Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0376358 (prostate cancer)
 59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Based on the clinical evaluations about over 1800 patients who had been treated with fast neutrons at NIRS, the radiobiological properties of high LET radiations were discussed. The most favorable clinical results by fast neutron treatment had been revealed in such diseases as follows; salivary gland tumors, prostate cancer, Pancoast type lung cancer, osteosarcoma, soft tissue sarcoma. The characteristics of these tumors as to the radiobiological properties and the dose distribution are, 1) relatively slow growing tumors and higher RBE for tumor tissue, and 2) capability of correct delivery of a big radiation doses to the target, without any severe radiation complications. Normal tissue tolerance (NSD formulas) for each tissues were also discussed.
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PMID:[Normal tissue tolerance to high LET radiotherapy]. 212 4

Hypofractionation (i.e. the use of fewer higher fractional doses than usual) is not a new concept. It had actually been proposed in the early year of Radiotherapy by the German and Austrian specialists. In the seventy's, supported by the - wrong - hypotheses which gave birth to the NSD (Nominal Standard Dose), hypofractionation reappears. The consequential increase of late complications which was observed led the radiation oncologists to give up again using large doses per fraction, except for a few specific situations, such as palliative treatments. We are recently facing a new "come-back" of hypofractionation, in particular for breast and prostate cancers. In the case of breast cancer, the aim is clearly to look for more "convenience" for both the patients and the physicians, proposing shorter irradiation schedules including a lesser number of fractions. Some "modestly" hypofractionated schemes have been proposed and used, without apparently altering the efficacy/toxicity ratio, but these results have been seriously questioned. As for prostate cancer, the situation is different, since in that case new radiobiological data are at the origin of the newly proposed hypofractionation schedules. A number of papers actually strongly suggested that the fractionation sensitivity of prostate cancer could be higher than the one of the tissues responsible for late toxicity (i.e the exact opposite of the classical dogma). Based on those data, several hypofractionated schemes have been proposed, with a few preliminary results looking similar to the ones obtained by the classical schedules. However, no randomised study is available so far, and a few recent radiobiological data are now questioning the new dogma of the high fractionation sensitivity of prostate cancer. For those two - frequent - cancers, it seems therefore that prudence should prevail before altering classical irradiation schedules which have proven their efficacy, while staying open to new concepts and proposing well-designed randomised trials in specific cases.
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PMID:[The come-back of hypofractionation?]. 1622 95