M. Palacios
VU University Medical Center
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Publication
Featured researches published by M. Palacios.
Radiotherapy and Oncology | 2016
O. Bohoudi; A. Bruynzeel; Frank J. Lagerwaard; Johan P. Cuijpers; Ben J. Slotman; M. Palacios
PURPOSE/OBJECTIVE(S) Radionecrosis (RN) has previously been correlated with radiosurgery (RS) dose, lesion volume, and the volume of the brain receiving specific doses, i.e. V10-14Gy. A knowledge-based individualized estimation of the optimum RS dose has been derived based on lesional volume and brain toxicity parameters. METHODS AND MATERIALS A prediction model for brain toxicity parameters and estimation of the optimum RS dose was derived using 30 historical linac-based dynamic conformal arc RS plans for single brain metastases (BM) (0.2-20.3cc) with risk-adapted dose prescription ranging from 15 to 24Gy. Derivation of the model followed a three-step process: (1) Derivation of formulas for the prediction of brain toxicity parameters V10-18Gy; (2) Establishing the relationship of the coefficients used for the prediction of V12Gy with prescription dose; (3) Derivation of the optimum prescription dose for a given maximum V12Gy as a function of a given lesion volume. Model validation was performed on 65 new patients with 138 lesions (44 with multiple BM) treated with non-coplanar volumetric modulated stereotactic arc treatment (VMAT). RESULTS A linear dependence with the PTV size was found for all investigated brain toxicity parameters (V10-18Gy). Individualized RS prescription doses can be calculated for any given PTV size based on a linear relationship between V12Gy and PTV size, according to the formula PD=[V12Gy+0.96+(1.44×PTV)]/[0.12+(0.12×PTV)]. A very good correlation (R(2)=0.991) was found between the predicted V12Gy and the resulting V12Gy in 65 new patients with 138 lesions treated with non-coplanar VMAT technique in our clinic. CONCLUSIONS A simple formula is proposed for estimation of the optimal individual RS dose for any given lesion volume for patients with (multiple) BM. This formula is based on calculation of the brain toxicity parameter, V12Gy, for the normal brain minus PTV.
Radiotherapy and Oncology | 2017
A. Bruynzeel; Frank J. Lagerwaard; O. Bohoudi; S. Tetar; N. Haasbeek; Swie Swat Oei; B.J. Slotman; M. Meijerink; S. Senan; M. Palacios
Purpose or Objective The duodenum is the primary dose-limiting organ when performing SBRT for locally advanced pancreatic cancer (LAPC). With technical and imaging advancements, the incidence of grade ≥3 small bowel toxicity (bleeding, perforation, strictures) has decreased to
International Journal of Radiation Oncology Biology Physics | 2017
F.J. Lagerwaard; A. Bruynzeel; S. Tetar; Swie Swat Oei; Cornelis J.A. Haasbeek; B.J. Slotman; S. Senan; O. Bohoudi; M. Palacios
Radiotherapy and Oncology | 2018
D. Hoffmans; O. Bohoudi; N. Niebuhr; A. Pfaffenberger; L. Battum; B.J. Slotman; M. Palacios; A. Bruynzeel; F.J. Lagerwaard
Radiotherapy and Oncology | 2018
O. Bohoudi; M. Palacios; B.J. Slotman; S. Senan; A. Bruynzeel; F.J. Lagerwaard
Radiotherapy and Oncology | 2018
O. Bohoudi; A. Bruynzeel; Suresh Senan; Johan P. Cuijpers; B.J. Slotman; Frank J. Lagerwaard; M. Palacios
International Journal of Radiation Oncology Biology Physics | 2018
M. Palacios; O. Bohoudi; A. Bruynzeel; John R. van Sörsen de Koste; Paul Cobussen; Ben J. Slotman; Frank J. Lagerwaard; Suresh Senan
International Journal of Radiation Oncology Biology Physics | 2018
B.J. Slotman; M. Palacios; O. Bohoudi; A. Bruynzeel; F.J. Lagerwaard; S. Senan
International Journal of Radiation Oncology Biology Physics | 2018
John R. van Sörnsen de Koste; M. Palacios; A. Bruynzeel; Ben J. Slotman; Suresh Senan; Frank J. Lagerwaard
Radiotherapy and Oncology | 2017
O. Bohoudi; A. Bruynzeel; B.J. Slotman; Suresh Senan; Frank J. Lagerwaard; M. Palacios
