Methods of using compressible tubes for placing implants

That which is claimed: 1. A method of placing a medical construct in a body of a subject, comprising: providing a surgical delivery device comprising a needle attached to a compressible tube with an open interior channel having an open trailing end residing a distance away from the needle, the compressible tube surrounding an elongate medical construct having a body with a length and having a free leading end in the tube, wherein at least 20% of the construct body length, including the leading free end, is releasably held in the open interior channel of the tube, wherein the construct body swells when exposed to liquid in the body of the subject; pulling the needle and tube through a local intrabody structure; compressing the tube and the medical construct in response to pressure applied from contact with the local intrabody structure during the pulling step, thereby also pulling the portion of the medical construct held in the tube through the local intrabody structure as the tube is pulled through the local intrabody structure; and only securing the medical construct to the tube and needle using a compression force that is temporarily applied during the compressing step; then separating the medical construct from the tube after the compressing step by continuing to pull the tube after the tube has exited the local intrabody structure so that the medical construct entirely slidably exits the open trailing end of the tube and placing the medical construct in the body of the subject. 2. A method according to claim 1 , wherein the medical construct comprises dry or partially hydrated fibers when held inside the tube that swell when hydrated in the body of the subject, and wherein the medical construct is loosely held in the tube when the tube is in an uncompressed state, wherein the tube is impermeable and has a first segment that is fixedly attached to the needle and a second segment with a greater diameter that extends rearward of the needle such that a maximum diameter of the second segment is greater than a maximum diameter of the first segment and the needle, wherein the leading free end of the medical implant is not directly or indirectly attached to the needle or tube when the tube is in the uncompressed state. 3. A method according to claim 1 , wherein the medical construct comprises a plurality of strands of biocompatible collagen fibers having at least a portion that is braided or twisted, and wherein the medical construct further comprises at least one fixation knot residing in the tube in the providing step. 4. A method according to claim 1 , further comprising inserting the needle in soft tissue before the pulling and compressing steps, wherein the pulling comprises pulling the needle and tube through the soft tissue, wherein the compressing is carried out so that the tube and the medical construct are compressed in response to pressure applied from contact with the soft tissue during the pulling step thereby also pulling the portion of the medical construct held in the tube through the soft tissue; and wherein the separating step is carried out by continuing to pull the tube after the tube has exited the soft tissue so that the medical construct is loosely held in the tube thereby placing the medical construct in the body of the subject. 5. A method according to claim 1 , wherein the tube has an end portion that is fixedly attached to the needle, and wherein the compressible tube has an elongate body which is flexible and impermeable and that increases in diameter relative to the end portion attached to the needle, and wherein the separating step is carried out by pulling the needle and compressible tube out of the body of the subject while the elongate medical construct exits the open trailing end to thereby place the medical construct in the body of the subject. 6. A method according to claim 1 , wherein the medical construct has an opposing trailing end, wherein the free leading end is held as a free end inside the tube spaced apart a distance from a trailing end of the needle, wherein the free leading end is not directly or indirectly attached to the tube or any needle. 7. A method according to claim 1 , wherein the elongate medical construct is flexible and is releasably and loosely held inside the tube during the providing step, and wherein the separating step is carried out by the medical construct slidably exiting the open trailing end of the tube when the medical construct is disposed within soft tissue of the local intrabody structure while the needle and the tube are pulled out of and away from the soft tissue. 8. A method according to claim 1 , wherein the tube is configured so that during the compressing caused by contact with soft tissue of the local intrabody structure during implantation temporarily compresses the tube such that only this compression tightly holds the medical construct inside the tube. 9. A method according to claim 1 , wherein the medical construct has a length held in the interior channel of the tube that is at least 3 cm and/or is at least 30% of the construct length, and wherein the providing step is carried out to slidably insert the medical construct into the open interior channel to be loosely held inside the open interior channel. 10. A method according to claim 1 , wherein the tube has a forward end portion that resides in an interior chamber of a rearward portion of the needle. 11. A method according to claim 1 , wherein the tube is swaged to the needle and has a smooth transition segment from the needle to the tube to inhibit snagging when inserted through soft tissue during surgical use. 12. A method according to claim 1 , wherein the needle is shank-less and has a constant diameter outer wall upstream from a tip portion thereof, and wherein an inner wall of a first segment of the tube is affixed to the outer wall of the needle, and wherein the medical construct is a flexible medical implant that comprises a dry or partially hydrated collagen fiber implant. 13. A method according to claim 1 , wherein the tube is heat-shrink tubing that is heated to shrink to conform and affix to an outer wall of the needle, and wherein the compressible tube holds at least 40% of the construct body length therein. 14. A method according to claim 1 , wherein the medical construct in the interior channel of the tube is a length of dry or partially hydrated biocompatible collagen fibers twisted, woven or braided together that swell when exposed to a local fluidic environment in situ. 15. A method according to claim 1 , wherein the method further comprises placing the medical construct in soft tissue of the body of the subject as a ligament repair device. 16. A method according to claim 1 , wherein the method further comprises placing the medical construct in soft tissue of the body of the subject as a tendon repair device. 17. A method according to claim 1 , wherein the method further comprises placing the medical construct in soft tissue of the body of the subject as at least one of a suture or a cable that is configured to repair an acromioclavicular (AC) joint. 18. The method of claim 1 , wherein the medical construct is a flexible medical implant that, during the providing step, is held inside the tube interior channel so that the free leading end of the flexible medical implant is spaced apart from a trailing end of the needle to not contact the needle and wall of the tube encasing the interior channel between the trailing end of the needle and the free leading end of the flexible implant. 19. A method of placing