Removing bubbles in a microfluidic device

The invention claimed is: 1. A method of increasing gas carrying capacity of a first culture media, comprising: a) providing a microfluidic device comprising a microchannel fluidically connected to an inlet and an outlet; b) flowing said first culture media through said microchannel; c) applying a first positive pressure at said inlet and a second positive pressure at said outlet for a period of time such that said flowing first culture media under said positive pressure increases the gas carrying capacity of said first culture media; and thereafter d) replenishing and flowing further culture media into said microchannel, wherein said further culture media comprises dissolved gas, and wherein bubbles are not produced in said flowing further culture media. 2. The method of claim 1 , wherein said microchannel is in fluidic communication with a first reservoir at a first end of said microchannel, and a second reservoir at a second end of said microchannel. 3. The method of claim 2 , wherein said first reservoir comprises culture media under said first positive pressure and said second reservoir comprises culture media under a second positive pressure, wherein said first positive pressure is greater than said second positive pressure. 4. The method of claim 1 , wherein said microchannel is in a perfusion manifold. 5. The method of claim 4 , wherein said perfusion manifold is engaged with and in fluidic communication with a microfluidic chip. 6. A method of increasing gas carrying capacity of a first culture media, comprising: a) providing a microfluidic device comprising a microchannel fluidically connected to an inlet and an outlet, said microchannel comprising viable cells; b) flowing said first culture media through said microchannel; c) applying a first positive pressure at said inlet and a second positive pressure at said outlet for a period of time such that said flowing said first culture media under said positive pressure increases the gas carrying capacity of said first culture media; and thereafter d) replenishing and flowing further culture media into said microchannel, wherein said further culture media comprises dissolved gas, and wherein bubbles are not produced in said flowing further culture media. 7. The method of claim 6 , wherein said microchannel is in fluidic communication with a first reservoir at a first end of said microchannel, and a second reservoir at a second end of said microchannel. 8. The method of claim 7 , wherein said first reservoir comprises culture media under said first positive pressure and second reservoir comprises culture media under a second positive pressure, wherein said first positive pressure is greater than said second positive pressure. 9. A method of increasing gas carrying capacity of a culture media, comprising: a) providing a microfluidic device comprising a microchannel fluidically connected to an inlet and an outlet; b) flowing culture media through said microchannel; c) applying a first pressure at said inlet and to said flowing culture media using a vacuum and applying a second pressure at said outlet for a period of time so as to increase the gas carrying capacity of said culture media; and thereafter d) replenishing and flowing further culture media into said microchannel, wherein said further culture media comprises dissolved gas, and wherein bubbles are not produced in said flowing further culture media. 10. A method of increasing gas carrying capacity of a culture media, comprising: a) providing a microfluidic device comprising a microchannel fluidically connected to an inlet and an outlet; b) flowing culture media through said microchannel; c) applying a first positive pressure at said inlet and to said flowing culture media using a positive pressure regulator and applying a second pressure at said outlet for a period of time so as to increase the gas carrying capacity of said culture media; and thereafter d) replenishing and flowing further culture media into said microchannel, wherein said further culture media comprises dissolved gas, and wherein bubbles are not produced in said flowing further culture media. 11. A method of flowing culture media in a microfluidic device without producing bubbles, comprising: a) providing a microfluidic device comprising a microchannel, said microchannel comprising living cells attached thereto; b) flowing a first culture media at a first pressure and at a flow rate through said microchannel over said cells; c) increasing said first pressure applied to the culture media while flowing said culture media, for approximately 1 hour; and thereafter d) replenishing and flowing further culture media into said microchannel, wherein said further culture media comprises dissolved gas, and wherein bubbles are not produced in said flowing further culture media. 12. The method of claim 4 , wherein said microfluidic device is engaged with and in fluidic communication with a perfusion manifold.