Operative Techniques: Shoulder and Elbow Surgery [2 ed.] 0323508804, 9780323508803, 9780323547901

Part of the practical, highly illustrated Operative Techniques series, this fully revised title by Drs. Donald H. Lee an

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Table of contents :
Cover
Operative Techniques: Shoulder and Elbow Surgery
Copyright
Dedication
Contributors
Preface
Foreword
1 - Acromioplasty
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Instrumentation/Implantation
Step 2
Instrumentation/Implantation
Step 3
Instrumentation/Implantation
Step 4
Postoperative Care and Expected Outcomes
2 - Rotator Cuff Repair: Open Technique for Partial-Thickness or Small or Medium Full-Thickness Tears
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Acromioplasty
Instrumentation/Implantation
Tear Assessment
Releases
Humeral Preparation
Tendon Preparation
Repair of Partial Tears
Alternative Approach to Partial-Thickness Tears
Placement of Sutures
Tying of Sutures
Deltoid Repair
Postoperative Care and Expected Outcomes
3 - Rotator Cuff Repair: Arthroscopic Technique for Partial-Thickness or Small or Medium Full-Thickness Tears
Indications
Examination/Imaging
Surgical Anatomy
Muscles/Tendons (Fig. 3.4)
Nerves (Fig. 3.5)
Vessels
Positioning
Portals/Exposures
Instrumentation
Procedure
Step 1: Diagnostic Arthroscopy
Instrumentation/Implantation
Step 2: Subacromial Decompression and Acromioplasty
Step 3: Identification of Tear Characteristics and Tear Mobilization
Instrumentation/Implantation
Step 4: Tuberosity Preparation and Anchor Placement
Instrumentation/Implantation
Step 5: Suture Passage
Instrumentation/Implantation
Step 6A: Repair Techniques for Partial-Thickness Tears
Instrumentation/Implantation
Step 6B Single-Row Anchor Repair for Small Full-Thickness Tears
Step 6C Dual-Row Anchor Repair for Medium Full-Thickness Tears
Step 7: Knot Tying
Instrumentation/Implantation
Postoperative Care and Expected Outcomes
Postoperative Complications
4 - Open Repair of Rotator Cuff Tears
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Arthroscopic Subacromial Decompression and Mini-Open Cuff Repair
Open Repair
Procedure: Mini-Open Repair
Step 1
Step 2
Step 3
Procedure: Open Repair
Step 1
Step 2
Step 3
Step 4
Procedure: Open Reconstruction—Grafting
Step 1
Step 2
Subscapularis Transfer
Transfer of the Teres Minor and Subscapularis
Latissimus Dorsi Transfer
Postoperative Care and Expected Outcomes
5 - Arthroscopic Repair of Massive Rotator Cuff Tears
Indications
Examination/Imaging
Physical Examination
Imaging Studies
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Postoperative Care and Expected Outcomes
6 - Operative Fixation of Symptomatic Os Acromiale
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Preparation of the Pseudarthrosis
Step 2: Bone Grafting and Provisional Fixation
Step 3: Cannulated Screw Placement
Instrumentation/Implantation
Step 4: Tension Band
Instrumentation/Implantation
Postoperative Care and Expected Outcomes
7 - Humeral Head Resurfacing Arthroplasty
Indications
Examination/Imaging
Physical Examination
Imaging Studies
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Preparation of Humeral Head
Step 2: Insertion of Component
Step 3: Wound Closure
Postoperative Care and Expected Outcomes
8 - Humeral Hemiarthroplasty With Biologic Glenoid Resurfacing
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Deltopectoral Approach
Procedure
Step 1: Subscapularis Release With Lesser Tuberosity “Fleck” Osteotomy
Step 2: Humeral Osteotomy
Glenoid Surface Preparation
Suture Placement
Graft Preparation
Graft Fixation
Humeral Preparation
Implantation of Humeral Prosthesis
Dual-Row Subscapularis Repair
Biceps Tenodesis
Wound Closure
Postoperative Care and Expected Outcomes
Postoperative Controversies
9 - Total Shoulder Arthroplasty
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Humeral Preparation
Instrumentation/Implantation
Step 2: Glenoid Prosthetic Arthroplasty
Instrumentation/Implantation
Step 3: Soft Tissue Balancing and Completion of the Humerus
Instrumentation/Implantation
Step 4: Arthrotomy and Soft Tissue Closure
Postoperative Care and Expected Outcomes
10 - Rotator Cuff Tear Arthroplasty: Open Surgical Treatment With Reverse Shoulder
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Humeral Stem Preparation
Step 2: Preparing the Glenoid
Step 3: Inserting the Glenoid Baseplate
Step 4: Inserting the Humeral Stem and Repairing the Subscapularis
Postoperative Care and Expected Outcomes
11 - Open Unconstrained Revision Shoulder Arthroplasty
Indications
Examination/Imaging
History
Physical Examination
Basic Laboratory Evaluation
Plain Radiographs
Imaging Studies
Surgical Anatomy
Positioning
Portals/Exposures
Deltopectoral Approach: Superficial
Deltopectoral Approach: Deep
Procedure: Arthroscopic Cases
Step 1: Portals
Step 2: Evaluation for a Loose Component
Step 3: Removal of Glenoid Component
Procedure: Open Surgical Approach
Step 1
Step 2: Arthrotomy
Step 3: Humeral Head Inspection, Exposure, and Extraction
Step 4: Humeral Extraction
Step 5: Glenoid Exposure, Inspection, and Extraction
Step 6: Glenoid Revision
Step 7: Humeral Revision
Aseptic Humeral Reimplantation
Step 8: Closure
Postoperative Care and Expected Outcomes
12 - Closed Treatment of Shoulder Dislocations
Indications
Positioning
Postoperative Care and Expected Outcomes
13 - Arthroscopic Treatment of Traumatic Anterior Instability of the Shoulder
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Diagnostic Arthroscopy
Step 2
Step 3
Additional Steps
Postoperative Care and Expected Outcomes
14 - Open Treatment of Anterior-Inferior Multidirectional Instability of the Shoulder
Indications
Examination/Imaging
Ipsilateral Shoulder
Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Capsular Release
Step 2: Glenoid Exposure
Step 3: Capsular Shift
Step 4: Closure
Postoperative Care and Expected Outcomes
15 - Arthroscopic Treatment of Multidirectional Instability of the Shoulder
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Examination Under Anesthesia and Portal Placements
Step 2: Posterior Capsulorrhaphy
Step 3: Anterior Capsulorrhaphy
Step 4: Rotator Interval Closure
16 - Anterior Glenohumeral Instability Associated With Glenoid or Humeral Bone Deficiency: The Latarjet Procedure
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Instrumentation/Implantation
Step 5
Postoperative Care and Expected Outcomes
Complications
17 - Open Treatment of Posterior-Inferior Multidirectional Shoulder Instability
Indications
Examination/Imaging
Physical Examination
Plain Radiographs
Magnetic Resonance Imaging
Computed Tomography
Surgical Anatomy
Positioning
Portals/Exposures
Exposure Alternatives
Procedure
Step 1
Step 2
Step 3
Step 4
Procedure Alternatives
Postoperative Care and Expected Outcomes
Complications
18 - Arthroscopic Treatment of Posterior-Inferior Multidirectional Instability of the Shoulder
Indications
Examination/Imaging
Physical Examination
Plain Radiographs
Magnetic Resonance Imaging
Examination Under Anesthesia
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Instrumentation/Implantation
Step 4
Step 5
Step 6
Postoperative Care and Expected Outcomes
19 - Open Bankart Procedure for Recurrent Anterior Shoulder Dislocation
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Instrumentation
Step 2
Step 3
Instrumentation/Implantation
Step 4
Instrumentation/Implantation
Postoperative Care and Expected Outcomes
20 - Mini-Open Biceps Tenodesis
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Postoperative Care and Expected Outcomes
21 - Arthroscopic Biceps Tenodesis
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Glenohumeral Exploration and Tenotomy of the Long Head of the Biceps Tendon
Step 2: Identification and Opening of the Bicipital Groove
Step 3: Biceps Exteriorization and Preparation
Step 4: Drilling the Humeral Socket
Step 5: Passing the Transhumeral Pin
Instrumentation/Implantation
Step 6: Interference Screw Fixation
Instrumentation/Implantation
Postoperative Care and Expected Outcomes
22 - Superior Labrum Anterior-Posterior Lesion: Arthroscopic Reconstruction of the Superior Labrum and Biceps Anchor
Indications
Examination/Imaging
3-Pack Examination
Traditional Tests
Miscellaneous Tests
Plain Radiographs
Magnetic Resonance Imaging
Surgical Anatomy
Glenoid Labrum
Superior Labrum
Biceps Anchor
Intraarticular LHBT
Bicipital Tunnel
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Postoperative Care and Expected Outcomes
23 - Treatment of the Unstable Shoulder With Humeral Head Bone Loss
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure: Allograft Reconstruction
Step 1
Step 2
Step 3
Step 4
Postoperative Care and Expected Outcomes
Expected Outcomes for Allograft Reconstruction
Expected Outcomes for Partial Resurfacing Arthroplasty
Complications
24 - Open Distal Clavicle Excision
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Exposure and Identification
Step 2: Resection
Step 3: Closure
Postoperative Care and Expected Outcomes
25 - Arthroscopic Distal Clavicle Resection
Indications
Examination/Imaging
Plain Radiographs
Magnetic Resonance Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Direct Approach
Indirect Approach
Procedure: Direct Approach
Step 1
Step 2
Step 3
Procedure: Indirect Approach (Video 25.1)
Step 1
Step 2
Step 3
Postoperative Care and Expected Outcomes
26 - Open Treatment of Acute and Chronic Acromioclavicular Dislocations With Soft Tissue Repair and Reconstruction
Indications
Acute Injury
Chronic Injury
Examination/Imaging
Physical Examination
Imaging Studies
Surgical Anatomy
Clavicle
Acromion
Acromioclavicular Joint
Acromioclavicular Ligaments
Coracoclavicular Ligaments
Muscular Anatomy
Neurologic Anatomy
Vascular Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Skin Incision and Surgical Dissection
Step 2: Exposure of the Acromioclavicular Joint
Step 3: Coracoclavicular Exposure
Step 4: Tendon Graft Preparation for Chronic Reconstruction
Acute Repair
Chronic Reconstruction
Acute Repair
Chronic Reconstruction
Acute Repair
Chronic Reconstruction
Step 8: Deltotrapezial and Acromioclavicular Repair
Complications
Postoperative Care and Expected Outcomes
27 - Sternoclavicular Joint Reconstruction Using Semitendinosus Graft
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Procedure
Step 1: Semitendinosus Autograft Harvesting
Step 2: Exposure of the Sternoclavicular Joint
Step 4: Creation of Tunnels in Clavicle and Manubrium
Step 5: Passing and Securing the Graft
Postoperative Care and Expected Outcomes
28 - Open Reduction and Internal Fixation of Acute Midshaft Clavicular Fractures
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Postoperative Care and Expected Outcomes
29 - Intramedullary Fixation of Clavicle Fractures
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Instrumentation/Implantation
Step 4
Postoperative Care and Expected Outcomes
30 - Operative Treatment of Two-Part Proximal Humerus Fractures
Indications
Examination/Imaging
Surgical Anatomy
Osseous Structures
Soft Tissues: Muscles, Tendons, and Ligaments
Soft Tissues: Nerves and Vessels
Positioning
Portals/Exposures
Instrumentation
Procedure: Orif of Surgical Neck Fracture with Locking Plate Through Deltopectoral Approach
Step 1: Superficial Dissection
Step 2: Deep Dissection
Step 3: Provisional Reduction and Fixation
Instrumentation/Implantation
Step 4: Final Fixation
Procedure: Orif of Greater Tuberosity Fracture Through Superior Approach
Step 1: Superficial Dissection
Step 2: Deep Dissection
Step 3: Provisional Reduction and Fixation
Instrumentation/Implantation
Step 4: Final Fixation and Deltoid Closure
Procedure: Orif of Lesser Tuberosity Fracture Through Deltopectoral Approach
Step 1: Superficial Dissection
Step 2: Deep Dissection
Step 3: Provisional Reduction and Fixation
Step 4: Final Fixation
Postoperative Care and Expected Outcomes
31 - Open Reduction and Internal Fixation of Three- and Four-Part Proximal Humerus Fractures
Indications
Examination/Imaging
Plain Radiographs
Computed Tomography (CT)
Surgical Anatomy
Positioning
Portals/Exposures
Instrumentation
Procedure
Step 1
Step 2
Instrumentation/Implantation
Step 3
Instrumentation/Implantation
Step 4
Instrumentation/Implantation
Step 5
Postoperative Care and Expected Outcomes
32 - Percutaneous Fixation of Proximal Humeral Fractures
Notes
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Instrumentation/Implantation
Step 5
Postoperative Care and Expected Outcomes
33 - Hemiarthroplasty for Proximal Humeral Fracture
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Implant Selection
Step 2: Mobilization of the Tuberosities
Step 3: Placement of Prosthesis
Step 4: Reconstruction of Tuberosities
Step 5: Closure
Postoperative Care and Expected Outcomes
34 - Surgical Treatment of Scapular Fractures
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Anterior Deltopectoral Approach
Posterior Approach
Superior or Anterior-Superior Approach
Approach by Fracture Type
Procedure
Step 1: Fracture Exposure
Step 2: Fracture Fixation
Step 3: Wound Closure
Postoperative Care and Expected Outcomes
35 - Surgical Approaches to the Shoulder
BASIC ANATOMY
Surgical Anatomy
Positioning
Procedure
Step 1: Skin Incision, Deltoid, and Pectoralis Major Exposure
Surgical Anatomy
Positioning
Procedure
Step 1: Skin Incision and Deltoid Exposure
Step 2: Deltoid Split and Posterior Rotator Cuff Exposure
Step 3: Rotator Cuff Split and Posterior Joint Capsule Exposure
Step 4: Arthrotomy
Positioning
Procedure
Step 1: Skin Incision and Posterior Deltoid/Rotator Cuff Exposure
Step 2: Elevation of Posterior Deltoid and Rotator Cuff
Step 3: Use of “Limited Windows” to Expose Scapular Borders
36 - Arthrodesis of the Shoulder
Indications
Contraindications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Step 5: For Situations With Proximal Humeral Bone Loss
Postoperative Care and Expected Outcomes
Complications
37 - Open and Arthroscopic Suprascapular Nerve Decompression
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure: Arthroscopic Suprascapular Nerve Decompression
Step 1
Step 2
Step 3
Step 4
Procedure: Open Suprascapular Nerve Decompression
Step 1
Step 2
Postoperative Care and Expected Outcomes
38 - Scapular Surgery
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Postoperative Care and Expected Outcomes
Postoperative Care
Expected Outcomes (Kuhn et al., 1995; Elhassan and Wagner, 2015)
39 - Adhesive Capsulitis
Indications
Examination/Imaging
Idiopathic Adhesive Capsulitis
Posttraumatic Adhesive Capsulitis
Surgical Anatomy
Positioning
Portals/Exposures
Procedure: Idiopathic Adhesive Capsulitis
Step 1
Step 2
Step 3
Procedure: Posttraumatic Adhesive Capsulitis
Step 1
Step 2
Step 3
Postoperative Care and Expected Outcomes
40 - Arthroscopic Treatment of Calcific Tendinitis in the Shoulder
Indications
Examination/Imaging
Detailed History
Clinical Examination
Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Posterior Portal (Fig. 40.5A)
Anterior Portal (see Fig. 40.5E)
Lateral Portal (see Fig. 40.5C)
Superior Portal
Procedure
Step 1
Step 2
Step 3
Step 4
Postoperative Care and Expected Outcomes
41 - Nerve Transfers for Shoulder and Elbow Restoration After Upper Trunk Brachial Plexus Injuries
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Procedure
Step 1: Exposure of the Musculocutaneous Nerve
Step 2: Exposure of the Donor Nerves
Step 3: Microsurgical Nerve Coaptation
Postoperative Care and Expected Outcomes
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Exposure of the Suprascapular Nerve
Step 2: Exposure of the Spinal Accessory Nerve
Step 3: Exposure of the Axillary Nerve
Step 4: Exposure of the Triceps Branches from the Axillary Nerve
Step 5: Microsurgical Nerve Coaptation
Postoperative Care and Expected Outcomes
42 - Thoracic Outlet Syndrome
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2: Brachial Plexus Neurolysis
Step 3: Rib Resection
Step 4: Hemostasis
Step 5: Search for Pleural Tear
Additional Steps
Postoperative Care and Expected Outcomes
43 - Suprascapular Nerve Neuropathy
Indications
Examination & Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Postoperative Care and Expected Outcomes
44 - Surgical Approaches to the Elbow
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Anterior Approach
Anterolateral Exposure
Anterior Approach
Anterolateral Approach
Anterior Approach
Anterolateral Approach
Anterior Approach
Postoperative Care and Expected Outcomes
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
EDC Split
Kaplan
Kocher
EDC Split
Kaplan
Kocher
EDC Split
Kaplan
Kocher
Postoperative Care and Expected Outcomes
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Hotchkiss Over-the-Top
FCU Split
Hotchkiss Over-the-Top
FCU Split
Hotchkiss Over-the-Top
FCU Split
Step 4
Postoperative Care and Expected Outcomes
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Triceps-Splitting Approach
Paratricipital Approach
Olecranon Osteotomy
Step 3
Triceps Splitting
Olecranon Osteotomy
Paratricipital Approach (Fig. 44.21)
Postoperative Care and Expected Outcomes
45 - Arthroscopy of the Elbow: Setup and Portals
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Anterior Portals (Fig. 45.2)
Posterior Portals (see Fig. 45.2)
Procedure
Step 1: Joint Distention
Step 2: Anterior Joint Arthroscopy
Step 3: Posterior Joint Arthroscopy
Step 4: Closure
Postoperative Care and Expected Outcomes
46 - Elbow Arthritis and Stiffness: Open Treatment
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Postoperative Care and Expected Outcomes
47 - Elbow Arthritis and Stiffness: Arthroscopic Treatment
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Preparation
Step 2: Anterior Capsulectomy and Debridement
Step 3: Posterior Joint Debridement and/or Capsulotomy
Step 4: Closure
Postoperative Care and Expected Outcomes
48 - Radial Head Fractures: Radial Head Replacement
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Postoperative Care and Expected Outcomes
49 - Total Elbow Arthroplasty
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Procedure
Step 1: Setup
Step 2: Exposure
Step 3: Triceps Elevation
Step 4: Humeral Preparation
Step 5: Ulnar Preparation
Step 6: Implantation
Step 7: Triceps Management
Postoperative Care and Expected Outcomes
50 - Total Elbow Arthroplasty for the Treatment of Distal Humerus Fractures
Indications
Examination/Imaging
Surgical Anatomy
Implant Design
Positioning
Portals/Exposures
Triceps Management
Triceps Reflecting (Bryan-Morrey)
Paraolecranon
Paratricipital
Triceps Splitting
Triceps Turndown
Procedure
Step 1: Manage Ulnar Nerve and Remove Fractured Articular and Condylar Fragments
Step 2: Select Correct Implant Size
Step 3: Radial Head Management
Step 4: Ulnar Preparation
Step 5: Humeral Preparation
Step 6: Trial Reduction
Step 7: Canal Preparation, Cement Technique, and Implant Insertion
Step 8: Closure
Postoperative Care and Expected Outcomes
Expected Outcomes
Complications
51 - Radiocapitellar Replacement
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Performing Deep Lateral Dissection
Step 3: Finding the Center of Rotation for the Distal Humerus
Step 4: Making Capitellar Cuts for Resurfacing
Step 5: Trialing the Capitellar Component
Step 7: Implanting the Final Capitellar Component
Step 8: Preparing the Radius for Implantation
Postoperative Care and Expected Outcomes
Immediate
Early
Intermediate
Long Term
52 - Revision Total Elbow Arthroplasty
Indications
Modes of Failure
Revision Options
Other Options
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Preferred Method
Procedure
Step 1: Joint Exposure and Implant Removal
Step 2: Placement of Antibiotic Spacers
Step 3A: Revision Arthroplasty Implant Options
Stem Failure
Articular Coupling Failure
Instability
Step 3E: Revision of Periprosthetic Fractures
Step 3F: Revision of Failed Implant with Massive Bone Loss
Step 4: Closure
Postoperative Care and Expected Outcomes
53 - Open Treatment of Medial Epicondylitis
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Procedure: Longitudinal Split and Approximation of the Flexor Carpi Radialis Tendon
Step 2
Step 3
Step 4
Postoperative Care and Expected Outcomes
54 - Lateral Epicondylitis: Arthroscopic and Open Treatment
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Arthroscopic Treatment
Open Treatment
Portals/Exposures
Arthroscopic Treatment
Open Treatment
Procedure: Arthroscopic Treatment
Step 1
Step 2
Procedure: Open Treatment
Step 1
Step 2
Step 3
Postoperative Care and Expected Outcomes
55 - Repair of Distal Biceps Tendon Ruptures
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Procurement of the Biceps Tendon
Step 2: Preparation of the Bicipital Tuberosity
Step 3: Tendon Preparation
Step 4: Securing the Endobutton
Step 5: Passage and Deployment of the Endobutton
Postoperative Care and Expected Outcomes
56 - Repair and Reconstruction of the Ruptured Triceps
Indications
Examination/Imaging
Physical Examination
Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure: Primary Repair—Anatomic Reattachment of the Triceps Tendon to Bone Through Drill Holes
Step 1
Step 2
Step 3
Alternative Double-Row Knotless Suture Anchor Repair Technique
Step 4
Procedure: Tendon Graft for Chronic Triceps Ruptures
Step 1
Step 2
Step 3
Procedure: Anconeus Rotation Flap
Step 1
Step 2
Step 3
Procedure: Achilles Tendon Allograft
Step 1
Step 2
Postoperative Care and Expected Outcomes
Primary Repair
Other Repairs
Expected Outcomes
57 - Endoscopic Cubital Tunnel Release
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
Postoperative Care and Expected Outcomes
58 - Submuscular Ulnar Nerve Transposition
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Neurolysis
Step 2: Flexor Pronator Mass Preparation and Incision
Step 3: Ulnar Nerve Transposition
Step 4: Transposition Assessment
Step 5: Closure
Postoperative Care and Expected Outcomes
59 - Surgical Decompression for Radial Tunnel Syndrome
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Thompson’s Approach (EDC/ECRB)
Brachialis Splitting
Interval Between Brachioradialis and ECRL
Step 2: Decompression
Step 3: Wound Closure
Postoperative Care and Expected Outcomes
60 - Distal Humerus Fractures, Including Isolated Distal Lateral Column and Capitellar Fractures
Indications
Distal Humerus Fractures
Isolated Distal Lateral Column and Capitellar Fractures
Examination/Imaging
Surgical Anatomy
Isolated Distal Lateral Column and Capitellar Fractures
Positioning
Distal Humerus Fractures
Isolated Distal Lateral Column and Capitellar Fractures
Portals/Exposures
Posterior Approaches
Lateral Approaches
Kocher Approach
Kaplan Approach
Procedure: Distal Humerus Fractures
Overview
Step 1
Step 2
Step 3
Procedure: Isolated Distal Lateral Column and Capitellar Fractures
Step 1
Step 2
Step 3
Step 4
Postoperative Care and Expected Outcomes
Distal Humerus Fractures
Complications
Outcomes
Isolated Distal Lateral Column and Capitellar Fractures
61 - Radial Head Fractures: Open Reduction and Internal Fixation
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: The Fracture Site Is Exposed and Fracture Fragments Are Identified
Step 2: Provisional Fracture Fragment Reduction
Step 3: Definitive Fracture Fixation
Step 4: Address Associated Ligamentous Injury
Postoperative Care and Expected Outcomes
62 - Open Treatment of Complex Traumatic Elbow Instability
Indications
Examination/Imaging
Physical Examination
Imaging Studies
Surgical Anatomy
Bony Injuries
Medial Elbow Injuries (Fig. 62.8)
Lateral Elbow Injuries
Anatomy to Be Addressed
Positioning
Portals/Exposures
Skin Incision
Lateral Exposure
Other Considerations
Medial Exposure
Procedure: “Terrible Triad” injury
Step 1: Lateral Exposure
Step 2: Anterior Stability—Coronoid
Step 3: Repair or Replace Radial Head
Step 5: Reduction and Tensioning
Step 6: Assess Stability
Procedure: Trans-Olecranon Fracture-Dislocation (Anterior Olecranon Fracture-Dislocation)
Step 1: Exposure
Step 2: Reduction
Step 3: Fixation
Procedure: Dorsal Exposure, Reduction, and Plating of Posterior Olecranon Fracture-Dislocations (Monteggia Fractures)
Step 1: Exposure
Step 2: Assess Radial Head and Neck
Step 3: Reduce and Fix Ulna
Step 4: Test Stability
Procedure: Anteromedial Coronoid Facet Fracture–Posteromedial Rotatory Instability
Step 1: Exposure of Coronoid
Step 2: Fracture Fixation
Postoperative Care and Expected Outcomes
63 - Surgical Reconstruction of Longitudinal Radioulnar Dissociation (Essex-Lopresti Injury)
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Diagnostic and Therapeutic Arthroscopy
Step 2: Ulnar Shortening Osteotomy
Step 3: Interosseous Membrane Reconstruction
Step 4: Closure
Postoperative Care and Expected Outcomes
64 - Ulnar Collateral Ligament Reconstruction Using the Modified Jobe Technique
Indications
Examination/Imaging
Conventional Radiography
Stress Radiography
Magnetic Resonance Imaging (MRI) Arthrography
Diagnostic Elbow Arthroscopy
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Step 5
Postoperative Care and Expected Outcomes
65 - Lateral Ulnar Collateral Ligament Reconstruction
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1
Step 2
Step 3
Step 4
Step 5
Postoperative Care and Expected Outcomes
66 - Elbow Coverage: Principles of Soft Tissue Reconstruction
Indications
Presurgical Planning
Indications
Examination/Imaging
Surgical Anatomy
Positioning and Marking
Procedure
Step 1: Flap Elevation
Step 2: Flap Inset
Step 3: Donor Site Closure and Dressing
Postoperative Care
Indications
Examination/Imaging
Surgical Anatomy
Positioning and Marking
Surgical Technique
Step 1
Step 2: Flap Inset
Step 3: Donor Site Closure and Dressing
Postoperative Care
Indications
Surgical Anatomy
Positioning and Marking
Procedure
Step 1: Flap Elevation
Step 2: Flap Inset
Step 3: Donor Site Closure and Dressing
Postoperative Care
Indications
Surgical Anatomy
Positioning and Marking
Procedure
Step 1: Flap Elevation
Step 2: Flap Inset
Step 3: Donor Site Closure and Dressing
Postoperative Care
Indications
Examination/Imaging
Surgical Anatomy
Positioning and Marking
Procedure
Step 1: Flap Elevation
Step 2: Flap Inset
Step 3: Closure
Postoperative Care
Indications
Surgical Anatomy
Positioning And Marking
Procedure
Step 1: Flap Elevation
Step 2: Flap Inset and Postoperative Care
Step 3: Closure
Postoperative Care
Indications
Surgical Anatomy
Positioning And Marking
Procedure
Step 1: Flap Elevation
Step 2: Flap Inset
Step 3: Closure
Postoperative Care
67 - Operative Treatment of Olecranon Bursitis
Indications
Examination/Imaging
Surgical Anatomy
Positioning
Portals/Exposures
Procedure
Step 1: Bursal Drainage and Resection
Step 2: Removal of Olecranon Osteophyte (If Present)
Step 3: Wound Closure
Postoperative Care and Expected Outcomes
68 - Treatment of Osteochondritis Dissecans of the Elbow
Indications
Examination/Imaging
Plain Radiographs
Panner Disease
Magnetic Resonance Imaging
Computed Tomography
Arthroscopy
Surgical Anatomy
Positioning
Supine-Suspended Position
Pros
Cons
Prone Position
Pros
Cons
Lateral Decubitus Position
Pros
Cons
Portals/Exposures
Anterior Portals
Anterolateral Portal
Proximal Anterolateral Portal
Anteromedial Portal
Proximal Anteromedial Portal
Posterior Portals
Proximal Posterolateral Portal
Posterolateral Portal
Posterior Portal
Proximal Posterior Portal
Direct Lateral Portal
Accessory Direct Lateral Portal
Procedure
Step 1
Step 2
Step 3
Step 4
Step 5
Microfracture and Retrograde Drilling of the Osteochondritis Dissecans
Osteochondral Grafting
Postoperative Care and Expected Outcomes
Recommend Papers

Operative Techniques: Shoulder and Elbow Surgery [2 ed.]
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Operative Techniques: Shoulder and Elbow Surgery Second Edition

Donald H. Lee, MD Professor of Orthopaedic Surgery and Rehabilitation Vanderbilt Orthopaedic Institute Vanderbilt University School of Medicine Nashville, Tennessee

Robert J. Neviaser, MD Professor and Emeritus Chairman Department of Orthopaedic Surgery George Washington University School of Medicine and Health Sciences Washington, DC

1600 John F. Kennedy Blvd. Ste 1800 Philadelphia, PA 19103-2899

OPERATIVE TECHNIQUES: SHOULDER AND ELBOW SURGERY, SECOND EDITION

ISBN: 978-0-323-50880-3

Copyright © 2019 by Elsevier, Inc. All rights reserved. Procedure 21: Pascal Boileau retains copyright for the original images/figures appearing in his contribution. Procedure 35: Jesse Alan McCarron retains copyright for the original images/figures appearing in his contribution. No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, or any information storage and retrieval system, without permission in writing from the publisher. Details on how to seek permission, further information about the Publisher’s permissions policies and our arrangements with organizations such as the Copyright Clearance Center and the Copyright Licensing Agency, can be found at our website: www.elsevier.com/permissions. This book and the individual contributions contained in it are protected under copyright by the ­Publisher (other than as may be noted herein).

Notices Knowledge and best practice in this field are constantly changing. As new research and ­experience broaden our understanding, changes in research methods, professional practices, or medical ­treatment may become necessary. Practitioners and researchers must always rely on their own experience and knowledge in evaluating and using any information, methods, compounds, or experiments described herein. In using such information or methods they should be mindful of their own safety and the safety of others, including parties for whom they have a professional responsibility. With respect to any drug or pharmaceutical products identified, readers are advised to check the most current information provided (i) on procedures featured or (ii) by the manufacturer of each product to be administered, to verify the recommended dose or formula, the method and duration of administration, and contraindications. It is the responsibility of practitioners, relying on their own experience and knowledge of their patients, to make diagnoses, to determine dosages and the best treatment for each individual patient, and to take all appropriate safety precautions. To the fullest extent of the law, neither the Publisher nor the authors, contributors, or editors, assume any liability for any injury and/or damage to persons or property as a matter of ­products liability, negligence or otherwise, or from any use or operation of any methods, products, ­instructions, or ideas contained in the material herein. Previous edition copyright © 2011. Library of Congress Cataloging-in-Publication Data Names: Lee, Donald H., editor. | Neviaser, Robert J., editor. Title: Shoulder and elbow surgery / [edited by] Donald H. Lee, Robert J. Neviaser. Other titles: Operative techniques. Description: Second edition. | Philadelphia : Elsevier, [2019] | Series: Operative techniques | Includes bibliographical references and index. Identifiers: LCCN 2017056979 | ISBN 9780323508803 (hardcover : alk. paper) Subjects: | MESH: Shoulder--surgery | Elbow--surgery | Shoulder Joint--surgery | Elbow Joint--surgery | Orthopedic Procedures--methods | Atlases Classification: LCC RD557.5 | NLM WE 17 | DDC 617.5/72059--dc23 LC record available at https://lccn.loc.gov/2017056979 Senior Content Strategist: Kristine Jones Director, Content Development: Taylor Ball Publishing Services Manager: Catherine Jackson Project Manager: Kate Mannix Design Direction: Amy Buxton Illustrations Manager: Lesley Frazier Printed in China Last digit is the print number: 9 8 7 6 5 4 3 2 1

I would like to dedicate this book to my wife, Dawn, and our children, David, Dana, Diane, Daniel, and Dustin, for all their support and joy that they provide. I also dedicate this book to my parents, Kwan and Kay, for their guidance. I would like to thank my co-editor, Robert Neviaser, for all the advice and encouragement that he has provided over the years. Finally, thank you to all our co-authors who have shared their time and knowledge with us. Donald H. Lee, MD To my wife, Anne, “the wind beneath my wings”; my children, Niki, Rob, Ian, and Andy; and grandchildren, Isabel, Mac, Bozie, Kenzie, J.B., Maddie, Geordie, A.J., Katie, Emily, and Abby, the rest of my raisons d’être. Finally, to my father, Julius S. Neviaser, MD, a pioneer and giant of shoulder surgery. Robert J. Neviaser, MD

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Contributors

Adham A. Abdelfattah, MD Florida Orthopaedic Institute Tampa, Florida

Robert M. Baltera, MD Indiana Hand to Shoulder Center Indianapolis, Indiana

Julie E. Adams, MD Associate Professor Orthopedic Surgery Mayo Clinic and Mayo Clinic Health System Rochester, Minnesota

Mark E. Baratz, MD Clinical Professor Department of Orthopaedic Surgery University of Pittsburgh Medical Center Pittsburgh, Pennsylvania

Christopher S. Ahmad, MD Head Team Physician, New York Yankees Chief, Sports Medicine Service Professor of Orthopaedic Surgery The Center for Shoulder, Elbow and Sports Medicine NYP/Columbia University Medical Center New York, New York

Jonathan Barlow, MD, MS Senior Associate Consultant Orthopedic Surgery Mayo Clinic Rochester, Minnesota

Raj M. Amin, MD Orthopaedic Surgery Resident Physician Johns Hopkins Hospital Baltimore, Maryland James R. Andrews, MD Program Director Orthopedic Sports Medicine Fellowship Andrews Institute for Orthopaedics & Sports Medicine Gulf Breeze, Florida John M. Apostolakos, BS Medical Student University of Connecticut School of Medicine Farmington, Connecticut Robert A. Arciero, MD Professor Department of Orthopaedic Surgery University of Connecticut School of Medicine Farmington, Connecticut April D. Armstrong, BSc (PT), MSc, MD, FRCSC Professor Department of Orthopaedics and Rehabilitation Penn State Milton S. Hershey Medical Center Hershey, Pennsylvania

iv

Louis U. Bigliani, MD Professor of Orthopedic Surgery Department of Orthopedic Surgery Columbia University New York, New York Julie Bishop, MD Professor of Clinical Orthopaedics Chief, Division of Shoulder Team Physician The OSU Sports Medicine Center The Ohio State University Columbus, Ohio Pascal Boileau, MD Professor Orthopaedics University Institute of Locomotion and Sports Pasteur 2 Hospital Nice, France Aydin Budeyri, MD, FEBOT Postdoctoral Research Fellow The Shoulder Center Baylor University Medical Center Dallas, Texas; Assistant Professor Orthopaedics and Traumatology SANKO University Sehitkamil, Gaziantep, Turkey

Contributors

Wayne Z. Burkhead, MD WB Carrell Memorial Clinic Dallas, Texas Paul J. Cagle, Jr., MD Assistant Professor Department of Orthopaedics Mount Sinai Medical Center New York, New York James H. Calandruccio, MD Assistant Professor Hand Surgery Fellowship Director Department of Orthopaedic Surgery University of Tennessee–Campbell Clinic Memphis, Tennessee Jake Calcei, MD Resident in Orthopedic Surgery Hospital for Special Surgery New York, New York R. Bruce Canham, MD Fellow, Shoulder and Elbow Surgery Department of Orthopaedics MedStar Union Memorial Hospital Baltimore, Maryland Jue Cao, MD Orthopaedic Hand Surgery Fellow Indiana Hand to Shoulder Center Indianapolis, Indiana Neal C. Chen, MD Interim Chief, Hand and Upper Extremity Service Massachusetts General Hospital; Assistant Professor Harvard Medical School Boston, Massachusetts

Edward V. Craig, MD, MPH Chief Executive Officer TRIA Orthopaedic Center; Professor Department of Orthopaedic Surgery University of Minnesota Minneapolis, Minnesota Lynn A. Crosby, MD Director of Shoulder Surgery Department of Orthopaedic Surgery Augusta University Augusta, Georgia Alexander B. Dagum, MD, FRCS (C), FACS Professor of Surgery and Orthopaedic Surgery Chief of Plastic Surgery Stony Brook Medicine Stony Brook, New York Allen Deutsch, MD Assistant Professor Department of Orthopaedic Surgery University of Texas Health Science Center at Houston Houston, Texas Christopher C. Dodson, MD Assistant Professor of Orthopaedic Surgery Thomas Jefferson University; Attending Orthopaedic Surgeon Division of Sports Medicine Rothman Institute Philadelphia, Pennsylvania Edward Donley, BSc Research Assistant Department of Orthopaedic Surgery University of Pittsburgh Medical Center Pittsburgh, Pennsylvania

Kaitlyn Christmas, BS Foundation for Orthopaedic Research and Education Tampa, Florida

Jason D. Doppelt, MD Advanced Center for Orthopedics and Plastic Surgery Marquette, Michigan

Tyson Cobb, MD Director of Hand & Upper Extremity Surgery Orthopaedic Specialists, PC Davenport, Iowa

Christopher J. Dy, MD, MPH Asssistant Professor Department of Orthopaedic Surgery Division of Hand Surgery Washington University School of Medicine St. Louis, Missouri

Mark S. Cohen, MD Professor Director, Hand and Elbow Section Director, Orthopaedic Education Department of Orthopaedic Surgery Rush University Medical Center Chicago, Illinois

George S.M. Dyer, MD Clinical Instructor in Orthopaedic Surgery Harvard Medical School; Hand and Upper Extremity Service Department of Orthopaedic Surgery Brigham and Women’s Hospital Boston, Massachusetts

v

vi

Contributors

Benton A. Emblom, MD Andrews Sports Medicine & Orthopedic Center Birmingham, Alabama Vahid Entezari, MD Department of Orthopaedic Surgery The Cleveland Clinic Cleveland, Ohio Brandon J. Erickson, MD Sports Medicine and Shoulder Division Hospital for Special Surgery New York, New York John M. Erickson, MD Hand and Upper Extremity Surgeon Raleigh Hand Center Raleigh, North Carolina Evan L. Flatow, MD Professor, Orthopaedic Surgery Icahn School of Medicine at Mount Sinai; President, Mount Sinai Roosevelt Hospital New York, New York Christina Freibott, BA Research Assistant Orthopaedic Surgery Columbia University Medical Center New York, New York Matthew J. Furey, MD, MSc Clinical Associate, Hand and Wrist Surgery Toronto Western Hospital Toronto, Ontario, Canada Leesa M. Galatz, MD Mount Sinai Professor and Chair Leni and Peter May Department of Orthopedic Surgery Icahn School of Medicine Mount Sinai Health System New York, New York Andrew Green, MD Chief, Division of Shoulder & Elbow Surgery Department of Orthopaedic Surgery Warren Alpert Medical School Brown University Providence, Rhode Island Jeffrey A. Greenberg, MD, MS Clinical Assistant Professor Department of Orthopaedics Indiana University; Indiana Hand to Shoulder Center Indianapolis, Indiana

Alicia K. Harrison, MD Assistant Professor Department of Orthopaedic Surgery University of Minnesota Minneapolis, Minnesota Robert U. Hartzler, MD, MS The San Antonio Orthopaedic Group San Antonio, Texas Taku Hatta, MD, PhD Assistant Professor Department of Orthopaedic Surgery Tohoku University School of Medicine Sendai, Japan Joseph P. Iannotti, MD, PhD Department of Orthopaedic Surgery The Cleveland Clinic Cleveland, Ohio Oduche R. Igboechi, MD, MPH, MBA Resident Department of Orthopaedic Surgery Tulane University School of Medicine New Orleans, Louisiana John V. Ingari, MD Associate Hand Fellowship Director Assistant Professor Department of Orthopaedic Surgery Johns Hopkins Hospital Baltimore, Maryland Eiji Itoi, MD, PhD Professor and Chair Department of Orthopaedic Surgery Tohoku University School of Medicine Sendai, Japan Kristopher J. Jones, MD Assistant Professor Department of Orthopaedic Surgery Division of Sports Medicine and Shoulder Surgery David Geffen School of Medicine at UCLA Los Angeles, California Jesse B. Jupiter, MD Hansjorg Wyss AO Professor of Orthopedic Surgery Harvard Medical School; Division of Hand and Upper Extremity Service Massachusetts General Hospital Boston, Massachusetts Nami Kazemi, MD OrthoAspen Aspen Valley Hospital Aspen, Colorado

Contributors

W. Ben Kibler, MD Medical Director Shoulder Center of Kentucky Lexington Clinic Lexington, Kentucky

Donald H. Lee, MD Professor of Orthopaedic Surgery and Rehabilitation Vanderbilt Orthopaedic Institute Vanderbilt University School of Medicine Nashville, Tennessee

Graham J.W. King, MD, MSc, FRCSC Professor Department of Surgery University of Western Ontario; Director, Roth | McFarlane Hand and Upper Limb Centre St. Joseph’s Health Centre London, Ontario, Canada

William N. Levine, MD Frank E. Stinchfield Professor and Chairman Department of Orthopedic Surgery NYP/Columbia University Medical Center New York, New York

Toshio Kitamura, MD, PhD Vice-Director Kumamoto Orthopaedic Hospital Kumamoto, Japan Steven M. Koehler, MD Director, Hand and Microsurgery Assistant Professor Department of Orthopaedic Surgery SUNY Downstate Medical Center Brooklyn, New York Zinon T. Kokkalis, MD, PhD Assistant Professor of Orthopaedic Surgery Department of Orthopaedics University of Patras School of Medicine Patra, Greece Marc S. Kowalsky, MD Shoulder and Elbow Surgeon Orthopaedic and Neurosurgery Specialists ONS Foundation for Clinical Research and Education Greenwich, Connecticut Sumant G. Krishnan, MD Director The Shoulder Center Baylor University Medical Center at Dallas; Associate Professor Department of Surgery Texas A&M Health Science Center College of Medicine Dallas, Texas John E. Kuhn, MD, MS Kenneth D. Schermerhorn Professor of Orthopaedics and Rehabilitation Chief of Shoulder Surgery Vanderbilt University Medical Center Nashville, Tenessee

Eddie Y. Lo, MD Shoulder Service Bay Area Orthopedic Institute San Francisco, California Lauren M. MacCormick, MD Resident Physician Department of Orthopaedic Surgery University of Minnesota Minneapolis, Minnesota Leonard C. Macrina, MSPT, SCS, CSCS Co-Founder Director of Physical Therapy Champion PT & Performance Waltham, Massachusetts Chad J. Marion, MD Pacific Medical Centers Seattle, Washington Jed I. Maslow, MD Department of Orthopaedic Surgery Vanderbilt University Medial Center Nashville, Tennessee Augustus D. Mazzocca, MD Professor Department of Orthopaedic Surgery University of Connecticut School of Medicine Farmington, Connecticut Jesse Alan McCarron, MD Shoulder and Elbow Surgeon Rebound Orthopaedics and Neurosurgery Portland, Oregon Vancouver, Washington

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Contributors

George M. McCluskey III, MD Clinical Professor Department of Orthopaedic Surgery Medical College of Georgia Augusta, Georgia; Clinical Assistant Professor Department of Orthopaedic Surgery Tulane University School of Medicine New Orleans, Louisiana; Director, St. Francis Shoulder Center Director, St. Francis Shoulder Fellowship Program Columbus, Georgia

Andrew S. Neviaser, MD Associate Professor Department of Orthopaedic Surgery The Ohio State School of Medicine Columbus, Ohio

Patrick J. McMahon, MD McMahon Orthopedics; Adjunct Associate Professor Department of Bioengineering University of Pittsburgh Pittsburgh, Pennsylvania

Michael J. O’Brien, MD Associate Professor of Clinical Orthopaedics Director of Tulane Sports Medicine Tulane University School of Medicine New Orleans, Louisiana

Steven W. Meisterling, MD Twin Cities Orthopaedics Oak Park Heights, Minnesota Mark A. Mighell, MD Florida Orthopaedic Institute Tampa, Florida Anthony Miniaci, MD, FRCSC Professor of Surgery Cleveland Clinic Lerner College of Medicine Case Western Resever University Cleveland, Ohio Anand M. Murthi, MD Chief, Shoulder and Elbow Surgery Department of Orthopaedics MedStar Union Memorial Hospital Baltimore, Maryland Surena Namdari, MD, MSc Associate Professor, Orthopaedic Surgery Sidney Kimmel Medical College Thomas Jefferson University Rothman Institute Philadelphia, Pennsylvania Thomas Naslund, MD Chief, Vascular Surgery Professor of Surgery Vascular Surgery Vanderbilt University Medical Center Nashville, Tennessee

Robert J. Neviaser, MD Professor and Emeritus Chairman Department of Orthopaedic Surgery George Washington University School of Medicine and Health Sciences Washington, DC

Stephen J. O’Brien, MD, MBA Attending Orthopaedic Surgeon Hospital for Special Surgery; Professor of Clinical Orthopedic Surgery Weill Cornell Medical College New York, New York Jason Old, MD, FRCSC Assistant Professor University of Manitoba Panam Clinic Winnipeg, Manitoba, Canada Victor A. Olujimi, MD Shoulder/Elbow Fellow Department of Orthopaedics Mount Sinai Medical Center New York, New York A. Lee Osterman, MD Professor and Chairman Division of Hand Surgery Department of Orthopaedic Surgery Thomas Jefferson University; President, The Philadelphia Hand Center Philadelphia, Pennsylvania Georgios N. Panagopoulos, MD Hand Fellow Department of Orthopaedic Surgery University of Pittsburgh Medical Center Pittsburgh, Pennsylvania

Contributors

Rick F. Papandrea, MD Partner, Orthopedic Associates of Wisconsin Waukesha, Wisconsin; Assistant Clinical Professor Department of Orthopaedic Surgery Medical College of Wisconsin Milwaukee, Wisconsin Loukia K. Papatheodorou, MD, PhD Orthopaedic Surgeon, Orthopaedic Specialists - UPMC University of Pittsburgh Medical Center Pittsburgh, Pennsylvania Ryan A. Paul, MD, FRCSC Clinical Fellow Roth | McFarlane Hand and Upper Limb Centre St. Joseph’s Health Care London, Ontario, Canada William Thomas Payne, MD Northwestern Medicine Regional Medical Group Warrenville, Illinois Christine C. Piper, MD Orthopaedic Surgery Resident George Washington University Hospital Washington, DC Matthew L. Ramsey, MD Shoulder and Elbow Specialist Rothman Institute Thomas Jefferson University Philadelphia, Pennsylvania Lee M. Reichel, MD Associate Professor of Orthopedic Surgery Department of Surgery and Perioperative Care Dell Medical School Austin, Texas Herbert Resch, MD Professor and Former Head of Department of Trauma Surgery and Sports Injuries Paracelsus Medical University Salzburg, Austria Eric T. Ricchetti, MD Department of Orthopaedic Surgery The Cleveland Clinic Cleveland, Ohio David Ring, MD, PhD Associate Dean for Comprehensive Care Department of Surgery and Perioperative Care Dell Medical School University of Texas at Austin Austin, Texas

Chris Roche, MS, MBA Director of Engineering, Extremities Exactech Gainesville, Florida Anthony A. Romeo, MD Department Head, Shoulder and Elbow Division Midwest Orthopedics at Rush Chicago, Illinois Melvin Paul Rosenwasser, MD Carroll Professor of Orthopedic and Hand Surgery Columbia University Department of Orthopedic Surgery Director of Orthopedic Trauma Service Director of Hand and Microvascular Service New York Presbyterian Hospital New York, New York David S. Ruch, MD Vice-Chair, Head of Hand Section Duke Orthopaedic Surgery Duke University School of Medicine Durham, North Carolina Vikram M. Sampath, MD Resident Department of Orthopaedic Surgery Augusta University Augusta, Georgia Javier E. Sanchez, MD Medical Student Columbia University Medical Center New York, New York Michael G. Saper, DO, ATC, CSCS Assistant Professor Orthopedics & Sports Medicine Seattle Children’s Seattle, Washington Felix H. Savoie III, MD Ray J. Haddad Professor and Chairman Department of Orthopaedic Surgery Tulane University School of Medicine New Orleans, Louisiana Andrew Schannen, MD Presbyterian Rust Medical Center Albuquerque, New Mexico Bradley S. Schoch, MD Assistant Professor Department of Orthopaedics and Rehabilitation University of Florida Gainesville, Florida

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x

Contributors

Robert J. Schoderbek, Jr., MD Orthopaedic Specialists of Charleston Roper St. Francis Sports Medicine Charleston, South Carolina

John W. Sperling, MD, MBA Department of Orthopedic Surgery Mayo Clinic Rochester, Minnesota

Aaron Sciascia, PhD, ATC, PES Assistant Professor Exercise and Sport Science Eastern Kentucky University Richmond, Kentucky; Orthopedic Research Specialist Orthopedics-Sports Medicine Lexington Clinic Lexington, Kentucky

Murphy M. Steiner, MD Hand Surgery Fellow Department of Orthopaedic Surgery University of Tennessee–Campbell Clinic Memphis, Tennessee

William H. Seitz, Jr., MD Professor of Orthopaedic Surgery Cleveland Clinic Lerner College of Medicine Case Western Reserve University; Chairman, Orthopaedic Surgery Lutheran Hospital Cleveland Clinic Orthopaedic and Rheumatologic Institute Cleveland, Ohio Jon K. Sekiya, MD Professor of Orthopaedic Surgery Medsport University of Michigan Ann Arbor, Michigan Anup A. Shah, MD Orthopedic Surgeon – Sports Medicine/Shoulder Reconstruction Kelsey-Seybold Clinic; Clinical Assistant Professor of Orthopedic Surgery Department of Orthopedic Surgery Baylor College of Medicine Houston, Texas Evan J. Smith, MD Orthopaedic Surgery Resident George Washington University Hospital, Washington, DC Mia Smucny, MD Cleveland Clinic Cleveland, Ohio David H. Sonnabend, MBBS, BSc (Med), MD, FRACS Emeritus Professor in Orthopaedic Surgery University of Sydney Sydney, Australia Dean G. Sotereanos, MD Clinical Professor of Orthopaedic Surgery University of Pittsburgh School of Medicine Orthopaedic Specialists - UPMC Pittsburgh, Pennsylvania

Scott P. Steinmann, MD Orthopedic Surgery Mayo Clinic and Mayo Clinic Health System Rochester, Minnesota Laura Stoll, MD Shoulder and Elbow Fellow Rothman Institute Thomas Jefferson University Philadelphia, Pennsylvania Robert J. Strauch, MD Professor of Orthopaedic Surgery Orthopaedic Surgery Columbia University Medical Center New York, New York Mark Tauber, MD Associate Professor Department of Orthopaedics and Traumatology Paracelsus Medical University Salzburg, Austria; Shoulder and Elbow Service ATOS Clinic Munich, Germany Samuel A. Taylor, MD Assistant Attending Orthopedic Surgeon Hospital for Special Surgery; Assistant Professor of Orthopedic Surgery Weill Cornell Medical College New York, New York Richard J. Tosti, MD Assistant Professor Orthopaedic Surgery Thomas Jefferson University Philadelphia, Pennsylvania Katie B. Vadasdi, MD Orthopaedic and Neurosurgery Specialists Greenwich, Connecticut Danica D. Vance, MD Resident, Department of Orthopaedic Surgery NYP/Columbia University Medical Center New York, New York

Contributors

Peter S. Vezeridis, MD Orthopaedic Surgeon Shoulder and Sports Medicine Surgery Excel Orthopedic Specialists Woburn, Massachusetts Russell F. Warren, MD Professor, Orthopaedic Surgery Weill Cornell Medical College; Attending Orthopaedic Surgeon Hospital for Special Surgery New York, New York Jeffry T. Watson, MD Colorado Springs Orthopaedic Group Colorado Springs, Colorado Neil J. White, MD Clinical Lecturer University of Calgary Calgary, Alberta, Canada Gerald R. Williams, Jr., MD John M. Fenlin, Jr., MD Professor of Shoulder and Elbow Surgery Department of Orthopaedic Surgery The Rothman Institute The Sidney Kimmel Medical College Thomas Jefferson University Philadelphia, Pennsylvania Megan R. Wolf, MD Orthopaedic Resident University of Connecticut School of Medicine Farmington, Connecticut

Scott W. Wolfe, MD Attending Orthopedic Surgeon Hospital for Special Surgery; Professor of Orthopedic Surgery Weill Medical College of Cornell University New York, New York Nobuyuki Yamamoto, MD, PhD Lecturer Department of Orthopaedic Surgery Tohoku University School of Medicine Sendai, Japan Allan A. Young, MBBS, MSpMed, PhD, FRACS (Orth) Shoulder Surgeon Sydney Shoulder Specialists Sydney, Australia Bertram Zarins, MD Augustus Thorndike Clinical Professor of Orthopaedic Surgery Harvard Medical School; Chief of Sports Medicine Service Emeritus Massachusetts General Hospital Boston, Massachusetts Helen Zitkovsky, BA Tufts University School of Medicine Boston, Massachusetts

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Preface

Operative Techniques: Shoulder and Elbow Surgery is intended to provide a clear and well illustrated step-by-step review of state-of-the art shoulder and elbow surgical procedures described by some of the most respected surgeons in this field. As opposed to traditional book chapters, this book concentrates on surgical techniques that provide the orthopedic surgeon with the finer surgical points, tips, and pitfalls. It also helps give ancillary medical care providers the insight into how these procedures are performed. This book, a continuation of the series of Operative Techniques books provided by Elsevier, concentrates on shoulder and elbow surgical procedures. Each chapter is constructed in a similar fashion. The surgical indications, physical examination, appropriate imaging studies, surgical anatomy, and treatment options are reviewed. The surgical technique portion of each chapter includes recommendations on surgical positioning, surgical portals and exposure, and step-by-step descriptions of the surgical procedure. Illustrations, surgical photographs, and in some cases, videos of the surgical procedure accompany

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the detailed surgical descriptions. The postoperative rehabilitation, the expected outcomes, and an annotated reference list are also provided. Throughout each chapter, surgical pearls, pitfalls, and controversies are discussed. We hope that these detailed surgical descriptions and discussions provide surgeons with an accessible, comprehensive reference that will provide surgical insight, increase surgical efficiency, and minimize complications when performing these operative procedures. We are fortunate to have a distinguished group of contributing authors and want to express our deep appreciation to them for sharing their time and expertise in providing their contributions to this book. We would also like to acknowledge Daniel Pepper, Berta Steiner, and Julie Daniels for their invaluable assistance in making this book possible. We hope you enjoy this book and that it is helpful to you. Donald H. Lee, MD Robert J. Neviaser, MD

Foreword

Education in the field of medicine includes many things: developing professionalism, acquiring a sense of human needs, incorporating knowledge from many sources, applying the basic sciences, studying in-depth focused problems and solutions, integrating patient-based indications, understanding structural deficiencies, knowing what medicine and surgery have to offer, and assimilating all these things and making a judgment about what should be done to help a patient. All of this is so complex. Why aren’t there books that just tell you how to do it? Early in one’s career this is very useful. Later in one’s career it’s always helpful to see how other skilled people approach a procedure, and recognize ways one can improve techniques to address a problem. The learned editors of this volume have stepped up and formulated a book focusing on when and how to do it. These experienced editors have selected the most commonly performed procedures and offered information that will be helpful to almost anyone in any stage of his or her career. The shoulder segment focuses on rotator cuff and other ­tendon-related problems, fractures, arthritis, and instability. Similarly, the elbow segment has material on musculotendinous attachment problems, fractures, arthritis, and instability. This content is supplemented by information on how to handle nerve lesions and stiffness. Chapters on approaches and on soft tissue coverage are also featured in the elbow section. Surgeons performing procedures contained in this book may be generalists or may have a focused background in trauma, sports, or adult reconstruction. But no matter from what direction one approaches shoulder and elbow surgery, one can learn from others in the discipline who may have a different subspecialization—plus the bonus of having added input from experts with one’s own background and direction.

Applied anatomy is a foundation for surgery. It is strange but true that the usual anatomy texts often don’t contain the useful anatomy that one would apply for surgical procedures. In this text, that applied anatomy is carefully displayed. It is wonderful to have a step-wise approach to surgery, but also to have subtleties explained. A number of problems can be approached by open surgery or by arthroscopic surgery. Many are primary cases, but some are revision procedures. This is a kind of textbook that one would want to pick up, read, and set down; pick up and read again; and on and on as one approaches cases in practice. It seems to me that this is the kind of book one would want to have on the shelf rather than in a library. This book will have repeated use by surgeons operating in these anatomic regions. Another bonus is the limited and focused literature on each procedure, allowing a surgeon to expand knowledge even more when addressing a specific situation. Kudos yet again to these insightful, selfless editors and the talented authors who have devoted their energy and time to putting this user-friendly book together. Robert H. Cofield, MD Professor of Orthopedics Mayo Clinic College of Medicine Emeritus Chairman, Department of Orthopedic Surgery Mayo Clinic; Past-President American Shoulder and Elbow Surgeons Past-Chairman, International Board of Shoulder and Elbow Surgery Emeritus Editor-in-Chief, Journal of Shoulder and Elbow Surgery

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PROCEDURE 1

Acromioplasty William N. Levine, Danica D. Vance, and Javier E. Sanchez INDICATIONS

INDICATIONS PITFALLS

• Massive rotator cuff tears with early proximal humeral migration INDICATIONS CONTROVERSIES

• Some authors have advocated no acromioplasty in any condition. However, this is highly controversial and not well supported by the literature over the past 3 decades.

TREATMENT OPTIONS

• Open acromioplasty • Arthroscopic acromioplasty

FIG. 1.1

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• Symptomatic anterosuperior shoulder pain consistent with “impingement syndrome” • In association with symptomatic rotator cuff tears that are not massive • In association with partial-thickness rotator cuff tears especially on the bursal side

EXAMINATION/IMAGING • A complete shoulder examination should be performed, but the following tests are critical: • The Neer sign: pain on passive forward elevation of the shoulder while the examiner uses one hand to prevent scapular rotation. Pain is usually elicited in the arc between 70 and 120 degrees (Fig. 1.1). • The Neer impingement test: injection of local anesthetic beneath the anterior acromion with the elimination of pain with forward elevation. • Hawkin test: pain with forward flexion of the humerus to 90 degrees and then passive internal rotation (Fig. 1.2). • Acromioclavicular joint (ACJ) exam: this is important to rule out as another possible contributor to pain. Two tests are most sensitive—direct tenderness to palpation over the ACJ and a positive cross-body adduction maneuver where the patient experiences pain over the ACJ with cross-arm adduction. • Imaging • Plain films: true anteroposterior (AP), scapular outlet, and axillary lateral should be obtained in all patients. The outlet view will demonstrate the acromial morphology and any acromial pathology (spurs; Fig. 1.3). • Magnetic resonance imaging (MRI): evaluates the integrity of the rotator cuff and biceps tendon. Also identifies bony anomalies such as os acromiale, significant spurs, tuberosity cysts, or degenerative changes in the acromioclavicular or glenohumeral joints (Fig. 1.4).

FIG. 1.2

PROCEDURE 1  Acromioplasty

A

B

C FIG. 1.3 A–C

Acromioclavicular joint capsule Coracoacromial ligament

Infraspinatus tendon

Subscapularis muscle Biceps brachii tendon

FIG. 1.4

SURGICAL ANATOMY • With the arm in anatomic position the supraspinatus tendon, the anterior portion of the infraspinatus tendon and the long head of biceps lie anterior to the acromion. • Elevation of the arm in internal rotation or in the anatomic position causes these structures to pass under the anterior portion of the acromion and the coracoacromial ligament (CAL) (Fig. 1.5).

FIG. 1.5

Supraspinatus muscle

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PROCEDURE 1  Acromioplasty

POSITIONING PEARLS

• Use of a hydraulic arm positioner is invaluable to allow the arm to be placed in any position desired by the surgeon and obviates the need for an assistant. • The beach chair position is preferred if rotator cuff repair or conversion to an open procedure are necessary • Ensure all bony prominences are well padded.

FIG. 1.6

AC joint POSITIONING PITFALLS

• Avoid excessive traction in the lateral decubitus or beach chair position because this can lead to brachial plexus stretch injury. • Ensure that the patient is brought far lateral (in the beach chair position) to avoid mechanical block of access to the shoulder by the operating table. • When using the beach chair position, caution should be taken to ensure the head and neck are properly padded and in the neutral position. Excessive flexion or extension can endanger airway access in cases of emergency.

Coracoid Acromion

FIG. 1.7 POSITIONING EQUIPMENT

• Hydraulic-controlled arm holder • Specific beach chair with table with back that slides from one side to the other to allow unencumbered access to the operative shoulder POSITIONING CONTROVERSIES

• Lateral decubitus versus beach chair. For this procedure, there is no clear superiority. However, we prefer beach chair because this procedure is usually performed in conjunction with a rotator cuff repair. We prefer lateral decubitus position for labral and capsulorrhaphy procedures.

• Bone spurs on the anterior surface of the acromion may lead to impingement on the cuff, resulting in cyclic microtrauma with repetitive overhead use of the arm.

POSITIONING • Arthroscopy can be performed with the patient placed in either the beach chair positioning or in the lateral decubitus position. We prefer the beach chair position for this procedure (Fig. 1.6). • A hydraulic arm positioner is helpful to maintain the arm in the desired position throughout the procedure. • Once correctly positioned, the bed is rotated so that the operative shoulder is at the center of the operating room. • The coracoid process, ACJ, acromion, and distal clavicle are palpated and outlined with a marking pen (Fig. 1.7).

PROCEDURE 1  Acromioplasty

Anterior

Midlateral Posterior PORTALS/EXPOSURES PEARLS

FIG. 1.8

PORTALS/EXPOSURES • The posterior portal is placed at the “soft spot” located approximately 1 cm medial and 1–2 cm inferior to the posterolateral corner of the acromion. • While viewing from the posterior portal, the anterior portal is placed lateral to the coracoid process, in the rotator interval between the supraspinatus and subscapularis. • A third midlateral portal is placed using a spinal needle under visualization of the arthroscope, 3 cm lateral to the acromial edge and parallel to the under surface of the acromion (Fig. 1.8). • Seven-millimeter clear cannulas are inserted to enable instrument removal and insertion.

PROCEDURE Step 1 • A diagnostic glenohumeral arthroscopy is performed from the posterior portal evaluating for loose bodies, synovitis, fraying or tearing of the biceps tendon, labrum, glenohumeral ligaments, or rotator cuff. • The entire articular surface of the humeral head and glenoid is examined by rotating the arthroscope superiorly and the humeral head into internal and external rotation. • The right shoulder is seen through the posterior portal on Fig. 1.9.

Instrumentation/Implantation • Standard 4.0-mm arthroscope

Step 2 • The arthroscope is introduced into the subacromial space from the posterior portal. • A blunt trocar is inserted into the posterior portal, and the posterior acromion is palpated. • The trocar is slid directly underneath the acromion and aimed toward the CAL to gain access to the subacromial space. • Keep the scope trochar at the CAL as you switch to the scope maintain orientation. • The midlateral or anterolateral subacromial portal is established after localization with an 18-gauge spinal needle. An arthroscopic shaver or cautery is introduced into the midlateral portal and used to perform a synovectomy and debridement of the subacromial bursa (Fig. 1.10). • The soft tissues from the undersurface of the acromion are debrided, extending from 2.5 cm posterior to the anterior edge of the acromion to the CAL. • The bursal “veil” is identified and resected to increase visualization. The arrows in Fig. 1.11 point to the superior and inferior aspects of the bursal veil. • If a partial tear of the rotator cuff is observed a limited debridement of the frayed portion is performed. The torn portion is not expanded or sutured.

• Use a spinal needle before committing to any portal position to ensure appropriate trajectory to the glenohumeral joint (anterior portal) and subacromial space (anterolateral or midlateral subacromial portal). PORTALS/EXPOSURES PITFALLS

• Avoid too proximal position of the midlateral subacromial portal—difficulty with trajectory and access to acromion for acromioplasty. • Avoid too distal position of the midlateral subacromial portal—potential damage to the circumflex branch of the axillary nerve. STEP 1 PEARLS

• Tactile feedback during initial insertion of the trocar can be achieved by keeping the arm out of the arm positioner. An assistant can provide shoulder abduction to help distract the glenohumeral space. STEP 1 PITFALLS

• Do not place in arm positioner until after the arthroscope has been successfully placed in the glenohumeral joint to avoid a “transhumeral” portal. STEP 2 PEARLS

• Sweep the subacromial bursa with the blunt scope obturator to create a space within the bursa to aid in visualization. • The bursa veil demarcates the anterior one-third and posterior two-thirds of the acromion. By removing the bursal veil early in the procedure, the subacromial space is easily visualized and exposed. • When moving laterally into the gutter of the cuff, one can turn the protective sheath of the shaver away from the deltoid fascia to avoid any significant bleeding. • Hemostasis can be achieved by controlled induced hypotension by anesthesia, increasing pump pressure and use of electrocautery. STEP 2 PITFALLS

• Never shave blindly. If you cannot visualize the shaver, take a moment to triangulate or repeat step 1.

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PROCEDURE 1  Acromioplasty

Biceps

Humeral head Glenoid Labrum Subscapularis

FIG. 1.9

FIG. 1.10

FIG. 1.11

Instrumentation/Implantation • Standard 4.0-mm arthroscope • Arthroscopic shaver • Arthroscopic electrocautery

Step 3 • The CA ligament is completely detached from its acromial end, exposing the acromial spur. The double-ended arrow in Fig. 1.12 indicates the size of the spur. • An anterior acromioplasty is preformed viewing from the posterior portal while using an arthroscopic shaver or burr via the lateral portal. • The shaver or burr is used to begin the acromioplasty from the anterolateral aspect of the acromion, working toward the anteromedial aspect. • The anterior third of the undersurface of the acromion is resected using the anterior deltoid periosteal fibers as a guide to indicate an adequate resection of the spur while preserving the deltoid origin and avoiding deltoid dehiscence.

PROCEDURE 1  Acromioplasty

FIG. 1.12

• The entire anterior edge of the acromion is debrided to remove any protuberances. • The arthroscope is placed in the anterolateral portal to ensure a smooth transition from posterior acromion to the resected anterior acromion. A burr can be inserted into the posterior portal to smooth any retained ridge.

Instrumentation/Implantation • Aggressive shaver, cautery, or burr. • Be prepared for biceps tenodesis, labral repair, and rotator cuff repair.

Step 4 • The ACJ should be resected only if the examiner elicited tenderness to palpation or AC joint pain with the adduction maneuverer preoperatively. • Radiographic assistance in decision making on the ACJ should generally not be relied upon due to the high incidence of “abnormal findings” on preoperative radiographs and MRIs. However, edema in the lateral clavicle and/or medial acromion in a T2-weighted MRI is highly suspicious of a symptomatic ACJ.

POSTOPERATIVE CARE AND EXPECTED OUTCOMES • Postoperatively the arm can be supported using a sling for no more than 3 days. • Pendulum exercises may be started on postoperative day 1. • Active and passive elevation may be started between postoperative days 1 and 4. • Isometric exercises of the deltoid and rotator cuff may begin by the fourth day. • Starting in the second postoperative week, light exercises against resistance may be started. • Patients are encouraged to use their arm as normally as possible with the exception of athletics or overhead work. • Patients are expected to return to activities of daily living within the first few days after surgery, and those who have desk jobs return to work in 2–3 days. • Most patients have full return of active range of motion by 3 weeks. • Patients whose jobs require heavy lifting or repetitive overhead activity took 6 weeks or longer. • Return to overhead sports is allowed after 6 weeks.

STEP 3 PEARLS

• View from multiple portals to ensure an even resection. STEP 3 PITFALLS

• Avoid deltoid detachment. • Underresection will cause continued impingement and symptoms.

STEP 4 PITFALLS

• Avoid iatrogenic instability by preserving the posterior and superior aspects of the ACJ.

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PROCEDURE 1  Acromioplasty

EVIDENCE Altchek DW, Warren RF, Wickiewicz TL, Skyhar MJ, Ortiz G, Schwarz E. Arthroscopic acromioplasty: technique and results. J Bone Joint Surg [Am] 1990;72:1198–207. The study provides the technique and results of arthroscopic acromioplasty on 40 patients over a 2-year period. After a minimum follow-up of 12 months all but one patient had improvement in pain. Seventy-three percent of patients had good or excellent results. Ten percent of patients had a failed result. Andrews JR, Carson WG, Ortega K. Arthroscopy of the shoulder: technique and normal anatomy. Am J Sports Med 1984;12:1–7. A review of the technique for shoulder arthroscopy. Bigliani LU, Levine WN. Subacromial impingement syndrome. J Bone Joint Surg [Am] 1997;79:1854–68. A review of the current concepts in the etiology, diagnosis, and treatment of impingement syndrome. Ellman H, Kay SP. Arthroscopic subacromial decompression for chronic impingement: two to five year results. J Bone Joint Surg [Br] 1991;73:395–8. Analysis of the long-term results of 65 cases of arthroscopic subacromial decompression for impingement syndrome, without full-thickness rotator cuff tears. Gartsman GM. Arthroscopic acromioplasty for lesions of the rotator cuff. J Bone Joint Surg [Am] 1990;72:169–80. Comparison of the results of arthroscopic acromioplasty for subacromial impingment in 165 patients without rotator cuff tears (100 patients), with partial tears (40 patients), and with complete tears (25 patients). Acromioplasty was found to be effective in patients with no tear or with a partial tear. Patients with massive rotator cuff tears had unsatisfactory results. Harrison AK, Flatow EL. Subacromial impingement syndrome. J Am Acad Orthop Surg 2011;19:701–8. An overview of subacromial impingement syndrome including nonsurgical and surgical management. Hawkins RJ, Kennedy JC. Impingement syndrome in athletes. Am J Sports Med 1980;8:151–8. An overview of shoulder impingement in athletes, including: functional anatomy, differential diagnosis, physical examination, and treatments based on stage of the disease. Neer CS. Anterior acromioplasty for the chronic impingement syndrome in the shoulder. J Bone Joint Surg 1972;54:41–50. The author reported on 50 shoulders of 47 patients treated with anterior acromioplasty over the course of 5 years. There was an average follow up of 2.5 years. He also described the anatomy and pathophysiology of symptomatic impingement syndrome. Potter HG, Birchansky SB. Magnetic resonance imaging of the shoulder: a tailored approach. Tech Shoulder Elbow Surg 2006;6:43–56. Seeger LL, Gold RH, Bassett LW, Ellman H. Shoulder impingment: MR findings in 53 shoulders. AJR Am J Roentgenol 1988;150:343–7. MR scans of 107 shoulders in 96 patients reviewed, those who had undergone invasive procedures prior to imaging were not included; 53 shoulders with impingement syndrome were identified. Tennent TD, Beach WR, Meyers JF. A review of the special tests associated with shoulder examination. Am J Sports Med 2003;31:154–60.

PROCEDURE 2

Rotator Cuff Repair: Open Technique for Partial-Thickness or Small or Medium Full-Thickness Tears Allan A. Young and David H. Sonnabend INDICATIONS PITFALLS

INDICATIONS • Rotator cuff repair is indicated in patients with a documented tear ± subacromial impingement syndrome who remain symptomatic despite 3–6 months of nonoperative management. • Acute repair is indicated in younger symptomatic patients (