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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Indications for radiotherapy of benign dermatoses have decreased markedly during the past decades. The remaining indications are reviewed. Side effects of ionizing radiation therapy are discussed in detail, with special emphasis on radiodermatitis and radiation cancer of the skin, mutagenic and genetic effects of x rays, and induction of carcinogenesis of interanl organs. Thyroid cancer is used as an example to discuss modern theories of radiocarcinogenesis and risk coefficients of various organ systems. Guide lines for radiotherapy of benign dermatoses are proposed.
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PMID:[Roentgen therapy of dermatoses: indications and hazards]. 14 96

Five month-old female rats were given a mixture of Sr-90 and Cs-137 in drinking water in the dose of 0.1 and 0.2 microCi/day per animal over 12 months. Some animals received 12 monthly courses of a synthetic immunomodulating dipeptide--thymogen in the dose of 5 micrograms/animal for 5 consecutive days. Radionuclide-treated rats showed higher occurrence of tumors on the whole and of breast adenocarcinoma, in particular. Thymogen was shown to inhibit Sr-90- and Cs-137-induced radiation carcinogenesis, namely, a decrease in the total tumor and cancer occurrence was observed. The animals receiving thymogen alone showed longer life span, slower rate of aging and lower overall tumor and cancer occurrence. In this study, the ability of a synthetic peptide immunomodulator--thymogen to inhibit spontaneous and radionuclide-induced carcinogenesis in female rats was first established.
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PMID:[The effect of the synthetic immunomodulator thymogen on radiation-induced carcinogenesis in rats]. 130 Jul 40

The effects of the radiosensitizer misonidazole (MISO) and the radioprotector WR-2721 on radiation-induced carcinogenesis in C3Hf/Kam mice were investigated. The right hind legs were exposed to graded single doses of gamma-rays. MISO and WR-2721 were given i.p. 30 min before irradiation at a dose of 1 mg/g and 0.4 mg/g, respectively. The RCD50, or radiation dose inducing tumors in 50% of the irradiated legs, was determined 650 days after treatment. The same animals were also checked for the effect of these drugs on hair loss and radiation-induced leg contractures. MISO enhanced radiation carcinogenesis by a factor of 1.43, whereas WR-2721 reduced it by a factor of 1.75. These effects on carcinogenesis correlated well with the modifying effects of the two agents on radiation-induced hair loss (early damage) and leg contractures (late damage).
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PMID:Modification of radiation-induced carcinogenesis in mice by misonidazole and WR-2721. 131 77

Exposure to UV light contributes to the development of skin cancer. The importance of reactive oxygen species in UV-radiation carcinogenesis has been recognized for some time and several associated DNA base modifications have been identified. In particular, 8-hydroxydeoxyguanosine (8-OHdG) has been well studied as an indicator of oxidative damage to calf thymus DNA exposed to a variety of oxygen-generating systems, including UV light. However, to date, few studies of 8-OHdG have been conducted in cell or animal systems and those in vitro investigations that studied UV exposure have used UVC (< 290 nm), not the UVB (290-320 nm) or UVA (320-400 nm) ranges to which organisms are exposed through sunlight. The objective of this study was to measure 8-OHdG formation in the DNA of cultured mouse keratinocytes exposed to UVB. Using HPLC with electrochemical detection, background levels of 8-OHdG were approximately 6 fmol/micrograms DNA in DNA isolated and digested to the nucleoside level. UVB induced 8-OHdG up to 100% above that for mock-treated cells at a dose of 630 mJ/cm2 (dose-response range: 210-630 mJ/cm2). UVB exposure at 630 mJ/cm2 combined with 5 mM H2O2 elevated 8-OHdG formation up to 280% above that in control cells, whereas H2O2 alone had no effect. These results suggest that factors which increase the generation of reactive oxygen species by UV light may be potent cofactors of UV-radiation carcinogenesis.
Carcinogenesis 1992 Nov
PMID:Formation of 8-hydroxydeoxyguanosine within DNA of mouse keratinocytes exposed in culture to UVB and H2O2. 142 68

Differential screening of cDNA libraries made from chemically induced malignant mouse skin squamous cell carcinomas (SCC) identified three sequences, including one called mal2, that were upregulated in their expression at both the benign papilloma and malignant SCC stages. The mal2 plasmid cDNA clone (containing a 350 bp insert) was used to screen lambda phage cDNA libraries made from chemically induced SCCs. Two of the largest mal2-related cDNA inserts obtained from the phage libraries were sequenced. In addition a mal2-related genomic clone was obtained by hybridization probing of a mouse spleen genomic DNA library. The sequence of the genomic clone overlapped and was identical with both the mal2 plasmid and lambda cDNA clones. Identity was found between the mal2 cDNAs, the mal2 genomic sequence and the cDNA sequence for a mouse hyperproliferative keratin called K6. A synthetic oligonucleotide specific for the 3' untranslated region of the mal2 or keratin K6 gene was used in Northern analyses to demonstrate elevated steady-state levels of K6 keratin transcripts in SCCs induced by various protocols involving both chemical and ionizing radiation initiation of tumors as well as complete chemical and radiation carcinogenesis protocols. Metastatic lung lesions derived from SCCs generated by repeated doses of benzo[a]pyrene showed moderate levels of K6 keratin transcripts, whereas normal lung showed very low levels of K6 transcripts. The overexpression of the mal2 or keratin K6 gene in malignant SCCs was independent of the protocol, either chemical or radiation, that was used to induce the tumors.
Carcinogenesis 1991 Aug
PMID:Identification of a cloned sequence activated during multi-stage carcinogenesis in mouse skin. 171 33

Dose-response curves for chronic leukemia in A-bomb survivors and liver tumors in patients given Thorotrast (colloidal thorium dioxide) show large threshold effects. The existence of these threshold effects can be explained by the following hypothesis. A high dose of radiation causes a persistent wound in a cell-renewable tissue. Disorder of the injured cell society partly frees the component cells from territorial restraints on their proliferation, enabling them to continue development of their cellular functions toward advanced autonomy. This progression might be achieved by continued epigenetic and genetic changes as a result of occasional errors in the otherwise concerted healing action of various endogenous factors recruited for tissue repair. Carcinogenesis is not simply a single-cell problem but a cell-society problem. Therefore, it is not warranted to estimate risk at low doses by linear extrapolation from cancer data at high doses without knowledge of the mechanism of radiation carcinogenesis.
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PMID:Tissue misrepair hypothesis for radiation carcinogenesis. 182 46

Incidence of breast cancers in Japanese women is increasing steadily. Mass screening of breast cancer was started in Japan under auspices of Adult Health Promotion Act of the Japanese Government from 1987. As the first screening method, the palpation of breasts is employed at present, but it is expected to be replaced by the mammography. In this report, the risk-benefit analysis is presented between risk of breast carcinogenesis due to radiation and benefit of mass screening of breast cancer. The benefit of mass screening is taken as the net elongation of average life expectancy of women due to survival from breast cancers. The risk of mammography is taken as the net loss of average life expectancy of women due to breast carcinogenesis. In the latter, the latency time and plateau period of radiation carcinogenesis were taken into consideration in the calculation. The results show that the ages at which the benefit and risk become equal are between 30 and 35 years old when dose equivalent of mammography is between 10 and 20 mSv, that are conventionally used. However, the critical age will be reduced to 20 years old if the dose equivalent becomes 1 mSv. Therefore, it is strongly recommended that a low dose mammographic system should be developed in order to achieve 1 mSv for the mass screening of breast cancer of Japanese women. In author's opinion, this is quite feasible by employing a new digital radiography with imaging plate.
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PMID:[Risk-benefit analysis for mass screening of breast cancer utilizing mammography as a screening test]. 258 91

In this paper, recent developments in the quantitative assessment of carcinogenic risks based on toxicological and epidemiological data are reviewed. In particular, model-free approaches to low-dose risk assessment which involve only the assumption of low-dose linearity are considered. Measures of carcinogenic potency which avoid the need to extrapolate to low doses are also described. The allometric bases for converting risk estimates between species are then discussed. Pharmacokinetic models for determining the dose delivered to the target tissue are examined, and the implications of using such models in extrapolating between doses, of exposure, and species are examined. The application of these concepts in chemical and radiation carcinogenesis is illustrated by means of brief case studies of methylene chloride and Rn. Biologically motivated cancer models based on the initiation-promotion-progression theory of carcinogenesis are discussed and compared with the classical multistage model. The estimation of risks with time-dependent exposure patterns is considered, and conditions under which the use of a time-weighted average dose is appropriate are identified. Finally, the estimation of carcinogenic risks posed by exposure to complex mixtures is explored.
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PMID:Recent developments in carcinogenic risk assessment. 269 52

The effect of hyperthermia on radiation carcinogenesis was investigated in the C3Hf/Sed mouse foot. The foot was irradiated under hypoxic conditions, in air, or under hyperbaric oxygen conditions to evaluate the oxygen effect. Hyperthermia at 43.5 degrees C for 45 min was given by immersing the animal foot into a constant temperature water bath. A malignant tumor in the irradiated foot was first observed congruent to 250 days after irradiation. Tumors developed in the irradiated area until day 850. RCD50, or 50% radiation carcinogenesis dose was the endpoint and was calculated based on the tumor incidence 650 days after irradiation. RCD50 following radiation given alone under hypoxic conditions was 66.3 (60.0-73.2) Gy, and the oxygen enhancement ratio (hypoxic/hyperbaric oxygen) was 3.0 (2.5-3.5). Radiation carcinogenesis was enhanced by hyperthermia given with a 20 min treatment interval with no significant alteration in the oxygen effect. Thermal enhancement was greatest when hyperthermia was given 20 min prior to irradiation (2.5 [2.2-2.9] under hypoxia). No thermal enhancement was observed when two treatments were given with a treatment interval of 2 days. The median time to develop a malignant tumor decreased with increasing radiation dose. This median time was shorter following combined hyperthermia and irradiation (423 days) than following radiation alone (504 days). Histological studies revealed that more than 80% of tumors were soft tissue sarcomas, and the most common tumor was fibrosarcoma. Squamous cell carcinoma was found in 7% of all tumors.
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PMID:The effect of hyperthermia on the early- and late-appearing mouse foot reactions and on radiation carcinogenesis: Part II. Effect on radiation carcinogenesis (thermal enhancement and oxygen enhancement). 292 Nov 46

From experimental and epidemiological evidence, radiation-induced cancers appear to arise as multistage, monoclonal growths, which are elicited through various mechanisms, depending on the neoplasm in question and the conditions of exposure. At the molecular level, the process of carcinogenesis may involve the activation of oncogenes and/or the inactivation or loss of anti-oncogenes, through chromosomal rearrangements, point mutations, and other effects of radiation on DNA. In contrast to these mechanisms of carcinogenesis, which result from the absorption of radiation by the tumor-forming cells themselves, abscopal effects resulting from irradiation of other cells may contribute to carcinogenesis under certain conditions, e.g. in the induction of tumors of endocrine target cells through radiation-induced disturbances of hormonal balance. Effects of the latter type, which require the killing of substantial numbers of cells, are not elicited at low doses, thus contrasting with effects of the former type, which may be presumed to have no thresholds. Because radiation carcinogenesis may be mediated through a diversity of effects, the relationship between incidence and dose can vary accordingly. The relationship between the incidence of radiation-induced tumors and the time elapsing after irradiation also varies, depending on the type of tumor in question, species, age at irradiation, exposure conditions, and other factors. Although the variations with dose and time are consistent with multistage models of tumor initiation, tumor promotion, and tumor progression, the precise nature of the successive steps that are involved remains to be determined. The tendency for the tumors to resemble their spontaneous counterparts in age-distribution points to interactions between radiation and other carcinogenic risk factors which are as yet poorly understood. Also poorly understood are species- and organ-differences in susceptibility to radiation carcinogenesis, which bear no consistent relationship to corresponding 'spontaneous' cancer rates.
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PMID:Evolving perspectives on the biology and mechanisms of carcinogenesis. 373 8


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