IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0377032
(2006-03-16)
|
등록번호 |
US-7569789
(2009-08-24)
|
발명자
/ 주소 |
- Hayenga, Jon W.
- Nelson, Alan C.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
20 |
초록
▼
An apparatus and method for sorting particles in a laminar flow microfluidic channel includes a cantilevered coaxial flow injector in a microfluidic device, the cantilevered coaxial flow injector including an elongated cantilever element integrated into the microfluidic device. A coaxial channel run
An apparatus and method for sorting particles in a laminar flow microfluidic channel includes a cantilevered coaxial flow injector in a microfluidic device, the cantilevered coaxial flow injector including an elongated cantilever element integrated into the microfluidic device. A coaxial channel runs through the elongated cantilever element, where coaxial channel is sized to pass particles of a predetermined size. An actuator is coupled to the elongated cantilever element, for actuating said elongated cantilever element.
대표청구항
▼
What is claimed is: 1. A cantilevered coaxial flow injector in a laminar flow microfluidic device comprising: an elongated cantilever element integrated into said laminar flow microfluidic device; a coaxial channel running through said elongated cantilever element, said coaxial channel being sized
What is claimed is: 1. A cantilevered coaxial flow injector in a laminar flow microfluidic device comprising: an elongated cantilever element integrated into said laminar flow microfluidic device; a coaxial channel running through said elongated cantilever element, said coaxial channel being sized to pass particles of a predetermined size; and an actuator, coupled to said elongated cantilever element, for actuating said elongated cantilever element so as to deliver the particles into a selected strata in fluid communication with one of at least two output channels without closing a channel. 2. The cantilevered coaxial flow injector of claim 1 wherein said actuating means comprises an actuator selected from the group consisting of a piezoelectric bending device, a magnetic field generator, an electromagnetic element, and an electrostatic attraction device. 3. The cantilevered coaxial flow injector of claim 1 wherein the elongated cantilever element incorporates at least one of a wire, a ferrous coating, imbedded ferrous material, and a nickel wire. 4. The cantilevered coaxial flow injector of claim 1 wherein the coaxial channel is sized to pass biological cells in a laminar flow. 5. The cantilevered coaxial flow injector of claim 1 wherein the elongated cantilever element is adapted to be actuated to dispense particles into a plurality of laminar flow strata in the microfluidic device. 6. The cantilevered coaxial flow injector of claim 1 wherein the coaxial channel has a diameter in the range of 100 microns to 1 mm. 7. The cantilevered coaxial flow injector of claim 1 wherein the coaxial channel has a diameter in the range of 50 microns to 1 mm. 8. A system for sorting particles in microfluidic channels, the system comprising: a particle detection system for generating detection information; a fluidic control system electronically coupled to the particle detection system, the fluidic control system configured to provide a sorting control signal responsive to information received from the particle detection system; a fluid flow drive system coupled to the fluidic control system; a microfluidic device including a sample holding channel, an inspection zone, a cantilevered coaxial flow injector downstream of the inspection zone and at least two output channels, wherein the cantilevered coaxial flow injector includes an elongated cantilever element with a coaxial channel running through said elongated cantilever element, said coaxial channel being sized to pass particles of a predetermined size; and a sorting actuator coupled to receive the sorting control signal, the sorting actuator being located to actuate the cantilevered coaxial flow injector so as to deliver the particles into a selected strata in fluid communication with one of at least two output channels without closing a channel. 9. The system of claim 8 further comprising a hydrodynamic focus cell coupled to transmit particles to the inspection zone, where the hydrodynamic focus cell centers the particles. 10. The system of claim 8 wherein the particle detection system is selected from the group consisting of an electrical sensing zone system, a light scatter detection system, a fluorescence detection system, an optical spectral detection system, an optical image capture and processing system, a microscopy system, and an optical tomography system. 11. The system of claim 8 wherein the fluid flow drive system comprises at least one fluid reservoir, at least one fluid pump coupled to the at least one fluid reservoir and at least one vacuum pump coupled to the fluid pump and the microfluidic channels. 12. The system of claim 8 wherein the fluid flow drive system transmits fluid drive using positive displacement or pressure and/or vacuum pressure to provide laminar flow conditions. 13. The system of claim 12 wherein the laminar flow conditions comprise a plug flow. 14. The system of claim 8 wherein the particles comprise biological cells. 15. The system of claim 8 wherein the sorting control signal actuates the cantilevered coaxial flow injector to sort biological cells into a selected one of the at least two output channels. 16. The system of claim 15 wherein the cantilevered coaxial flow injector bends to deliver particles into a selected stratum of a laminar flow stream within a selected one of the at least two output channels. 17. The system of claim 8 wherein the sorting actuator is selected from the group consisting of a piezoelectric bending device, a magnetic field generator, an electromagnet, and an electrostatic attraction device. 18. The system of claim 8 wherein the cantilevered coaxial flow injector incorporates at least one of a wire, a ferrous coating, imbedded ferrous material, and a nickel wire. 19. A method for sorting particles in a microfluidic laminar flow path, the sorting method comprising the steps of: transporting a plurality of particles in a laminar flow path within an integrated microfluidic device; detecting features of the plurality of particles in the laminar flow path; generating detection information responsive to the detected features; making a sorting determination for a selected particle based on the detection information; injecting the selected particle into a cantilevered coaxial flow injector downstream of the holding sample channel, wherein the cantilevered coaxial flow injector includes an elongated cantilever element with a coaxial channel running through said elongated cantilever element, said coaxial channel being sized to pass particles of a predetermined size; and providing sorting control signals responsive to the sorting determination to a sorting actuator acting on the cantilevered coaxial flow injector in order to direct the selected particle into a selected stratum of the laminar flow path through one of at least two output channels so as to deliver the selected particle into a selected strata in fluid communication with one of at least two output channels without closing a channel. 20. The method of claim 19 wherein the step of transporting further includes hydrodynamically focusing the plurality of particles in the laminar flow path. 21. The method of claim 19 wherein the step of detecting features comprises operating at least one of a light scatter detection system to detect features including scattering properties, a fluorescence detection system to detect features including fluorescence properties, a microscopy system for detecting features including imaging properties, and an optical image capture, an optical tomography system for detecting features including imaging properties, and processing system for detecting features including imaging properties. 22. The method of claim 21 wherein the step of operating an optical image capture and processing system comprises the step of capturing images of particles in the laminar flow path with a camera. 23. The method of claim 21 wherein the optical image capture and processing system further comprises a target recognition software program for making the sorting determination. 24. The method of claim 19 wherein the step of transporting particles in a laminar flow path comprises operating a fluidic control system to provide a pump control signal and a vacuum control signal and using a fluid drive system to drive fluid flow. 25. The method of claim 19 wherein the cantilevered coaxial flow injector bends to deliver particles into the selected stratum of a laminar flow stream. 26. The method of claim 19 wherein the sorting actuator is selected from the group consisting of a piezoelectric bending device, a magnetic field generator, an electromagnet, and an electrostatic attraction device. 27. The method of claim 19 wherein the cantilevered coaxial flow injector incorporates at least one of a wire, a ferrous coating, imbedded ferrous material, and a nickel wire. 28. The method of claim 19 wherein the particles comprise biological cells. 29. The cantilevered coaxial flow injector of claim 1 wherein the laminar flow microfluidic device comprises a microfluidic chip.
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