Study Objective: Limited data exist on the morphologic and physiologic effect on the remaining ovary after unilateral oophorectomy, especially in the pediatric population. Our aim is to evaluate ovarian volumes following unilateral oophorectomy to determine whether compensatory ovarian hypertrophy occurs in the remaining contralateral ovary. Design: This was a retrospective chart review of ovarian volume measured on ultrasounds that were completed after unilateral oophorectomy. Postoperative ovarian volumes were compared to established radiologic standards. Setting: Large tertiary care academic children's hospital in Atlanta, GA. Participants: Female patients less than 21 years old who underwent unilateral oophorectomy. Main Outcome Measures: Ovarian volumes measured on postoperative ultrasounds. Results: A total of 93 patients met inclusion criteria for this study. Serial ultrasounds were performed in slightly more than half of the patients (n = 48, 51.6%), totaling 193 postoperative ovarian volumes. The average age of oophorectomy was 10.8 years. Prior to surgery, the majority of patients presented with abdominal pain (n = 51, 54.8%) or pelvic mass (n = 51, 54.8%), and most (n = 77, 82.8%) had benign final pathology. Ovarian volumes were compared to 4 published radiologic ultrasound standards. More than 62.2% of ovarian volumes from girls who had previously had unilateral oophorectomy were larger than age-matched standard ovarian volumes. Conclusion: Ovarian enlargement occurs in the contralateral ovary following unilateral oophorectomy in the pediatric and adolescent population. This supports the concept of compensatory ovarian hypertrophy. This knowledge provides valuable information for interpretation of radiologic images in young female individuals who have undergone oophorectomy, and can assist with counseling on the risk of adnexal complications due to ovarian hypertrophy after unilateral oophorectomy.
Background: Although the radiographic features of coronavirus disease 2019 (COVID-19) in children have been described, the distinguishing features of multisystem inflammatory syndrome in children (MIS-C) associated with COVID-19 are not well characterized. Objective: We compared the chest radiographic findings of MIS-C with those of COVID-19 and described other distinguishing imaging features of MIS-C. Materials and methods: We performed a retrospective case series review of children ages 0 to 18 years who were hospitalized at Children’s Healthcare of Atlanta from March to May 2020 and who either met the Centers for Disease Control and Prevention (CDC) case definition for MIS-C (n=11) or who had symptomatic, laboratory-confirmed COVID-19 (n=16). Two radiologists reviewed the most severe chest radiographs for each patient. The type and distribution of pulmonary opacities and presence or absence of pleural effusions were recorded. The chest radiographs were categorized based on potential COVID-19 imaging findings as typical, indeterminate, atypical or negative. An imaging severity score was also assigned using a simplified version of the Radiographic Assessment of Lung Edema Score. Findings were statistically compared between patients with MIS-C and those with COVID-19. Additional imaging findings of MIS-C were also described. Results: Radiographic features of MIS-C included pleural effusions (82% [9/11]), pulmonary consolidations (73% [8/11]) and ground glass opacities (91% [10/11]). All of the lung opacities (100% [10/10]) were bilateral, and the majority of the pleural effusions (67% [6/9]) were bilateral. Compared to children with COVID-19, children with MIS-C were significantly more likely to develop pleural effusions on chest radiograph (82% [9/11] vs. 0% [0/0], P-value <0.01) and a lower zone predominance of pulmonary opacifications (100% [10/10] vs. 38% [5/13], P-value <0.01). Children with MIS-C who also had abdominal imaging had intra-abdominal inflammatory changes. Conclusion: Key chest radiographic features of MIS-C versus those of COVID-19 were pleural effusions and lower zone pulmonary opacifications as well as intra-abdominal inflammation. Elucidating the distinguishing radiographic features of MIS-C may help refine the case definition and expedite diagnosis and treatment.