Method for manufacturing microstructures having hollow microelements using fluidic jets during a molding operation

US 20060076718A1
Filed: 05/25/2004
Published: 04/13/2006
Est. Priority Date: 06/02/2003
Status: Active Grant

First Claim

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1. A method for constructing a microstructure, said method comprising:

(a) providing a moldable material to be formed into a predetermined shape;

(b) during a molding procedure, forcing a predetermined fluid under pressure toward a surface of said moldable material, said predetermined fluid forming at least one opening at said surface; and

(c) substantially solidifying said moldable material while said pressurized predetermined fluid continues to flow toward said surface, thereby forming a solid microstructure which includes said at least one opening at said surface.

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Abstract

A method is provided for constructing microstructures that can penetrate skin layers, in which the microelements are formed during a molding process while fluidic jets produce openings in the microelements. The structures used in the molding process are formed by tooling that creates the shapes of the microelements in a material deposition step, and also creates the sizes and shapes of the openings that will be formed by the fluidic jets.

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20 Claims

1. A method for constructing a microstructure, said method comprising:
- (a) providing a moldable material to be formed into a predetermined shape;
  
  (b) during a molding procedure, forcing a predetermined fluid under pressure toward a surface of said moldable material, said predetermined fluid forming at least one opening at said surface; and
  
  (c) substantially solidifying said moldable material while said pressurized predetermined fluid continues to flow toward said surface, thereby forming a solid microstructure which includes said at least one opening at said surface.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The method as recited in claim 1, wherein:
    - said at least one opening extends completely through said solid microstructure.
  - 3. The method as recited in claim 1, wherein:
    - said at least one opening forms an indentation that does not extend completely through said solid microstructure.
  - 4. The method as recited in claim 1, wherein said molding procedure comprises one of:
    - (a) injection molding, (b) embossing, and (c) die casting.
  - 5. The method as recited in claim 1, further comprising:
    - providing a micromold having a first mold-half and a second mold-half, said first mold-half including a plurality of openings through which said predetermined fluid is forced under pressure.
  - 6. The method as recited in claim 5, wherein:
    - said second mold-half comprises one of;
      
      (a) a material that is substantially non-porous with respect to said moldable material, but is substantially porous with respect to said predetermined fluid; and
      
      (b) a material that is substantially non-porous with respect to said moldable material, and is also substantially non-porous with respect to said predetermined fluid.
  - 7. The method as recited in claim 5, wherein:
    - (a) said moldable material is formed into a three-dimensional negative form of said first and second mold-halves, and comprises (i) a substrate having a first surface and a second surface opposite said first surface, and (ii) at least one protrusion extending from the first surface of said substrate; and
      
      (b) said at least one opening is physically located at one of;
      
      (i) one of said at least one protrusion, and (ii) along a substantially planar portion of the first surface of said substrate.
  - 8. The method as recited in claim 7, wherein:
    - said at least one protrusion exhibits a length in the range of 0.1-3000 microns.

9. A method for constructing a micromold, said method comprising:
- (a) providing a tooling structure having a first surface and a second surface opposite said first surface, and having a substrate having a plurality of protrusions formed upon said first surface, said plurality of protrusions exhibiting at least one height;
  
  (b) depositing a material upon the first surface of said tooling structure, said material having a thickness that is generally less than said at least one height of said plurality of protrusions; and
  
  (c) separating said material from said tooling structure to form a micromold, said micromold exhibiting a first plurality of openings that correspond to a portion of a three-dimensional negative form of said plurality of protrusions of the tooling structure along said thickness of said material.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
- - 10. The method as recited in claim 9, wherein said depositing step comprises one of:
    - (a) electroplating;
      
      (b) spin coating; and
      
      (c) vapor deposition.
  - 11. The method as recited in claim 9, further comprising:
    - (d) providing a backing member;
      
      (e) introducing a moldable material between said micromold and said backing member;
      
      (f) during a molding procedure, forcing a predetermined fluid under pressure through said first plurality of openings in said micromold toward a third surface of said moldable material, said predetermined fluid forming a second plurality of (openings at said third surface; and
      
      (g) substantially solidifying said moldable material while said pressurized predetermined fluid continues to flow toward said third surface, thereby forming a solid microstructure which includes said second plurality of openings at said third surface.
  - 12. The method as recited in claim 11, wherein, one of:
    - (a) said second plurality of openings extend completely through said solid microstructure;
      
      (b) said second plurality of openings form at least one indentation that does not extend completely through said solid microstructure; and
      
      (c) a first group of the second plurality of openings extends completely through said solid microstructure, while a second group of the second plurality of openings forms at least one indentation that does not extend completely through said solid microstructure.
  - 13. The method as recited in claim 11, wherein said molding procedure comprises one of:
    - (a) injection molding, (b) embossing, and (c) die casting.
  - 14. The method as recited in claim 11, further comprising:
    - (h) providing a mask member which exhibits a third plurality of openings;
      
      (i) placing said mask member substantially against a surface of said micromold that faces away from said backing member, wherein by such placement, said third plurality of openings is substantially well-aligned with said first plurality of openings of said micromold; and
      
      (j) during said molding procedure, forcing said predetermined fluid under pressure through both said third plurality of openings of said mask member and said first plurality of openings of said micromold toward said third surface of said moldable material.
  - 15. The method as recited in claim 14, wherein said mask member exhibits one of the following physical characteristics:
    - (a) said mask member comprises a substantially flat plate;
      
      (b) said mask member exhibits a shape similar to said micromold, but inverted in orientation; and
      
      (c) at said surface between said mask member and micromold, an inner area of the third plurality of openings of said mask member is generally smaller than an inner area of the first plurality of openings of said micromold.
  - 16. The method as recited in claim 11, wherein:
    - said backing member comprises one of;
      
      (a) a material that is substantially non-porous with respect to said moldable material, but is substantially porous with respect to said predetermined fluid; and
      
      (b) a material that is substantially non-porous with respect to said moldable material, and is also substantially non-porous with respect to said predetermined fluid.
  - 17. The method as recited in claim 11, wherein:
    - (a) said moldable material is formed into a three-dimensional negative form of said backing member and said micromold, and comprises;
      
      (i) a substrate having said third surface and a fourth surface opposite said third surface, and (ii) a second plurality of protrusions extending from the third surface of said substrate; and
      
      (b) at least some of said second plurality of openings are physically located at one of;
      
      (i) one of said second plurality of protrusions, and (ii) along a substantially planar portion of the third surface of said substrate.
  - 18. The method as recited in claim 17, wherein:
    - said second plurality of protrusions exhibits a length in the range of 0.1-3000 microns.

19. A method for constructing a microstructure, said method comprising:
- (a) providing a tooling structure having a first surface and a second surface opposite said first surface, and having a first substrate having a plurality of protrusions formed upon said first surface, said plurality of protrusions exhibiting at least one height;
  
  (b) depositing a first material upon the first surface of said tooling structure, said first material having a thickness that is generally less than said at least one height of said plurality of protrusions;
  
  (c) releasing said first material from said tooling structure, said first material exhibiting a plurality of openings that correspond to a portion of a three-dimensional negative form of said plurality of protrusions of the tooling structure along said thickness of said first material, said plurality of openings exhibiting at least one predetermined inner area proximal to a third surface of said first material;
  
  (d) providing a backing member at a predetermined and spaced-apart distance from a fourth surface of said first material, said fourth surface being opposite said third surface of the first material, said backing member exhibiting comparatively little porosity with respect to a moldable second material, but exhibiting substantial porosity with respect to a predetermined fluid;
  
  (e) introducing said moldable second material between said backing member and the fourth surface of said first material, and forcing said predetermined fluid under pressure through said plurality of openings of the first material to form at least one channel in said second material between said first material and said backing member, and substantially solidifying said second material while said pressurized predetermined fluid continues to flow through said plurality of openings; and
  
  (f) separating said solidified second material from said backing member and said first material, said solidified second material exhibiting a second substrate and exhibiting a plurality of microelements that substantially correspond in size and shape to a three-dimensional negative form of said plurality of openings in the first material, and further exhibiting said at least one channel running completely through said second substrate and at least one of said plurality of microelements.
- View Dependent Claims (20)
- - 20. The method as recited in claim 19, wherein said plurality of openings are smaller in area proximal to said third surface than they are in inner area proximal to said fourth.

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Current Assignee
Corium Pharma Solutions, Inc.
Original Assignee
The Procter & Gamble Company
Inventors
Gartstein, Vladimir, Sherman, Faiz Feisal

Granted Patent

US 7,572,405 B2
Time in Patent Office

Days
Field of Search
US Class Current

264/504
CPC Class Codes

A61M 2037/003   having a lumen

A61M 2037/0053   Methods for producing micro...

A61M 37/0015   by using microneedles

B26F 1/26   Perforating by non-mechanic...

B29C 2043/023   having a plurality of grooves

B29C 2043/3233   exerting pressure on mould ...

B29C 2059/023   Microembossing

B29C 2793/0045   Perforating

B29C 33/0033   constructed for making arti...

B29C 33/3814   Porous moulds adapted for v...

B29C 33/3857   by making impressions of on...

B29C 37/0053   Moulding articles character...

B29C 59/022   characterised by the dispos...

Method for manufacturing microstructures having hollow microelements using fluidic jets during a molding operation

First Claim

19 Assignments

0 Petitions

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Abstract

51 Citations

20 Claims

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Method for manufacturing microstructures having hollow microelements using fluidic jets during a molding operation

First Claim

19 Assignments

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0 Petitions

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Accused Products

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Abstract

51 Citations

20 Claims

Specification

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Solutions

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