102 research outputs found
Short Intussusception Valves Prevent Reflux After Jejunal Interposition Bilioduodenal Anastomosis
Short whole circumference and semi-circumference intussusception valves were created in interposition
cholecysto-jejunal-duodenal conduits in pigs to determine which method best prevented gastrointestinal
reflux into the biliary tract. Following intravenous injection of 99 mTc-HIDA the time interval for its
excretion from the liver and appearance in the duodenum was not different in either whole or semi-circumference
valve animals or in controls without valves. After intragastric administration of 99 mTc-DTPA the relative radioactivity of gallbladder contents (reflux) in the cohort without valves was
significantly higher than in both cohorts with valves. Animals with semi-circumferential valves in turn
had significantly higher levels of nuclide than those with whole circumference valves. Reflux was
observed grossly in 100% of animals without valves, in 20% of those with semi-circumference valves,
and in no animals with whole circumference valves. This study indicates that both Whole and semi-circumference
intussusception valves placed in jejunal biliary conduits allow unimpeded flow of bile into
the gastrointestinal tract. Whole circumference valves are more effective for prevention of reflux than
semi-circumferential valves
Online NIR Analysis and Prediction Model for Synthesis Process of Ethyl 2-Chloropropionate
Online near-infrared spectroscopy was used as a process analysis technique in the synthesis of 2-chloropropionate for the first time. Then, the partial least squares regression (PLSR) quantitative model of the product solution concentration was established and optimized. Correlation coefficient (R2) of partial least squares regression (PLSR) calibration model was 0.9944, and the root mean square error of correction (RMSEC) was 0.018105 mol/L. These values of PLSR and RMSEC could prove that the quantitative calibration model had good performance. Moreover, the root mean square error of prediction (RMSEP) of validation set was 0.036429 mol/L. The results were very similar to those of offline gas chromatographic analysis, which could prove the method was valid
A general route via formamide condensation to prepare atomically dispersed metal-nitrogen-carbon electrocatalysts for energy technologies
Single-atom electrocatalysts (SAECs) have gained tremendous attention due to their unique active sites and strong metal–substrate interactions. However, the current synthesis of SAECs mostly relies on costly precursors and rigid synthetic conditions and often results in very low content of single-site metal atoms. Herein, we report an efficient synthesis method to prepare metal–nitrogen–carbon SAECs based on formamide condensation and carbonization, featuring a cost-effective general methodology for the mass production of SAECs with high loading of atomically dispersed metal sites. The products with metal inclusion were termed as formamide-converted metal–nitrogen–carbon (shortened as f-MNC) materials. Seven types of single-metallic f-MNC (Fe, Co, Ni, Mn, Zn, Mo and Ir), two bi-metallic (ZnFe and ZnCo) and one tri-metallic (ZnFeCo) SAECs were synthesized to demonstrate the generality of the methodology developed. Remarkably, these f-MNC SAECs can be coated onto various supports with an ultrathin layer as pyrolysis-free electrocatalysts, among which the carbon nanotube-supported f-FeNC and f-NiNC SAECs showed high performance for the O2 reduction reaction (ORR) and the CO2 reduction reaction (CO2RR), respectively. Furthermore, the pyrolysis products of supported f-MNC can still render isolated metallic sites with excellent activity, as exemplified by the bi-metallic f-FeCoNC SAEC, which exhibited outstanding ORR performance in both alkaline and acid electrolytes by delivering ∼70 and ∼20 mV higher half-wave potentials than that of commercial 20 wt% Pt/C, respectively. This work offers a feasible approach to design and manufacture SAECs with tuneable atomic metal components and high density of single-site metal loading, and thus may accelerate the deployment of SAECs for various energy technology applications
Adaptive Design of mRNA-Loaded Extracellular Vesicles for Targeted Immunotherapy of Cancer
The recent success of mRNA therapeutics against pathogenic infections has increased interest in their use for other human diseases including cancer. However, the precise delivery of the genetic cargo to cells and tissues of interest remains challenging. Here, we show an adaptive strategy that enables the docking of different targeting ligands onto the surface of mRNA-loaded small extracellular vesicles (sEVs). This is achieved by using a microfluidic electroporation approach in which a combination of nano- and milli-second pulses produces large amounts of IFN-γ mRNA-loaded sEVs with CD64 overexpressed on their surface. The CD64 molecule serves as an adaptor to dock targeting ligands, such as anti-CD71 and anti-programmed cell death-ligand 1 (PD-L1) antibodies. The resulting immunogenic sEVs (imsEV) preferentially target glioblastoma cells and generate potent antitumour activities in vivo, including against tumours intrinsically resistant to immunotherapy. Together, these results provide an adaptive approach to engineering mRNA-loaded sEVs with targeting functionality and pave the way for their adoption in cancer immunotherapy applications
The Qur'an and Identity in Contemporary Chinese Fiction
How is it possible to comprehend and assess the impact of the Qur’an on the literary expressions of Chinese Muslims (Hui) when the first full ‘translations’ of the Qur’an in Chinese made by non-Muslims from Japanese and English appeared only in 1927 and 1931, and by a Muslim from Arabic in 1932? But perhaps the fact that such a translation appeared so late in the history of the Muslim community in China, who have had a continuous presence since the ninth-century, is the best starting point. For it would be possible to address the relationship between the sacred text (as well as language) and identity among minority groups in a different way. This paper looks at the ways in which the Qur’an is imagined then embodied in literary texts authored by two prize-winning Chinese Muslim authors: Huo Da (b. 1945) and Zhang Chengzhi (b. 1948). While Huo Da, who does not have access to the Arabic language, alludes to the Chinese Qur’an in her novel, The Muslim’s Funeral (1982), transforming the its teachings into ritual performances of alterity through injecting Arabic and Persian words for religious rituals into her narrative of a Muslim family’s fortunes at the turn of the twentieth century, Zhang Chengzhi, who learned Arabic as an adult and travelled widely in the Muslim world, involves himself in reconstructing the history of the spread and persecution of the Jahriyya Sufi sect (an off-shoot of the Naqshabandiyya) in China between the seventeenth and nineteenth centuries in his only historical novel, A History of the Soul (1991), and in education reform in Muslim communities, inventing an identity for Chinese Muslims based on direct knowledge of the sacred text and tradition and informed by the history of Islam not in China alone but in the global Islamic world, especially Arabic Islamic history
The Measurement of Urbanization Level Based on Entity Space: A Case Study of JingJinJi Region, China
On the basis of analyzing the pros and cons of different urbanization level measurement methods, this paper puts forward urbanization level measurement method based on entity space and then uses entity space data to describe the urbanization rate of various districts and counties of JingJinJi Region in 2005 and 2009. According to the analysis of time and space differences on such basis, JingJinJi may be divided from high to low order according to the urbanization rate of the entity space: central urban area, urban development area and suburb, which respectively bear different functions. According to the comparison of entity space urbanization rate and population urbanization rate in the aspects of sequence, primacy ratio, zipf index, etc., we find the non-intensive land use status quo of urban development area of JingJinJi and the feature that the distribution of entity space urbanization scale is much uniform than distribution of population urbanization scale. Accordingly, the paper puts forward the following suggestions : (1) The space construction should depend upon function division; (2) The urban development area should pay attention to the construction of the supporting facilities and meanwhile enhance land use rate; (3) The urban construction should be enhanced in small and middle regions and counties surrounding Beijing and Tianjin
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