95 research outputs found
Royal women and gendered communication : female voices in Carolingian Diplomas
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Effect of pH on in vitro biocompatibility of orthodontic miniscrew implants
BACKGROUND: Although the clinical use of miniscrews has been investigated on a large scale, little is known about their biocompatibility. Since low pH can affect corrosion resistance, the aim of this study was to evaluate the cytotoxic effect of orthodontic miniscrews in different pH conditions. METHODS: Four orthodontic miniscrews of stainless steel and grade IV and grade V titanium were immersed in a pH 7 and pH 4 saline solution for 1, 7, 14, 21, 28, and 84 days. Human osteogenic sarcoma cells (U2OS), permanent human keratinocytes (HaCat), and primary human gingival fibroblasts (HGF) were exposed to eluates, and the mitochondrial dehydrogenase activity was measured after 24 h to assess the cytoxicity. The results were analyzed using the Mann-Whitney U test (P < 0.05). RESULTS: When exposed to pH 7-conditioned eluates, the cell lines showed an even greater viability than untreated cells. On the contrary, the results revealed a statistically significant decrease in U2OS, HaCat, and HGF viability after exposure to eluates obtained at pH 4. Among the cell lines tested, HGF showed the most significant decrease of mitochondrial activity. Interestingly, grade V titanium miniscrews caused highest toxic effects when immersed at pH 4. CONCLUSIONS: The results suggested that at pH 7, all the miniscrews are biocompatible while the eluates obtained at pH 4 showed significant cytotoxicity response. Moreover, different cell lines can produce different responses to miniscrew eluates
Mandibular coronoid process tumor resembling a mandibular condyle: A case report
Abnormal elongation of mandibular coronoid process, often defined as coronoid hyperplasia, is a rare condition, which is frequently associated with limited mouth opening. In some cases, the enlarged coronoid pushes the zygoma forward causing facial asymmetry. This case report describes a 16-year-old boy whose chief complaint was a progressive difficulty and deviation in mouth opening, together with a deformity appearing at maximum opening at the zygomatic area. The diagnosis was Unilateral Accessory Mandibular Condyle at coronoid process, without reduction of the mouth opening capacity. A coronoidectomy was carried out by means of piezoelectric surgery, instead of a coronoidotomy which is usually performed in these cases, due to a suspect of ramus neoplasm. Keywords: Coronoid hyperplasia, Accessory condyle, Temporomandibular disorder, Piezoelectric surgery, Adolescen
Quantitative expression profiling of highly degraded RNA from formalin-fixed, paraffin-embedded breast tumor biopsies by oligonucleotide microarrays.
Microarray-based gene expression profiling is well suited for parallel quantitative analysis of large numbers of RNAs, but its application to cancer biopsies, particularly formalin-fixed, paraffin-embedded (FFPE) archived tissues, is limited by the poor quality of the RNA recovered. This represents a serious drawback, as FFPE tumor tissue banks are available with clinical and prognostic annotations, which could be exploited for molecular profiling studies, provided that reliable analytical technologies are found. We applied and evaluated here a microarray-based cDNA-mediated annealing, selection, extension and ligation (DASL) assay for analysis of 502 mRNAs in highly degraded total RNA extracted from cultured cells or FFPE breast cancer (MT) biopsies. The study included quantitative and qualitative comparison of data obtained by analysis of the same RNAs with genome-wide oligonucleotide microarrays vs DASL arrays and, by DASL, before and after extensive in vitro RNA fragmentation. The DASL-based expression profiling assay applied to RNA extracted from MCF-7 cells, before or after 24 h stimulation with a mitogenic dose of 17b-estradiol, consistently allowed to detect hormone-induced gene expression changes following extensive RNA degradation in vitro. Comparable results where obtained with tumor RNA extracted from FFPE MT biopsies (6 to 19 years old). The method proved itself sensitive, reproducible and accurate, when compared to results obtained by microarray analysis of RNA extracted from snap-frozen tissue of the same tumor
The arsenic in mice as experimental model for risk modifiers.
Studies on the relevance of host factors in modulating the physiological responses following chronic exposure to xenobiotics were carried out according to a \u201cToxicogenomic Model on Arsenic in Mice\u201d developed at thte JRC. This model is focused on chronic exposure to arsenate given alone or in combination with other xenobiotics, to assess potential \u201ccocktail effects\u201d and related cumulative risks.
DNA-macroarrays technology is applied to evaluate physiological responses at transcriptional level and assessing possible biochemical responses. A cluster of 1200 cancer genes was used for screening purposes, while quantitative PCR on selected genes applied for validation.
The exposure varied from in-utero and post-lactation up to adult age (4 months), the chemical forms (arsenate and dimethylarsenate) and doses from 0.1 up to 10 mg As/L in drinking water. Comparison between acute single doses and chronic exposure was also performed. Chronic exposure to arsenate and atrazine in drinking water was selected as an example of multiple chronic exposure.
The liver, kidney, lung, bone marrow, adrenals, uterus, and testis were the tissues considered. In the tissues of mice chronically exposed to arsenate, the modulation of gene expression was not only depending on the levels, types and length of exposure, while differently regulated also by the sex, age and diet. The main gene functional families modulated were covering a wide range of biochemical and physiological regulations, like cell cycle modulation, cell adhesion, apoptosis, xenobiotic metabolism, DNA repair, protein turnover, and proto-oncogenes.
The patterns of gene expression were strongly influenced by co-exposure to other xenobiotics like atrazine and naphthalene, particularly for genes involved in the metabolism and in neuroendocrine regulation. These effects varied according to the tissue considered, supporting the needs for coherent and specifically designed studies to assess relevant biomarkers of long-term exposure to low levels of xenobiotics and their mixtures
Sex as a major determinant of gene expression in tissues of mice exposed to arsenate.
Inorganic arsenic, frequently found as contaminant of ground water used for drinking purposes in many areas of the world, is a well-known potent human toxicant and carcinogen. Chronic exposure to
inorganic arsenic has been associated with cancer of skin, lung, bladder and kidney and, probably, liver. The mechanism of arsenic action in vivo is poorly understood, in particular in relation to dose,
type of tissue and gender.
To elucidate tissue- and gender dependent biological responses in the genome of mice, we have used cDNA macroarrays for investigation on the expression of 1185 cancer-related genes in mice
after exposure to arsenate in drinking water.
Continuous exposures of mice to arsenate in drinking water modulate the gene expression in tissues. Interestingly, there were remarkable sex differences: male and female mice show
completely different changes in the expression of cancer-related genes.
The main gene functional families modulated, were covering a wide range of biochemical and physiological regulations, like cell cycle modulation, cell adhesion, apoptosis, xenobiotic
metabolism, DNA repair, protein turnover and proto-oncogens.
This result demonstrates important gene-environmental interactions: the molecular mechanisms triggered by arsenic levels frequently experienced following exposure via drinking water,
are totally different in males and females.
The results obtained using cancer-related genes will be compared with the profiles of over 30.000 genes using the Applied Biosystems expression Array System, to clarify the sex-specific
gene pathways
Dietary proteins modulates the gene expression in mice chronically exposed to arsenate.
In the frame of a project on the assessment of risk modifying factors modulating the health effects of environmental chemicals we are developing a toxicogenomic approach using an \u201carsenic in mice\u201d experimental model, considering multistressors exposure, genetics, age, levels and length of exposure, etc.
In the present study, we used cDNA Macroarrays to investigate the effects of low protein intake on the expression of 1185 cancer-related genes in the liver of male and female mice transplacentary exposed to different levels of arsenate in drinking water during gestation and developmental age.
The results of this study support the relevance of dietary factors in modulating the physiological responses in gene expression following chronic exposure to xenobiotics.
In mice chronically exposed to arsenate in drinking water, the modulation of gene expression in different tissues was not only depending on the levels of the xenobiotic under investigation, but mainly regulated by the content of proteins in diet
Clonogenicity and gene expression modulation in the bone marrow of mice chronically exposed to arsenic and atrazine.
The clonogenicity of myeloid progenitors (CFU-GM) and the modulation of gene expression of 1185 cancer-related genes by DNA-macroarrays in bone marrow were used to investigate in male and female mice the combined effects of continuous exposure to arsenate and atrazine in drinking water.
In male mice, the exposure to arsenate or to atrazine alone and the combined exposure did not change the clonogenicity of the progenitors. In females the percentage of CFU-GM decreased significantly after atrazine exposure, did not change with arsenic treatment, but dramatically increased after the combined exposure to the two chemicals.
Results from microarrays indicate that atrazine alone didn\u2019t stimulate the expression of any of the cancer genes analyzed in both male and female. Arsenic induced gene expression modulation only in female and had no effects on male. Major significant changes on the gene expression in bone marrow cells resulted following the co-exposure to arsenic and atrazine in both male and female.
These results indicate that co-exposure of mice to atrazine and arsenate induces significant effects at the level of transcriptional activation of genes in bone marrow cells, as well as stimulating the myeloid progenitors to proliferate, particularly when co-administered in drinking water to female mice
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