Open Excision of Dorsal Wrist Ganglion.

Background: Ganglion cysts are benign soft-tissue tumors that are most commonly found in the wrist. Within the wrist, 60% to 70% of ganglion cysts occur on the dorsal side and 20% to 30% occur on the volar side1. Although ganglia arise from multiple sites over the dorsal wrist, dorsal ganglia most commonly originate at the scapholunate joint2,3. Open excision is the standard surgical treatment for dorsal wrist ganglia. This procedure is considered when symptoms such as pain and range-of-motion deficits begin to impact activities of daily living. Description: Open excision of a dorsal wrist ganglion is commonly performed with the patient under general anesthesia or a regional block. The patient is placed in the supine position, and a tourniquet is applied on the affected upper limb. After outlining the periphery of the palpable ganglion, the surgeon makes a transverse or longitudinal incision over the ganglion. The surgeon then begins a deep dissection, dissecting through the subcutaneous tissue and isolating the ganglion while avoiding any rupture, if possible. Once the cyst has been identified, extensor tendons surrounding the cyst are retracted and the cyst and stalk are mobilized. The cyst and stalk are subsequently excised, and the wound is closed4. Alternatives: Alternative treatments for dorsal wrist ganglia include nonoperative interventions such as observation, aspiration, controlled rupture, and injection. Operative treatments include arthroscopic and open dorsal wrist ganglion resections. Rationale: Although nonoperative treatment can produce successful outcomes, the various modalities have been associated with recurrence rates ranging from 15% to 90%4. As a result, surgical excision remains the gold standard of treatment and is typically indicated when weakness, pain, and limited range of motion interfere with activities of daily living. Among surgical interventions, arthroscopic excision is a minimally invasive procedure that has become more common because of the reduced scarring and faster recovery5. However, open excision, which does not involve complex equipment, is regarded as the standard among surgical treatments. Although the rates of recurrence for arthroscopic versus open dorsal ganglion excision are similar, arthroscopic excision is less effective with regard to pain relief5,6. This difference in pain relief could potentially be the result of the neurectomy of the posterior interosseous nerve in an open excision. In contrast, an arthroscopic procedure may provide less relief of pain from the posterior interosseous nerve stump attaching to the scarred capsule5. Expected Outcomes: Open excision of a dorsal wrist ganglion is a safe, reliable procedure. The recurrence rate after open excision is similar to that after arthroscopic excision and significantly lower recurrence than that after ganglion cyst aspiration6,7. Additionally, not all ganglion cysts can be aspirated. In a retrospective study assessing the risk of recurrence after open excision of ganglion cysts in 628 patients, researchers reported a recurrence rate of 4.1% among the 341 who underwent open dorsal ganglion excision. Furthermore, the authors reported male sex and less surgeon experience as significant risk factors for cyst recurrence8. In a study assessing outcomes of open dorsal ganglion excision in 125 active-duty military personnel, researchers reported a recurrence rate of 9%. More notably, the researchers found persistent pain at 4 weeks postoperatively in 14% of the participants. The authors recommended that patients whose daily activities require forceful wrist extension, such as athletes and military personnel, should be counseled on the potential functional limitations and residual pain from open dorsal wrist ganglion excision9. Important Tips: When conducting an open excision, it is beneficial to identify the stalk of the cyst, allowing the surgeon to excise the complete ganglion complex and prevent recurrence.For large cysts that adhere to the surrounding soft tissue, it is helpful to rupture the ganglion in order to facilitate an easier deep dissection.Excising the scapholunate interosseous ligament could possibly lead to scapholunate dissociation and instability.The posterior interosseous nerve courses past the 4th dorsal compartment and may be resected during the deep dissection.

Tendon Sheath Incision for Surgical Treatment of Trigger Finger.

Background: Open trigger finger release is an elective surgical procedure that serves as the gold standard treatment for trigger digits. The aim of this procedure is to release the A1 pulley in a setting in which the pulley is completely visible, ultimately allowing the flexor tendons that were previously impinged on to glide more easily through the tendon sheath. Although A1-or the first annular pulley-is the site of triggering in nearly all cases, alternative sites include A2, A3, and the palmar aponeurosis1. Description: Typically, the surgical procedure can be conducted in an outpatient setting and can vary in duration from a few minutes to half an hour. The surgical procedure involves the patient lying in the supine position with the operative hand positioned to the side. A small incision, ranging from 1 to 1.5 cm, is made on the volar side of the hand, just proximal to the A1 pulley in the skin crease in order to minimize scarring. Once the underlying neurovascular structures are exposed, the A1 pulley is released longitudinally at least to the level of the A2 pulley, followed by decompression of the flexor tendons that were previously impinged on. In order to confirm the release, the patient is asked to flex and extend the affected finger. The wound is irrigated and closed once the release is confirmed by both the patient and surgeon. Alternatives: Aside from an open release, trigger finger can be treated nonoperatively with use of splinting and corticosteroid injection. Alternative operative treatments include a percutaneous release, which involves the use of a needle to release the A1 pulley2. Trigger finger can initially be treated nonoperatively. If unsuccessful, surgical intervention is considered the ultimate remedy2. Rationale: Because of their efficacious nature, corticosteroid injections are indicated preoperatively, particularly in non-diabetic patients3. Splinting is often an appropriate treatment option in patients who wish to avoid a corticosteroid injection1. However, if nonoperative treatment modalities fail to resolve pain and symptoms, surgical intervention is indicated2. In comparison with a percutaneous trigger finger release, an open release provides enhanced exposure and may be safer with respect to avoiding iatrogenic neurovascular injury2. However, in a randomized controlled trial, Gilberts et al. found no difference in the rates of recurrence when comparing open versus percutaneous trigger finger release4. Expected Outcomes: With reported success rates ranging from 90% to 100%, the open release of the A1 pulley is considered a common procedure associated with minimal complications2. Complications of the procedure were assessed in a retrospective analysis of 43 patients who underwent 78 open trigger releases performed by 1 surgeon. In that study, the authors reported a minor complication rate of 28% and a major complication rate of 3%5. Specifically, the 2 major complications noted by the authors were a synovial fistula and a proximal interphalangeal joint arthrofibrosis. In a larger study that included 543 patients who underwent 795 open trigger releases, the authors reported a minor complication rate of 9.6% and major complication rate of 2.4%6. Furthermore, the most common complications involved persistent stiffness, swelling, or pain. In that analysis, the authors suggested that sedation, male gender, and general anesthesia may be associated with greater risk6. Important Tips: At the discretion of the surgeon, a longitudinal, transverse, or oblique incision is made directly on top of the tendon at the level of the metacarpophalangeal joint, which is the preferred incision site because it provides maximal accessibility to the A1 pulley.Local anesthesia is preferred because it allows the patient and surgeon to confirm the release immediately.If conducting an open trigger release on the thumb, the surgeon should identify and protect the radial digital nerve, which courses directly over the A1 pulley. Acronyms and Abbreviations: MCP = metacarpophalangeal.

Orthopaedic Shoulder and Elbow Fellowship Directors in the United States Have Substantial Research Output but Lack Diversity.

Purpose: To investigate the characteristics of shoulder and elbow fellowship directors (FDs). Methods: FDs for shoulder and elbow fellowship programs in the United States were identified. Demographic, educational, and professional background data were collected from available curricula vitarum, institutional biographies, and the Scopus database. Data collected included age, sex, race/ethnicity, training locations, graduation years, advanced degrees, current institutional information, and personal research H-index. Results: Thirty current orthopaedic shoulder and elbow FDs were identified. The mean Scopus H-index was 25.5. The mean age of FDs was 52.1 years. In total, 29 FDs (96.7%) were male and 1 (3.3%) was female. In addition, 25 of the 30 (83.3%) were White (83.3%), 4 were Asian, and 1 (3.3%) was Hispanic. Two (6.7%) had a military affiliation. Mean time from fellowship training graduation to FD appointment was 13.5 years. Mean number of years as FD was 6.1 years, whereas the number of years tenure with an FD-affiliated institution was 13.0 years. Mean calendar years for completion of orthopaedic residency training and fellowship training were 1998 and 2000, respectively. The residencies that produced the most future FDs were Hospital of the University of Pennsylvania (n = 2) and University of Nebraska Medical Center/Creighton University Health Foundation (n = 2). The fellowship that produced the most future FDs was Columbia University (n = 6). Moderate correlation was found between age and Scopus H-index (r = 0.48; P = .04) and years as FD and Scopus H-index (r = 0.42; P = .03). Conclusions: Women and minorities are under-represented in leadership positions in shoulder and elbow surgery. Shoulder and elbow FDs have the highest H-index of any subspecialty reported in the orthopaedic literature. Research productivity is an important qualification when considering the characteristics of shoulder and elbow FDs. Clinical Relevance: Fellowship directors can have a profound influence on current and future orthopaedic surgeons. It is important to identify the traits that characterize current fellowship directors to have a better understanding of who we choose as leaders in our field.

Investigation of Fellowship Leadership in Orthopaedic Musculoskeletal Oncology.

INTRODUCTION: The purpose of this study was to determine the objective characteristics of orthopaedic musculoskeletal oncology fellowship directors (FDs) by concentrating on the demographics, academic background, institutional history, research experience, and professional affiliations of these leaders. METHODS: Data were collected for each FD through institutional biographies or publicly available curriculum vitae. The data collected for each FD included demographic, professional, and research information. RESULTS: Of the 19 FDs, 15 (78.9%) were male, and 4 (21.1%) were female. The mean age for all FDs was 49.2 ± 9.1 years. Most FDs were White (n = 16; 84.2%). The mean Scopus H-index, total number of citations, and total number of publications among all 19 FDs were 21.6 ± 13.8, 2,290.6 ± 2,709.0, and 84.0 ± 54.7, respectively. The mean number of years serving in the FD role was 7.1 ± 9.1 years, and the mean number of years that the FD was employed at his/her current institution was 11.1 ± 8.1 years. CONCLUSION: This study shows that orthopaedic musculoskeletal oncology FDs were mainly White (84.2%), male (78.9%), and in their late 40s; have filled their role as FD for an average of 7.1 years; and are very productive in research.

Stemless anatomic total shoulder arthroplasty: surgical technique and review of the literature.

Stemless anatomic total shoulder arthroplasty (aTSA) is a promising option for the treatment of degenerative disease in patients. This novel technique avoids the stem-related complications associated with the traditional stemmed aTSA. Stemless aTSA offers additional benefits such as decreased operative time, preservation of bone stock, improved radiographic outcomes, and easier revision. Moreover, loading of the metaphyseal region rather than the diaphysial region with traditional stemmed implants can decrease stress shielding. When compared to stemmed-implants, stemless aTSA has demonstrated similar outcomes and complication rates. The purpose of this article is to analyze published outcomes and complications following the utilization of stemless aTSA. Additionally, key aspects of the surgical technique that may promote optimal results in stemless aTSA implantation are presented.

Orthopaedic Sports Medicine Fellowship Directors Are Predominantly White Men With a High Degree of Research Productivity.

PURPOSE: To determine the objective characteristics of fellowship directors (FDs) in orthopaedic sports medicine by focusing on the demographics, academic background, institutional history, research experience, and professional affiliations of FDs in this field. METHODS: Data was collected for each FD via institutional biographies or publicly available curriculum vitae (CV). The data collected for each FD included age, gender, race/ethnicity, previous training institutions, residency and fellowship graduation years, additional advanced degrees, military affiliation, institutional loyalty, year hired by current institution, career timeline, Scopus H-index, number of publications, and total number of citations. RESULTS: Of the 88 FDs, 87 (98.9%) were male and 1 (1.1%) was female. The mean age for all FDs was 54.7 years (± 9.1 standard deviation). The majority of FDs were White (n = 80; 90.9%). The mean Scopus H-index, total number of publications, and total number of citations were 22.5 ± 16.6, 90.0 ± 91.6, and 2773.9 ± 3962.9, respectively. On average, it took 9.5 ± 7.3 years from fellowship graduation until FD appointment. Additionally, the mean number of years of employment or affiliation with the current institution was 17.2 ± 9.4, and the mean number of years in an FD role was 10.9 ± 9.3. CONCLUSION: Orthopaedic sports medicine fellowship directors are largely distinguished by their high level of research productivity and accomplishment. Additionally, orthopaedic training pedigree seems to play a role in FD role attainment, with a handful of orthopaedic residency and sports medicine fellowship programs producing a large percentage of current FDs. Finally, FDs are overwhelmingly white males with little female or minority representation. CLINICAL RELEVANCE: This study outlines some of the most important characteristics among orthopaedic sports medicine fellowship directors and identifies racial and gender disparities within this population of leaders that may have detrimental effects on the field as a whole.

Orthopaedic Foot and Ankle Surgery Fellowship Directors Are Typically White Men in Their Early 50s With Strong Achievements in Research.

PURPOSE: To determine the objective characteristics of orthopaedic foot and ankle fellowship directors (FDs) by concentrating on the demographic characteristics, academic background, institutional history, research experience, and professional affiliations of these leaders. METHODS: Data for each FD were collected by searching institutional biographies, personal websites, or publicly available curricula vitae. Data collection included the following variables: age, sex, race/ethnicity, previous training institutions, residency and fellowship graduation years, advanced degrees, military affiliation, institutional loyalty, year hired, FD career timeline, total number of publications, total number of citations, and h-index. RESULTS: Of the 47 FDs, 44 (93.6%) were men and 3 (6.4%) were women. The mean age was 50.8 ± 9.4 years. Most orthopaedic foot and ankle FDs were white (n = 42, 89.4%), followed by Asian (n = 4, 8.5%) and black or African American (n = 1, 2.1%). The mean Scopus h-index, total number of publications, and total number of citations for all foot and ankle FDs were 13.3 ± 9.5, 47.5 ± 45.8, and 898.1 ± 1,040.3, respectively. Among all foot and ankle FDs, the mean tenure in the FD position was 5.8 ± 4.6 years. CONCLUSIONS: Orthopaedic foot and ankle FDs are primarily white men in their 50s, with minimal female and minority representations. These FDs are distinguished by their high level of research productivity. Additionally, orthopaedic foot and ankle training backgrounds seem to play an important role, given that most of the appointed FDs trained in only a few select programs. CLINICAL RELEVANCE: This study outlines some of the most important characteristics among foot and ankle FDs and identifies important disparities within this population of leaders that may have detrimental effects on the field.