Fabrication of vascularized tissue using microfabricated two-dimensional molds

US 8,642,336 B2
Filed: 05/24/2010
Issued: 02/04/2014
Est. Priority Date: 04/30/1999
Status: Expired due to Term

First Claim

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1. A tissue lamina comprising:

(a) a first mold,(b) a semi-permeable membrane,(c) a second mold, and(d) animal cells attached to the first and second molds and the semi-permeable membrane;

wherein the first and second molds are fastened together such that the semi-permeable membrane is disposed between the first and second molds,wherein the first and second molds have means defining microchannels positioned towards the semi-permeable membrane,andwherein each of the first and second molds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells.

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Abstract

Methods and materials for making complex, living, vascularized tissues for organ and tissue replacement, especially complex and/or thick structures, such as liver tissue is provided. Tissue lamina is made in a system comprising an apparatus having (a) a first mold or polymer scaffold, a semi-permeable membrane, and a second mold or polymer scaffold, wherein the semi-permeable membrane is disposed between the first and second molds or polymer scaffolds, wherein the first and second molds or polymer scaffolds have means defining microchannels positioned toward the semi-permeable membrane, wherein the first and second molds or polymer scaffolds are fastened together; and (b) animal cells. Methods for producing complex, three-dimensional tissues or organs from tissue lamina are also provided.

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24 Claims

1. A tissue lamina comprising:
- (a) a first mold,(b) a semi-permeable membrane,(c) a second mold, and(d) animal cells attached to the first and second molds and the semi-permeable membrane;
  
  wherein the first and second molds are fastened together such that the semi-permeable membrane is disposed between the first and second molds,wherein the first and second molds have means defining microchannels positioned towards the semi-permeable membrane,andwherein each of the first and second molds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The tissue lamina of claim 1, further comprising nutrient supply and excretion removal lines in fluid communication with the apparatus.
  - 3. The tissue lamina of claim 2, further comprising pumping means for circulating fluid through the apparatus.
  - 4. The tissue lamina of claim 1, further comprising a coating on the microchannels that promotes cell adhesion to the apparatus.
  - 5. The tissue lamina of claim 1, further comprising a coating on the microchannels that promotes lifting of cells as intact sheets from the apparatus.

6. A system for making tissue lamina comprising:
- (a) an apparatus for making tissue lamina comprising a first mold, a semi-permeable membrane, and a second mold, wherein the semi-permeable membrane is disposed between the first and second molds, wherein the first and second molds have means defining microchannels positioned toward the semi-permeable membrane, wherein the first and second molds are fastened together, and wherein each of the first and second molds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells; and
  
  (b) animal cells.
- View Dependent Claims (7, 8, 9)
- - 7. The system of claim 6, further comprising nutrient supply and excretion removal lines in fluid communication with the apparatus.
  - 8. The system of claim 6, further comprising pumping means for circulating fluid through the apparatus.
  - 9. The system of claim 6, further comprising a coating on the microchannels that promotes cell adhesion to the apparatus.

10. A method of making tissue lamina comprising the steps of:
- (a) positioning a semi-permeable membrane between a first and second mold, wherein the first and second molds have means defining microchannels positioned toward the semi-permeable membrane, and wherein each of the first and second molds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells;
  
  (b) fastening the first and second molds together such that the semi-permeable membrane is disposed between the molds; and
  
  (c) attaching animal cells to the first and second molds and the semi-permeable membrane.
- View Dependent Claims (11, 12)
- - 11. The method of claim 10, further comprising the step of connecting nutrient supply and excretion removal lines in fluid communication with the apparatus.
  - 12. The method of claim 10, wherein the microchannels are coated with a material that promotes cell adhesion to the apparatus.

13. A method of making tissue lamina comprising the steps of:
- (a) positioning a semi-permeable membrane between a first and second mold, wherein the first and second molds have means defining microchannels positioned toward the semi-permeable membrane, and wherein each of the first and second molds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells;
  
  (b) fastening the first and second molds together such that the semi-permeable membrane is disposed between the molds, thereby forming an apparatus;
  
  and(c) culturing cells in the microchannels of the molds.
- View Dependent Claims (14, 15, 16)
- - 14. The method of claim 13, further comprising the step of(d) connecting nutrient supply and excretion removal lines in fluid communication with the apparatus.
  - 15. The method of claim 14, further comprising the step of(e) circulating fluid through the apparatus by means of a pump.
  - 16. The method of claim 13, wherein the microchannels are coated with a material that promotes cell adhesion to the apparatus.

17. A method of making multiple layers of tissue lamina in three dimensions comprising the steps of:
- (a) positioning a semi-permeable membrane between a first and second mold, wherein the first and second molds have means defining microchannels positioned toward the semi-permeable membrane, and wherein each of the first and second molds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells;
  
  (b) fastening the first and second molds together such that the semi-permeable membrane is disposed between the molds, thereby forming an apparatus;
  
  (c) culturing cells in the microchannels of the first and second molds to form tissue lamina;
  
  (d) removing the tissue lamina from the first and second molds; and
  
  (e) folding or rolling the tissue lamina to form multiple layers of tissue lamina in three dimensions.

18. A method of making multiple layers of tissue lamina in three dimensions comprising the steps of:
- (a) positioning a semi-permeable membrane between a first and second mold, wherein the first and second molds have means defining microchannels positioned toward the semi-permeable membrane;
  
  (b) fastening the first and second molds together such that the semi-permeable membrane is disposed between the molds;
  
  (c) fastening a third mold adjacent to the first or second mold, wherein the third mold has means defining microchannels positioned toward the first or second mold, thereby forming an apparatus, wherein each of the first, second and third molds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells; and
  
  (d) culturing cells in the microchannels of the first, second and third molds to form tissue lamina.

19. A system for making tissue lamina, comprising:
- (a) an apparatus comprising a first polymer scaffold, a semi-permeable membrane, and a second polymer scaffold, wherein the semi-permeable membrane is disposed between the first and second polymer scaffolds, wherein the first and second polymer scaffolds have means defining microchannels positioned towards the semi-permeable membrane, wherein the first and second polymer scaffolds are fastened together, and wherein each of the first and second polymer scaffolds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells;
  
  (b) nutrient supply and excretion removal lines in fluid communication with the apparatus; and
  
  (c) animal cells attached to the first and second molds and the semi-permeable membrane.
- View Dependent Claims (20, 21)
- - 20. The apparatus of claim 19, further comprising pumping means for circulating fluid through the apparatus.
  - 21. The apparatus of claim 19, further comprising a coating on the microchannels that promotes cell adhesion to the apparatus.

22. A method of making an apparatus for making tissue lamina comprising the steps of:
- (a) positioning a semi-permeable membrane between a first and second polymer scaffold, wherein the first and second polymer scaffold have means defining microchannels positioned towards the semi-permeable membrane, and wherein each of the first and second polymer scaffolds and the semi-permeable membrane are comprised of material that is suitable for attachment and culturing of animal cells;
  
  (b) fastening the first and second polymer scaffolds together such that the semi-permeable membrane is disposed between the polymer scaffolds;
  
  (c) connecting nutrient supply and excretion removal lines in fluid communication with the apparatus; and
  
  (d) attaching animal cells to the first and second molds and the semi-permeable membrane.
- View Dependent Claims (23)
- - 23. The method of claim 22, wherein the microchannels are coated with a material that promotes cell adhesion to the apparatus.

24. An apparatus for forming vascularized tissue, comprising:
- (a) a first substrate having a tissue-defining surface comprising a pattern of open-faced channels defined by walls extending from the tissue-defining surface into the first substrate;
  
  (b) a second substrate having a tissue-defining surface comprising at least one open-faced compartment defined by walls extending from the tissue-defining surface into the second substrate; and
  
  (c) a semi-permeable membrane characterized by a high permeability for nutrients and a low permeability for animal cells;
  
  wherein the first substrate, the second substrate, and the semi-permeable membrane are arranged in a sandwich configuration with the tissue-defining surface of the first substrate being disposed opposite to the tissue-defining surface of the second substrate, and with the semi-permeable membrane being disposed between the tissue-defining surfaces of the first and second substrates;
  
  wherein the walls defining the channels and the compartment(s) are suitable for attachment and culturing of animal cells; and
  
  wherein the diameter of the channels is between about 1 and about 500 μ
  
  m.

Specification

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Litigation Campaign Assessment

Current Assignee
Charles Stark Draper Laboratory Incorporated, The General Hospital Corporation (Mass General Brigham, Inc.)
Original Assignee
Charles Stark Draper Laboratory Incorporated, The General Hospital Corporation (Mass General Brigham, Inc.)
Inventors
Vacanti, Joseph P., Shin, Young-Moon Michael, Ogilvie, Jennifer, Sevy, Alexander, Maemura, Tomoyuki, Ishii, Osamu, Kaazempur-Mofrad, Mohammad Reza, Borenstein, Jeffrey T., King, Kevin R., Wang, Chiao-Chun, Weinberg, Eli
Primary Examiner(s)
Ford, Allison

Application Number

US12/785,865
Publication Number

US 20100267136A1
Time in Patent Office

1,352 Days
Field of Search

None
US Class Current

435/395
CPC Class Codes

A61F 2/062   Apparatus for the productio...

A61F 2240/004   Using a positive or negativ...

A61F 2240/005   Templates

A61L 2300/64   Animal cells

A61L 27/3604   characterised by the human ...

A61L 27/3804   characterised by specific c...

A61L 27/3808   Endothelial cells

A61L 27/3891   as distinct cell layers

A61L 27/3895   using specific culture cond...

A61L 27/58   Materials at least partiall...

B33Y 80/00   Products made by additive m...

C12M 21/08   for producing artificial ti...

C12M 23/06   Tubular C12M23/08, C12M23/1...

C12M 23/30   biodegradable

C12M 25/02   Membranes; Filters filters ...

C12M 35/08   Chemical, biochemical or bi...

C12N 2533/12   Glass

C12N 2533/30   Synthetic polymers

C12N 5/0062   General methods for three-d...

C12N 5/0697   Artificial constructs assoc...

Y10T 29/49826 : Assembling or joining

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Fabrication of vascularized tissue using microfabricated two-dimensional molds

First Claim

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Fabrication of vascularized tissue using microfabricated two-dimensional molds

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Specification

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