9 Reporting in Brachytherapy: Dose and Volume Specification
212 Reporting in Brachytherapy
42. ICRU, International Commission on Radiation Units and Measurements. "Dose specification for reporting external beam therapy with photons and electrons". ICRU Report 29 1978; Bethesda, Maryland, USA. 43. ICRU, International Commission on Radiation Units and Measurements "Dose and volume specification for reporting intracavitary therapy in gynecology". ICRU Report 38 1985; Bethesda, Maryland, USA. 44. ICRU, International Commission on Radiation Units and Measurements, "Prescribing, recording and reporting photon beam therapy". ICRU Report 50 1993; Bethesda, Maryland, USA. 45. ICRU, International Commission on Radiation Units and Measurements, "Dose and volume specification for reporting interstitial therapy". ICRU Report 58 1997; Bethesda, Maryland, USA. 46. ICRU, International Commission on Radiation Units and Measurements, Fundamental quantities and units for ionizing radiation. ICRU Report 60 1998; Bethesda, Maryland, USA. 47. ICRU, International Commission on Radiation Units and Measurements, "Prescribing, recording and reporting photon beam therapy" (Supplement to ICRU report 50) ICRU Report 62 1999; Bethesda, Maryland, USA. 48. ICRU, International Commission on Radiation Units and Measurements, "Dosimetry of beta- ray and low-energy photon brachytherapy sources" (Summary of ICRU Report 68; H.Järvinen, R.S.Caswell, W.G.Cross, et al.) ICRU NEWS 2000; Internet Edition, # 3: http://www.icru.org/. 49. Joslin CA, Flynn A, Hall EJ. Using afterloading systems. Principles and practice of brachytherapy 2001; Arnold, London. 50. Joslin CA, Liversage WE, Ramsay NW. High dose-rate treatment moulds by afterloading techniques. Br J Radiol 1969; 42 : 108-12. 51. Kapp KS, Stuecklschweiger GF, Kapp DS, et al. Dosimetry of intracavitary placements for uterine and cervical carcinoma: results of orthogonal film, TLD, and CT assisted techniques. Radiother Oncol 1992; 24 :137- 46. 52. Kolkman-Deurloo IKK, Visser AG, Niël CGJH, et al. Optimization of interstitial volume implants. Radioth Oncol 1994; 31 : 229-39. 53. Kottmeier HL. Surgical and radiation treatment of carcinoma of the uterine cervix. Experience by the current individualized Stockholm Technique. Acta Obstet Gynecol Scand 1964. 43 (suppl.2): 1-48. 54. Kottmeier HL. Radiotherapy in carcinoma of the cervix (cancer colli uteri). In Carcinoma of the Female Genitalia 1953; Williams & Wilkins Co, Baltimore: 49-95. 55. Laarse R, van der, see [106]. 56. Leborgne F, Fowler JF, Leborgne JH, et al. Biologically effective doses in medium dose rate brachytherapy of cancer of the cervix. Radiat Oncol Invest 1997; 5 : 289-99. 57. Ling CC, Schell MC, Working KR, et al. CT assisted assessment of bladder and rectum dose in gynecological implants. Radiother Oncol 1987; 13 : 1577-82. 58. Ling CC, Gromadski ZC. Activity uniformity of 192 Ir seeds. Int J Radiat Oncol Biol Phys 1981; 7 : 665-69. 59. Logsdon MD, Eifel PJ. FIGO IIIB squamous cell carcinoma of the cervix : an analysis of prognostic factors emphasizing the balance between external beam and intracavitary radiation therapy. Int J Radiat Oncol Biol Phys 1999; 43 : 763-75. 60. Mallinckrodt Medical BV, Westduinweg 3, NL-1755 LE, Petten, The Netherlands 61. Mallinckrodt, 675 McDonnel Blvd, P. O. Box 5840, St. Louis, MO 63134, USA. 62. Martinez-Monge R, Fernandes PS, Gahbauer R. Cross-sectional nodal atlas: a tool for the definition of clinical target volumes in three-dimensional radiation therapy planning. Radiology 1999; 211 : 815-28. 63. McCrae D, Rodgers J, Dritschilo A. Dose-volume and complication in interstitial implants for breast carcinoma. Int J Radiat Oncol Biol Phys 1987; 13 : 525-29. 64. Meredith WJ. Radium dosage: The Manchester System, Livingstone, Edinburgh. 1967
Made with FlippingBook flipbook maker