• Procedure/Product Pages (10)
    • Image?api id=crabclaw&width=120&file type=jpg
      • The CrabClaw uses an opening jaw design to simplify arthroscopic knot tying and suture management. The jaw can be opened to grasp the suture strand anywhere along its length, avoiding the time consuming task and “fiddle factor” associated with threading suture onto conventional knot pushers. The opening jaw is particularly useful when …
    • Image?api id=shoulder fastak&width=120&file type=jpg
      • The family of FASTak screw-in suture anchors are used to secure the labrum and associated soft tissue to the glenoid using preloaded FiberWire® suture. Once the anchors are implanted in the glenoid, the sutures can be passed in multiple configurations for optimal fixation and strength using the Labral Scorpion™ quick-loading suture passer, …
    • Image?api id=instability repair&width=120&file type=jpg
      • After an acute glenohumeral dislocation, the glenoid labrum and the ligaments attached to it may avulse from their bony attachments. Alternatively, in cases of chronic instability/MDI, the labrum and surrounding ligaments may be stretched to the point where they no longer support the glenohumeral joint. SLAP tears resulting in chronic pain and …
    • Image?api id=knotless instability repair&width=120&file type=jpg
      • The knotless SutureTak®, PushLock® and SwiveLock® anchors are knotless suture anchors designed for arthroscopic glenohumeral joint instability and SLAP repair. The knotless SutureTak anchor is inserted through a guide. The suture is passed through the labrum and then it is passed through the locking mechanism and sequentially …
    • Image?api id=shoulder knotless anchors&width=120&file type=jpg
      • The Arthrex knotless anchors provide versatility, speed and security in knotless rotator cuff and instability repair.  Both the PushLock and the SwiveLock are available in multiple sizes, materials and eyelet configurations to allow for maximum procedure versatility.  The unique implant designs allow for suture tension to be visualized …
    • Image?api id=labral swivelock&width=120&file type=jpg
      • The screw-in, knotless Labral SwiveLock anchor is specially designed for treating shoulder instability and is used similar to a Labral PushLock® anchor. Offering the same knotless advantages as the Labral PushLock anchor (eg, low profile, quick, suture-first technique with multiple stitch configuration options), this anchor provides the …
    • Image?api id=shoulder pushlock&width=120&file type=jpg
      • Designed for arthroscopic instability or rotator cuff repair, the knotless PushLock suture anchor uniquely allows surgeons to adjust tension on the tissue intraoperatively, ensuring precise tissue reduction and fixation. PushLock anchors are available in 2.4 mm, 2.9 mm, 3.5 mm, and 4.5 mm sizes. The 2.4 mm and 2.9 mm PushLock anchors are …
    • Image?api id=pushlock technique&width=120&file type=jpg
      • The PushLock anchor is designed for simple and secure arthroscopic glenohumeral joint instability repair. The knotless technique saves valuable time and eliminates the possibility of knot impingement. This suture-first technique allows surgeons to independently pass suture through a desired amount of tissue prior to anchor implantation. Multiple …
    • Image?api id=shoulder suturetak&width=120&file type=jpg
      • SutureTak anchors are available in a variety of sizes, materials, and suture options. Biocomposite anchor options contain a molded-in suture to reinforce the strength of the anchor and suture eyelet. The nonabsorbable PEEK SutureTak anchor has a material eyelet that provides superior abrasion resistance due to PEEK’s low coefficient of …
    • Image?api id=suturetak technique&width=120&file type=jpg
      • SutureTak anchors are available in a variety of sizes, materials, and suture options. Biocomposite anchor options contain a molded-in suture to reinforce the strength of the anchor and suture eyelet. The nonabsorable PEEK SutureTak anchor has a material eyelet that provides superior abrasion resistance due to PEEK’s low coefficient of …