Retained metal fragments following esophageal button battery impaction.
Dotan YogevRaffi Lev-TzionOren LedderEsther Orlanski-MeyerElena ZharkovRuth Cytter-KuintPublished in: European journal of pediatrics (2021)
Button battery (BB) impaction in the esophagus requires immediate endoscopic removal and meticulous follow-up, including serial cross-sectional imaging, preferably with magnetic resonance imaging (MRI). However, BBs quickly degrade in the esophagus, and metallic fragments may remain in the injured mucosa following removal. This metallic debris can cause thermal injury during MRI, potentially aggravating local injury. We aimed to explore whether such metallic fragments could be identified on imaging following BB removal. In this study, we conducted a retrospective review of children (0-18 years) presenting with BB impaction in the esophagus between 2014 and 2020. Endoscopy reports and imaging studies were blindly reviewed by a pediatric gastroenterologist and a pediatric radiologist. Of 161 cases of battery ingestion, 14 (8%) underwent endoscopy, and in 9 (5%) a BB was impacted in the esophagus. The median time from ingestion to BB removal was 8 h (range 2-48 h). The median time from removal to CT was 44 h (range 0.5-104 h). BB appearance ranged from mild corrosion to visible debris. Pre-removal plain films showed irregular battery contour suggesting corrosion (5/7 plain films). In 7/9 CT scans (78%), high-attenuation esophageal content (median 266HU (range 140-1151)), which may represent metallic debris, was identified. Five patients had a follow-up CT which still showed gradual resolution of the high-attenuation content.Conclusions: we describe a new finding on CT following BB removal which might represent metallic debris. Clinicians should be aware of these findings which potentially may be harmful during MRI used in the ongoing assessment of esophageal injury. What is Known: • Button batteries are a dangerous pediatric foreign body with potentially fatal vascular complications. What is New: • Metallic debris was identified on computerized tomography following button battery removal in most children. • We bring to attention this new finding which may affect clinical management, as minimal metallic content can cause burns during MRI.
Keyphrases
- contrast enhanced
- magnetic resonance imaging
- growth factor
- computed tomography
- dual energy
- recombinant human
- high resolution
- diffusion weighted imaging
- cross sectional
- magnetic resonance
- image quality
- end stage renal disease
- newly diagnosed
- young adults
- risk factors
- palliative care
- chronic kidney disease
- emergency department
- ejection fraction
- solid state
- single molecule
- ionic liquid
- room temperature
- clinical decision support
- childhood cancer