Juliette Thariat1, Jean-Daniel Grange2, Carlo Mosci3, Laurence Rosier4, Celia Maschi5, Francesco Lanza3, Anh Minh Nguyen2, Franck Jaspart6, Franck Bacin6, Nicolas Bonnin6, David Gaucher7, Wolfgang Sauerwein8, Gaelle Angellier9, Joel Hérault9, Jean-Pierre Caujolle5. 1. Department of Radiation Therapy, Cancer Center Antoine Lacassagne-Nice Sophia Antipolis University Hospital, Nice, France. Electronic address: jthariat@gmail.com. 2. Department of Ophthalmology, Eye University Clinic la Croix Rousse, Lyon, France. 3. Department of Ophthalmology, National Institute for Cancer Research, Mura Delle Cappucine, Genova, Italy. 4. Eye Clinic, Centre d'Exploration et de Traitement de la Retine et de la Macula, Bordeaux, France. 5. Department of Ophthalmology, Eye University Clinic Pasteur 2, Nice, France. 6. Department of Ophthalmology, Eye University Clinic Gabriel Montpied, Clermont Ferrand, France. 7. Department of Ophthalmology, Eye University Clinic, Hopital Civil, Strasbourg, France. 8. Department of Radiation Therapy, NCTeam, Strahlenklinik, Universitätsklinikum Essen, Essen, Germany. 9. Department of Radiation Therapy, Cancer Center Antoine Lacassagne-Nice Sophia Antipolis University Hospital, Nice, France.
Abstract
PURPOSE: In parapapillary melanoma patients, radiation-induced optic complications are frequent and visual acuity is often compromised. We investigated dose-effect relationships for the optic nerve with respect to visual acuity after proton therapy. METHODS AND MATERIALS: Of 5205 patients treated between 1991 and 2014, those treated using computed tomography (CT)-based planning to 52 Gy (prescribed dose, not accounting for relative biologic effectiveness correction of 1.1) in 4 fractions, with minimal 6-month follow-up and documented initial and last visual acuity, were included. Deterioration of ≥0.3 logMAR between initial and last visual acuity results was reported. RESULTS: A total of 865 consecutive patients were included. Median follow-up was 69 months, mean age was 61.7 years, tumor abutted the papilla in 35.1% of patients, and tumor-to-fovea distance was ≤3 mm in 74.2% of patients. Five-year relapse-free survival rate was 92.7%. Visual acuity was ≥20/200 in 72.6% of patients initially and 47.2% at last follow-up. A wedge filter was used in 47.8% of the patients, with a positive impact on vision and no impact on relapse. Glaucoma, radiation-induced optic neuropathy, maculopathy were reported in 17.9%, 47.5%, and 33.6% of patients, respectively. On multivariate analysis, age, diabetes, thickness, initial visual acuity and percentage of macula receiving 26 Gy were predictive of visual acuity. Furthermore, patients irradiated to ≥80% of their papilla had better visual acuity when limiting the 50% (30-Gy) and 20% (12-Gy) isodoses to ≤2 mm and 6 mm of optic nerve length, respectively. CONCLUSIONS: A personalized proton therapy plan with optic nerve and macular sparing can be used efficiently with good oncological and functional results in parapapillary melanoma patients.
PURPOSE: In parapapillary melanomapatients, radiation-induced optic complications are frequent and visual acuity is often compromised. We investigated dose-effect relationships for the optic nerve with respect to visual acuity after proton therapy. METHODS AND MATERIALS: Of 5205 patients treated between 1991 and 2014, those treated using computed tomography (CT)-based planning to 52 Gy (prescribed dose, not accounting for relative biologic effectiveness correction of 1.1) in 4 fractions, with minimal 6-month follow-up and documented initial and last visual acuity, were included. Deterioration of ≥0.3 logMAR between initial and last visual acuity results was reported. RESULTS: A total of 865 consecutive patients were included. Median follow-up was 69 months, mean age was 61.7 years, tumor abutted the papilla in 35.1% of patients, and tumor-to-fovea distance was ≤3 mm in 74.2% of patients. Five-year relapse-free survival rate was 92.7%. Visual acuity was ≥20/200 in 72.6% of patients initially and 47.2% at last follow-up. A wedge filter was used in 47.8% of the patients, with a positive impact on vision and no impact on relapse. Glaucoma, radiation-induced optic neuropathy, maculopathy were reported in 17.9%, 47.5%, and 33.6% of patients, respectively. On multivariate analysis, age, diabetes, thickness, initial visual acuity and percentage of macula receiving 26 Gy were predictive of visual acuity. Furthermore, patients irradiated to ≥80% of their papilla had better visual acuity when limiting the 50% (30-Gy) and 20% (12-Gy) isodoses to ≤2 mm and 6 mm of optic nerve length, respectively. CONCLUSIONS: A personalized proton therapy plan with optic nerve and macular sparing can be used efficiently with good oncological and functional results in parapapillary melanomapatients.
Authors: Marina Marinkovic; Lennart J Pors; Vincent van den Berg; Femke P Peters; Ann Schalenbourg; Leonidas Zografos; Alessia Pica; Jan Hrbacek; Sjoerd G Van Duinen; T H Khanh Vu; Jaco C Bleeker; Coen R N Rasch; Martine J Jager; Gregorius P M Luyten; Nanda Horeweg Journal: Cancers (Basel) Date: 2021-12-13 Impact factor: 6.639