from each group of resistive heaters is controlled by sensing temperature using the at least one temperature sensor of the group. 2. The heater substrate of claim 1, wherein a group of resistive heaters is shaped similar to a reaction chamber and the resistive heaters in the group are arranged to provide uniform heating in an area enclosed by the group. 3. The heater substrate of claim 2, wherein the area is between 1 mm2 and 100 mm2. 4. The heater substrate of claim 1, wherein at least one of the resistive heaters in a group of resistive heaters is also a temperature sensor. 5. The heater substrate of claim 1, wherein two adjacent heater groups are spaced apart by a distance to permit independent operation of their respective adjacent reaction chambers in the microfluidic cartridge. 6. The heater substrate of claim 1, wherein the reaction performed is thermocycling for PCR. 7. The heater substrate of claim 6, wherein one PCR heat cycle is performed in less than about 25 seconds. 8. The heater substrate of claim 1, further comprising heaters to actuate other microfluidic components in the microfluidic cartridge, including valves, pumps, or gates. 9. The heater substrate of claim 1, further comprising a processor, wherein the processor is programmable to operate the control circuitry. 10. The heater substrate of claim 1, further comprising a compliant layer at the surface, configured to thermally couple the heater groups with at least a portion of a microfluidic cartridge in contact with the surface. 11. A diagnostic apparatus configured to carry out PCR on a number of samples in parallel, wherein the apparatus utilizes a heater substrate of claim 1 to apply thermal cycling to each of the samples. 12. The heater substrate of claim 1, wherein the substrate comprises one or more materials selected from the group consisting of: glass, fused silica, and quartz. 13. The heater substrate of claim 1, wherein the plurality of groups of resistive heaters are arranged into lanes, such that each lane corresponds to a PCR reaction chamber in the microfluidic substrate. 14. The heater substrate of claim 13, wherein there are 12, 24, 48, or 96 lanes. 15. The heater substrate of claim 1, wherein a group consists of two long heaters and two short heaters. 16. The heater substrate of claim 1, wherein the PCR heat cycle time is further reduced by forced cooling during the cooling part of the PCR cycle. 17. The heater substrate of claim 1, wherein the substrate comprises a heater chip and a printed circuit board. 18. The heater substrate of claim 17, wherein the portion of the substrate removed from around the resistive heaters comprises at least a portion of the printed circuit board. 19. The heater substrate of claim 17, wherein the portion of the substrate removed from around the resistive heaters comprises at least a portion of the heater chip.
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