1 / 28

Ulnar Collateral Ligament Rehabilitation

Ulnar Collateral Ligament Rehabilitation. By: Michael Cox. Bony Anatomy . Humerous : Medial epicondyle- trochlea which serves as the axis of rotation for ulna on the humeorus Lateral epicondyle- capitellum which serves as the axis of rotation for the radius

dianne
Download Presentation

Ulnar Collateral Ligament Rehabilitation

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. Ulnar Collateral Ligament Rehabilitation By: Michael Cox

  2. Bony Anatomy • Humerous: Medial epicondyle- trochlea which serves as the axis of rotation for ulna on the humeorus Lateral epicondyle- capitellum which serves as the axis of rotation for the radius Radial fossa- accepts radial head during flx Coranoid fossa- accepts coranoid process during flx Olecronon fossa- accepts olecronon during ext • Ulna: Olecronon process Coranoid process • Radius: Radial head Radial tuberosity

  3. Bony Anatomy • Humeroulnar joint Hinge joint Strong and stable Allows for flexion and extension • Humeroradial joint Modified ball and socket joint • Proximal radioulnar joint Allows for pronation and supination

  4. Ligamentous support • Ulnar Collateral Ligament: • Resists valgus loads • 3 bundles • Anterior- taut throughout full ROM, primary restraint against valgus stress • Transverse- provides little medial support • Posterior- taut in flexion beyond 60 degrees • Lateral Collateral Ligament: • Resists varus forces • Composed of radial collateral ligament, • lateral ulnar collateral ligament, • annular and accessory ligament • Annular Ligament: Encases radial head Doesn’t let ulna and radius move into flexion and extension independently

  5. Musculature • Flexors: • Biceps brachii, brachioradialis, brachialis • Extensors: • Triceps brachii, anconeus • Forearm Pronators: • Pronator teres, pronator quadratus • Forearm Supinators: • Supinator, assisted by biceps and brachioradialis

  6. Mechanism of Injury • Most ulnar collateral ligament injuries occur in overhead throwing athletes • This due to the extreme valgus stress placed on the elbow throughout the throwing motion • Acutely the UCL can also be injured with a lateral blow to the elbow

  7. Clinical Evaluation • The patient will complain of pain on the medial aspect of the elbow that increases with motion • Tingling or numbness may be present due to the tensile force placed on the ulnar nerve • Point tender from the along the medial epicondyle • Some swelling may be noticeable • Positive valgus stress test

  8. Acute treatment • Refer patient for a MRI • Restrict any throwing movements • Can sling if more comfortable • Modalities can be used to help reduce pain and inflammation such as ice and electrical stimulation for gate theory pain control

  9. Surgical Patients • If surgery Is needed- “Tommy John”- usually uses palmaris longus tendon as a graft to replace UCL • Immobilization wit the arm at 90 degrees of flexion for 10-14 days • At this time wrist and finger ROM exercises can be started • Gripping exercises with puddy • Shoulder ROM

  10. Beginning Rehabilitation Weeks 0-3 Goals: • Decrease pain and inflammation • Improve ROM • Retard atrophy

  11. Early Rehab- Passive ROM • Passive extension with dumbbell hanging off table (towel under joint) 2 lbs.for 5-7 minutes (long duration, low intensity stretch) • Pulley flexion and extension 3 sets- 10 repetitions • Clinician passive ROM

  12. Early Rehab- Active ROM Wand exercises: 3 sets- 10 repetitions flexion extension pronation supination Wrist ROM Active ROM flexion, extension, pronation, supination

  13. Early Rehab- Decreasing Pain • Joint Mobilizations- grade I and II oscillations- posterior glide • Ice • Electrical Stim - gate theory

  14. Early Rehab- Strengthening • Isometrics • flexion, extension, pronation, supination • 3 sets of 10 repetitions holding contractions for about 5-10 seconds • Refrain from internal and external rotation due to the valgus stress it places on the UCL

  15. Intermediate Rehabilitation Weeks 4-8 Goals: • Improving strength and endurance • Reestablishing neuromuscular control • Maintain full ROM • Criteria: Near total ROM with minimal pain

  16. Intermediate Rehabilitation Isotonic exercises Flexion extension pronation supination 3 sets- 10 repetitions Starting at 2lb dumbbell and progressing as strength increases Wrist isotonic exercises Rhythmic Stabilization clinician assisted swiss ball 4 sets- 20s

  17. Intermediate Rehabilitation Diagonal PNF patterns Body Blade straight arm and at 90

  18. Moderate Rehabilitation Weeks 9-13 Goals: • Advanced strengthening phase • Increase total arm strength, power, endurance, and neuromuscular control • Prepare patient for functional return to play activities Criteria: • Full non painful ROM • Strength close to 70% of uninvolved limb

  19. Moderate Rehabilitation • Eccentric training • Theraband- biceps and triceps

  20. Moderate Rehabilitation • Throwers 10- total arm strength • Dumbbell abduction • Prone dumbbell abduction • Prone extension • Internal rotation • External rotation • Theraband shoulder flexion and extension • Progressive pushups • Medicine ball punches- serratus anterior • Diagonal D2 PNF • Wrist flexion, extension, pronation, supination

  21. Moderate Rehabilitation • Plyometrics • Med ball throws one hand • Soccer throw • Chest pass • Side to side Plyometric press up

  22. Moderate Rehabilitation • Progressive medicine ball plyometrics • Increased soccer throws • 8-10 reps • Side hits • 2 sets- 30 seconds • External rotation throws • 3 sets- 10 reps

  23. Final Rehabilitation Weeks 14-26 Goal: • Progressive functional drills • Continue to increase strength, endurance, power • Return to play Criteria: • Full ROM with no pain • Full strength

  24. Final Rehabilitation • Throwing program • Increase in distance and amount of throws • Enough rest time in-between session: 2-3 days Batting practice • Tees • Soft toss • Slow pitching • Against a pitcher

  25. Return To Play • Full ROM • Full strength • No direct pain with throwing or hitting • Normal cardiovascular endurance • Physiologically ready

  26. Article • Emphasizes maintaining full elbow extension early • Important to strengthen elbow and wrist flexors, and pronators- importance in follow through phase • Rotator cuff strength • Progressive and essential rehabilitation program

  27. Summary • Elbow joint has strong bony support as well as ligamentous and capsular support • Mechanism of injury is usually repetitive valgus stress • Progressive rehab with certain criteria that must be met before moving on • Avoid internal and external rotation early in rehab due to valgus stress it places on elbow • Maintain cardiovascular endurance and core strength throughout rehab • Flexibility • Continue strengthening once back to full participation to decrease risk of re-injury

  28. Questions ??????????

More Related