Global ETD Search

11	The impact of ionizing radiation on microbial cells pertinent to the storage, disposal and remediation of radioactive waste Brown, Ashley Richards January 2014 (has links) Microorganisms control many processes pertinent to the stability of radwaste inventories in nuclear storage and disposal facilities. Furthermore, numerous subsurface bacteria, such as Shewanella spp. have the ability to couple the oxidation of organic matter to the reduction of a range of metals, anions and radionuclides, thus providing the potential for the use of such versatile species in the bioremediation of radionuclide contaminated land. However, the organisms promoting these processes will likely be subject to significant radiation doses. Hence, the impact of acute doses of ionizing radiation on the physiological status of a key Fe(III)-reducing organism, Shewanella oneidensis, was assessed. FT-IR spectroscopy and MALDI-TOF-MS suggested that the metabolic response to radiation is underpinned by alterations to proteins and lipids. Multivariate statistical analysis indicated that the phenotypic response was somewhat predictable although dependent upon radiation dose and stage of recovery. In addition to the cellular environment, the impact of radiation on the extracellular environment was also assessed. Gamma radiation activated ferrihydrite and the usually recalcitrant hematite for reduction by S. oneidensis. TEM, SAED and Mössbauer spectroscopy revealed that this was a result of radiation induced changes to crystallinity. Despite these observations, environments exposed to radiation fluxes will be much more complex, with a range of electron acceptors, electron donors and a diverse microbial community. In addition, environmental dose rates will be much lower than those used in previous experiments. Sediment microcosms irradiated over a two month period at chronic dose rates exhibited enhanced Fe(III)-reduction despite receiving potentially lethal doses. The microbial ecology was probed throughout irradiations using pyrosequencing to reveal significant shifts in the microbial communities, dependent on dose and availability of organic electron donors. The radiation tolerance of an algal contaminant of a spent nuclear fuel pond was also assessed. FT-IR spectroscopy revealed a resistant phenotype of Haematococcus pluvialis, whose metabolism may be protected by the radiation induced production of an astaxanthin carotenoid. The experiments of this thesis provide evidence for a range of impacts of ionizing radiation on microorganisms, including the potential for radiation to provide the basis for novel ecosystems. These results have important implications to the long-term storage of nuclear waste and the geomicrobiology of nuclear environments. 363.72
12	Efectos saludables de flavonoides. Estudio experimental in vitro e in vivo Álvarez Sánchez, Nuria 18 June 2010 (has links) La apigenina (4', 5, 7 trihidroxiflavona), flavonoide presente en distintos vegetales, tiene numerosas características saludables por las cuales elegimos un derivado hidrosoluble, la apigenina potásica, para el presente estudio.Hemos estudiado su actividad frente a la inflamación aguda, al cáncer de próstata y a los daños causados por las radiaciones, tanto ionizantes como no ionizantes (radiación UV), utilizando diversas técnicas, tanto in vitro como en modelos in vivo. Este flavonoide demostró actividad antiinflamatoria, reduciendo la inflamación hasta un 78%. Asimismo, la apigenina potásica mostró actividad quimiopreventiva frente al cáncer de próstata, al reducir la viabilidad y la migración e inducir apoptosis in vitro, y aumentar la supervivencia de animales con tumores. Además, la apigenina potásica presentó efecto geno- y citoprotector frente a la radiación ionizante (radiación γ y X), con un factor de protección de un 27-35 % en linfocitos humanos, y de un 50-86 % en dos líneas celulares de próstata. Por último, el flavonoide ha demostrado proteger frente al fotoenvejecimiento causado por la radiación UV, reduciendo la displasia epitelial y la elastosis dérmica, dos marcadores de cáncer cutáneo; además, ha sido posible detectar la apigenina en diversos tejidos, entre ellos el cerebro. / Apigenin (4', 5, 7 trihidroxyflavone), a flavonoid present in different plants, shows some healthy characteristics for which a water soluble derivated, potassium apigenin, was chosen for this study.It has been studied the activity of potassium apigenin against acute inflammation, prostate cancer and the effect of ionising and non-ionising (UV) radiations, using different techniques, both in vitro and in vivo models.This flavonoid showed anti-inflammatory effects, inhibiting the inflammation by up to 78%. It also demonstrated chemopreventive activity against prostate cancer, by reducing the cell viability and migration, inducing apoptosis and increasing the animal survival. Moreover, potassium apigenin showed genoprotector and citoprotector effects against ionising radiation (radiation γ and X), with a protection factor of 27-35% in human lymphocytes and of 50-86% in two prostate cell lines. Finally, the flavonoid protected from the photoaging induced by UV radiation, diminishing epithelial dysplasia and dermal elastosis, two markers of skin cancer; furthermore, potassium apigenin was detected in some tissues, brain among them. water soluble ultraviolet radiation prostate cancer photoaging non-ionising radiation ionising radiation biodistribution apigenin radiación no ionizante radiación ionizante inflamación aguda fotoenvejecimiento derivado hidrosoluble cáncer de próstata biodistribución Apigenina Radiología y Medicina Física 576 616.5 616.6
13	Mažų jonizuojančiosios spinduliuotės apšvitos dozių poveikio citogenetiniai tyrimai ir biologinė dozimetrija / Cytogenetic effects of low ionising radiation doses and biological dosimetry Gricienė, Birutė 23 December 2010 (has links) Įvairiais tikslais naudojant jonizuojančiosios spinduliuotės (JS) šaltinius, darbuotojai ir gyventojai patiria JS apšvitą, kurią lydi neigiamo poveikio organizmui rizika. Taikant nestabilių chromosomų aberacijų analizės metodiką buvo nustatyta, kad ir mažos, neviršijančios darbuotojams nustatytų ribų (50 mSv), JS dozės gali iššaukti chromosomų pažaidas žmogaus limfocituose. Branduolinės energetikos srityje dirbančių asmenų grupėjė (N=84) nustatytas patikimai didesnis, palyginti su kontroline grupe (N=82), chromosomų pažaidų dažnis, įvertinta chromosomų pažaidų dažnio priklausomybė nuo jonizuojančiosios spinduliuotės ir apšvitos tipo. Konstatuota, kad veikla, susijusi su vidine ir neutronų apšvita, gali būti laikoma potencialiai pavojingesne bei sąlygojančia didesnę chromosomų pažaidų indukcijos riziką nei veikla, susijusi tik su išorinės gama spinduliuotės apšvita. Rūkymo ir amžiaus įtakos chromosomų aberacijų dažniui nenustatyta. Gauti tyrimo rezultatai rodo, kad citogenetinis monitoringas gali būti taikomas atskirų darbuotojų grupių JS apšvitos rizikos vertinimui bei suteikia papildomos informacijos užtikrinant ir optimizuojant darbuotojų radiacinę saugą. Šio darbo metu sudarytos gama spinduliuotės (60Co) kalibracinės dozės-atsako kreivės leidžia Lietuvoje atlikti biologinį dozių įvertinimą radiacinės avarijos metu nukentėjusiems ir dideles JS dozes gavusiems asmenis, kas svarbu tinkamai parenkant gydymo metodus. Taip pat bus galima papildomai įvertinti darbuotojo... [toliau žr. visą tekstą] / The intensive use of ionising radiation (IR) sources and development of IR technology is related to increased exposure and adverse health risk to workers and public. The unstable chromosome aberration analysis in the group of nuclear energy workers (N=84) has shown that doses below annual dose limit (50 mSv) can induce chromosome aberrations in human peripheral blood lymphocytes. Significantly higher frequencies of the total chromosome aberrations were determened in the study group when compared to the controls ((N=82). The risks were found to differ with the type of activities and occupational exposure. Activities related to internal and neutron exposure risk may be regarded as potentially more dangerous when compared to other activities related with external gamma exposure doses only. The impact of age and smoking to chromosome aberration frequency was found to be insignificant. The results of this study show that cytogenetic monitoring can be used for IR occupational exposure risk assessment for different occupational groups of radiation workers and may provide additional information to ensure and optimise the radiation protection of radiation workers. The gamma radiation (60Co) dose-response curves for chromosome aberrations in vitro were established in Lithuania for the first time. Application of the established dose-response curves enables to perform the biological dosimetry in the country, to assess the doses of the first responders and people accidentally exposed to... [to full text] Biology Jonizuojančioji spinduliuotė Darbuotojas Citogenetiniai reiškiniai Chromosomų aberacijos Biologinė dozimetrija Ionising radiation Radiation worker Cytogenetic effects Chromosome aberrations Biological dosimetry
14	Cytogenetic effects of low ionising radiation doses and biological dosimetry / Mažų jonizuojančiosios spinduliuotės apšvitos dozių poveikio citogenetiniai tyrimai ir biologinė dozimetrija Gricienė, Birutė 23 December 2010 (has links) The intensive use of ionising radiation (IR) sources and development of IR technology is related to increased exposure and adverse health risk to workers and public. The unstable chromosome aberration analysis in the group of nuclear energy workers (N=84) has shown that doses below annual dose limit (50 mSv) can induce chromosome aberrations in human peripheral blood lymphocytes. Significantly higher frequencies of the total chromosome aberrations were determened in the study group when compared to the controls ((N=82). The risks were found to differ with the type of activities and occupational exposure. Activities related to internal and neutron exposure risk may be regarded as potentially more dangerous when compared to other activities related with external gamma exposure doses only. The impact of age and smoking to chromosome aberration frequency was found to be insignificant. The results of this study show that cytogenetic monitoring can be used for IR occupational exposure risk assessment for different occupational groups of radiation workers and may provide additional information to ensure and optimise the radiation protection of radiation workers. The gamma radiation (60Co) dose-response curves for chromosome aberrations in vitro were established in Lithuania for the first time. Application of the established dose-response curves enables to perform the biological dosimetry in the country, to assess the doses of the first responders and people accidentally exposed to... [to full text] / Įvairiais tikslais naudojant jonizuojančiosios spinduliuotės (JS) šaltinius, darbuotojai ir gyventojai patiria JS apšvitą, kurią lydi neigiamo poveikio organizmui rizika. Taikant nestabilių chromosomų aberacijų analizės metodiką buvo nustatyta, kad ir mažos, neviršijančios darbuotojams nustatytų ribų (50 mSv), JS dozės gali iššaukti chromosomų pažaidas žmogaus limfocituose. Branduolinės energetikos srityje dirbančių asmenų grupėjė (N=84) nustatytas patikimai didesnis, palyginti su kontroline grupe (N=82), chromosomų pažaidų dažnis, įvertinta chromosomų pažaidų dažnio priklausomybė nuo jonizuojančiosios spinduliuotės ir apšvitos tipo. Konstatuota, kad veikla, susijusi su vidine ir neutronų apšvita, gali būti laikoma potencialiai pavojingesne bei sąlygojančia didesnę chromosomų pažaidų indukcijos riziką nei veikla, susijusi tik su išorinės gama spinduliuotės apšvita. Rūkymo ir amžiaus įtakos chromosomų aberacijų dažniui nenustatyta. Gauti tyrimo rezultatai rodo, kad citogenetinis monitoringas gali būti taikomas atskirų darbuotojų grupių JS apšvitos rizikos vertinimui bei suteikia papildomos informacijos užtikrinant ir optimizuojant darbuotojų radiacinę saugą. Šio darbo metu sudarytos gama spinduliuotės (60Co) kalibracinės dozės-atsako kreivės leidžia Lietuvoje atlikti biologinį dozių įvertinimą radiacinės avarijos metu nukentėjusiems ir dideles JS dozes gavusiems asmenis, kas svarbu tinkamai parenkant gydymo metodus. Taip pat bus galima papildomai įvertinti darbuotojo... [toliau žr. visą tekstą] Biology Ionising radiation Radiation worker Cytogenetic effects Chromosome aberrations Biological dosimetry Jonizuojančioji spinduliuotė Darbuotojas Citogenetiniai reiškiniai Chromosomų aberacijos Biologinė dozimetrija
15	Etude des effets des rayonnements ionisants sur la niche hématopoïétique et traitement du syndrome aigu d'irradiation par thérapie génique chez le macaque irradié à forte dose / Effects of ionizing radiation on the hematopoietic niche and treatment of acute radiation syndrome by gene therapy in higly-irradiated monkeys. Garrigou, Philippe 07 September 2011 (has links) La niche des cellules souches hématopoïétiques représente un compartiment complexe et radiosensible. Sa protection est nécessaire pour la restauration de l'hématopoïèse faisant suite à la myélosuppression due à l'exposition aux rayonnements ionisants. Nous avons dans un premier temps étudié l'effet des RI sur les progéniteurs endothéliaux et mésenchymateux de la niche par une étude de radiosensiblilité et une étude d'évaluation de la mort cellulaire. Nous avons proposé par la suite une stratégie innovante de thérapie génique basée sur la sécrétion locale et à court terme du morphogène Sonic hedgehog visant à favoriser la réparation de niche vasculaire et de stimuler les cellules souches hématopoïétiques et les cellules progénitrices résiduelles. Nous avons étudié la réponse hématopoïétique des singes irradiés à 8-Gy gamma après une seule injection intra-osseuse de cellules souches mésenchymateuses xénogéniques, multipotentes et d'origine adipocytaire transfectées avec un plasmide pIRES2-eGFP codant la protéine Shh. La durée de thrombocytopénie et celle de neutropénie ont été significativement réduites chez les animaux greffés et les clonogènes sont normalisés à partir du 42e jour. Les aires sous la courbe des numération des plaquettes et des neutrophiles entre 0 et 30 jours ont été significativement plus élevée chez les animaux traités que chez les témoins. La greffe d'explants de MatrigelTM colonisés ou non avec des ASC chez des souris immunodéprimées a démontré une activité pro-angiogénique notable des ASC transfectées avec le plasmide Shh . Le suivi à long terme (180 à 300 jours) a confirmé une reconstitution durable dans les quatre singes greffés. Globalement cette étude suggère que la greffe de cellules souches multipotentes Shh-peut représenter une nouvelle stratégie pour la prise en charge des dommages radio-induits de la niche. / The hematopoietic stem cell niche represents a complex radiosensitive compartment whose protection is required for recovery from radiation-induced myelosuppression. We initially studied RI effects on endothelial and mesenchymal progenitors by an evaluating radiosensitivity and cell death. Then, we have proposed a new gene therapy strategy based on local and short term secretion of Sonic hedgehog morphogene to favour vascular niche repair and to stimulate residual hematopoietic stem and progenitor cells. We investigated the hematopoietic response of 8-Gy gamma irradiated monkeys to a single intra-osseous injection of xenogeneic multipotent mesenchymal stem cells transduced with a Shh pIRES2 plasmid. Thrombocytopenia and neutropenia duration were significantly reduced in grafted animals and clonogenics normalized from day 42. Areas under the curve of PLTs and ANCs between day 0 and day 30 were significantly higher in treated animals than in controls. Grafting MatrigelTM colonized or not with ASC in immunocompromized mice demonstrated a notable pro-angiogenic activity for Shh-ASC. Long term follow up (180-300 days) confirmed a durable recovery in the four grafted monkeys. Globally this study suggests that grafting Shh-multipotent stem cells may represent a new strategy to cure radiation-induced niche damage. Irradiation ASC Sonic Hedgehog Cellules souches Hématopoïèse Culture cellulaire Ionising radiation ASC Sonic Hedgehog Stem cells Hematopoiesis Cell culture
16	Role of Non-Homologous End-Joining in Repair of Radiation-Induced DNA Double-Strand Breaks Karlsson, Karin January 2006 (has links) <p>Efficient and correct repair of DNA damage, especially DNA double-strand breaks (DSBs), is vital for the survival of individual cells and organisms. Defects in the DNA repair may lead to cell death or genomic instability and development of cancer. </p><p>The repair of DSBs in cell lines with different DSB rejoining capabilities was studied after exposure to ionising radiation. A new cell lysis protocol performed at 0ºC, which prevents the inclusion of non-true DSBs in the quantification of DSBs by pulsed-field gel electrophoresis (PFGE), was developed. Results showed that when the standard protocol at 50ºC was used, 30-40% of the initial yield of DSBs corresponds to artifactual DSBs. The lesions transformed to DSBs during incubation at 50ºC were repaired within 60-90 minutes <i>in vivo</i> and the repair was independent of DNA-PK, XRCC1 and PARP-1.</p><p>Non-homologous end-joining (NHEJ) is the major DSB repair pathway in mammalian cells. We show that DSBs are processed into long single-stranded DNA (ssDNA) ends after ≥1 h of repair in NHEJ deficient cells. The ssDNA was formed outside of the G<sub>1</sub> phase of the cell cycle and only in the absence of the NHEJ proteins DNA-PK and DNA Ligase IV/XRCC4. The generation of ssDNA had great influence on the quantification of DSBs by PFGE. The standard protocol caused hybridisation of the ssDNA ends, resulting in overestimation of the DSB repair capability in NHEJ deficient cells.</p><p>DSBs were also quantified by detection of phosphorylated H2AX (γ-H2AX) foci. A large number of γ-H2AX foci still remaining after 21 h of repair in an NHEJ deficient cell line confirmed the low repair capability determined by PFGE. Furthermore, in normal cells difficulty in repairing clustered breaks was observed as a large fraction of γ-H2AX foci remaining 24 h after irradiation with high-LET ions.</p> Molecular biology DNA damage DNA repair DSB NHEJ DNA-PK ionising radiation high-LET heat-labile sites PFGE Molekylärbiologi
17	Role of Non-Homologous End-Joining in Repair of Radiation-Induced DNA Double-Strand Breaks Karlsson, Karin January 2006 (has links) Efficient and correct repair of DNA damage, especially DNA double-strand breaks (DSBs), is vital for the survival of individual cells and organisms. Defects in the DNA repair may lead to cell death or genomic instability and development of cancer. The repair of DSBs in cell lines with different DSB rejoining capabilities was studied after exposure to ionising radiation. A new cell lysis protocol performed at 0ºC, which prevents the inclusion of non-true DSBs in the quantification of DSBs by pulsed-field gel electrophoresis (PFGE), was developed. Results showed that when the standard protocol at 50ºC was used, 30-40% of the initial yield of DSBs corresponds to artifactual DSBs. The lesions transformed to DSBs during incubation at 50ºC were repaired within 60-90 minutes in vivo and the repair was independent of DNA-PK, XRCC1 and PARP-1. Non-homologous end-joining (NHEJ) is the major DSB repair pathway in mammalian cells. We show that DSBs are processed into long single-stranded DNA (ssDNA) ends after ≥1 h of repair in NHEJ deficient cells. The ssDNA was formed outside of the G1 phase of the cell cycle and only in the absence of the NHEJ proteins DNA-PK and DNA Ligase IV/XRCC4. The generation of ssDNA had great influence on the quantification of DSBs by PFGE. The standard protocol caused hybridisation of the ssDNA ends, resulting in overestimation of the DSB repair capability in NHEJ deficient cells. DSBs were also quantified by detection of phosphorylated H2AX (γ-H2AX) foci. A large number of γ-H2AX foci still remaining after 21 h of repair in an NHEJ deficient cell line confirmed the low repair capability determined by PFGE. Furthermore, in normal cells difficulty in repairing clustered breaks was observed as a large fraction of γ-H2AX foci remaining 24 h after irradiation with high-LET ions. Molecular biology DNA damage DNA repair DSB NHEJ DNA-PK ionising radiation high-LET heat-labile sites PFGE Molekylärbiologi
18	Malignancies in Sweden after the Chernobyl accident in 1986 Tondel, Martin January 2007 (has links) On 26 April 1986 an accident occurred in the Chernobyl nuclear power plant resulting in the release of large amount of radionuclides. Almost five percent of the total released caesium-137 was deposited in Sweden. The incidence of malignancies in the most affected counties in Sweden was investigated in three epidemiological studies. In the first study the incidence of malignancies in children and adolescents was studied for the period 1978-1992. The parishes and their inhabitants were classified according to the ground deposition of caesium-137 on an analogue map provided be the Swedish Radiological Protection Authority. A continuous increase of brain tumour incidence observed during the time of the study had no clear relationship to the Chernobyl fallout. A somewhat decreased relative risk of ALL was observed in areas with increased deposition. Other malignancies showed no changes in incidence over time or with regard to the exposure of caesium-137. In study II and III we enlarged the study base by including adults. We improved the methodology by defining a cohort of subjects who lived in the same parish from 31 December 1985 to 31 December 1987. The inhabitants from seven counties were included. Parishes were classified the same way as in study I. Due to the large number of individuals six exposure categories could be created; <3, 3–29, 30–39, 40–59, 60–79, and 80–120 kBq caesium-137/m2. The inhabitants of the 117 non-affected parishes (<3 kBq/m2) served as reference. During the 1988-1996 followup, 22,409 malignancies were recorded. The MH-IRR in the fully adjusted model was 1.00 (reference), 1.05, 1.03, 1.08, 1.10 and 1.21, respectively. ERR was 0.11 per 100 kBq/m2 (95% CL 0.03;0.20). A more advanced method was used in Study III by ignoring the exposure classification for parishes, and instead matching the dwelling coordinate to a digital map of deposition of casesium-137. In spite of a more valid exposure classification the risk estimates were similar in study II and III. Also, the ERR during the longer follow-up of 1988-1999 was almost identical, 0.10 per 100 kBq/m2 (95% CL 0.00;0.23). The strongest dose-response relationship was seen in the first four years (1988-1991). No obvious excess for leukaemia or thyroid cancer was recognised in either study II or III. The estimated number of exposure related cases was calculated to 849 in study II and 1,278 in study III. Our interpretation is that we have shown an increased incidence of total malignancies with dose-response relationship for caesium-137, only a few years after the Chernobyl accident. In study IV we compared the two different ways of classifying the exposure in study II and III. Out of the 450 parishes 111 got a different classification. The similar risk estimates in study II and III could probably be explained by relatively homogenous exposure in the parishes making the intra-parish difference less influential, especially when included in categories. In study V we examined the urinary excretion of 8-OHdG in Belarussian children from areas with high and low fallout of caesium-137, respectively. We found significantly lower urinary 8-OHdG levels in children from rural contaminated areas compared to urban uncontaminated areas, suggesting an urban, rather than a radiation related, risk factor. Using the Hill criteria for causality there is support for a causal inference between the fallout of caesium-137 from the Chernobyl accident and the increased incidence in total malignancies in Northern Sweden. Epidemiology Environmental Chernobyl ionising radiation geographical information systems GIS 8-OHdG Malignancies Low dose Dose-response Latency Causalty Epidemiology Epidemiologi
19	Ionisierende Strahlung: Ursprung, Wirkung, Nutzen, Risiko Dörr, Wolfgang, Herrmann, Thomas 05 March 2007 (has links) (PDF) The public perception of ionising radiation focuses on its exploitation for energy production and medicine (diagnostics, therapy). In contrast, natural sources of ionising radiation are rarely considered, which contribute to more than half of the total radiation exposure. With regard to biological consequences, stochastic radiation effects (e. g. mortality of radiation-induced cancer, genetic effects), where the probability increases with dose, and deterministic radiation effects (pathological changes, e. g. changes of gonads, embryo and fetus) for which severity increases with dose, must be distinguished. Ionizing radiation is frequently linked to various risks (cancer, genetic damage, acute radiation syndrome). Usually, these risks are over-estimated. / Bei der öffentlichen Auseinandersetzung mit ionisierender Strahlung steht deren Nutzung im Rahmen der Energieerzeugung und der Medizin (Diagnostik, Strahlentherapie) im Vordergrund. Selten wird bedacht, dass ionisierende Strahlung auch natürlich vorkommt und damit mehr als die Hälfte der Gesamt-Strahlenbelastung bedingt. Die biologische Wirkung ionisierender Strahlung wird eingeteilt in stochastische Effekte, bei denen die Wahrscheinlichkeit eines Effektes mit der Dosis zunimmt (z. B. Tod durch strahleninduzierten Krebs, genetische Effekte), sowie deterministische Effekte (pathologische Veränderungen, z. B. an Fortpflanzungsorganen oder der Leibesfrucht), bei denen der Schweregrad dosisabhängig ist. Ionisierende Strahlung wird häufig mit verschiedenen Risiken (Krebs, Erbschäden, Strahlenkrankheit) in Verbindung gebracht, wobei diese in der Regel überschätzt werden. ionisierende Strahlung biologische Wirkung Risiko ionising radiation advantage risk iological consequences ddc:610 rvk:YR 1500 Ionisierende Strahlung Strahlenbelastung
20	Transcriptomic and Secretomic Profiling of Isolated Leukocytes Exposed to Alpha-Particle and Photon Radiation - Applications in Biodosimetry Howland, Matthew 09 September 2013 (has links) The general public is at risk of ionising-radiation exposure. The development of high-throughput methods to triage exposures is warranted. Current biodosimetry techniques are low-throughput and encumbered by time and technical expertise. Although there has been an emergence of gene-profiling tools for the purpose of photon biodosimetry, similar capacities do not exist for alpha-particle radiation. Herein is the first genomic study useful for alpha-particle radiation biodosimetric triage. This work has identified robust alpha-particle induced gene-based biomarkers in isolated, ex-vivo irradiated leukocytes from multiple donors. It was found that alpha-particle and photon radiation elicited similar transcriptional responses, which could potentially be distinguished by aggregate-signature analysis. Although no distinct genes were sole indicators of exposure type, clustering algorithms and principal component analysis were able to demarcate radiation type with some success. By comparing the biological effects elicited by photon and alpha-particle radiation, significant contributions have been made to the field of radiation biodosimetry. alpha-particle ionising radiation ionizing radiation gene response transcriptional response photon radiation biodosimetry dosimetry gene profiling miRNA profiling bio-plex

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