Fluid control system for a medical device

What is claimed is: 1. A method of controlling fluid flow within a medical device, the method comprising: providing a medical device including: an elongate body having a proximal end, a distal end, an intake lumen, and an exhaust lumen; a first pliable element disposed along the elongate body, the first pliable element defining a cooling chamber in fluid communication with the intake lumen and the exhaust lumen; a second pliable element at least partially enclosing the first pliable element, the second pliable element defining a junction between the first and second pliable elements; a pressure differential element in fluid communication with the junction and the cooling chamber; and a check valve allowing one-way fluid flow from the junction between the first pliable element and the second pliable element to the exhaust lumen; detecting a pressure difference between a fluid pressure of the cooling chamber and the junction with the pressure differential element; and initiating a predetermined response based at least in part on the detected pressure difference, the check valve being configured to open automatically in response to a pressure change in the junction. 2. A method of controlling fluid flow within a medical device, the method comprising: providing a medical device including: an elongate body having a proximal end, a distal end, an intake lumen, and an exhaust lumen; a first pliable element disposed along the elongate body, the first pliable element defining a cooling chamber in fluid communication with the intake lumen and the exhaust lumen; a second pliable element at least partially enclosing the first pliable element, the second pliable element defining a junction between the first and second pliable elements; a pressure differential element in fluid communication with the junction and the cooling chamber; a first check valve allowing one-way fluid flow from the junction between the first pliable element and the second pliable element to the exhaust lumen; and a second check valve allowing one-way fluid flow from the cooling chamber into the junction; detecting a pressure difference between a fluid pressure of the cooling chamber and the junction with the pressure differential element; and initiating a predetermined response based at least in part on the detected pressure difference. 3. A method of controlling fluid flow within a medical device, the method comprising: providing a medical device including: an elongate body having a proximal end, a distal end, an intake lumen, and an exhaust lumen; a first pliable element disposed along the elongate body, the first pliable element defining a cooling chamber in fluid communication with the intake lumen and the exhaust lumen; a second pliable element at least partially enclosing the first pliable element, the second pliable element defining a junction between the first and second pliable elements; a pressure differential element in fluid communication with the junction and the cooling chamber; a first check valve allowing one-way fluid flow from the junction between the first pliable element and the second pliable element to the exhaust lumen; and a second check valve allowing one-way fluid flow from the cooling chamber into the junction; detecting a pressure difference between a fluid pressure of the cooling chamber and the junction with the pressure differential element; and initiating a predetermined response based at least in part on the detected pressure difference, the predetermined response at least one of: discontinuing fluid flow in the medical device; evacuating fluid from the medical device; venting the medical device; and generating an alert indicating at least one of a leak and a kink in the medical device. 4. A method of controlling fluid flow within a medical device, the method comprising: providing a medical device including: an elongate body having a proximal end, a distal end, an intake lumen, and an exhaust lumen; a first pliable element disposed along the elongate body, the first pliable element defining a cooling chamber in fluid communication with the intake lumen and the exhaust lumen; a second pliable element at least partially enclosing the first pliable element, the second pliable element defining a junction between the first and second pliable elements; a pressure differential element in fluid communication with the junction and the cooling chamber; a first check valve allowing one-way fluid flow from the junction between the first pliable element and the second pliable element to the exhaust lumen; and a second check valve allowing one-way fluid flow from the cooling chamber into the junction; detecting a pressure difference between a fluid pressure of the cooling chamber and the junction with the pressure differential element; initiating a predetermined response based at least in part on the detected pressure difference; and placing the junction substantially under a vacuum.