Dosimetric comparison of distal esophageal carcinoma plans for patients treated with small‐spot intensity‐modulated proton versus volumetric‐modulated arc therapies

Computer tomographic (CT) scans are used to correct for tissue inhomogeneities in radiotherapy treatment planning. In order to guarantee a precise treatment, it is important to obtain the relationship between CT Hounsfield units and electron densities (or proton stopping powers for proton radiotherapy), which is the basic input for radiotherapy planning systems which consider tissue heterogeneities. A method is described to determine improved CT calibrations for biological tissue (a stoichiometric calibration) based on measurements using tissue equivalent materials. The precision of this stoichiometric calibration and the more usual tissue substitute calibration is determined by a comparison of calculated proton radiographic images based on these calibrations and measured radiographs of a biological sample. It has been found that the stoichiometric calibration is more precise than the tissue substitute calibration. Show more

Colorectal cancer (CRC) is a worldwide problem, with an annual incidence of 1 million cases and an annual mortality of more than 500,000 cases. CRC is the second most common cause of cancer mortality. CRC comprises 9% of the global cancer burden and is the most frequent in North America, Australia, New Zealand and parts of Europe, being considered as a disease of the Western lifestyle. Despite a major decline in incidence and mortality, gastric cancer remains an important public health burden worldwide, especially in developing countries. Gastric cancer is still the fourth most common cancer and the second-third most common cause of cancer death. There is a 10-fold variation in incidence between populations at the highest and lowest risk. The incidence is particularly high in East Asia, Eastern Europe, and parts of Central and South America. Esophageal cancer is the eighth most common cancer worldwide and the sixth most common cause of cancer-related death. Regional incidence rates are highest in areas of Southern and Eastern Africa and China. A striking increase in the rates of esophageal adenocarcinoma, in contrast, stable or even decreased trends in squamous cell cancer have been observed. Pancreatic cancer ranks the fourth and fifth most common cancer in man and women, respectively, and has the lowest 5-year survival rate of any gastrointestinal tumors. Hepatocellular carcinoma (HCC) is the sixth most common cancer in the world and the third most common cause of cancer mortality. Show more

Simple tools for studying the effects of inter-fraction and inter-field motions on intensity modulated proton therapy (IMPT) plans have been developed, and have been applied to both 3D and distal edge tracking (DET) IMPT plans. For the inter-fraction motion, we have investigated the effects of misaligned density heterogeneities, whereas for the inter-field motion analysis, the effects of field misalignment on the plans have been assessed. Inter-fraction motion problems have been analysed using density differentiated error (DDE) distributions, which specifically show the additional problems resulting from misaligned density heterogeneities for proton plans. Likewise, for inter-field motion, we present methods for calculating motion differentiated error (MDE) distributions. DDE and MDE analysis of all plans demonstrate that the 3D approach is generally more robust to both inter-fraction and inter-field motions than the DET approach, but that strong in-field dose gradients can also adversely affect a plan's robustness. An important additional conclusion is that, for certain IMPT plans, even inter-fraction errors cannot necessarily be compensated for by the use of a simple PTV margins, implying that more sophisticated tools need to be developed for uncertainty management and assessment for IMPT treatments at the treatment planning level. Show more