7 research outputs found
Hematological response to Standard and Optimized rATG protocol.
*<p>
<i>Difference between Standard and Optimized rATG protocol.</i></p
Absolute lymphocyte count (mean±SE) following rATG administration.
<p>The degree and duration of lymphopenia were similar between Standard rATG (dotted line) and Optimized rATG (solid line) 9 days and 6 months following rATG administration.</p
Characteristics of the cohort of patients.
<p>
<i>rATG, rabbit antithymocyte globulin; VSAA, very severe aplastic anemia; SAA, severe aplastic anemia; ANC, absolute neutrophil count; ALC, absolute lymphocyte count.</i></p
Different OS between younger (≦20 years) and older (>20 years) patients stratified by Standard rATG and Opitimized rATG.
<p>A, Following Standard rATG, older patients had a worse OS than younger ones (<i>P</i> = 0.02). B, Following Optimized rATG, older and younger patients had a similar OS.</p
Kaplan-Meier curve of overall survival.
<p>A, The 5-year OS of patients received Optimized rATG was superior to that of patients received Standard rATG (<i>P</i><.001). B, Longer interval between diagnosis and IST (>23 days) predicted a worse 5-year OS (<i>P</i><.001). C, The patients with response at 3 months had significantly higher 5-year OS (<i>P</i><.001).</p
Adverse events in 3 months after IST.
*<p>
<i>Difference between Standard and Optimized rATG protocol.</i></p
Copper Mesh Templated by Breath-Figure Polymer Films as Flexible Transparent Electrodes for Organic Photovoltaic Devices
Metal
mesh is a significant candidate of flexible transparent electrodes
to substitute the current state-of-the-art material indium tin oxide
(ITO) for future flexible electronics. However, there remains a challenge
to fabricate metal mesh with order patterns by a bottom-up approach.
In this work, high-quality Cu mesh transparent electrodes with ordered
pore arrays are prepared by using breath-figure polymer films as template.
The optimal Cu mesh films present a sheet resistance of 28.7 Ω·s<i>q</i><sup>–1</sup> at a transparency of 83.5%. The work
function of Cu mesh electrode is tuned from 4.6 to 5.1 eV by Ag deposition
and the following short-time UV–ozone treatment, matching well
with the PEDOT:PSS (5.2 eV) hole extraction layer. The modified Cu
mesh electrodes show remarkable potential as a substitute of ITO/PET
in the flexible OPV and OLED devices. The OPV cells constructed on
our Cu mesh electrodes present a similar power conversion efficiency
of 2.04% as those on ITO/PET electrodes. The flexible OLED prototype
devices can achieve a brightness of 10 000 cd at an operation
voltage of 8 V