Eike Hein scite author profile

The objective of this study was to evaluate the diagnostic yield of multislice CT using a radiation dose equivalent to that of conventional abdominal x-ray (KUB). One hundred forty-two patients were prospectively examined with ultrasound and a radically dose-reduced CT protocol (120 kV, 6.9 eff. mAs). Number and size of calculi, presence of urinary obstruction, and alternative diagnoses were recorded and confirmed by stone removal/discharge or by clinical and imaging follow-up. The mean effective whole-body dose was 0.5 mSv in men and 0.7 mSv in women. The sensitivity and specificity in detecting patients with calculi was 97% and 95% for CT and 67% and 90% for ultrasound. Urinary obstruction was similarly assessed, whereas CT identified significantly more alternative diagnoses than ultrasound (P<0.001). With regard to published data for standard-dose CT, the present CT protocol seems to be comparable in its diagnostic yield in assessing patients with calculi, and its radiation dose is equivalent to that of KUB.

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Dynamic and Quantitative Assessment of Tracheomalacia by Electron Beam Tomography: Correlation with Clinical Symptoms and Bronchoscopy

Hein¹,

Rogalla²,

Hentschel³

et al. 2000

Journal of Computer Assisted Tomography

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Low-dose CT of the paranasal sinuses with eye lens protection: effect on image quality and radiation dose

et al. 2002

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The purpose of the study was to assess the effect of lens protection on image quality and radiation dose to the eye lenses in CT of the paranasal sinuses. In 127 patients referred to rule out sinusitis, an axial spiral CT with a lens protection placed on the patients eyes was obtained (1.5/2/1, 50 mAs, 120 kV). Coronal views were reconstructed at 5-mm interval. To quantify a subjective impression of image quality, three regions of interest within the eyeball were plotted along a line perpendicular to the protection at 2, 5, and 9 mm beneath skin level on the axial images. Additionally, dose reduction of a bismuth-containing latex shield was measured using a film-dosimetry technique. The average eyeball density was 17.97 HU (SD 3.7 HU). The relative increase in CT density was 180.6 (17.7), 103.3 (11.7), and 53.6 HU (9.2), respectively. There was no diagnostic information loss on axial and coronal views observed. Artifacts were practically invisible on images viewed in a bone window/level setting. The use of the shield reduced skin radiation from 7.5 to 4.5 mGy. The utilization of a radioprotection to the eye lenses in paranasal CT is a suitable and effective means of reducing skin radiation by 40%.

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Spasmolysis at CT Colonography: Butyl Scopolamine versus Glucagon

Rogalla¹,

Lembcke²,

Rückert³

et al. 2005

Radiology

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Eike Hein

Does Ultra-Low-Dose CT With a Radiation Dose Equivalent to That of KUB Suffice to Detect Renal and Ureteral Calculi?

Dynamic and Quantitative Assessment of Tracheomalacia by Electron Beam Tomography: Correlation with Clinical Symptoms and Bronchoscopy

Low-dose CT of the paranasal sinuses with eye lens protection: effect on image quality and radiation dose

Spasmolysis at CT Colonography: Butyl Scopolamine versus Glucagon

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