Details

Autor(en) / Beteiligte

• Kamrava, Brandon
• Shah, Viraj N.
• Torres, Leonardo
• Sidani, Charif
• Saigal, Gaurav
• Hoffer, Michael E.
• Szczupak, Mikhaylo B.

Titel

Utilization of computed tomography in pediatric temporal fractures: A dose reduction approach

Ist Teil von

• American journal of otolaryngology, 2023-03, Vol.44 (2), p.103768-103768, Article 103768

Ort / Verlag

United States: Elsevier Inc

Erscheinungsjahr

2023

Link zum Volltext

Quelle

MEDLINE

Beschreibungen/Notizen

• 1)Determine the sensitivity and specificity of CT brain to detect temporal bone fractures.2)Calculate the additional ionizing radiation exposure incurred from a TBCT. Retrospective chart review was performed of pediatric patients who underwent CT brain as part of a trauma pan-scan and dedicated temporal bone CT in the setting of head trauma. The original CT images were re-reviewed by two board certified Neuroradiologists in a blinded manner to determine the presence or absence of temporal bone fracture and if present, fracture line involvement of the 5 critical temporal bone anatomic structures. The dose length product (DLP), a measure of approximate total radiation dose delivered during CT scan (mGy-cm), was noted from the data available. There were 24 temporal bone fractures in a total of 29 patients (4 with bilateral fractures). There were 21 of 24 fractures that were correctly identified on trauma pan-scan CT with dedicated temporal bone CT considered as the diagnostic gold standard. There was a combined sensitivity and specificity of 91 % and 100 % respectively. The sensitivity and specificity in identifying involvement of critical structures were as follows: carotid canal (100 % and 100 %); ossicular chain (75 % and 100 %); tegmen tympani (60 % and 97.9 %); facial nerve canal (25 % and 100 %); otic capsule (N/A and 98.5 %). The median DLP for trauma pan-scan CT and temporal bone CT were 627 mGy-cm and 267 mGy-cm respectively. Dedicated TBCT is not required to accurately diagnose and characterize temporal bone fractures seen on trauma pan-scan CT. The radiation exposure of concurrent or subsequent dedicated temporal bone imaging is equal to approximately one half of the original trauma pan-scan CT. •Dedicated high resolution temporal bone computed tomography (TBCT) is not required for accurate diagnosis of temporal bone fractures in pediatric patients•TBCT contributes on average 30 % increase in total radiation exposure to pediatric patients who have already received a trauma pan scan•Clinical management of pediatric patients with temporal bone fractures likely not to change based on additional findings afforded by TBCT•TBCT should be considered on a case-by-case based on implications of identified site of injury and clinical picture