BACKGROUND: Previous literature has underreported radiation exposure with the use of mini C-arm during pediatric forearm fracture reductions. The purpose of this study is to report an accurate amount of radiation exposure during fracture reductions using a mini C-arm that records the amount of kilovolts, milliamps, and the number of seconds of foot pedal use. METHODS: Eighty-six consecutive pediatric patients undergoing upper extremity fracture reduction in the emergency department were studied. The orthopaedic resident, either a PGY2 or PGY3, performed a manipulative reduction and casting of the fracture with use of the mini C-arm. Postreduction, in cast, anteroposterior and lateral images from the mini C-arm were saved to the computerized radiology system. The mini C-arm recorded the amount of kilovolts, milliamps, and the number of seconds that the foot pedal was used for each reduction. A radiology physicist (S.K.) calculated the amount of millirem (mR) exposure for each reduction from these data. RESULTS: The resident using the mini C-arm and the fracture pattern affected the amount of radiation exposure. The average mini C-arm mR exposure for distal radius fractures was 63 mR; forearm 109 mR; elbow 53 mR; and hand 69 mR. For comparison, conventional anteroposterior/lateral forearm radiographs emit an average of 20 mR. Less-experienced PGY2 residents had a higher mR exposure per reduction compared with PGY3 residents. CONCLUSIONS: Radiation exposure when using the mini C-arm for reduction of pediatric fractures has been underestimated in previous literature. Radiation from the mini C-arm exceeded that from conventional radiographs in most cases. We recommend that residents receive training about the use of the mini C-arm before its utilization as an aid to reduce pediatric fractures in the emergency department.
BACKGROUND: Previous literature has underreported radiation exposure with the use of mini C-arm during pediatric forearm fracture reductions. The purpose of this study is to report an accurate amount of radiation exposure during fracture reductions using a mini C-arm that records the amount of kilovolts, milliamps, and the number of seconds of foot pedal use. METHODS: Eighty-six consecutive pediatric patients undergoing upper extremity fracture reduction in the emergency department were studied. The orthopaedic resident, either a PGY2 or PGY3, performed a manipulative reduction and casting of the fracture with use of the mini C-arm. Postreduction, in cast, anteroposterior and lateral images from the mini C-arm were saved to the computerized radiology system. The mini C-arm recorded the amount of kilovolts, milliamps, and the number of seconds that the foot pedal was used for each reduction. A radiology physicist (S.K.) calculated the amount of millirem (mR) exposure for each reduction from these data. RESULTS: The resident using the mini C-arm and the fracture pattern affected the amount of radiation exposure. The average mini C-arm mR exposure for distal radius fractures was 63 mR; forearm 109 mR; elbow 53 mR; and hand 69 mR. For comparison, conventional anteroposterior/lateral forearm radiographs emit an average of 20 mR. Less-experienced PGY2 residents had a higher mR exposure per reduction compared with PGY3 residents. CONCLUSIONS: Radiation exposure when using the mini C-arm for reduction of pediatric fractures has been underestimated in previous literature. Radiation from the mini C-arm exceeded that from conventional radiographs in most cases. We recommend that residents receive training about the use of the mini C-arm before its utilization as an aid to reduce pediatric fractures in the emergency department.
Authors: David Gendelberg; William Hennrikus; Jennifer Slough; Douglas Armstrong; Steven King Journal: Clin Orthop Relat Res Date: 2015-11-13 Impact factor: 4.176