Global ETD Search

181	The Effects Of Radioprotectant Amifostine On Irradiated Rat Brain And Liver Tissues Cakmak, Gulgun 01 September 2010 (has links) (PDF) Amifostine is the only approved radioprotective agent by the Food and Drug Administration for reducing the damaging effects of radiation on healthy tissues. In this study, the effects of ionizing radiation on rat liver microsomal membrane and brain tissue and the protecting effects of amifostine on these systems were investigated at molecular level. Sprague-Dawley rats, which were administered amifostine or not, were whole-body irradiated and liver microsomal membranes and different regions of the brain of these rats were analyzed using FTIR spectroscopy, FTIR microspectroscopy and synchrotron FTIR microspectroscopy. The first part of this study revealed that ionizing radiation caused a decrease in the total lipid content and CH2 groups of lipids, an increase in the carbonyl esters, olefinic=CH and CH3 groups of lipids in the white matter and grey matter regions of the brain, which could be interpreted as a result of lipid peroxidation. In addition, radiation altered the protein structure of the brain. Amifostine caused significant protective effect against all the radiation induced damages in the brain. In the second part of the study, FTIR results showed that radiation induced a decrease in the lipid/protein ratio and a degradation of lipids into smaller fragments that contain less CH2 and more carbonyl esters, olefinic=CH and CH3 groups in microsomal membranes. In addition, radiation caused an alteration in the secondary structure of proteins, an increase in lipid order and a decrease in the membrane dynamics. Amifostine prevented all the radiation induced compositional, structural and functional damages in the liver microsomal membranes.
182	Site specific thermodynamic study of OH radical addition to DNA bases Akin, Myles 07 April 2010 (has links) In medical and health physics, we are interested in the effects of ionizing radiation on biological systems, in particular, human biology. The main process by which ionizing radiations causes damage to biological systems, is through the creation of radicals close to DNA strands. The radicals are very reactive and those created within close proximity to DNA will react with the DNA causing damage, in particular single strand or double strand breaks. This damage to the DNA can cause mutations that can kill the cell, either mitotically or apoptotically, or possibly lead to a cancerous formation. Therefore it is important to study how these radicals interact with DNA strands for a correlation between the resultant products of radical reactions and DNA strand breaks. For this study, we look at the most important radical, the OH radical and it's addition to DNA bases. We will study, through quantum chemistry, the thermodynamics of OH radical addition to the four bases, Adenine, Guanine, Cytosine and Thymine. The Jaguar program developed by Schrodinger was used for DFT calculations of the Gibbs free energy of the addition. In addition, calculations for the partial charge, HOMO's and Fukui indices were calculated and compared to experiment. Hydroxyl radical Biological radiation damage Medical physics Ionizing radiation Radicals (Chemistry) DNA Hydroxyl group
183	CHK2 is Negatively Regulated by Protein Phosphatase 2A Freeman, Alyson 31 May 2010 (has links) Checkpoint kinase 2 (CHK2) is an effector kinase of the DNA damage response pathway and although its mechanism of activation has been well studied, the attenuation of its activity following DNA damage has not been explored. Here, we identify the B'α subunit of protein phosphatase 2A (PP2A), a major protein serine/threonine phosphatase of the cell, as a CHK2 binding partner and show that their interaction is modulated by DNA damage. B'α binds to the SQ/TQ cluster domain of CHK2, which is a target of ATM phosphorylation. CHK2 is able to bind to many B' subunits as well as the PP2A C subunit, indicating that it can bind to the active PP2A enzyme. The induction of DNA double-strand breaks by ionizing radiation (IR) as well as treatment with doxorubicin causes dissociation of the B'α and CHK2 proteins, however, it does not have an effect on the binding of B'α to CHK1. IR-induced dissociation is an early event and occurs in a dose-dependent manner. CHK2 and B'α can re-associate hours after DNA damage and this is not dependent upon the repair of the DNA. Dissociation is dependent on ATM activity and correlates with an increase in the ATM-dependent phosphorylation of CHK2 at serines 33 and 35 in the SQ/TQ region. Indeed, mutating these sites to mimic phosphorylation increases the dissociation after IR. CHK2 is able to phosphorylate B'α in vitro; however, in vivo, irradiation has no effect on PP2A activity or localization. Alternatively, PP2A negatively regulates CHK2 phosphorylation at multiple sites, as well as its kinase activity and protein stability. These data reveal a novel mechanism for PP2A to keep CHK2 inactive under normal conditions while also allowing for a rapid release from this regulation immediately following DNA damage. This is followed by a subsequent reconstitution of the PP2A/CHK2 complex in later time points after damage, which may help to attenuate the signal. This mechanism of CHK2 negative regulation by PP2A joins a growing list of negative regulations of DNA damage response proteins by protein serine/threonine phosphatases. DNA damage response phosphorylation kinase ionizing radiation DNA double-strand break American Studies Arts and Humanities Biology
184	Medicinos personalo (gydytojų radiologų ir radiologijos laborantų), informuotumo apie gaunamą pacientų apšvitą ir radiacinę saugą tyrimas / Privity research for medical personnel (radiologists and radiology technicians) about procurable patient‘s irradiance and radiation safety Savičiūtė, Rasa 25 November 2010 (has links) Darbo tikslas - nustatyti ir įvertinti asmens svaikatos priežiūros įstaigų medicinos personalo (gydytojų radiologų ir radiologijos laborantų) informuotumą apie pacientų gaunamą apšvitą ir radiacinę saugą Vilniaus mieste. Tyrimo objektas – gydytojai radiologai ir radiologijos laborantai. Tyrimo metu buvo apklausti 140 respondentų iš 15 asmens sveikatos priežiūros įstaigų. Viso buvo apklausta 35 gydytojai radiologai (iš jų 15 vyrų ir 20 moterų) ir 105 radiologijos laborantai (iš jų 4 vyrai ir 101 moteris), o tai atitinkamai sudarė 25,0% ir 75,0%. Apklaustųjų amžius svyruoja nuo 23 iki 71 metų (vidurkis 47,43). Tyrimo tikslui ir uždaviniams pasiekti panaudotas aprašomasis tyrimo tipas bei anketinės apklausos metodas. Statistinė duomenų analizė atlikta naudojant SPSS 13 programos versiją. Pateikiamas rodiklių pasiskirstymas absoliučiais skaičiais ir procentais, apskaičiuotas chi kvadratas (Chi-kv.). Sirtumas statistiškai reikšmingas kai pasikliovimo lygmuo p<0,05. Atlikta mokslinių straipsnių, sveikatos sistemos teisinės ir normatyvinės medžiagos ir t.t., analizė. Gautos šios išvados: įvertinus bendrą žinių lygį tarp apklaustų respondentų, galima teigti, kad gydytojai radiologai ir radiologijos laborantai pakankamai gerai žino radiacinės saugos principus bei apšvitos keliamą pavojų. Tačiau atliktas tyrimas taip pat parodė, kad jiems vis dar trūksta žinių kai kuriais specifiniais klausimais, pavyzdžiui tokiais kaip tipinės efektinės dozės gaunamos atliekant įvairias procedūras... [toliau žr. visą tekstą] / Main task – to estimate and evaluate medical personnel’s of health care (doctors of radiology and radiology assistants) informativeness about receivable irradiance towards patients and radiational safety in city of Vilnius. Object of research - doctors of radiology and radiology assistants. During this research 140 respondents were questioned from 15 health care institutions. Overall 35 radiologists were questioned (15 men and 20 women), 105 radiology assistants (4 men and 101 women) and that’s accordingly 20, 0% and 75, 0%. Age variance of the respondents is from 23 up to 71 years old (average of 47.43 years old). Descriptive research type and survey was used in order to achieve the goals of this research. Statistical data analysis was performed by using SPSS program, version 13. The given distribution of index is in natural numbers and in percentage, Chi-square is counted (Chi-sq). Statistically the difference is meaningful when the level of probability is p<0,05. The analysis of science articles, law normative materials, health care systems, etc. was accomplished. The conclusion: after the evaluation of knowledge of the respondents it is clear that, doctors of radiology and radiology assistants have enough knowledge about radiational safety and dangers of irradiance. The research also revealed that they do not have enough knowledge concerning the specific topics, for example the doses that are received during variable procedures, the dependence of the dose, the observation... [to full text] Ionizing radiation Radiation safety Medical irradiance Roentgen Radiologists Radiology assistants Informativeness
185	Thyroid cancer : studies on etiology and prognosis Hallquist, Arne January 1994 (has links) Thyroid cancer constitutes about 1% of all malignant tumours and the incidence is increasing in Sweden. It is rare in children before the age of 10. During puberty the female to male ratio increases to be two to three times more common in females. The ratio remains constant until menopause and thereafter declines. The etiology of this gender-dependent incidence difference is unclear. Ionizing radiation is the only well-established risk factor for the disease, while the impact of other etiological factors is not clear. A retrospective study based upon medical records of 218 females and 91 males with papillary, mixed or follicular types of thyroid cancer was conducted. Prognostic factors were compared by multivariate analysis using Cox's semiparametric hazard model. Differences in prognosis between women and men were found. There was a higher relapse rate and mortality risk among men. Distant metastasis, age >50 years, regional lymph node metastasis, low or moderate differentiation, and tumour related symptoms at diagnosis were also independent factors related to increased tumour mortality risk. A population-based case-control study including 180 cases and 360 controls was carried out to identify risk factors for thyroid cancer. Information on exposure was obtained by mailed questionnaires. The first part of the study investigated connections between medical ionizing radiation and thyroid cancer. The results showed that diagnostic X rays were a significant risk factor for papillary thyroid cancer in women between 20 and 50 years at diagnosis. Exposure to iodine-131 caused no increased risk for thyroid cancer. The result supports that external radiotherapy is a risk factor for thyroid cancer in women. The second part of the case-control study dealt with occupation and different exposures. Work with diagnostic X-ray investigations and work as a lineman was associated with thyroid cancer. Exposure to impregnating agents increased the risk. The third part of this study showed that one pregnancy increased the risk for papillary thyroid cancer. A medical history of asthma or allergy decreased the risk. Another case-control study using medical records as the source for assessment of exposure gave a non significantly increased risk for thyroid cancer in patients who had been treated with external radiotherapy including the thyroid gland. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1994, härtill 5 uppsatser.</p> / digitalisering@umu Thyroid cancer prognostic factors etiology occupation medical ionizing radiation reproductive and family factors
186	Evaluation and redesign of radiation shielding in a radionuclide production facility at a particle accelerator / Onalenna Kegopotsemang Kegopotsemang, Onalenna January 2004 (has links) iThemba LABS is a particle accelerator facility housing a radionuclide production facility that uses a 66 MeV proton beam to produce radionuclides for medical and industrial use. Ionising radiation is produced by a variety of sources at Themba LABS. Ionising is a health hazard. High doses can cause acute radiation syndrome, i.e. "radiation sickness". Lower doses cannot cause acute symptom, but carry a risk of radiation-related cancer. Ionising radiation is also detrimental to materials, and can damage polymers and lubricants e.g. Shielding is used to reduce radiation levels to values that should be safe for the intended level of human occupancy. Shield performance is vital to human health and the life expectancy of polymers and lubricants, so that quality management in shield design is very important. However, until 2003, there has been no formal system at iThemba LABS to evaluate and improve all radiation shield designs and layouts from a radiation protection perspective. This study deals with evaluating and redesigning radiation shielding in the radionuclide production facility of iThemba LABS. There are several designs and layouts in the radionuclide production building of iThemba LABS that lead to unnecessary exposure of personnel to ionising radiation. The shielding in these areas are sub-standard. Performance criteria for radiation shields are developed. Inadequate radiation shields are identified. The identified inadequate shields are: the processing hotcells, the target store room and the hotcells in the radiopharmaceutical dispensing laboratory, Point-Kernel radiation shielding calculations are done to specify materials and material thickness that will adequately protect workers against ionising radiation. / Thesis (MSc. ARST) North-West University, Mafikeng Campus, 2004 Radionuclide generators Radiation-Safety measures Ionizing radiation
187	The Role of the p53 Tumour Suppressor Protein in Relation to the Sensing of Ionizing Radiation-induced DNA Double-strand Breaks Al Rashid, Shahnaz Tahihra 07 March 2011 (has links) Our cells are constantly dealing with DNA damage generated by endogenous cellular activity (e.g. DNA replication) and exogenous agents (e.g. ultraviolet and ionizing radiation (IR)). The cellular stress response to DNA damage requires strict co-ordination between cell cycle checkpoint control and DNA repair. In response to DNA double-strand breaks (DNA-dsbs), members of the phosphatidylinositol 3-kinase–related kinase family (e.g. ATM and DNA-PKcs kinases) have been shown to redundantly phosphorylate substrates including the DNA-dsb marker, gamma-H2AX, and the p53 tumour suppressor protein. The p53 protein is best known as the guardian of the genome through its transcriptional-dependent and -independent functions. Despite a clear link between ATM-dependent phosphorylation of p53 with cell cycle checkpoint control and various modes of DNA damage repair, the intracellular biology and sub-cellular localization of p53 and specifically its phosphoforms during DNA damage induction and repair remains poorly characterized. Using G0/G1 confluent primary human diploid fibroblast cultures, this thesis shows that endogenous p53, phosphorylated at serine 15 (p53Ser15), accumulates as discrete, dose-dependent and chromatin-bound foci within 30 minutes following the induction of DNA breaks. This biologically distinct sub-pool of p53Ser15 is ATM-dependent and resistant to 26S-proteasomal degradation. p53Ser15 co-localizes and co-immunoprecipitates with gamma-H2AX with kinetics similar to that of biochemical DNA-dsb rejoining. Sub-nuclear microbeam irradiation studies confirm that p53Ser15 is recruited to sites of DNA damage containing gamma-H2AX, ATMSer1981 and DNA-PKcsThr2609 in vivo. Furthermore, studies using isogenic human and murine cells, which express Ser15 or Ser18 phosphomutant proteins, respectively, show defective nuclear foci formation, decreased induction of p21WAF, decreased gamma-H2AX-association and altered DNA-dsb kinetics following DNA damage. We further hypothesized that the non-specific DNA binding activity of the p53 carboxy-terminus mediates chromatin anchoring at sites of DNA damage. YFP-p53 fusion constructs expressing carboxy-terminus deletion mutants of p53 were transfected into p53-null H1299 cells to determine the role of the carboxy-terminus in chromatin-binding pre- and post-IR, independent of transcriptional activity. Within this isogenic human cell system, we observed exogenous YFP-p53WT associated with ATMSer1981 and 53BP1 within cellular chromatin in a dynamic manner. We confirmed that these associations also occurred between endogenous WTp53 with ATMSer1981 and 53BP1 within the chromatin of primary human diploid fibroblasts. YFP-p53del1-299 fusion proteins, which lack transcriptional activity and the Ser15-residue, also associated within chromatin. Ser15-phosphorylation was found not to be essential for DNA damage-induced association of p53 with chromatin or with ATMSer1981 and 53BP1. These data suggest a unique biology for p53Ser15 phosphoforms in the initial steps of DNA damage signaling and implicates ATM-p53-53BP1 chromatin-based interactions as mediators of cell cycle checkpoint control and DNA repair. And we propose a model whereby a pre-existing pool of p53 that constantly scans the genome, responds immediately to radiation-induced DNA damage by virtue of its association with chromatin through its carboxy-terminus. The consequences for these p53-ATMSer1981-53BP1 complexes following DNA damage remains to be investigated: could residual complexes be associated with decreased DNA-dsb rejoining or error-prone repair, or could these complexes signal for cell survival or cell death? Since altered p53 function and biology is an important factor in cellular carcinogenesis and response to cancer therapy, this study provides a step towards a greater understanding of WTp53 and MTp53 biology in tumour development and therapeutic resistance, in the hopes to contribute towards predicting therapeutic response and/or improving p53-targeted therapies. p53 Ionizing Radiation ATM 53BP1 Cancer Cell cycle DNA damage DNA repair 0760
188	The Role of 53BP1 and its Phosphorylation in the DNA Damage Response Harding, Shane Michael 12 December 2012 (has links) The tumour suppressor p53-binding protein 1 (53BP1) is phosphorylated following DNA double strand breaks (DSBs); however, little is understood about the upstream signaling pathways that control this phosphorylation. Additionally, it is not known how these processes combine with 53BP1 to control the survival of cells following DNA damage such as that imparted by ionizing radiation (IR), which is the basis of radiotherapy. In this thesis, I have shown that 53BP1 is phosphorylated specifically in S-phase cells, but not relocalized to intranuclear foci, in response to severe oxygen stress. This occurs with only partial dependence on the ATM kinase (Chapter 2). Following IR, I find that both ATM and DNA-PKcs contribute to intranuclear phosphorylated 53BP1 foci, but that this phosphorylation is independent of proximal signaling molecules that control the localization of 53BP1 to initial DSBs (Chapter 3). Furthermore, I show that 53BP1 loss confers sensitivity to IR and this can be further augmented by inhibition of ATM and DNA-PKcs kinases suggesting that there are both 53BP1-dependent and -independent pathways of survival from IR (Chapter 4). These findings may have important implications for molecular pathology and personalized medicine as 53BP1 has recently been found to be activated or lost in subsets of human tumours. I have collaborated to initiate the development of a novel system to interrogate the implications of 53BP1 loss as traditional siRNA approaches in human cancer cells were not feasible (Chapter 5 and Appendix 2). This system can be used in vivo as tumour xenografts to further understand how 53BP1 and the tumour microenvironment interact endogenously and in response to IR. I also present the possibility and proof of concept for the use of 53BP1 as a biomarker in primary human prostate cancer tissue where little is known about 53BP1 biology (Chapter 5). DNA Damage Genetic Instability Cancer Ionizing radiation 53BP1 Hypoxia Cell cycle Radiosensitivity 0379 0307 0760
189	Lateral electron disequilibrium in radiation therapy / Chan, Kin Wa. January 2002 (has links) Thesis (M.Sc.) (Hons)-- University of Western Sydney, 2002. / "A thesis submitted in fulfillment of the requirements for the Degree of Master of Science (Honours) in Physics at the University of Western Sydney" "September 2002" "Kin Wa (Karl) Chan of Medical Physics Department of Westmead Hospital and the University of Western Sydney"-- t.p. Bibliography: leaves 100-105.
190	Characterizing of gamaH2AX response of human lymphocytes to ionizing radiation / Andrievski, Andrei, January 1900 (has links) Thesis (M.Sc.) - Carleton University, 2007. / Includes bibliographical references (p. 67-73). Also available in electronic format on the Internet.

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