Claims
- 1. A microvolume liquid dispenser comprising a body, an outer sleeve extending from the body, and a reciprocating pin located within the outer sleeve, wherein the outer sleeve comprises a distal opening and the pin reciprocates relative to the sleeve between a distal position wherein a distal tip of the pin extends beyond the distal opening and a proximal position, wherein the outer sleeve and the reciprocating pin are configured to cooperatively form a reservoir when the pin is in the distal position and configured to cooperatively dispense, through a passage formed between a side of the distal opening and the pin, a predetermined microvolume amount of liquid from the reservoir when the pin moves in a cycle from the distal position to the proximal position then returns to the distal position.
- 2. The microvolume liquid dispenser of claim 1 wherein the dispenser is a hand-held dispenser and the body comprises a handle.
- 3. The microvolume liquid dispenser of claim 1 wherein the dispenser is stationary and the body is attached to a frame sized to fit on a substantially flat surface.
- 4. The microvolume liquid dispenser of claim 1 wherein the sleeve and pin are configured to cooperatively dispense a volume per cycle that is suitable for a cytology microarray.
- 5. The microvolume liquid dispenser of claim 1 wherein the passage is sized to substantially avoid clogging by cells when the liquid is a cytological fluid.
- 6. The microvolume liquid dispenser of claim 1 wherein the sleeve and pin are configured such that the predetermined microvolume amount is from about 0.05 μl to 0.5 μl per cycle.
- 7. The microvolume liquid dispenser of claim 1 wherein the dispenser further comprises a biasing element operably connected to at least one of the body and the outer sleeve and configured to urge the pin toward the distal position.
- 8. A microvolume liquid dispenser tip comprising an outer sleeve and a reciprocating pin located within the outer sleeve, the outer sleeve comprising a distal opening and the pin reciprocating relative to the sleeve between at least a distal position wherein a distal tip of the pin extends slightly beyond the distal opening and a proximal position, wherein an inner surface of the sleeve and an outer surface of the pin are configured to cooperatively form a reservoir when the pin is in the distal position and wherein the sleeve and pin are configured to cooperatively dispense, through a passage formed between a side of the distal opening and the pin, a predetermined microvolume amount of liquid from the reservoir when the pin moves in a cycle from the distal position to the proximal position then returns to the distal position.
- 9. The microvolume liquid dispenser tip of claim 8 wherein the inner surface of the sleeve is substantially frustoconical and the outer surface of the pin is correspondingly substantially frustoconical.
- 10. The microvolume liquid dispenser tip of claim 9 wherein the substantially frustoconical shape of the pin comprises a concave curve near the distal tip.
- 11. The microvolume liquid dispenser tip of claim 8 wherein the passage is sized to substantially avoid clogging by cells when the liquid is a cytological fluid.
- 12. The method of claim 8 wherein the sleeve and pin are configured to cooperatively dispense about 0.1 μl per cycle.
- 13. The microvolume liquid dispenser tip of claim 8 wherein the distal opening has a diameter from about 0.5 mm to 1.5 mm.
- 14. The microvolume liquid dispenser tip of claim 8 wherein the tip is one of an array of the microvolume liquid dispenser tips, the array configured and sized to make a cytology microarray.
- 15. A cytology microarray maker comprising
a frame, the frame operably connected to a body holding an array of microvolume liquid dispenser tips, at least two stages sized to support cytology microarrays, upright members operably attached to the body to move the body and the array of tips substantially normal to the stages between at least an extended position wherein the tips contact a cytology microarray substrate located on the stage and a retracted position wherein the tips do not contact the cytology microarray substrate, and at least one axial member disposed along the frame and operably connected to the upright members to provide a track along which the upright members, the body and the array of tips is movable along the track between the first and the second stage.
- 16. The cytology microarray maker of claim 15 wherein the microvolume liquid dispenser tips comprise an outer sleeve and a reciprocating pin located within the outer sleeve, the outer sleeve comprising a distal opening and the pin reciprocating relative to the sleeve between at least a distal position wherein a distal tip of the pin extends slightly beyond the distal opening and a proximal position, wherein an inner surface of the sleeve and an outer surface of the pin are configured to cooperatively form a reservoir when the pin is in the distal position and wherein the sleeve and pin are configured to cooperatively dispense, through a passage formed between a side of the distal opening and the pin, a predetermined microvolume amount of liquid from the reservoir when the pin moves in a cycle from the distal position to the proximal position then returns to the distal position.
- 17. The cytology microarray maker of claim 15 or 16 wherein the maker further comprises a third stage sized to support a cytology microarray and the at least one axial member is configured to move the array of tips between the first, second, and third stages.
- 18. The cytology microarray maker of claim 15 or 16 wherein the maker is stationary and the frame is sized to fit on a substantially flat surface.
- 19. The cytology microarray maker of claim 15 or 16 wherein the at least one axial member comprises two rails extending along the frame.
- 20. The cytology microarray maker of claim 19 wherein the two rails form a part of the frame.
- 21. The cytology microarray maker of claim 19 wherein the upright members comprise two substantially planar elements that are slidably connected to the two rails and situated on either side of the stages, the substantially planar elements comprising corresponding elongated axial channels configured to slidably receive projections extending from the body, and at least one of the frame and the upright members comprises an operably connected body biasing element urging the body away from the stages.
- 22. The cytology microarray maker of claim 15 or 16 wherein the stages are substantially planar stands and further comprise at least x-axis and y-axis adjustment mechanisms configured to adjust positions of the stages relative to at least one of the frame and each other.
- 23. The cytology microarray maker of claim 15 or 16 wherein the body comprises a plurality of floating channels each sized to releasably hold one tip.
- 24. The cytology microarray maker of claim 15 or 16 wherein the maker is substantially automated.
- 25. The cytology microarray maker of claim 15 or 16 wherein the maker is substantially manually operated.
- 26. A method of dispensing a microvolume of liquid comprising:
a) providing a microvolume liquid dispenser tip containing the liquid, the tip comprising an outer sleeve and a reciprocating pin located within the outer sleeve, wherein the outer sleeve comprises a distal opening and the pin reciprocates relative to the sleeve between a distal position wherein a distal tip of the pin extends beyond the distal opening and a proximal position, wherein the outer sleeve and the reciprocating pin are configured to cooperatively dispense, through a passage formed between a side of the distal opening and the pin, a predetermined microvolume amount of liquid when the pin moves in a cycle from the distal position to the proximal position then returns to the distal position; b) transiently contacting the distal tip and distal opening with a substrate thereby causing the pin to cycle; and, c) during the cycle, dispensing the liquid to the substrate.
- 27. The method of claim 26 wherein the sleeve and pin are configured to cooperatively dispense a volume per cycle that is suitable for a cytology microarray, the substrate is a cytology platform, and the method comprises dispensing a spot of cell-containing liquid on the platform sized for the cytology microarray.
- 28. The method of claim 27 wherein the passage is sized to substantially avoid clogging by the cells.
- 29. The method of claim 26 or 27 wherein the sleeve and pin are configured to cooperatively dispense about 0.1 μl per cycle.
- 30. The method of claim 26 or 27 wherein an internal surface of the sleeve is substantially frustoconical and an outer surface of the pin is correspondingly substantially frustoconical.
- 31. The method of claim 26 or 27 wherein the microvolume liquid dispenser tip is one of an array of the microvolume liquid dispenser tips, the tips and array configured and sized to make a cytology microarray, and the method further comprises substantially simultaneously transiently contacting the array of tips with a cytology microarray platform, thereby causing the pin to cycle, and thereby forming the cytology microarray on the platform.
- 32. The method of claim 26 or 27 wherein the method further comprises, before providing the tip containing the liquid, loading the liquid into the tip by placing the tip into a source of the liquid and suctioning up the liquid using capillary action.
- 33. The method of claim 26 or 27 wherein the method further comprises, before providing the tip containing the liquid, loading the liquid into the tip through a proximal opening located at a proximal area of the tip.
- 34. A method of making a cytology microarray comprising:
a) providing a frame holding a body holding an array of microvolume liquid dispenser tips, at least first and second stages sized to support cytology microarrays, upright members operably attached to the body to move the body and the array of tips substantially normal to the stages between at least an extended position wherein the tips contact a cytology microarray substrate located on the stage and a retracted position wherein the tips do not contact the cytology microarray substrate, and at least one axial member disposed along the frame and operably connected to the upright members to move the upright members, the body and the array of tips between the first and the second stage, wherein the first stage holds a cytology microarray template comprising an array of liquid cytological specimens and the second stage holds a cytology microarray substrate; b) loading the array of tips with the liquid cytological specimens by transiently moving the array of tips into the liquid cytological specimens and suctioning up the liquid cytological specimens using capillary action; c) moving the array of tips along the axial member to the second stage; and d) making the cytology array by transiently contacting the array of tips with the cytology microarray substrate.
- 35. The method of claim 34 wherein the microvolume liquid dispenser tips comprise an outer sleeve and a reciprocating pin located within the outer sleeve, the outer sleeve comprising a distal opening and the pin reciprocating relative to the sleeve between at least a distal position wherein a distal tip of the pin extends slightly beyond the distal opening and a proximal position, wherein an inner surface of the sleeve and an outer surface of the pin are configured to cooperatively form a reservoir when the pin is in the distal position and wherein the sleeve and pin are configured to cooperatively dispense, through a passage formed between a side of the distal opening and the pin, a predetermined microvolume amount of liquid from the reservoir when the pin moves in a cycle from the distal position to the proximal position then returns to the distal position, and wherein the transient contacting causes the pin to cycle.
- 36. The method of claim 34 or 35 wherein the frame further comprises a third stage holding a cytology microarray substrate and the at least one axial member is configured to move the array of tips between the first, second and third stages, and the method further comprises moving the array of tips along the axial member to the third stage; and making a second cytology array by transiently contacting the array of tips with the second cytology microarray substrate.
- 37. The method of claim 36 wherein the second cytology array is made without reloading the tips.
- 38. The method of claim 34 or 35 wherein the at least one axial member comprises two rails extending along the frame, the upright members comprise two substantially planar elements slidably connected to the two rails and situated on either side of the stages, the substantially planar elements comprising corresponding elongated axial channels configured to slidably receive projections extending from the body, and the method comprises sliding the upright members along the two rails between the cytology microarray template and substrate, and then pushing the array downwardly to contact the cytology microarray template and substrate, respectively.
- 39. The method of claim 34 or 35 wherein the method further comprises adjusting the stages on at least one of an x-axis and a y-axis relative to at least one of the frame and each other.
- 40. The method of claim 34 or 35 wherein the body comprises a plurality of floating channels each sized to releasably hold one tip, and the method further comprises placing the tips in the body to create the array of tips and removing the tips from the body after making the cytology array.
- 41. The method of claim 34 or 35 wherein the method further comprises removing the cytology array template and the cytology array from the stages then placing new cytology array substrates on the stages and making additional cytology arrays.
- 42. The method of claim 41 wherein the additional cytology arrays are made without reloading the tips.
- 43. The method of claim 34 or 35 wherein the method is substantially automated.
- 44. The method of claim 34 or 35 wherein the method is substantially manual.
- 45. A tip means for microvolume liquid dispensing comprising:
a) an outer sleeve means for holding the liquid, b) a reciprocating pin means located within the outer sleeve for cooperatively dispensing, through a passage formed between a side of the outer sleeve means and the pin means, a predetermined microvolume amount of liquid when the pin moves in a cycle from a distal position to a proximal position then returns to a distal position.
- 46. A means for making cytology microarrays comprising:
a) a frame means for holding a body means, b) the body means for holding an array of tips means for dispensing a microvolume of liquid, c) at least two stage means for supporting cytology microarrays, d) at least two upright member means operably attached to the body for moving the body means substantially normal to the stage means, and e) at least one axial member means disposed along the frame and operably connected to the upright members for moving the upright member means between the two stage means.
- 47. A method of dispensing a microvolume of liquid comprising the steps of:
a) a step of providing a microvolume liquid dispenser tip means containing the liquid, the tip comprising an outer sleeve and a reciprocating pin located within the outer sleeve, wherein the outer sleeve comprises a distal opening and the pin reciprocates relative to the sleeve between a distal position wherein a distal tip of the pin extends beyond the distal opening and a proximal position, wherein the outer sleeve and the reciprocating pin are configured to cooperatively dispense, through a passage formed between a side of the distal opening and the pin, a predetermined microvolume amount of liquid when the pin moves in a cycle from the distal position to the proximal position then returns to the distal position; b) transiently contacting the distal tip and distal opening with a substrate thereby causing the pin to cycle; and, c) during the cycle, dispensing the liquid onto the substrate.
- 48. The method of claim 47 wherein the sleeve means and pin means are configured for cooperatively dispensing a volume per cycle that is suitable for a cytology microarray, and the method comprises the step of dispensing a spot of cell-containing liquid sized for the cytology microarray.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] The present application claims priority from U.S. provisional patent application No. 60/298,911, filed Jun. 19, 2001.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60298911 |
Jun 2001 |
US |