In:
Medical Physics, Wiley, Vol. 32, No. 6Part1 ( 2005-06), p. 1571-1578
Abstract:
The dose released to the patient skin during a radiotherapy treatment is important when the skin is an organ at risk, or on the contrary, is included in the target volume. Since most treatment planning programs do not predict dose within several millimeters of the body surface, it is important to have a method to verify the skin dose for the patient who is undergoing radiotherapy. A special type of metal oxide semiconductors field‐effect transistors (MOSFET) was developed to perform in vivo skin dosimetry for radiotherapy treatments. Water‐equivalent depth (WED), both manufacturing and sensor reproducibility, dependence on both field size and angulation of the sensor were investigated using photon beams. Patient skin dosimetries were performed during total body irradiations (TBI). The resulting WEDs ranged from 0.04 and ( on average). The reproducibility of the sensor response, for doses of , was within (maximum deviation) and improves with increasing sensitivity or dose level. As to the manufacturing reproducibility, it was found to be . No WED dependence on the field size was verified, but possible variations of this quantity with the field size could be hidden by the assessment uncertainty. The angular dependence, for both phantom‐surface and in‐air setups, when referred to the mean response, is within until 80° rotations. The results of the performed patient skin dosimetries showed that, normally, our TBI setup was suitable to give skin the prescribed dose, but, for some cases, interventions were necessary: as a consequence the TBI setup was corrected. The water‐equivalent depth is, on average, less than the thinnest thermoluminescent dosimeters (TLD). In addition, when compared with TLDs, the skin MOSFETs have significant advantages, like immediate both readout and reuse, as well as the permanent storage of dose. These sensors are also waterproof. The in vivo dosimetries performed prove the importance of verifying the dose to the skin of the patient undergoing radiotherapy.
Type of Medium:
Online Resource
ISSN:
0094-2405
,
2473-4209
Language:
English
Publisher:
Wiley
Publication Date:
2005
detail.hit.zdb_id:
1466421-5
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