Emmanuel Egger scite author profile

Emmanuel Egger

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40Publications

884Citation Statements Received

79Citation Statements Given

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Affiliations

Paul Scherrer Institute, INFN Sezione di Pisa, Istituto Superiore di Sanità

Publications

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Intensity modulated proton therapy: A clinical example

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et al. 2001

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In this paper, we report on the clinical application of fully automated three-dimensional intensity modulated proton therapy, as applied to a 34-year-old patient presenting with a thoracic chordoma. Due to the anatomically challenging position of the lesion, a three-field technique was adopted in which fields incident through the lungs and heart, as well as beams directed directly at the spinal cord, could be avoided. A homogeneous target dose and sparing of the spinal cord was achieved through field patching and computer optimization of the 3D fluence of each field. Sensitivity of the resultant plan to delivery and calculational errors was determined through both the assessment of the potential effects of range and patient setup errors, and by the application of Monte Carlo dose calculation methods. Ionization chamber profile measurements and 2D dosimetry using a scintillator/CCD camera arrangement were performed to verify the calculated fields in water. Modeling of a 10% overshoot of proton range showed that the maximum dose to the spinal cord remained unchanged, but setup error analysis showed that dose homogeneity in the target volume could be sensitive to offsets in the AP direction. No significant difference between the MC and analytic dose calculations was found and the measured dosimetry for all fields was accurate to 3% for all measured points. Over the course of the treatment, a setup accuracy of +/-4 mm (2 s.d.) could be achieved, with a mean offset in the AP direction of 0.1 mm. Inhalation/exhalation CT scans indicated that organ motion in the region of the target volume was negligible. We conclude that 3D IMPT plans can be applied clinically and safely without modification to our existing delivery system. However, analysis of the calculated intensity matrices should be performed to assess the practicality, or otherwise, of the plan.

Eye retention after proton beam radiotherapy for uveal melanoma

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et al. 2003

International Journal of Radiation Oncology*Biology*Physics

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Maximizing local tumor control and survival after proton beam radiotherapy of uveal melanoma

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et al. 2001

International Journal of Radiation Oncology*Biology*Physics

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Metastatic melanoma in the eye and orbit

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et al. 2003

Ophthalmology

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Proton beam irradiation of choroidal hemangiomas

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et al. 1998

American Journal of Ophthalmology

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Cobalt-60 Treatment of Choroidal Hemangiomas

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et al. 1996

American Journal of Ophthalmology

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Proton Irradiation of Feline Nasal Planum Squamous Cell Carcinomas Using an Accelerated Protocol

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et al. 2001

Vet Radiology Ultrasound

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Fifteen cats were treated for squamous cell carcinoma of the nasal planum using proton beam radiation. The protocol used was accelerated with eight equal fractions given on four consecutive days, with a minimum of six hours between fractions. Total dose of radiation delivered was escalated with nine cats receiving 40.4 CGE (60Co Gy equivalent), and three cats each receiving 42.4 and 44.8 CGE. Complete response to the protocol was 60% (9/15), partial response was 33% (5 of 15), and no response was seen in 6.6% (1 of 15). Tumor control rate at one year was 64% and no cat had tumor recurrence after one year. Median survival was 946 days (+/- 516 days). Side effects were minimal with no severe reactions noted in the early or late period. This protocol offers an effective treatment for squamous cell carcinoma of the feline nasal planum with minimal side effects and may be adaptable to conventional radiation sources particularly when the field size is very small.

Spot-scanning proton radiation therapy for recurrent, residual or untreated intracranial meningiomas

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et al. 2004

Radiotherapy and Oncology

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