New, complex radiotherapy delivery techniques require dosimeters that are a
ble to measure complex three-dimensional dose distributions accurately and
with good spatial resolution. Polymer gel is an emerging new dosimeter bein
g applied to these challenges. The aim of this review is to present a pract
ical overview of polymer gel dosimetry, including gel manufacture, imaging,
calibration and application to radiotherapy verification. The dosimeters c
onsist of a gel matrix within which is suspended a solution of acrylic mole
cules. These molecules polymerize upon exposure to radiation, with the degr
ee of polymerization being proportional to absorbed dose. The polymer distr
ibution can be measured in two or three dimensions using MRI or optical tom
ography and, after calibration, the images can be converted into radiation
dose distributions. Manufacture of the gel is reported to be reproducible,
and measured dose in the range 0-10 Gy is accurate to within 3-5%. In-plane
image resolution of 1 mm x 1 mm, with image slice thicknesses of between 2
-5 mm, is typically achievable using clinical 1.5 T MR scanners and standar
d T-2 weighted imaging sequences. The gels have been used to verify a numbe
r of conventional and novel radiotherapy modalities, including brachytherap
y, intensity modulated radiotherapy and stereotactic radiosurgery. All the
studies have confirmed the value and versatility of the dosimetry technique
.