1 / 37

Upper Extremity Fractures And Dislocations

Upper Extremity Fractures And Dislocations . Re-written by: Daniel Habashi. Shoulder Girdle. Clavicle Scapula Humerus. Clavicle- Mechanism of Injury. There is no correlation between the fracture location and the mechanism of injury Falls onto the affected shoulder 87% Direct impact 7%

fergus
Download Presentation

Upper Extremity Fractures And Dislocations

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Upper Extremity Fractures And Dislocations Re-written by: Daniel Habashi

  2. Shoulder Girdle • Clavicle • Scapula • Humerus

  3. Clavicle- Mechanism of Injury • There is no correlation between the fracture location and the mechanism of injury • Falls onto the affected shoulder 87% • Direct impact 7% • Falls onto an outstretched hand 6%

  4. Clavicle – clinical evaluation • Arm adducted across the chest and supported by the contra lateral hand • Neurovascular examination • Tenting the skin • Crepitus • X-ray

  5. Clavicle – non operative treatment • Reduction if needed • Closed treatment is successful in most cases • Dessaulte cast • Figure-of-eight cast • 4-6 weeks

  6. Clavicle – operative treatment • Open fractures • Fractures with associated neurovascular injury • Fractures with severe associated injuries (flail chest with multiple rib fractures) • Cosmetic reasons

  7. Clavicle – fixation • Plate • Intramedullary devices (pins) • Cerclage suturing or wiring • External fixation

  8. Acromioclavicular joint – mechanism of injury • Most often in the Spring • Fall onto the shoulder with the arm adducted • Fall onto an outstretched hand with force transmission up the arm

  9. AC joint – clinical evaluation • Step-off deformity • Possible tenting of the skin overlying the distal clavicle • Limited range of motion • Tenderness • X-ray

  10. AC joint – classification • Type I – sprain of the AC ligament • Type II – tear of the AC ligament and sprain of the caracoclavicular ligament • Type III – AC and coracoclavicular ligaments torn with AV joint dislocation

  11. AC joint – non-operative treatment • Type I - Rest 10 days, ice packs and sling • Type II – Sling for 2 weeks, gentle range of motion, refrain from heavy activity for 6 weeks • Type III – Sling, early range of motion, acceptance of deformity

  12. AC joint – operative treatment • Controversial patients • Heavy laborers, patients 20-25 years of age • Open reduction and suturing

  13. Sternoclavicular joint – mechanism of injury • Direct hit • Indirect force applied from antero-lateral or postero-lateral aspects of the shoulder

  14. SC joint – classification • Anterior dislocation – more common • Posterior dislocation

  15. SC joint – clinical evaluation • Patient supports the affected extremity across the trunk with the contra-lateral arm • Swelling, tenderness, painful range of motion • X-ray

  16. SC joint – treatment • Mild sprain – ice packs, sling for 7 days • Moderate sprain or subluxation – ice packs and sling for 4-6 weeks

  17. Scapula – mechanism of injury • Relatively uncommon injury • Result of high energy trauma • Suspicion of associated injuries • Fractured ribs • Clavicle • Sternum • Pneumothorax • Pulmonary contusion • Spinal column fractures

  18. Scapula – Clinical Evaluation • Full trauma evaluation • Upper extremity supported by the contra-lateral hand • Swelling of the posterior thorax • X-ray

  19. Scapula – treatment • Most scapula fractures are treated non-operatively • Sling and early range of motion

  20. Proximal humerus – mechanism of injury • A fall onto an outstretched upper extremity from standing height (typically seen in an elderly osteoporotic woman) • High energy trauma (motor vehicle accident) • Direct trauma • Pathologic processes

  21. proximal humerus - clinical evaluation • Upper extremity supported by the contralateral hand • Pain, swelling, tenderness, painful range of motion • Crepitus, instability, ecchymosis • X-ray

  22. Proximal humerus – clinical evaluation • A careful neurovascular evaluation is required

  23. Proximal humerus – treatment • Open reduction and internal fixation (plates, screws, K-wires, pins, flexible nails with tension band) • Prosthetic replacement

  24. Humeral shaft – mechanism of injury • Direct trauma (most common) • Indirect: fall on an outstretched arm

  25. Humeral shaft – radial nerve injury • Radial nerve injury is something we must take care of • Symptoms of a radial nerve injury is: • dropped hand since it’s responsible for the innervations of all the extensors

  26. Humeral shaft – clinical evaluation • Pain, swelling, deformity, shortening of the affected arm • Instability with crepitus • A careful neurovascular exam with special attention to the radial nerve function • X-ray

  27. Humeral shaft – non operative treatment • Most humeral shaft fractures will heal with nonsurgical treatment • A hanging cast • A co-aptation splint • Thoracobrachial immobilization (Dessaulte, Velpau dressing)

  28. Humeral shaft – operative treatment • Open reduction and internal fixation (plates, screws, intramedullar nails) • External fixation  quite quitequite rare

  29. Humeral shaft – radial nerve injury • Most common with middle third fractures • Generally neuropraxia or axonotmesis (function returns within 3-4 months) • Laceration most common in gunshot injuries etc

  30. Distal humerus – classification • Supracondylar • Transcondylar • Intercondylar (most common) • Condylar • Capitellum • Etc

  31. Distal humerus – mechanism of injury • Fall on outstretched hand with or without an abduction or adduction force (supra and transcondylar fractures) • Force directed against the posterior aspect of an elbox flexed more than 90 degrees

  32. Distal humerus – clinical evaluation • Swelling, painful range of motion, crepitus, instability • Elbow held in the flexed position • A careful neurovascular evaluation is essential because the sharp fractured end….

  33. Distal humerus – treatment • Open reduction and internal fixation (screws, plates) • Total elbow arthroplasty

  34. Glenohumeral dislocation • The shoulder is the most commonly dislocated joint of the body (45% of dislocations)

  35. Glenohumeral dislocation – classification • Anterior (most common – 84%) • Posterior ( the second most common - 10%) • Inferior (rare) • Superior (rare)

  36. Glenohumeral dislocation – mechanism of injury

  37. Glenohumeral dislocation – clinical evaluation • Determine the nature of the trauma • Position of the affected extremity • Painful shoulder, muscular spasm • Neurovascular examination • X-ray

More Related