INTRODUCTION: Blunt abdominal trauma is a common problem in children. Computed tomography (CT) is the gold standard for imaging in pediatric blunt abdominal trauma, however up to 50% of CTs are normal and CT carries a risk of radiation-induced cancer. Contrast enhanced ultrasound (CEUS) may allow accurate detection of abdominal organ injuries while eliminating exposure to ionizing radiation. METHODS: Children aged 7-18years with a CT-diagnosed abdominal solid organ injury underwent grayscale/power Doppler ultrasound (conventional US) and CEUS within 48h of injury. Two blinded radiologists underwent a brief training in CEUS and then interpreted the CEUS images without patient interaction. Conventional US and CEUS images were compared to CT for the presence of injury and, if present, the injury grade. Patients were monitored for contrast-related adverse reactions. RESULTS: Twenty one injured organs were identified by CT in eighteen children. Conventional US identified the injuries with a sensitivity of 45.2%, which increased to 85.7% using CEUS. The specificity of conventional US was 96.4% and increased to 98.6% using CEUS. The positive predictive value increased from 79.2% to 94.7% and the negative predictive value from 85.3% to 95.8%. Two patients had injuries that were missed by both radiologists on CEUS. In a 100kg, 17year old female, a grade III liver injury was not seen by either radiologist on CEUS. Her accompanying grade I kidney injury was not seen by one of the radiologist on CEUS. The second patient, a 16year old female, had a grade III splenic injury that was missed by both radiologists on CEUS. She also had an adjacent grade II kidney injury that was seen by both. Injuries, when noted, were graded within 1 grade of CT 33/35 times with CEUS. There were no adverse reactions to the contrast. CONCLUSION: CEUS is a promising imaging modality that can detect most abdominal solid organ injuries in children while eliminating exposure to ionizing radiation. A multicenter trial is warranted before widespread use can be recommended. LEVEL OF EVIDENCE: Level II; Diagnostic Prospective Study.
INTRODUCTION: Blunt abdominal trauma is a common problem in children. Computed tomography (CT) is the gold standard for imaging in pediatric blunt abdominal trauma, however up to 50% of CTs are normal and CT carries a risk of radiation-induced cancer. Contrast enhanced ultrasound (CEUS) may allow accurate detection of abdominal organ injuries while eliminating exposure to ionizing radiation. METHODS:Children aged 7-18years with a CT-diagnosed abdominal solid organ injury underwent grayscale/power Doppler ultrasound (conventional US) and CEUS within 48h of injury. Two blinded radiologists underwent a brief training in CEUS and then interpreted the CEUS images without patient interaction. Conventional US and CEUS images were compared to CT for the presence of injury and, if present, the injury grade. Patients were monitored for contrast-related adverse reactions. RESULTS: Twenty one injured organs were identified by CT in eighteen children. Conventional US identified the injuries with a sensitivity of 45.2%, which increased to 85.7% using CEUS. The specificity of conventional US was 96.4% and increased to 98.6% using CEUS. The positive predictive value increased from 79.2% to 94.7% and the negative predictive value from 85.3% to 95.8%. Two patients had injuries that were missed by both radiologists on CEUS. In a 100kg, 17year old female, a grade III liver injury was not seen by either radiologist on CEUS. Her accompanying grade I kidney injury was not seen by one of the radiologist on CEUS. The second patient, a 16year old female, had a grade III splenic injury that was missed by both radiologists on CEUS. She also had an adjacent grade II kidney injury that was seen by both. Injuries, when noted, were graded within 1 grade of CT 33/35 times with CEUS. There were no adverse reactions to the contrast. CONCLUSION: CEUS is a promising imaging modality that can detect most abdominal solid organ injuries in children while eliminating exposure to ionizing radiation. A multicenter trial is warranted before widespread use can be recommended. LEVEL OF EVIDENCE: Level II; Diagnostic Prospective Study.
Authors: Harriet J Paltiel; Richard A Barth; Costanza Bruno; Aaron E Chen; Annamaria Deganello; Zoltan Harkanyi; M Katherine Henry; Damjana Ključevšek; Susan J Back Journal: Pediatr Radiol Date: 2021-05-12
Authors: Anush Sridharan; Misun Hwang; Shelby Kutty; M Beth McCarville; Harriet J Paltiel; Maciej Piskunowicz; Sphoorti Shellikeri; Elizabeth Silvestro; George A Taylor; Ryne A Didier Journal: Pediatr Radiol Date: 2021-05-15
Authors: M Beatrice Damasio; Lil-Sofie Ording Müller; Thomas A Augdal; Fred E Avni; Luca Basso; Costanza Bruno; Damjana Ključevšek; Annemieke S Littooij; Stéphanie Franchi-Abella; Luisa M Lobo; Hans-Joachim Mentzel; Marcello Napolitano; Aikaterini Ntoulia; Michael Riccabona; Samuel Stafrace; M Magdalena M Woźniak; Philippe Petit Journal: Pediatr Radiol Date: 2019-11-27
Authors: Dirk Stengel; Johannes Leisterer; Paula Ferrada; Axel Ekkernkamp; Sven Mutze; Alexander Hoenning Journal: Cochrane Database Syst Rev Date: 2018-12-12
Authors: Federico Coccolini; Ernest E Moore; Yoram Kluger; Walter Biffl; Ari Leppaniemi; Yosuke Matsumura; Fernando Kim; Andrew B Peitzman; Gustavo P Fraga; Massimo Sartelli; Luca Ansaloni; Goran Augustin; Andrew Kirkpatrick; Fikri Abu-Zidan; Imitiaz Wani; Dieter Weber; Emmanouil Pikoulis; Martha Larrea; Catherine Arvieux; Vassil Manchev; Viktor Reva; Raul Coimbra; Vladimir Khokha; Alain Chichom Mefire; Carlos Ordonez; Massimo Chiarugi; Fernando Machado; Boris Sakakushev; Junichi Matsumoto; Ron Maier; Isidoro di Carlo; Fausto Catena Journal: World J Emerg Surg Date: 2019-12-02 Impact factor: 5.469