Patient dose from 3D rotational neurovascular studies.

The use of image-guided interventional radiological techniques is increasing in prevalence and complexity. Imaging system developments have helped improve the information available to interventionalists to plan and guide procedures. Information on doses to patients resulting from alternative imaging techniques or protocols is useful for both the process of justifying particular procedures and in optimizing the resultant exposures. Such information is not always available, especially for new or developing imaging techniques. We have undertaken a study of doses to patients associated with two alternative imaging methods for pre-intervention assessment of intracranial aneurysms. In the first technique the aneurysm is assessed from a series of digital subtraction angiography (DSA) runs taken at different imaging projections. The second technique involved acquiring images from one single image run while the imaging system rotated 180 degrees around the patient's head. In this technique, the aneurysm was then evaluated from a 3D reconstruction of the projection images. Effective doses were calculated using a computer model to simulate the exposure geometry and parameters. The mean dose from the DSA protocol used at our centre was 3.4 mSv and from the 3D rotational angiography (RA) technique was 0.20 mSv.

[1]  W. Huda,et al.  Patient size and x-ray technique factors in head computed tomography examinations. I. Radiation doses. , 2004, Medical physics.

[2]  J. Geleijns,et al.  Monte Carlo calculations for assessment of radiation dose to patients with congenital heart defects and to staff during cardiac catheterizations. , 2003, The British journal of radiology.

[3]  Y Trousset,et al.  Intracranial aneurysms: clinical value of 3D digital subtraction angiography in the therapeutic decision and endovascular treatment. , 2001, Radiology.

[4]  C. McKinstry,et al.  Absorbed dose and deterministic effects to patients from interventional neuroradiology. , 2000, The British journal of radiology.

[5]  H. Brückmann,et al.  Three-dimensional reconstructed rotational digital subtraction angiography in planning treatment of intracranial aneurysms , 2000, European Radiology.

[6]  J. Wade Estimation of effective dose in diagnostic radiology from entrance surface dose and dose-area product measurements. , 1998, The British journal of radiology.

[7]  S. Evans Catalogue of Diagnostic X-Ray Spectra and Other Data , 1998 .

[8]  B. McParland,et al.  A study of patient radiation doses in interventional radiological procedures. , 1998, The British journal of radiology.

[9]  Michael Grass,et al.  3D rotational angiography: Clinical value in endovascular treatment , 1998 .

[10]  K. Faulkner,et al.  Patient and staff dosimetry in neuroradiological procedures. , 1995, The British journal of radiology.

[11]  V. Macellari,et al.  Electrothrombosis of saccular aneurysms via endovascular approach. Part 1: Electrochemical basis, technique, and experimental results. , 1991, Journal of neurosurgery.

[12]  L. Feldkamp,et al.  Practical cone-beam algorithm , 1984 .

[13]  R. Sievert,et al.  Book Reviews : Recommendations of the International Commission on Radiological Protection (as amended 1959 and revised 1962). I.C.R.P. Publication 6. 70 pp. PERGAMON PRESS. Oxford, London and New York, 1964. £1 5s. 0d. [TB/54] , 1964 .