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OBJECTIVE: To compare the effects of ~(56)Fe~(17+),~(12)C~(6+)ion beams and~(60)Co γ rays on chromosome aberration in human lymphoblastoid cells. METHODS: The human lymphoblastoid cells were divided into 0. 1,0. 3,0. 5,0. 7,1. 0,2. 0 Gy irradiated groups and 0. 0 Gy control group. They were separately exposed to ~(56)Fe~(17+)ion beams( linear energy transfer was 400. 0 ke V/μm),~(12)C~(6+)ion beams( linear energy transfer was 26. 0 ke V/μm) and~(60)C γ rays. Chromosome specimens were harvested 48 hours after irradiation. The effects of different radiation on dicentric plus centric ring( “d + r”) aberration rate and chromosome aberration in human lymphoblastoid cells were detected by light microscope with artificial counting. RESULTS: The “d + r”aberration rates induced by 0. 3-2. 0 Gy ~(12)C~(6+)ion beams were significantly higher than those of ~(56)Fe~(17+)ion beams and~(60)Co γ rays at the same dose( P < 0. 017). Chromosome aberration cell rates of 0. 1-2. 0 Gy ~(12)C~(6+)ion beams were significantly higher than those of ~(56)Fe~(17+)ion beams and~(60)C γ rays at the same dose( P < 0. 017). At the dose range of 0. 0-2. 0 Gy,chromosome aberration effects of three kinds of radiations were gradually increased( P < 0. 01). The relative biological effectiveness of ~(56)Fe~(17+)ion beams was lower than that of ~(12)C~(6+)ion beams.CONCLUSION: The chromosome aberration induced by ~(12)C~(6+)ion beams was more serious than that of~(60)Co γ rays and ~(56)Fe~(17+)ion beams.
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Objective To investigate the feasibility of discriminating different solutions and solutions with different concentrations using gemstone spectral imaging (GSI).Methods Glucose solutions (GSs)with different concentrations (5%,10%,15%,20% g/mL)and 0.9% normal saline(NS)were scanned at a CT scanner with GSI model.Spectral analysis software was used to generate spectral curves of different solutions,representing as CT values on monochromatic images(40~140keV).The same procedure was repeated 3 days later.Reliability analysis with intra-class correlation coefficient (ICC)was used to evaluate the agreement between the twice CT scans.Nonlinear regression analysis was used to generate the regression equation of spectral curves of each solution.One-way ANO-VA was performed to compare the slopes,asymptotes and intercepts of each solution.Results Reliability analysis showed excellent agreements between the twice CT scans for each solution (ICC>0.9).The regression equation was expressed as:f(keV-40)=α-(α-β)×e [-(keV-40)×ρ],where f(keV-40)represented CT values on each monochromatic images,αrepresented asymptotes,βrepre-sented intercepts,ρrepresented slopes of each solution.Statistical differences were found among the slopes of NS and those of GSs with different concentrations (P 0.05). The result was highly suggestive that different ingredient solutions demonstrated different shapes of spectral curves.The asymptotes and intercepts of GSs with different concentrations were statistically different (P <0.05).The heights of the spectral curves of GSs elevated with the increase of the concentration.Conclusion Spectral curve with GSI model can be used to discriminate between NS and GSs,or even GSs with different concentrations.It provided a promising potential for in vivo body fluid analyses.
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Objective To explore the effects of accumulated 60CD,γ-ray irradiation on small molecular metabolites in rats urine.Methods Ten healthy male SD rats were irradiated by 60Co γ-rays in 5 days and the accumulated doses were 0,0.2,0.4,0.6,0.8,1.0 Gy,respectively.The metabolites in urine of different groups were measured with 1 H-NMR combined with principal components analysis (PCA) and partial least square discriminate analysis (PLS-DA). Results The metabolites in rat urine were obviously changed after irradiation. Compared with control group,the amount of acetoacetate decreased after irradiation(t =29.7 -30.7,P < 0.05 ),but its relative level was stable when the dose increased ( P > 0.05 ).Meanwhile,the relative level of hippuric acid increased ( t =4.4 - 21.6,P < 0.05 ) especially when the accumulated dose was higher than 1 Gy (t =21.6,P<0.05). The relative level of proline,taurine and trimethylamine-N-oxide increased after irradiation with the same trend( t =3.5 - 13.4,4.7 - 11.5,2.9- 12.7,P<0.05). Conclusions The acetoacetate,hippuric acid,proline,taurine,and trimethylamine-N-oxide may be applicable for biomarkers of accumulative irradiation on rat.