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nitinol wire shuttle loop  (Arthrex Inc)

 
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    Structured Review

    Arthrex Inc nitinol wire shuttle loop
    <t>Shuttle</t> <t>loop</t> preparation and graft passage for reduction. (A) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. A <t>nitinol</t> <t>wire</t> shuttle loop with a passing hook (Arthrex) is cautiously placed close to the medial cortex of the coracoid base to avoid nerve injury. (B) Outside view of left shoulder with patient in beach-chair position. A FiberTape (white arrow) along with the long head of the biceps tendon (LHBT) graft (black arrow), in a venae comitantes fashion, is dragged into the subacromial space. The green arrows indicate the shuttle loop, and the yellow arrows indicate the epidural needles. (C) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape with 1 tail suture (“string”) of LHBT under base of coracoid. (D) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape along with LHBT around base of coracoid using shuttle loop. (E) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The grafts loop around the coracoid base. (F) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The 2 ends of the grafts are crossed and form an X shape within the coracoclavicular interval. The stars indicate the coracoid base.
    Nitinol Wire Shuttle Loop, supplied by Arthrex Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/nitinol+wire+shuttle+loop/pmc12255420-56-4-25?v=Arthrex+Inc
    Average 90 stars, based on 1 article reviews
    nitinol wire shuttle loop - by Bioz Stars, 2026-06
    90/100 stars

    Images

    1) Product Images from "Autologous Long Head of Biceps Tendon With High-Strength Suture for Reconstruction of Coracoclavicular Ligament"

    Article Title: Autologous Long Head of Biceps Tendon With High-Strength Suture for Reconstruction of Coracoclavicular Ligament

    Journal: Arthroscopy Techniques

    doi: 10.1016/j.eats.2025.103465

    Shuttle loop preparation and graft passage for reduction. (A) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. A nitinol wire shuttle loop with a passing hook (Arthrex) is cautiously placed close to the medial cortex of the coracoid base to avoid nerve injury. (B) Outside view of left shoulder with patient in beach-chair position. A FiberTape (white arrow) along with the long head of the biceps tendon (LHBT) graft (black arrow), in a venae comitantes fashion, is dragged into the subacromial space. The green arrows indicate the shuttle loop, and the yellow arrows indicate the epidural needles. (C) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape with 1 tail suture (“string”) of LHBT under base of coracoid. (D) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape along with LHBT around base of coracoid using shuttle loop. (E) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The grafts loop around the coracoid base. (F) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The 2 ends of the grafts are crossed and form an X shape within the coracoclavicular interval. The stars indicate the coracoid base.
    Figure Legend Snippet: Shuttle loop preparation and graft passage for reduction. (A) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. A nitinol wire shuttle loop with a passing hook (Arthrex) is cautiously placed close to the medial cortex of the coracoid base to avoid nerve injury. (B) Outside view of left shoulder with patient in beach-chair position. A FiberTape (white arrow) along with the long head of the biceps tendon (LHBT) graft (black arrow), in a venae comitantes fashion, is dragged into the subacromial space. The green arrows indicate the shuttle loop, and the yellow arrows indicate the epidural needles. (C) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape with 1 tail suture (“string”) of LHBT under base of coracoid. (D) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape along with LHBT around base of coracoid using shuttle loop. (E) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The grafts loop around the coracoid base. (F) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The 2 ends of the grafts are crossed and form an X shape within the coracoclavicular interval. The stars indicate the coracoid base.

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    nitinol wire shuttle loop  (Arthrex Inc)
    90
    Arthrex Inc nitinol wire shuttle loop
    <t>Shuttle</t> <t>loop</t> preparation and graft passage for reduction. (A) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. A <t>nitinol</t> <t>wire</t> shuttle loop with a passing hook (Arthrex) is cautiously placed close to the medial cortex of the coracoid base to avoid nerve injury. (B) Outside view of left shoulder with patient in beach-chair position. A FiberTape (white arrow) along with the long head of the biceps tendon (LHBT) graft (black arrow), in a venae comitantes fashion, is dragged into the subacromial space. The green arrows indicate the shuttle loop, and the yellow arrows indicate the epidural needles. (C) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape with 1 tail suture (“string”) of LHBT under base of coracoid. (D) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape along with LHBT around base of coracoid using shuttle loop. (E) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The grafts loop around the coracoid base. (F) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The 2 ends of the grafts are crossed and form an X shape within the coracoclavicular interval. The stars indicate the coracoid base.
    Nitinol Wire Shuttle Loop, supplied by Arthrex Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/nitinol+wire+shuttle+loop/pmc12255420-56-4-25?v=Arthrex+Inc
    Average 90 stars, based on 1 article reviews
    nitinol wire shuttle loop - by Bioz Stars, 2026-06
    90/100 stars
    		  Buy from Supplier
    nitinol wire shuttle loop with a passing hook  (Arthrex Inc)
    90
    Arthrex Inc nitinol wire shuttle loop with a passing hook
    <t>Shuttle</t> <t>loop</t> preparation and graft passage for reduction. (A) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. A <t>nitinol</t> <t>wire</t> shuttle loop with a passing hook (Arthrex) is cautiously placed close to the medial cortex of the coracoid base to avoid nerve injury. (B) Outside view of left shoulder with patient in beach-chair position. A FiberTape (white arrow) along with the long head of the biceps tendon (LHBT) graft (black arrow), in a venae comitantes fashion, is dragged into the subacromial space. The green arrows indicate the shuttle loop, and the yellow arrows indicate the epidural needles. (C) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape with 1 tail suture (“string”) of LHBT under base of coracoid. (D) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape along with LHBT around base of coracoid using shuttle loop. (E) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The grafts loop around the coracoid base. (F) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The 2 ends of the grafts are crossed and form an X shape within the coracoclavicular interval. The stars indicate the coracoid base.
    Nitinol Wire Shuttle Loop With A Passing Hook, supplied by Arthrex Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/nitinol+wire+shuttle+loop/pmc12255420-59-7-9?v=Arthrex+Inc
    Average 90 stars, based on 1 article reviews
    nitinol wire shuttle loop with a passing hook - by Bioz Stars, 2026-06
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Shuttle loop preparation and graft passage for reduction. (A) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. A nitinol wire shuttle loop with a passing hook (Arthrex) is cautiously placed close to the medial cortex of the coracoid base to avoid nerve injury. (B) Outside view of left shoulder with patient in beach-chair position. A FiberTape (white arrow) along with the long head of the biceps tendon (LHBT) graft (black arrow), in a venae comitantes fashion, is dragged into the subacromial space. The green arrows indicate the shuttle loop, and the yellow arrows indicate the epidural needles. (C) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape with 1 tail suture (“string”) of LHBT under base of coracoid. (D) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape along with LHBT around base of coracoid using shuttle loop. (E) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The grafts loop around the coracoid base. (F) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The 2 ends of the grafts are crossed and form an X shape within the coracoclavicular interval. The stars indicate the coracoid base.

    Journal: Arthroscopy Techniques

    Article Title: Autologous Long Head of Biceps Tendon With High-Strength Suture for Reconstruction of Coracoclavicular Ligament

    doi: 10.1016/j.eats.2025.103465

    Figure Lengend Snippet: Shuttle loop preparation and graft passage for reduction. (A) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. A nitinol wire shuttle loop with a passing hook (Arthrex) is cautiously placed close to the medial cortex of the coracoid base to avoid nerve injury. (B) Outside view of left shoulder with patient in beach-chair position. A FiberTape (white arrow) along with the long head of the biceps tendon (LHBT) graft (black arrow), in a venae comitantes fashion, is dragged into the subacromial space. The green arrows indicate the shuttle loop, and the yellow arrows indicate the epidural needles. (C) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape with 1 tail suture (“string”) of LHBT under base of coracoid. (D) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. Passage of FiberTape along with LHBT around base of coracoid using shuttle loop. (E) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The grafts loop around the coracoid base. (F) Subacromial interval arthroscopic view of left shoulder with 30° arthroscope in lateral portal. The 2 ends of the grafts are crossed and form an X shape within the coracoclavicular interval. The stars indicate the coracoid base.

    Article Snippet: Under arthroscopic visualization, a nitinol wire shuttle loop is passed around the base of the coracoid from medial to lateral with a passing hook (AR-7806; Arthrex), which is cautiously placed close to the medial cortex of the coracoid base to avoid nerve injury ( A).

    Techniques: