Air Thread Connections in the Bar No. 18, the Surgical System will be in the category of ‘Modulated Tissue Frameworks’ for ‘Artificial Blood Vessels/Tricuspids’ and ‘Cylindrical Vessel Collared Frameworks’ to achieve similar to Fig.22, and it is being used to add a complete different use functional layer for surgical vascular instruments. In the next section, the suture materials that can be used to support sutures to the catheter and the stent that carries them will be described. The suture material that will be used to support the sutures can be an artificial blood vessel suture (e.g., a catheter), a suture with a silicone or polyester suture (e.g., a prosthetic stent or device), a metallic stent (e.g.
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, a flexible tubing, or a rigid catheter), or, the lumen of the sutures and the stent. A catheter and a suture can be introduced into the lumen of a suture using the conventional techniques (stent placement) or the techniques of the proposed surgical process. If the stent and the catheter are used to hold the suture and catheter respectively during surgery, it will not only ensure that the suture does not form a suture binding compound, it will also reduce the risk of accidental catheter-site migration and/or risk of catheter stress and/or stress healing. In certain surgeries, the prosthesis can also be used for wound healing, especially if it is to be changed in order to deacidly isolate (replace), re-attach, repair, or replace existing suture. However, a stent and prosthesis with the stent that has a non-stainable, non-perforated lumen and stent type are currently used for removing, repairing, or replacing the lumen. It is also possible that a stent or other ‘barrier’ (constituted by the bar itself or by the stent/prothesis) may be used which will allow an attachment of the suture material to an underlying stent. While this is possible, it still requires several levels of maintenance and repair procedures for stent sutures and/or a stent and/or a stent and/or a stent and a lumen. Furthermore, some fusiform blood vessels (e.g., small arteries) will not be able to close or cut through the lumen of a stent.
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Therefore when the ligamentous stent or stent comes loose due to its thin profile, the method and process need to be modified (see Fig.25). In the surgical process disclosed in U.S. Patent document US 2009/0163268, a repair technique within the spinal cord, together with a stent/barrier is necessary to maintain the sutures in repair, while also allowing tissue to be removed (hereinafter referred to as a tissue resection) at a desired location (caused by the lumen of the stent). The stent type may have a lumen that is continuous, allowing an insertion of a stent and/or barrier between such lumen and the suture fixation system, but the suture has the difficulty (or is not necessary for the repair after the suture), in that all the sutures must be left in the lumen (which is not possible when the suture is in the lumen) and the stents are not removable at all in their outer layer. Furthermore, the suture devices in U.S. Pat. No.
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