Cryoablation apparatuses, systems, and methods for renal neuromodulation

We claim: 1. A cryo-catheter, comprising: an elongate shaft having a proximal end portion and an opposite distal end portion; a cryo-applicator at the distal end portion of the shaft, wherein the cryo-applicator is transformable between a low-profile delivery state and an expanded deployed state, and wherein the cryo-applicator includes— a cryo-balloon configured to contact a first partial circumference of an elongate body lumen when the cryo-applicator is in the deployed state within the body lumen, and an insulating balloon configured to contact a second partial circumference of the body lumen when the cryo-applicator is in the deployed state within the body lumen, wherein the first and second partial circumferences are different parts of a full circumference of the body lumen at a given position along a length of the body lumen; and a supply lumen extending along the length of the shaft, wherein the supply lumen is configured to supply refrigerant to the cryo-balloon, and wherein the insulating balloon is configured to receive expanding refrigerant from the cryo-balloon. 2. The cryo-catheter of claim 1 wherein the insulating balloon is more compliant than the cryo-balloon. 3. The cryo-catheter of claim 2 wherein the insulating balloon is compliant and the cryo-balloon is non-compliant. 4. The cryo-catheter of claim 2 wherein the insulating balloon and the cryo-balloon together are configured to fully occlude body lumens having different transverse cross-sectional diameters. 5. The cryo-catheter of claim 1 , further comprising an exhaust lumen extending along the length of the shaft, wherein the exhaust lumen is configured to exhaust gaseous refrigerant from the cryo-applicator. 6. The cryo-catheter of claim 5 wherein the supply lumen, the cryo-balloon, the insulating balloon, and the exhaust lumen are fluidically connected to one another in series. 7. The cryo-catheter of claim 1 wherein the cryo-applicator includes a restriction orifice at a distal end portion of the supply lumen. 8. The cryo-catheter of claim 7 wherein the restriction orifice is within the cryo-balloon. 9. The cryo-catheter of claim 8 wherein the restriction orifice is configured to direct expanding refrigerant preferentially toward the first partial circumference of the body lumen when the cryo-applicator is in the deployed state within the body lumen. 10. The cryo-catheter of claim 7 wherein the restriction orifice includes a capillary tube having a smaller inner diameter than an inner diameter of the supply lumen. 11. The cryo-catheter of claim 1 wherein the cryo-applicator includes a proximal neck through which the insulating balloon is configured to receive refrigerant from the cryo-balloon. 12. The cryo-catheter of claim 1 wherein the cryo-applicator comprises a pressure sensor within the cryo-balloon. 13. A system for cryogenic renal neuromodulation, the system comprising: a cryo-catheter including— an elongate shaft having a proximal end portion and an opposite distal end portion, a cryo-applicator at the distal end portion of the shaft, wherein the cryo-applicator is transformable between a low-profile delivery state and an expanded deployed state, and wherein the cryo-applicator includes— a cryo-balloon configured to contact a first partial circumference of an elongate body lumen when the cryo-applicator is in the deployed state within the body lumen, and an insulating balloon configured to contact a second partial circumference of the body lumen when the cryo-applicator is in the deployed state within the body lumen, wherein the first and second partial circumferences are different parts of a full circumference of the body lumen at a given position along a length of the body lumen, and a supply lumen extending along the length of the shaft, wherein the supply lumen is configured to supply refrigerant to the cryo-balloon, and wherein the insulating balloon is configured to receive expanding refrigerant from the cryo-balloon; and a cryo-console operably associated with the cryo-applicator, wherein the cryo-console includes a source of refrigerant fluidically connected to the cryo-applicator through the supply lumen. 14. The system of claim 13 wherein: the cryo-catheter includes an exhaust lumen extending along the length of the shaft; and the exhaust lumen is configured to exhaust gaseous refrigerant from the cryo-applicator. 15. The system of claim 13 wherein the cryo-console includes a controller configured to regulate a flowrate of refrigerant moving from the source of liquid refrigerant toward the cryo-applicator based on feedback from the cryo-catheter. 16. The system of claim 13 wherein the source of refrigerant is a reusable cartridge.