21. Bucholtz JD. Comforting children during radiotherapy. Oncol. Nurs. Forum 1994; 21(6):987–94. 22. Brody AS, Frush DP, Huda W, Brent RL. Radiation Risk to Children From Computed Tomography.
Pediatrics 2007; 120(3):677–682.
23. De Jong R, Lens E, Van Herk M et al. Optimizing cone-beam CT presets for children to reduce
imaging dose illustrated with craniospinal axis. Radiother. Oncol. 2014; 111:S109–S110.
24. Slovis TL. Children, computed tomography radiation dose, and the As Low As Reasonably
Achievable (ALARA) concept. Pediatrics 2003; 112(4):971–972.
25. Miglioretti DL, Johnson E, Williams A et al. The Use of Computed Tomography in Pediatrics and
the Associated Radiation Exposure and Estimated Cancer Risk. JAMA Pediatr. 2013; 167(8):700. 26. Lens E, van der Horst A, Kroon PS et al. Differences in respiratory-induced pancreatic tumor motion between 4D treatment planning CT and daily cone beam CT, measured using
intratumoral fiducials. Acta Oncol. (Madr). 2014; 53(9):1257–1264.
27. Rombi B, Vennarini S, Vinante L et al. Proton radiotherapy for pediatric tumors: review of first
clinical results. Ital. J. Pediatr. 2014; 40(1):74.
28. Timmermann B. Proton Beam Therapy for Childhood Malignancies: Status Report. Klin.
Pädiatrie 2010; 222(03):127–133.
29. Engelsman M, Schwarz M, Dong L. Physics Controversies in Proton Therapy. Semin. Radiat.
Oncol. 2013; 23(2):88–96.
30. Kavanagh A, Evans PM, Hansen VN, Webb S. Obtaining breathing patterns from any sequential
thoracic x-ray image set. Phys. Med. Biol. 2009; 54(16):4879–4888.
31. Marchant TE, Amer AM, Moore CJ. Measurement of inter and intra fraction organ motion in
radiotherapy using cone beam CT projection images. Phys. Med. Biol. 2008; 53(4):1087–1098. 32. Rit S, van Herk M, Zijp L, Sonke J-J. Quantification of the Variability of Diaphragm Motion and
Implications for Treatment Margin Construction. Int. J. Radiat. Oncol. 2012; 82(3):e399–e407. 33. Chen M, Bai J, Siochi RAC. A new method of diaphragm apex motion detection from 2D
projection images of mega-voltage cone beam CT. Phys. Med. Biol. 2013; 58(3):715–733.
34. Zijp L, Sonke J-J, van Herk M. Extraction of the respiratory signal from sequential thorax cone-
beam X-ray images. onf Use Comput Radiat Ther (ICCR)., 2004:507–509.
35. Balter JM, Ten Haken RK, Lawrence TS et al. Uncertainties in CT-based radiation therapy treatment planning associated with patient breathing. Int. J. Radiat. Oncol. 1996; 36(1):167–
174.
36. de Boer HCJ, Heijmen BJM. eNAL: An Extension of the NAL Setup Correction Protocol for
Effective Use of Weekly Follow-up Measurements. Int. J. Radiat. Oncol. 2007; 67(5):1586–1595. 37. Seppenwoolde Y, Shirato H, Kitamura K et al. Precise and real-time measurement of 3D tumor motion in lung due to breathing and heartbeat, measured during radiotherapy. Int. J. Radiat.
Oncol. 2002; 53(4):822–834.
38. Liu HH, Balter P, Tutt T et al. Assessing Respiration-Induced Tumor Motion and Internal Target
Volume Using Four-Dimensional Computed Tomography for Radiotherapy of Lung Cancer. Int.
J. Radiat. Oncol. 2007; 68(2):531–540.
39. Lens E, van der Horst A, Versteijne E et al. Considerable pancreatic tumor motion during breath-
holding. Acta Oncol. (Madr). 2016; 55(11):1360–1368.
40. Kuhns LR, Berger PE, Zierolf E, Spielman S. Duration of voluntary apnea in children. Radiology
1979; 132(2):355.
41. To DT, Kim JP, Price RG et al. Impact of incorporating visual biofeedback in 4D MRI. J. Appl. Clin.
Med. Phys. 2016; 17(3):128–137.
42. Lagendijk JJW, Raaymakers BW, van Vulpen M. The Magnetic Resonance Imaging–Linac System.
Semin. Radiat. Oncol. 2014; 24(3):207–209.
43. Seregni M, Paganelli C, Lee D et al. Motion prediction in MRI-guided radiotherapy based on
interleaved orthogonal cine-MRI. Phys. Med. Biol. 2016; 61(2):872–887.
44. Kubo HD, Hill BC. Respiration gated radiotherapy treatment: a technical study. Phys. Med. Biol.
1996; 41(1):83–91.
45. Kini VR, Vedam SS, Keall PJ et al. Patient training in respiratory-gated radiotherapy. Med. Dosim.
90