System and method for joint integrity detection

What is claimed is: 1. An inspectable joint in a medical device, the inspectable joint comprising: at least one medical-grade tube comprising an end; a medical-grade fitting comprising at least one joining surface configured to accept the end of the tube; and a joining material disposed between the tube and the joining surface, the joining material comprising: (i) a first component configured to bond the tube to the fitting; and (ii) a second component configured to provide observable evidence of the presence of the joining material that is between the tube and the joining surface; at least a portion of the first component contacts at least a portion of the second component when the tube end is accepted by the joining surface, and at least one of the portions of the first and second components that contacts the other of the first and second components has an initial first color; wherein the at least a portion of one of the first and second components changes color to a second color upon contact with the portion of the other of the first and second components, and wherein the tube is separated from the joining surface by a gap, and the joining material extends around a circumference of the joint between the tube and the joining surface. 2. The inspectable joint of claim 1 , wherein the joining surface of the fitting is a pocket configured to accept the tube end into the pocket and at least a portion of the fitting is at least translucent. 3. The inspectable joint of claim 1 , wherein the joining surface of the fitting is a tubular post configured to accept the tube end over the tubular post and at least a portion of the tube over the joining surface is at least translucent. 4. The inspectable joint of claim 1 , wherein the joining material is only observable during or after exposure to non-visible radiation. 5. The inspectable joint of claim 4 , wherein the joining material fluoresces during or after exposure to non-visible radiation. 6. The inspectable joint of claim 1 , wherein the first component comprises an adhesive configured to bond to the tube and the fitting; and wherein the adhesive is configured to cure and thereby form a permanent bond with the tube and the fitting. 7. The inspectable joint of claim 1 , wherein the first component comprises a solvent configured to cause the tube to bond directly with the fitting; and wherein the solvent dissipates after a first determined period of time has elapsed after the time of application. 8. The inspectable joint of claim 1 , wherein the second component is configured such that the joining material is colored when the joining material is initially applied to at least one of the tube and the fitting; and such that the joining material becomes substantially transparent after a second determined period of time has elapsed after the time of application. 9. The inspectable joint of claim 1 , wherein the second component is configured such that the joining material is colored when the joining material is initially applied to at least one of the tube and the fitting; and the joining material becomes substantially transparent after the assembled joint is exposed to a sterilizing environment. 10. An intravenous set comprising: at least one medical-grade tube comprising an end; a medical-grade fitting comprising at least one joining surface configured to accept the end of the tube; and a joining material disposed between the tube and the joining surface, the joining material comprising: (i) a first component configured to bond the tube to the fitting; and (ii) a second component configured to provide observable evidence of the presence of the joining material; wherein at least a portion of one of the first and second components has an initial first color and contacts at least a portion of the other of the first and second components; wherein the at least a portion of one of the first and second components changes color to a second color upon contact with the portion of the other of the first and second components when the tube end is accepted by the joining surface, and wherein the tube is separated from the joining surface by a gap, and the joining material extends around a circumference of the joint between the tube and the joining surface. 11. The intravenous set of claim 10 , wherein the first component comprises an adhesive configured to bond to the tube and the fitting; and wherein the adhesive is configured to cure and thereby form a permanent bond with the tube and the fitting. 12. The intravenous set of claim 10 , wherein the first component comprises a solvent configured to cause the tube to bond directly with the fitting; and wherein the solvent dissipates after a first determined period of time has elapsed after the time of application. 13. The intravenous set of claim 10 , wherein the second component is configured such that the joining material is colored when the joining material is initially applied to at least one of the tube and the fitting; and such that the joining material becomes substantially transparent after a second determined period of time has elapsed after the time of application. 14. The intravenous set of claim 10 , wherein the second component is configured such that the joining material is colored when the joining material is initially applied to at least one of the tube and the fitting; and the joining material becomes substantially transparent after the assembled joint is exposed to a sterilizing environment. 15. An inspectable joint comprising: at least one tube comprising an end; a fitting comprising at least one joining surface configured to accept the tube end; and a bonding agent coupled between the tube end and the joining surface, the bonding agent comprising: (i) an adhesion component configured to bond the tube to the fitting; and (ii) a detectable component configured to provide evidence of the presence of the bonding agent between the tube and the joining surface; at least a portion of one of the adhesion and detectable components has an initial first color and contacts at least a portion of the other of the adhesion and detectable components when the tube end is accepted by the joining surface; wherein the at least a portion of one of the adhesion and detectable components changes color to a second color upon contact with the portion of the other of the adhesion and detectable components such that a void between the tube end and joining surface is identifiable, and wherein the tube is separated from the joining surface by a gap, and the bonding agent extends around a circumference of the joint between the tube and the joining surface. 16. The inspectable joint of claim 15 , wherein the detectable component can be detected by an optical test. 17. The inspectable joint of claim 15 , wherein the detectable component can be detected by at least one of the set of a resistance test, an impedance test, and a capacitance test. 18. The inspectable joint of claim 15 , wherein the detectable component can be detected by a magnetic test. 19. The inspectable joint of claim 15 , wherein the detectable component can be detected by at least one of the set of a transmissive radiation test and a reflected radiation test.