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Yasuhiro Kotera Vicky Cockerill Pauline Green Lucy Hutchinson Paula Shaw Nicholas Bowskill 《Distance Education》2019,40(2):170-186
Online learning is crucial to success for higher education institutions. Whilst the existing literature predominantly focused on its economic advantages, we focused on its inclusivity. At an online learning unit of a UK university, the number of students with disabilities (SWD) is three times higher than the national average. Having a degree makes significant financial and psychological differences in the lives of SWD. Though recent literature focused on inclusivity of online learning, an appraisal of first-hand experience of SWD studying online is a missing perspective. Accordingly, we aimed to explore their experience, using thematic analysis of semi-structured interviews involving ten SWD. Three themes emerged: (1) having control over studies as an advantage of online learning, (2) personal touch helps SWD’s online learning, and (3) challenges SWD experience with the social element of online learning. Our findings will help to develop the inclusivity of online learning to a new level. 相似文献
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Dielectrophoretic cell trapping and parallel one-to-one fusion based on field constriction created by a micro-orifice array 总被引:1,自引:0,他引:1
Murat Gel Yuji Kimura Osamu Kurosawa Hidehiro Oana Hidetoshi Kotera Masao Washizu 《Biomicrofluidics》2010,4(2)
Micro-orifice based cell fusion assures high-yield fusion without compromising the cell viability. This paper examines feasibility of a dielectrophoresis (DEP) assisted cell trapping method for parallel fusion with a micro-orifice array. The goal is to create viable fusants for studying postfusion cell behavior. We fabricated a microfluidic chip that contained a chamber and partition. The partition divided the chamber into two compartments and it had a number of embedded micro-orifices. The voltage applied to the electrodes located at each compartment generated an electric field distribution concentrating in micro-orifices. Cells introduced into each compartment moved toward the micro-orifice array by manipulation of hydrostatic pressure. DEP assisted trapping was used to keep the cells in micro-orifice and to establish cell to cell contact through orifice. By applying a pulse, cell fusion was initiated to form a neck between cells. The neck passing through the orifice resulted in immobilization of the fused cell pair at micro-orifice. After washing away the unfused cells, the chip was loaded to a microscope with stage top incubator for time lapse imaging of the selected fusants. The viable fusants were successfully generated by fusion of mouse fibroblast cells (L929). Time lapse observation of the fusants showed that fused cell pairs escaping from micro-orifice became one tetraploid cell. The generated tetraploid cells divided into three daughter cells. The fusants generated with a smaller micro-orifice (diameter∼2 μm) were kept immobilized at micro-orifice until cell division phase. After observation of two synchronized cell divisions, the fusant divided into four daughter cells. We conclude that the presented method of cell pairing and fusion is suitable for high-yield generation of viable fusants and furthermore, subsequent study of postfusion phenomena. 相似文献
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Masato Watanabe Yuya Yoneyama Hayato Hamada Michihide Kohno On Hasegawa Hidetoshi Takahashi Yoko Kawase-Koga Akira Matsuo Daichi Chikazu Shinichi Kawata Masahiro Itoh 《Anatomical sciences education》2020,13(5):628-635
The purpose of this study was to assess the usefulness of saturated salt solution-embalmed cadavers for oral surgical skills training related to bone graft harvesting. Two half-day surgical skills training workshops were held at the Tokyo Medical University utilizing eight cadavers embalmed with the saturated salt solution. A total of 22 participants including oral surgeons, residents, and dentists attended the workshop. Surgical training consisted of six procedures related to intraoral and extraoral bone harvesting. The participants were surveyed to assess self-confidence levels for each surgical procedure before and after completion of each workshop. The Wilcoxon signed-rank test was used to compare the differences between each median score before and after the workshop. There were statistically significant increases in the self-assessed confidence scores in bone harvesting procedures for the zygomatic bone (P = 0.003), maxillary tuberosity (P = 0.002), and other sites (P < 0.001). The anatomical features of saturated salt solution-embalmed cadavers were also examined. The textures of the oral mucosa and skin were similar to those of living individuals. The structure of bone tissues was well-preserved and the hardness was realistic. Consequently, all procedures were performed with sufficient realism. The saturated salt solution method has a relatively low cost of preparation and storage, and almost no odor. The authors suggest that saturated salt solution-embalmed cadavers could provide a new model for oral surgical skills training in bone harvesting. 相似文献
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In this study, we propose and evaluate a novel low-auto-fluorescence photoresist (SJI photoresist) for bio-application, e.g., in gene analysis and cell assay. The spin-coated SJI photoresist has a wide thickness range of ten to several hundred micrometers, and photoresist microstructures with an aspect ratio of over 7 and micropatterns of less than 2 μm are successfully fabricated. The emission spectrum intensity of the SJI photoresist is found to be over 80% less than that of the widely used SU-8 photoresist. To evaluate the validity of using the proposed photoresist in bio-application for fluorescence observation, we demonstrate a chromosome extension device composed of the SJI photoresist. The normalized contrast ratio of the SJI photoresist exhibits a 50% improvement over that of the SU-8 photoresist; thus, the SJI photoresist is a versatile tool for bio-application. 相似文献
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