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PURPOSE: Trigger finger release (TFR) is one of the most commonly performed hand surgeries; nevertheless, the time until patients subjectively feel recovered has not been well documented. The limited literature on patient perceptions of recovery after any type of surgery has described that patients and surgeons may have differing views on the time until full recovery. Our primary study question was to determine how long it takes for patients to subjectively feel fully recovered after TFR. METHODS: In this prospective study, patients who underwent isolated TFR completed questionnaires before surgery and at multiple time points following surgery until they reported full recovery. Patients completed visual analog scale (VAS) pain scores and QuickDASH (Disabilities of the Arm, Shoulder, and Hand) and were asked if they felt fully recovered at 4 weeks, 6 weeks, and 3, 6, 9, and 12 months. RESULTS: The average time to self-reported full recovery was 6.2 months (SD 2.6), and the median time to self-reported full recovery was 6 months (IQR 4 months). At 12 months, four out of 50 patients (8%) did not feel fully recovered. QuickDASH and VAS pain scores improved significantly from preoperative assessment to final follow-up. All patients reported improvement in both VAS pain scores and QuickDASH scores greater than the minimal clinically important difference between 6 weeks and 3 months after surgery. Higher preoperative VAS and QuickDASH scores were associated with failure to fully recover by 12 months after surgery. CONCLUSIONS: The length of time after surgery until patients felt fully recovered after isolated TFR is longer than the senior authors' expectations. This suggests that patients and surgeons may consider distinctly different parameters when discussing recovery. Surgeons should be aware of this discrepancy when discussing recovery after surgery. TYPE OF STUDY/LEVEL OF EVIDENCE: Prognostic II.
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BACKGROUND: Osteochondral injuries of the elbow are limiting and affect the ability of pediatric and adolescent athletes to participate in sports. PURPOSE: To report short- and midterm outcomes on athletes undergoing microfracture or fragment fixation of osteochondral elbow lesions and evaluate the effects thereof on sporting activity. STUDY DESIGN: Case series; Level of evidence, 4. METHODS: This was a retrospective study analyzing patients who underwent surgical treatment via microfracture or fragment fixation for osteochondral elbow lesions. Patients were treated at a single institution by a single surgeon between 2012 and 2019. Diagnosis was confirmed with magnetic resonance imaging, and patients were indicated for surgery after having persistent symptoms despite trialing rest, immobilization, and/or activity restriction for at least 3 months. Demographic data including sports of choice were collected preoperatively. Imaging and intraoperative findings were documented, and any complications were noted. Range of motion (ROM) was compared pre- to postoperatively. Return-to-sport evaluation included the ability to play the preoperative sport of choice. RESULTS: In total, 23 patients (25 elbows) were included with a mean follow-up of 23.5 months (range, 6-60.3 months) and a mean age of 13.8 years. Of 25 lesions, 20 (80%) were on the athlete's dominant side. There was significant improvement from pre- to postoperative ROM, including extension (mean ± SD, 6.4° ± 5.3° to 0.04° ± 0.2°; P < .00001), flexion (129.2° ± 10.6° to 138.6° ± 4.4°; P = .00013), and arc of ROM (122.6° ± 13.2° to 138.6° ± 4.4°; P < .00001). Mean lesion size was 81.9 ± 59.3 mm2 (range, 15-225 mm2). All elbows demonstrated radiographic healing postoperatively. Mean time to release to sport was 4.48 ± 1.38 months (range, 2.5-8 months). Six (26.1%) patients changed or stopped their preoperative sporting activity, including 2 of 4 gymnasts and 4 of 11 baseball players. CONCLUSION: Arthroscopic technique with lesion debridement and microfracture or fixation appears safe and results in radiographic healing; however, with these techniques, there remains a high rate of inability to return to sport in patients involved in higher-demand upper extremity activity, such as baseball and gymnastics. Further treatment strategies, including cartilage restoration procedures, may be warranted in this population.