Apparatus and method for opening and/or evaluating connection site

The invention claimed is: 1. Connection opening apparatus for opening a heat-bonded connection in a fluid flow conduit formed between two hollow, flexible, thermoplastic conduit segments, which connection includes a frangible portion of thermoplastic material at least partially blocking internal communication between the conduit segments, the apparatus comprising: an occluder cooperative with one of the thermoplastic conduit segments to block flow through the conduit segment; a pump cooperative with the other of the the thermoplastic conduit segments to create pressure within the other of the thermoplastic conduit segments in proximity to the connection; a pressure sensor cooperative with the fluid flow conduit and operable to sense pressure inside the fluid flow conduit at a location between the pump and occluder; and whereby pressure from the pump is operable to disrupt the frangible portion and reduce the amount of blocking. 2. The apparatus of claim 1 in which the pump is operable to create a pressure difference between the inside of the other thermoplastic conduit segment and the ambient atmosphere sufficient to cause expansion of a wall of the other thermoplastic conduit segment in the vicinity of the frangible portion to disrupt the frangible portion and reduce the blocking. 3. The apparatus of claim 2 in which the pump is operable to create the pressure difference before the thermoplastic material at the connection has fully hardened from the heat-bonded connection. 4. The apparatus of claim 2 in which the pump is operable to create the pressure difference while the thermoplastic material at the connection has a temperature above its glass transition temperature. 5. The apparatus of claim 2 in which the pump is operable to create the pressure difference within about 10 seconds of the formation of the heat-bonded connection. 6. The apparatus of claim 2 in which the pump is operable to create the pressure difference by increasing pressure inside of the other thermoplastic conduit segment above ambient pressure. 7. The apparatus of claim 1 in which the occluder is operable to occlude the one of the thermoplastic conduit segments and the pump is operable to increase the pressure in the other of the thermoplastic conduit segments until the frangible portion is disrupted. 8. The apparatus of claim 7 in which the sensor is operable to sense the pressure in the fluid flow conduit at a location between the occluder and the connection to determine disruption of the frangible portion. 9. The apparatus of claim 7 in which the sensor is operable to sense the pressure in the fluid flow conduit at a location between the occluder and the connection after the frangible portion is disrupted to determine the integrity of the heat-bonded connection. 10. The apparatus of claim 1 in which the pump is operable to increase the pressure in the other of the thermoplastic conduit segments until a pressure increase is sensed by the sensor in the one of the thermoplastic conduit segments. 11. A connection system for forming a continuous fluid flow conduit including a heat-bonded connection between two hollow, flexible, thermoplastic conduit segments, the system including: (1) a connection forming apparatus comprising at least two relatively rotatable members, each cooperative with a separate thermoplastic conduit segment so as to move ends of the respective conduit segments between a spaced-apart position and an end-to-end contacting position for forming a heat bonded connection therebetween; and (2) a connection opening apparatus comprising (a) a valve cooperative with one of the thermoplastic conduit segments to block flow therethrough; (b) a pump cooperative with the other of the thermoplastic conduit segments to increase pressure within the other of the thermoplastic conduit segments to open the connection; and (c) a sensor cooperatively associated with the fluid flow conduit for sensing pressure inside of the fluid flow conduit between the pump and the valve. 12. The connection system of claim 11 in which the pump is operable to increase the pressure before the thermoplastic material at the connection has fully hardened from the heat-bonded connection. 13. The connection system of claim 11 in which the pump is operable to increase the pressure while the thermoplastic material at the connection has a temperature above its glass transition temperature. 14. The connection system of claim 11 in which the pump is operable to increase the pressure within about 10 seconds of the formation of the heat-bonded connection. 15. The connection system of claim 14 in which the pump is operable to increase the pressure in the other of the thermoplastic conduit segments until the frangible portion is disrupted. 16. The connection system of claim 15 in which the sensor is operable to sense the pressure in the fluid flow conduit between the valve and the pump to determine disruption of the frangible portion. 17. The connection system of claim 15 in which the sensor is operable to sense the pressure in the fluid flow conduit between the valve and the pump after the frangible portion is disrupted to determine the integrity of the heat-bonded connection. 18. The connection system of claim 15 in which the pump is operable to increase the pressure in the other of the thermoplastic conduit segments until a pressure increase is sensed by the sensor in the one of the thermoplastic conduit segments. 19. The connection system of claim 11 including a durable blood processing device for processing blood in a disposable fluid circuit, the durable blood processing device comprising a station for receiving a blood separator and a plurality of control valves for controlling flow through the disposable fluid circuit, the connection forming apparatus and the connection opening apparatus being disposed on a face of the durable blood processing device. 20. The connection system of claim 19 wherein the pump is operable to create the pressure difference before the thermoplastic material at the connection has fully hardened from the heat-bonded connection. 21. The connection system of claim 20 in which the sensor is operable to sense the pressure in the one of the thermoplastic conduit segments between the valve and the connection to determine disruption of the frangible portion and to determine the integrity of the heat-bonded connection.