Our study identified online lecture video styles that improved student engagement and satisfaction, while maintaining high learning outcomes in online education. We presented different lecture video styles with standardized material to students and then measured learning outcomes and satisfaction with a survey and summative assessment. We created an iterative qualitative coding scheme, “coding online asynchronous lectures” (COAL), to analyze open-ended student survey responses. Our results reveal that multimedia learning can be satisfying and effective. Students have strong preferences for certain video styles despite their equal learning outcomes, with the Learning Glass style receiving the highest satisfaction ratings. Video styles that were described as impersonal and unfamiliar were rated poorly, while those that were described as personal and engaging and evoked positive affective responses were rated highly. The students in our study rated lecture video styles that aligned with Mayer’s multimedia learning principles as highly satisfying, indicating that student feedback can be a valuable resource for course designers to consider as they design their own online courses. Finally, we provide guidelines for creating engaging, effective, and satisfying asynchronous lecture videos to support establishment of best practices in online instruction.
The multistep process of liver carcinogenesis involves various genetic and phenotypic alterations. To identify genes whose expression is increased during hepatocarcinogenesis, differential-display polymerase chain reaction (DD-PCR) was used to examine differences in the mRNA composition of hepatocellular carcinoma (HCC) versus normal liver (nontumor) tissues. This approach identified 67 cDNAs that were preferentially expressed in HCC tissue. When these cDNAs were analyzed by reverse-Northern analysis, five were reproducibly expressed at high levels in HCC. Interestingly, Northern blot analysis revealed that one of the genes showed significantly increased mRNA levels in all five tested tumor samples, while its mRNA level in the nontumor samples was minimal. BLAST analysis revealed that this gene has high sequence identity with the genes from aldo-keto reductase family of proteins including the mouse fibroblast growth factor-induced gene (FR-1) (80% identity), mouse vas deferens protein (MVDP) (76%), and human aldose reductase (AR) (62%). Expression of this novel AR-related protein in all five tested HCCs suggests that this protein may play an important role in liver carcinogenesis. (HEPATOLOGY 1998;27:943-950.) Hepatocellular carcinoma (HCC) is a multiformed and aggressive tumor, and is the fourth-most common tumor in the world today. In Asia and Africa, HCC is one of the major causes of cancer death because of its high frequency and poor prognosis. 1 The risk factors associated with HCC include chronic infections with hepatitis B virus or hepatitis C virus and prolonged dietary consumption of aflatoxins, alcohol, or iron overload. More recently, it has been shown that the relative risk for development of HCC is increased synergistically among individuals exposed to both aflatoxins and hepatitis B virus. 2 The incidence of HCC is expected to increase significantly in the next decade, mainly because of the increasing number of patients infected with hepatitis C virus.
Radiation and chemotherapy are effective treatments for cancer, but are also toxic to healthy cells. Little is known about whether prior exposure to these treatments is related to markers of cellular aging years later in breast cancer survivors. We examined whether past exposure to chemotherapy and/or radiation treatment was associated with DNA damage, telomerase activity, and telomere length 3–6 years after completion of primary treatments in breast cancer survivors (stage 0–IIIA breast cancer at diagnosis). We also examined the relationship of these cellular aging markers with plasma levels of Interleukin (IL)-6, soluble TNF-receptor-II (sTNF-RII), and C-reactive protein (CRP). Ninety-four women (36.4–69.5 years; 80% white) were evaluated. Analyses adjusting for age, race, BMI, and years from last treatment found that women who had prior exposure to chemotherapy and/or radiation compared to women who had previously received surgery alone were more likely to have higher levels of DNA damage (P = .02) and lower telomerase activity (P = .02), but did not have differences in telomere length. More DNA damage and lower telomerase were each associated with higher levels of sTNF-RII (P’s < .05). We found that exposure to chemotherapy and/or radiation 3–6 years prior was associated with markers of cellular aging, including higher DNA damage and lower telomerase activity, in post-treatment breast cancer survivors. Furthermore, these measures were associated with elevated inflammatory activation, as indexed by sTNF-RII. Given that these differences were observed many years after the treatment, the findings suggest a long lasting effect of chemotherapy and/or radiation exposure.
NBS1 is essential for the repair of radiation-induced DNA double-strand breaks (DSBs) in yeast and higher vertebrate cells. In this study, we examined whether suppressed NBS1 expression by small interference RNA (siRNA) could enhance radiation sensitivity in cancer cells with different TP53 status. We used human non-small cell lung cancer cells differing in TP53 gene status (H1299/wtp53 cells bearing wild-type TP53 or H1299/mp53 cells bearing mutant TP53). A DNA cassette expressing siRNA targeted for the NBS1 gene was transfected into those cell lines, and radiation sensitivity was examined with a colony-forming assay. Cellular levels of NBS1 and other proteins were analyzed using Western blotting. We found that the radiation sensitivity of H1299/wtp53 and H1299/mp53 cells was enhanced by transfection of the DNA cassette. In the NBS1-siRNA-transfected cells, we observed decreased constitutive expression of NBS1 protein and decreased radiation-induced accumulation of phosphorylated NBS1 protein. In addition, radiation-induced expression of the transcription factor NF-kappaB (NFKB) and XIAP (X-chromosome-linked inhibitor of apoptosis protein) was suppressed by NBS1-siRNA. Enhanced X-ray sensitivity after NBS1-siRNA transfection was achieved in TP53 wild-type cells and sensitivity was even more pronounced in TP53 mutant cells. The transfection of siRNA targeted for XIAP also enhanced X-ray sensitivity even more for TP53 mutant cells compared to TP53 wild-type cells. Our data suggest that the sensitization to radiation results from NBS1-siRNA-mediated suppression of DNA repair and/ or X-ray-induced cell survival signaling pathways through NFKB and XIAP. siRNA targeting appears to be a novel radiation-sensitizing agent, particularly in human TP53 mutant cancer cells.
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