External Stereotactic Irradiation by Linear Accelerator

Overview

Journal Neurosurgery

Specialty Neurosurgery

Date 1985 Feb 1

PMID 3883221

Citations 28

Authors

F Colombo

A Benedetti

F Pozza

R C Avanzo

C Marchetti

G CHIEREGO

A Zanardo

Affiliations

Soon will be listed here.

Abstract

Stereotactic radiotherapy has two advantages: (a) the possibility of giving high radiation doses to small but spatially well-defined target volumes and (b) the presence of a stepped dose gradient between the target volume and the surrounding healthy tissues. To utilize these advantages, the authors built a new stereotactic head frame by which the intracranial target is fixed to the rotational isocenter of a 4-MV linear accelerator. The collimator openings are selected according to the volume and the three-dimensional configuration of the target, and the radiation dose is based on the radiosensitivity of the lesion. After the patient is fixed to the frame, the radiation source and the patient are rotated so that the target is irradiated through infinite portals distributed over the convexity of the skull. It is thereby possible to obtain very high radiation doses centered into the target with a stepped dose gradient. The preliminary radiodosimetric tests and the operative technique are described. The advantages of this technique compared to interstitial radiotherapy and Leksell's radiosurgery are emphasized. This noninvasive procedure has been used to treat a series of intracranial tumors.

Citing Articles

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Potential Clinical Significance of Overall Targeting Accuracy and Motion Management in the Treatment of Tumors That Move With Respiration: Lessons Learnt From a Quarter Century of Stereotactic Body Radiotherapy From Dose Response Models.

Mahadevan A, Emami B, Grimm J, Kleinberg L, Redmond K, Welsh J Front Oncol. 2021; 10:591430.

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The evolution of stereotactic radiosurgery in neurosurgical practice.

Trifiletti D, Ruiz-Garcia H, Quinones-Hinojosa A, Ramakrishna R, Sheehan J J Neurooncol. 2021; 151(3):451-459.

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Stereotactic radiosurgery with MLC-defined arcs: Verification of dosimetry, spatial accuracy, and end-to-end tests.

Brezovich I, Wu X, Popple R, Covington E, Cardan R, Shen S J Appl Clin Med Phys. 2019; 20(5):84-98.

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Stereotactic radiosurgery of intracranial tumors: a comparison of intensity-modulated radiosurgery and dynamic conformational arc.

Dellaretti M, Pereira J, Tagawa E, Pedrini M J Radiosurg SBRT. 2018; 1(4):273-280.

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