Further reading

Q

uantitative

E

stimates of

N

ormal

T

issue

E

ffects in

C

linic : Joint AAPM-ASTRO

initiative published Int J Rad Oncol Biol Physics 76 No.3 supplement 2010

Burman C, Kutcher B, Emami B et al. Fitting of normal tissue tolerance data to

an analytical function. Int J Radiat Oncol Biol Physics 21: 123-35, 1991.

Dale RG et al. Practical methods for compensation for missed treatment days in

radiotherapy with particular reference to head and neck schedules. Clin Onc

14:382-93, 2002.

Emami B, Lyman J, Brown A et al. Tolerance of normal tissue to therapeutic

irradiation. Int J Radiat Oncol Biol Phys 21: 109-22, 1991.

Kong et al. Physical models and simpler dosimetric descriptors of radiation late

toxicity. Semin Radiat Oncol 17(2):108-120, 2007.

Milano MT, Constine LS, Okunieff P. Normal tissue tolerance dose metrics for

radiation therapy of major organs. Semin Radiat Oncol 17(2): 131-40, 2007.

Nieder C, Grosu AL, Andratschke NH et al. Update of human spinal cord re-

irradiation dose based on collection of data from 38 patients. Int J Radiat

Oncol Biol Physics 66: 1446-49, 2006.

Joiner M and van der Kogel A (4th Edition) Basic Clinical Radiobiology. London

: Hodder Arnold, 2009.

Yorke ED. Modelling the effects of inhomogeneous dose distributions in normal

tissues. Semin Radiat Oncol 11:197-209, 2001.