Craniofacial Trauma, An Issue of Neuroimaging Clinics -  Deborah R. Shatzkes

Craniofacial Trauma, An Issue of Neuroimaging Clinics (eBook)

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2014 | 1. Auflage
348 Seiten
Elsevier Health Sciences (Verlag)
978-0-323-32037-5 (ISBN)
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Editor Deborah Shatzkes and authors review important areas in Craniofacial Trauma. Articles will include: Optimizing craniofacial CT technique, Orbital and facial fractures, Orbital and facial soft tissue injuries, Skull base fractures and their complications, Temporal bone trauma, Pediatric considerations in craniofacial trauma, Cerebrovascular trauma, Surgical perspectives in craniofacial trauma, and more!
Editor Deborah Shatzkes and authors review important areas in Craniofacial Trauma. Articles will include: Optimizing craniofacial CT technique, Orbital and facial fractures, Orbital and facial soft tissue injuries, Skull base fractures and their complications, Temporal bone trauma, Pediatric considerations in craniofacial trauma, Cerebrovascular trauma, Surgical perspectives in craniofacial trauma, and more!

Optimizing Craniofacial CT Technique


Hemant A. Parmar, MDahparmar@umich.eduparurad@hotmail.com, Mohannad Ibrahim, MDa and Suresh K. Mukherji, MD, MBAb,     aDepartment of Radiology, University of Michigan Health System, 1500 East Medical Center Drive, Ann Arbor, MI 48109, USA; bDepartment of Radiology, Michigan State University, 846 Service Road, East Lansing, MI 48824, USA

∗Corresponding author. Department of Radiology, University of Michigan, Taubman Center/B1/132 F, 1500 East Medical Center Drive, Ann Arbor, MI 48105.

Over the last two decades, there has been a marked increase in the number of computed tomography (CT) studies performed in the United States, with a resultant increase in the radiation dose delivered to patients. Hence there is an urgent need to optimize CT protocols and to get familiar with the factors affecting the CT radiation dose and with available dose reduction options. This article discusses the basic physics related to CT technique and describes current and future methods of dose reduction. Also briefly described are other CT techniques applicable in the maxillofacial region, such as three-dimensional CT, cone beam CT, and dual-energy CT.

Keywords

Maxillofacial

CT

Technique

Optimization

Key points


• Over the last decade there has been escalating concern regarding the increasing radiation exposure stemming from CT examinations.

• It is becoming increasingly important to optimize CT imaging protocols and to apply dose-reduction techniques to ensure optimal imaging with the lowest possible dose.

• Several other advancements of CT technique applicable to the craniofacial region including three-dimensional CT, cone beam CT, and dual-energy CT are now widely used to best possible information about various craniofacial pathologies.

Introduction


Technological advances in computed tomography (CT) have generated a dramatic increase in the number of CT studies, with resultant increase in the radiation dose to patients. CT accounts for less than 20% of medical imaging studies, but approximately 60% of diagnostic imaging radiation dose.1 Newer developments and usage of ultrasound and magnetic resonance imaging have failed to substantially reduce the overall number of CT examinations. In many instances, the CT scan is the first and only diagnostic imaging examination performed. In addition, advent of helical multidetector CT techniques with rapid acquisition times and newer applications, such as CT angiography, perfusion CT, and dual-energy CT, have led to a further increase in CT examinations. The overall increase in radiation dose is causing increasing concern among the radiologic community and general public alike.

The US Food and Drug Administration has established guidelines to address the growing concern over CT-associated radiation dose.2 Their recommendations center on optimizing CT protocols and encouraging elimination of inappropriate CT referrals and unnecessary repeat examinations. The basic pillars of dose reduction include justification of the study and eliminating inappropriate CT referrals, limiting scan range to the region of interest, limiting the number of contrast phases, and use of a relatively large pitch (Box 1). The goal is a radiation dose as low as reasonably achievable. Radiation dose delivered to the patient is proportional to the amount of energy delivered by the photons within the x-ray beam. This depends on the number of the photons and the individual photon energy, which is dictated by the image acquisition parameters, such as kilovoltage (kilovolt [peak]), tube current (milliampere), and x-ray tube rotation time along with such other factors as slice thickness, scan coverage, and pitch. Additionally, body habitus and size of the patient are important factors for the radiation dose delivered, especially for pediatric patients and small adults. There have been several advances in dose reduction techniques. These include tube current modulation, peak voltage optimization, noise reduction reconstruction algorithms, adaptive dose collimation, and improved detection system efficiency. It is imperative for practicing radiologists to be familiar with these dose reduction techniques and to optimize the imaging protocols to get the best possible images with the least possible dose.

Box 1   Pillars of CT dose reduction

• Justification of the CT study/elimination of inappropriate CT referrals

• Limiting CT scan range to the region of interest

• Limiting the number of contrast phases

• Use of a relatively large pitch

• Use of automated tube current modulation

• Use of adaptive dose shielding

• Use of newer image reconstruction algorithms

This article discusses the basic physics related to CT technique and describes current and future methods of dose reduction. Also briefly described are other CT techniques applicable in the maxillofacial region, such as three-dimensional CT, cone beam CT (CBCT), and dual-energy CT. We provide CT scanning parameters used at our institutions for the maxillofacial region in adults and children (Boxes 2 and 3).

Box 2   Maxillofacial CT parameters for adults

Scan type Helical
HiRes mode On
Gantry rot time/length 0.5 s full
Detector coverage 20 mm
Slice thickness 0.625 mm
Interval 0.625 mm
Pitch 0.969:1
Speed 19.37
kVp 100
mA 250
ASIR % 30
% of dose reduction None
Recon mode Plus
SFOV Head
DFOV 16–18
Algorithm HD Bone Plus
WW/WL 4000/1000

Generate axial, coronal, and sagittal reformats in both standard and bone algorithm

DFOV Optimize
Thickness 2.5 mm
Spacing 2.5 mm
Render mode Average
WW/WL (bone) 4000/1000
WW/WL (standard) 350/50

Box 3   Maxillofacial CT parameters for children

Scan type Helical
HiRes mode On
Gantry rot time/lengths 0.5 s full
Detector coverage 20 mm
Slice thickness 0.625 mm
Interval 0.625 mm
Pitch 0.531
Speed 10.62
kVp 100
mA 0–3 years 80
mA 3–12 years 100
mA 12+ years 120
ASIR % 30
% of dose reduction None
Recon mode Plus
SFOV Ped head
SFOV 12+ years Small head
DFOV Optmize
Algorithm HD Bone Plus
WW/WL 4000/1000

Generate axial, coronal, and sagittal reformats in both standard and bone algorithm

DFOV Optimize
Thickness 2 mm
Spacing 2 mm
Render mode Average
WW/WL (HD bone) 4000/1000
WW/WL (HD standard) 350/50

CT radiation dose measurement


CT scans involve continuous exposure around the patient by the rotating gantry...

Erscheint lt. Verlag 28.8.2014
Sprache englisch
Themenwelt Medizin / Pharmazie Medizinische Fachgebiete Neurologie
Medizinische Fachgebiete Radiologie / Bildgebende Verfahren Radiologie
ISBN-10 0-323-32037-6 / 0323320376
ISBN-13 978-0-323-32037-5 / 9780323320375
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