Microfluidic diffusion devices and systems, and methods of manufacturing and using same

What is claimed is: 1. A diffusion device comprising: a cylindrical substrate having a central axis and an outer surface; a patterned membrane comprising a single contiguous sheet of material and defining a plurality of gas flow channels and a plurality of liquid flow channels in respective portions of the patterned membrane along the single contiguous sheet of material, the patterned membrane being rolled circumferentially over the outer surface of the cylindrical substrate to define a plurality of concentric membrane layers extending radially outwardly from the central axis of the cylindrical substrate, wherein the plurality of concentric membrane layers are bonded together and comprise: at least one gas flow layer, each gas flow layer comprising gas flow channels of the plurality of gas flow channels that are configured to receive a gas; and at least one liquid flow layer comprising liquid flow channels of the plurality of liquid flow channels that are configured to receive a liquid, and wherein the patterned membrane permits diffusion of: (a) gas from the plurality of gas flow channels into the liquid within the plurality of liquid flow channels; or (b) liquid from the plurality of liquid flow channels into the gas within the plurality of gas flow channels; or (c) both (a) and (b), wherein the plurality of gas flow channels extend circumferentially about the central axis, and wherein the plurality of liquid flow channels are oriented parallel or substantially parallel to the central axis; or wherein the plurality of liquid flow channels extend circumferentially about the central axis, and wherein the plurality of gas flow channels are oriented parallel or substantially parallel to the central axis. 2. The diffusion device of claim 1 , wherein the diffusion device is a microfluidic diffusion device, wherein the plurality of gas flow channels are configured to receive a sweep gas, wherein the plurality of liquid flow channels are configured to receive blood, and wherein the at least one membrane layer permits diffusion of the sweep gas from the plurality of gas flow channels into the blood within the plurality of liquid flow channels. 3. The diffusion device of claim 1 , wherein at least one membrane layer of the plurality of concentric membrane layers does not comprise gas or liquid flow channels. 4. The diffusion device of claim 1 , wherein the plurality of concentric membrane layers comprise: a liquid flow layer bonded to the outer surface of the cylindrical substrate and comprising the plurality of liquid flow channels; a gas flow layer positioned radially outwardly of the liquid flow layer and bonded to the liquid flow layer, wherein the gas flow layer comprises the plurality of gas flow channels; and a capping layer positioned radially outwardly of the gas flow layer and bonded to the gas flow layer to cap the plurality of gas flow channels, wherein the capping layer does not comprise gas or liquid flow channels, and wherein portions of the patterned membrane positioned radially between the plurality of gas flow channels and the plurality of liquid flow channels permit diffusion of gas from the plurality of gas flow channels into the plurality of liquid flow channels. 5. The diffusion device of claim 1 , wherein the plurality of concentric membrane layers comprises: a plurality of gas flow layers, each gas flow layer comprising a portion of the plurality of gas flow channels; and a plurality of liquid flow layers, each liquid flow layer comprising a portion of the plurality of liquid flow channels, wherein the gas flow layers and the liquid flow layers are positioned in an alternating pattern moving radially outwardly from the central axis. 6. The diffusion device of claim 5 , wherein the plurality of gas flow channels extend circumferentially about the central axis, and wherein the plurality of liquid flow channels are oriented parallel or substantially parallel to the central axis. 7. The diffusion device of claim 6 , further comprising: a gas inlet channel extending radially from an outer surface of the patterned membrane toward the cylindrical substrate, wherein the gas inlet channel is positioned in fluid communication with at least a portion of the plurality of gas flow channels; and a gas outlet channel extending radially from an outer surface of the patterned membrane toward the cylindrical substrate, wherein the gas outlet channel is positioned in fluid communication with at least a portion of the plurality of gas flow channels. 8. The diffusion device of claim 5 , wherein the plurality of liquid flow channels extend circumferentially about the central axis, and wherein the plurality of gas flow channels are oriented parallel or substantially parallel to the central axis. 9. The diffusion device of claim 1 , further comprising a housing defining a liquid inlet, a liquid outlet, a gas inlet, and a gas outlet, wherein the liquid inlet and the liquid outlet are positioned in fluid communication with at least a portion of the plurality of liquid flow channels, and wherein the gas inlet and the gas outlet are positioned in fluid communication with at least a portion of the plurality of gas flow channels. 10. The diffusion device of claim 1 , wherein the plurality of concentric membrane layers comprises: first and second gas flow layers, each gas flow layer comprising a portion of the plurality of gas flow channels; and a liquid flow layer comprising liquid flow channels of the plurality of liquid flow channels, wherein the liquid flow layer is positioned radially between and the first and second gas flow layers to permit gas exchange on both the top and bottom of the liquid flow layer. 11. A method comprising: positioning a source of blood in fluid communication with a plurality of liquid flow channels of a microfluidic diffusion device, the microfluidic diffusion device comprising: a cylindrical substrate having a central axis and an outer surface; a patterned membrane comprising a single contiguous sheet of material and defining a plurality of gas flow channels and a plurality of liquid flow channels in respective portions of the patterned membrane along the single contiguous sheet of material, the patterned membrane being rolled circumferentially over the outer surface of the cylindrical substrate to define a plurality of concentric membrane layers extending radially outwardly from the central axis of the cylindrical substrate, wherein the plurality of concentric membrane layers are bonded together and comprise: at least one gas flow layer, each gas flow layer comprising gas flow channels of the plurality of gas flow channels that receive a sweep gas; and at least on liquid flow layer comprising liquid flow channels of the plurality of liquid flow channels, and wherein the plurality of gas flow channels extend circumferentially about the central axis, and wherein the plurality of liquid flow channels are oriented parallel or substantially parallel to the central axis; or wherein the plurality of liquid flow channels extend circumferentially about the central axis, and wherein the plurality of gas flow channels are oriented parallel or substantially parallel to the central axis; and positioning the plurality of gas flow channels of the diffusion device in fluid communication with a source of gas, wherein gas from the source of gas diffuses from the plurality of gas flow channels into blood within the plurality of liquid flow channels. 12. The method of claim 11 , wherein the source of blood is a patient. 13. The method of claim 12 , wherein the source of gas is air surrounding the diffusion device.