Clinical Trials Logo

Shoulder Dislocation clinical trials

View clinical trials related to Shoulder Dislocation.

Filter by:
  • Active, not recruiting  
  • Page 1

NCT ID: NCT04823455 Active, not recruiting - Clinical trials for Shoulder Dislocation Closed Traumatic

Results Following Fresh-frozen Humeral Head Osteochondral Allograft Reconstruction for Reverse Hill-Sachs Lesion

ALLO-OMERO2020
Start date: June 5, 2020
Phase: N/A
Study type: Interventional

Locked posterior glenohumeral dislocations with a reverse Hill-Sachs impaction fracture involving less than 30% of the humeral head are most frequently treated with lesser tuberosity transfer into the defect, whereas those involving more than 50% undergo humeral head arthroplasty. Reconstruction of the defect with segmental femoral osteochondral allografts has been proposed to treat patients between these two ranges, but the medium-/long-term outcomes of this joint-preserving procedure are controversial.

NCT ID: NCT03585491 Active, not recruiting - Clinical trials for Shoulder Dislocation

Shoulder Instability Trial Comparing Arthroscopic Stabilization Benefits Compared With Latarjet Procedure Evaluation

Start date: July 1, 2019
Phase: N/A
Study type: Interventional

The primary objective of the pilot study is to assess the feasibility of a definitive trial to determine the effect of arthroscopic capsuloligamentous repair (Bankart + Remplissage) vs. coracoid transfer (Latarjet procedure) on recurrent dislocation rates and functional outcomes over a 24-month period.

NCT ID: NCT03424421 Active, not recruiting - Joint Instability Clinical Trials

Anterior Shoulder Instability Treated With a Semitendinosus Subscapular Sling Procedure

Start date: December 20, 2017
Phase: N/A
Study type: Interventional

The arthroscopic subscapular sling procedure is a new technique for shoulder stabilization, which has been developed in human cadaveric studies by Klungsøyr et al, but has yet to be tested clinically. The procedure stabilizes the shoulder by using a semitendinosus graft that makes a new labrum and a sling around the subscapular tendon. Extensive biomechanical robotic testing of the procedure shows significant less translation and thus better stability of the humeral head with the sling compared to a normal Bankart repair. The investigators consider the biomechanical results after robotic testing sufficient to advocate a planned pilot study in humans. In this pilot study the clinical and radiological results of the sling will be investigated in a small number of cases. The safety of the subscapular sling procedure will be assessed. This studies results are expected to be a further step towards implementation of the sling procedure as a surgical option for shoulder instability.