| Foreword: A Fresh Review of Common Shoulder Conditions |
|
xiii | |
|
|
| Preface: Rehabilitation of Operative and Nonoperative Shoulder Pathologies |
|
xv | |
|
Thomas (Quin) Throckmorton |
|
|
Shoulder Impingement Syndrome |
|
|
311 | (24) |
|
|
|
|
|
Shoulder impingement is the most common diagnosis for shoulder pain. Shoulder impingement syndrome has been scrutinized as a misleading "umbrella" term, due to its vague and nonspecific context. It is better subcategorized into subacromial, internal, and subcoracoid impingement. The evaluation and treatment algorithm for each is grossly similar. A thorough history, focused physical examination, and standard radiographs are the first steps. Advanced imaging with MRI or ultrasound may be useful. The mainstay of treatment includes physical therapy, anti-inflammatory medications, and injections. Surgical treatment is reserved for refractory cases, and includes decompression, debridement, and/or repair of injured structures |
|
|
|
Nonoperative Treatment of Rotator Cuff Tears |
|
|
335 | (22) |
|
|
|
|
|
Rotator cuff tears are common with prevalence increasing with age. Diagnosis by physical examination may require a cluster of tests. Although radiographs can be helpful, MRI, MRI arthrography, and ultrasound represent the most used imaging technique to identify rotator cuff tears. Although surgery is sometimes necessary, a large portion of patients may respond to conservative treatment including physical therapy and injections. Physical therapy should include restoring the range of motion, addressing any pectoralis minor or posterior capsule stiffness, and restoring motor control/strength to the scapula and rotator cuff. Other conservative treatments may include nonsteroidal anti-inflammatory drugs, corticosteroid injects, and platelet-rich plasma |
|
|
|
Postoperative Rehabilitation Following Rotator Cuff Repair |
|
|
357 | (8) |
|
|
|
|
|
|
|
Postoperative rehabilitation following rotator cuff repair is essential for a positive patient outcome. Each patient should have a program tailored to their individual tear and repair characteristics. Their plan should be advanced according to their progress, with therapist and surgeon communication. The rehabilitation progresses through 4 stages. This begins with a period of immobilization, passive range of motion, and protecting the repair and ends with functional and sport-specific exercises. Rehabilitation advances in progress-based steps during 24 weeks. The rehabilitation process aims to balance healing of the tendon repair and the risk of post-operative stiffness |
|
|
|
Nonoperative Treatment of the Biceps-Labral Complex |
|
|
365 | (12) |
|
|
|
|
|
|
|
The long head of the biceps and superior labrum should be evaluated as an interdependent functional unit. A focused patient history and physical examination including multiple provocative tests should be performed alongside advanced imaging studies to obtain an accurate diagnosis. Nonoperative treatment modalities including nonsteroidal anti-inflammatory drugs, glucocorticoid injections, and a standardized physical therapy regimen should be exhausted before operative intervention. Significant improvements in pain, functional outcomes, and quality of life are achieved in patients treated nonoperatively. Although these outcomes are less consistent for overhead athletes, return to play and performance metrics seem comparable to those who undergo surgery |
|
|
|
Postoperative Rehabilitation After Superior Labrum Anterior Posterior Repair |
|
|
377 | (16) |
|
|
|
|
|
|
|
The 4-phase rehabilitation protocol outlined in this article provides a comprehensive 26-week program to return patients with superior labrum anterior posterior repairs to their preinjury states. It is guided by the principle of gradual return to preinjury function while preserving the integrity of the surgical repair. Objective criteria are present at the conclusion of each phase to ensure patients are progressing appropriately. The goal is to allow patients to return to their previous functional ability in their sport-specific or occupational-specific training |
|
|
|
Physical Therapy for the Treatment of Shoulder Instability |
|
|
393 | (16) |
|
|
|
|
|
|
|
Shoulder instability is the separation of the humeral head from the glenoid. Injury to the static and dynamic stabilizers can result in instability. Anterior shoulder instability is the predominant form of instability. It is usually a result of trauma. Posterior shoulder instability often presents with an insidious onset of pain. Multidirectional instability of the shoulder is symptomatic laxity in more than one plane of motion. The primary goal of rehabilitation is to restore pain-free mobility, strength, and functioning. Rehabilitation implements range of motion and strengthening exercises to restore proprioceptive control and scapular kinematics |
|
|
|
Rehabilitation after Shoulder Instability Surgery |
|
|
409 | (18) |
|
|
|
|
|
|
|
Shoulder instability can occur in any direction and presents across a broad spectrum including traumatic dislocations, repetitive microinstability events or subluxations, and global joint laxity. The development of pain, functional decline, and articular pathologic condition is a multifaceted process that is influenced by the underlying bony morphology, biology of the surrounding soft tissue structures, dynamic coordination of the periscapular musculature, and patient factors such as age, activity level, and associated injuries. This article will focus on the younger, active patient with instability due to deficiencies in the capsulolabral complex and dynamic stabilizers |
|
|
|
Managing Scapular Dyskinesis |
|
|
427 | (26) |
|
|
|
|
|
|
|
|
|
Scapular dyskinesis, the impairment of optimal scapular position and motion, is common in association with shoulder injury. A comprehensive evaluation process can show the causative factors and lead to effective treatment protocols. The complexity of scapular motion and the integrated relationship between the scapula, humerus, trunk, and legs suggest a need to develop rehabilitation programs that involve all segments working as a unit rather than isolated components. This is best accomplished with an integrated rehabilitation approach that includes rectifying deficits in mobility, strength, and motor control but not overtly focusing on any one area |
|
|
|
|
|
453 | (16) |
|
|
|
|
|
|
|
|
|
Adhesive capsulitis, colloquially known as "frozen shoulder," is a relatively common disorder, affecting approximately 2% to 5% of the general population. The incidence may be higher as the condition can be relatively mild and self-limited and thus many patients who experience it may never present for treatment. It involves a pathologic process of gradual fibrosis of the glenohumeral joint that leads to limited active and passive range of motion, contracture of the joint capsule, and shoulder pain |
|
|
|
Postoperative Rehabilitation After Shoulder Arthroplasty |
|
|
469 | (12) |
|
|
|
|
|
Total shoulder arthroplasty (TSA), including anatomic TSA (aTSA) and reverse TSA (rTSA), has increased in popularity due to reliably good patient outcomes. Postoperative physical therapy (PT) is considered essential to the success of this operation and has become standard practice. The authors present general rehabilitation principles as well as preferred postoperative PT protocols for aTSA and rTSA, which are based on evidence-based literature and the different early postoperative concerns for each of these procedures |
|
|
|
Muscular Retraining and Rehabilitation after Shoulder Muscle Tendon Transfer |
|
|
481 | (8) |
|
|
|
|
|
|
|
Muscle tendon transfers around the shoulder involve transferring the tendon of a well-functioning muscle-tendon unit to the site of damaged muscle-tendon insertion. In turn, this restores function and strength of the injured shoulder muscle through dynamic muscular contraction and a tenodesis effect. Rehabilitation after shoulder muscle tendon transfers requires extensive and lengthy rehabilitation to achieve satisfactory clinical outcomes. It is crucial to gain detailed understanding of the rehabilitation requirements for different tendon transfer procedures such as the type of immobilization and specific range of motion limitations at specific time points during rehabilitations |
|
|
|
Remote Patient Monitoring of Postoperative Rehabilitation |
|
|
489 | |
|
|
|
|
|
|
|
Postoperative rehabilitation is a critical part of the treatment algorithm for patients with shoulder issues. When patients could not go to in-person therapy, many therapists pivoted to a remote option, and several application-based rehabilitation programs emerged. This article will discuss the shift to remote patient rehabilitation and will highlight the benefits and potential pitfalls of remote rehabilitation. It will also discuss ways to monitor patients remotely as they are performing their postoperative rehabilitation exercises. Finally, it will discuss how these remote platforms can be used, and what the user experience is like for the patient and the surgeon |
|
|
Lisainfo e-raamatute kohta