View clinical trials related to Anterior Shoulder Dislocation.
Filter by:Anterior shoulder dislocation is a pathology frequently encountered in emergency medicine. The success in reducing anterior shoulder dislocations depends on muscle relaxation, which is itself conditioned by the patient's pain and apprehension. However, there is no consensus on the optimal technique for reducing anterior shoulder dislocation or the analgesia associated with it. Analgesia with METHOXYFLURANE showed a greater reduction in post-traumatic pain compared to standard analgesic treatment and faster action of METHOXYFLURANE. A retrospective study which has compared analgesia with METHOXYFLURANE and analgesic sedation with PROPOFOL found a shoulder reduction success rate of 80% and a reduction in the average length of stay in the emergency department. Finally, the use of virtual reality in pain management is emerging in our practices by allowing pre- and per-procedure hypno-sedation-analgesia. However, the use of virtual reality headsets has not been studied in the management of anterior shoulder dislocation. The use of these two techniques could therefore limit the use of procedural sedation in the context of shoulder dislocation reduction.
Describe the purpose and objective(s) of the study, specific aims, and/or research questions/hypotheses: The purpose of this Randomized Controlled Trial is to evaluate the effectiveness of Blood Flow Restriction (BFR) training with standard care of physical therapy versus the standard care of Physical Therapy alone and its effect on shoulder function and patient outcomes in military cadets recovering from shoulder stabilization surgery. We hypothesize after 6 weeks of BFR training will contribute to 13 (76%) or more participants will achieve scores within one standard deviation of normative values for isometric strength and functional tests at six months following shoulder stabilization surgery. Furthermore, we hypothesize that 14 (82%) or more participants will report improved patientreported outcomes as determined by the minimal clinical difference (MCD) at 12 weeks and six months post-operatively. Objective 1: To evaluate the effectiveness of blood flow restriction (BFR) training on shoulder isometric strength, as measured by a digital handheld dynamotor following shoulder stabilization surgery in military cadets. Objective 2: To evaluate the effectiveness of blood flow restriction (BFR) training on shoulder range of motion, as measured by a digital inclinometer, following shoulder stabilization surgery in military cadets. Objective 3: To evaluate the effectiveness of blood flow restriction (BFR) training on shoulder function as measured by the Closed Kinetic Chain Upper Extremity Stability Test (CKCUEST), Seated Shot-Put Test (SSPT), and Upper Quarter Y-Balance Test (UQYBT), following shoulder stabilization surgery in military cadets. Objective 4: To evaluate the effectiveness of BFR training on shoulder pain, measured by a numerical pain rating scale, following shoulder stabilization surgery in military cadets. Objective 5: To evaluate the effectiveness of a BFR training on patient-reported outcomes, measured by Single Assessment Numeric Evaluation (SANE), Shoulder Pain and Disability Index (SPADI), and the Quick Disabilities of Arm, Shoulder and Hand (DASH) following shoulder stabilization surgery in military cadets. Aim 1:To identify whether BFR with Physical Therapy is more effective at increasing shoulder strength than therapy alone following shoulder stabilization surgery. We hypothesize that the BFR with Physical Therapy group will be more effective at increasing shoulder strength than the Physical Therapy group without BFR following shoulder stabilization surgery. Aim 2:To identify whether BFR with Physical Therapy is more effective at increasing shoulder function than therapy alone following shoulder stabilization surgery. We hypothesize that the BFR with Physical Therapy group will be more effective at increasing shoulder function than the Physical Therapy group without BFR following shoulder stabilization surgery.
The purpose of this prospective cohort study is to compare patient-reported, clinical, and functional outcomes in patients who have elected to have either the Bankart with Remplissage or Latarjet procedure for the treatment of anterior glenohumeral instability (AGHI) up to 24-months postoperative.
The anterior glenohumeral dislocation is frequently encountered in emergency medicine. It represents about 50% of the total dislocation and affects 1 resident for 10 000 in France. In Nord Franche-Comte Hospital, 1 to 2 patients per day present this diagnosis in the emergency department, which requires reduction by external manoeuvres. A retrospective study shows the interest of the ventral decubitus compared to dorsal decubitus reduction in the care of patients with anterior glenohumeral dislocation. None prospective study has already demonstrate the interest of the ventral decubitus compared to the dorsal decubitus in the reduction of anterior glenohumeral dislocation. The main objective is to evaluate the speed of the reduction of the anterior dislocation of the shoulder by the ventral decubitus technique compared to the conventional technique in dorsal decubitus.
This clinical trial will investigate the effects of three surgical procedures and the associated post-operative rehabilitation to optimize time to return to military duty, work and sports, and patient-reported physical function for military personnel and civilians with traumatic anterior shoulder instability and 10-20% glenoid bone loss.
The purpose of this study is to evaluate the clinical and radiographic results after surgical treatment with implant-free allograft in the treatment of Anterior Shoulder Dislocation and to assess the safety of the surgery.
An optimal treatment for traumatic anterior shoulder instability (TASI) remains to be identified. A shoulder instability neuromuscular exercise (SINEX) program has been designed for patients with TASI, but has not yet been tested in patients eligible for surgery. The purpose of this study was to investigate and evaluate the feasibility and safety of the SINEX program for patients diagnosed with TASI and eligible for surgery. A feasibility study with an experimental, longitudinal design using both quantitative and qualitative research methods. Participants undergo the SINEX program, a twelve week exercise program including physiotherapist supervised sessions. Feasibility data on recruitment, retention, compliance, acceptability and safety was collected through observation and individual semi-structured interviews. Clinical tests and self-report questionnaires were completed at baseline and 12 weeks follow-up. Clinical assessments included apprehension and relocation tests, shoulder joint position sense (SJPS), shoulder sensorimotor control measured by center of pressure path length (COPL) on a force platform, isometric strength measured by Constant Score - Isometric Maximal Voluntary Contraction (CS-iMVC), self-report questionnaires included Western Ontario Shoulder Instability Index (WOSI), Tampa Scale of Kinesiophobia (TSK) and Global Perceived Effect questionnaire (GPE).
Clinical study of patients with a history of traumatic anterior shoulder dislocations to test the hypothesis that the arthroscopic dynamic anterior capsular stabilization technique with trans subscapular long head of the biceps tenodesis produces progressive good clinical and imagiological results.
In this paper we describe and evaluate the results of the Noergaard technique through a retrospective analysis of patients admitted and treated for anterior shoulder dislocation at the ED of Copenhagen University Hospital Hvidovre, Denmark, in a 1-year period.
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.