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排序方式: 共有341条查询结果,搜索用时 78 毫秒
81.
The ionization of sputtered aluminum atoms in the plasma of a microwave ECR discharge intended for metal coating of submicron-size structures in microelectronics is studied. The spatial distributions of xenon plasma parameters and their variations under the action of metal atoms are investigated using probe and optical emission spectroscopy techniques. 相似文献
82.
Nazanin Maani Steven W. Hetts Vitaliy L. Rayz 《Biomechanics and modeling in mechanobiology》2018,17(6):1811-1820
Two-scale CFD modeling is used to design and optimize a novel endovascular filtration device for removing toxins from flowing blood. The Chemofilter is temporarily deployed in the venous side of a tumor during the intra-arterial chemotherapy in order to filter excessive chemotherapy drugs such as Doxorubicin from the blood stream. The device chemically binds selective drugs to its surface thus filtering them from blood, after they have had the effect on the tumor and before they reach the heart and other organs. The Chemofilter consists of a porous membrane made of microscale architected materials and is installed on a structure similar to an embolic protection device. Simulations resolving the microscale structure of the device were carried out to determine the permeability of the microcell membrane. The resulting permeability coefficients were then used for macroscale simulations of the flow through the device modeled as a porous material. The microscale simulations indicate that greater number of microcell layers and smaller microcell size result in increased pressure drop across the membrane, while providing larger surface area for drug binding. In the macroscale simulations, the study of idealized prototypes show that the pressure drop can be reduced by increasing the membrane’s tip angle and by decreasing the number of membrane’s sectors. Such design, however, can conversely affect the overall drug binding. By decreasing the concentration of toxins in the cardiovascular system, the drug dosage can be increased while side effects are reduced, thus improving the effectiveness of treatment. 相似文献
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Inna Koksheeva Natalya Naryshkina Sergey Tvorogov Roman Doudkin Vitaliy Kazarin 《Grana》2013,52(5):350-362
Pollen sculpture elements of four Rhododendron species from 49 populations were studied using scanning electron microscopy. The sculpture in the polar areas of the studied taxa pollen differed in type, shape, size, and distribution of individual elements. There were five sculpture types identified. The pollen of Rhododendron ledebourii from various populations in Altai revealed sculpture elements characteristic of R. dauricum, R. mucronulatum, and R. sichotense, questioning the taxonomic position of the former species. Analysis of the geographical distribution of sculpture types clarified species boundaries and zones of sympatric distribution. The northern boundary of R. mucronulatum was expanded and new populations of R. sichotense were revealed. In the sympatric zones of R. mucronulatum and R. sichotense, there were intermediate populations showing pollen sculptures typical of R. dauricum, R. mucronulatum, and R. sichotense. The sculpture diversity observed in the pollen of R. dauricum, together with its presence in sympatric zones, suggests that it is probably a hybrid of R. sichotense and R. mucronulatum or a subspecies of R. sichotense. 相似文献
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Valentin Gogonea Gary S. Gerstenecker Zhiping Wu Xavier Lee Celalettin Topbas Matthew A. Wagner Thomas C. Tallant Jonathan D. Smith Philip Callow Vitaliy Pipich Hélène Malet Guy Schoehn Joseph A. DiDonato Stanley L. Hazen 《Journal of lipid research》2013,54(4):966-983
Small-angle neutron scattering (SANS) with contrast variation was used to obtain the low-resolution structure of nascent HDL (nHDL) reconstituted with dimyristoyl phosphatidylcholine (DMPC) in the absence and presence of cholesterol, [apoA1:DMPC (1:80, mol:mol) and apoA1:DMPC:cholesterol (1:86:9, mol:mol:mol)]. The overall shape of both particles is discoidal with the low-resolution structure of apoA1 visualized as an open, contorted, and out of plane conformation with three arms in nascent HDL/dimyristoyl phosphatidylcholine without cholesterol (nHDLDMPC) and two arms in nascent HDL/dimyristoyl phosphatidylcholine with cholesterol (nHDLDMPC+Chol). The low-resolution shape of the lipid phase in both nHDLDMPC and nHDLDMPC+Chol were oblate ellipsoids, and fit well within their respective protein shapes. Modeling studies indicate that apoA1 is folded onto itself in nHDLDMPC, making a large hairpin, which was also confirmed independently by both cross-linking mass spectrometry and hydrogen-deuterium exchange (HDX) mass spectrometry analyses. In nHDLDMPC+Chol, the lipid was expanded and no hairpin was visible. Importantly, despite the overall discoidal shape of the whole particle in both nHDLDMPC and nHDLDMPC+Chol, an open conformation (i.e., not a closed belt) of apoA1 is observed. Collectively, these data show that full length apoA1 retains an open architecture that is dictated by its lipid cargo. The lipid is likely predominantly organized as a bilayer with a micelle domain between the open apoA1 arms. The apoA1 configuration observed suggests a mechanism for accommodating changing lipid cargo by quantized expansion of hairpin structures. 相似文献
87.
Maani Nazanin Diorio Tyler C. Hetts Steven W. Rayz Vitaliy L. 《Biomechanics and modeling in mechanobiology》2020,19(5):1865-1877
Biomechanics and Modeling in Mechanobiology - Intra-arterial chemotherapy (IAC) is the preferred treatment for non-resectable hepatocellular carcinoma. A large fraction of IAC drugs, e.g.,... 相似文献
88.
Kolodyazhniy V Späti J Frey S Götz T Wirz-Justice A Kräuchi K Cajochen C Wilhelm FH 《Journal of biological rhythms》2011,26(1):55-67
Reliable detection of circadian phase in humans using noninvasive ambulatory measurements in real-life conditions is challenging and still an unsolved problem. The masking effects of everyday behavior and environmental input such as physical activity and light on the measured variables need to be considered critically. Here, we aimed at developing techniques for estimating circadian phase with the lowest subject burden possible, that is, without the need of constant routine (CR) laboratory conditions or without measuring the standard circadian markers, (rectal) core body temperature (CBT), and melatonin levels. In this validation study, subjects (N = 16) wore multi-channel ambulatory monitoring devices and went about their daily routine for 1 week. The devices measured a large number of physiological, behavioral, and environmental variables, including CBT, skin temperatures, cardiovascular and respiratory function, movement/posture, ambient temperature, and the spectral composition and intensity of light received at eye level. Sleep diaries were logged electronically. After the ambulatory phase, subjects underwent a 32-h CR procedure in the laboratory for measuring unmasked circadian phase based on the "midpoint" of the salivary melatonin profile. To overcome the complex masking effects of confounding variables during ambulatory measurements, multiple regression techniques were applied in combination with the cross-validation approach to subject-independent prediction of circadian phase. The most accurate estimate of circadian phase was achieved using skin temperatures, irradiance for ambient light in the blue spectral band, and motion acceleration as predictors with lags of up to 24 h. Multiple regression showed statistically significant improvement of variance of prediction error over the traditional approaches to determining circadian phase based on single predictors (motion acceleration or sleep log), although CBT was intentionally not included as the predictor. Compared to CBT alone, our method resulted in a 40% smaller range of prediction errors and a nonsignificant reduction of error variance. The proposed noninvasive measurement method could find applications in sleep medicine or in other domains where knowing the exact endogenous circadian phase is important (e.g., for the timing of light therapy). 相似文献
89.
Wu Z Gogonea V Lee X May RP Pipich V Wagner MA Undurti A Tallant TC Baleanu-Gogonea C Charlton F Ioffe A DiDonato JA Rye KA Hazen SL 《The Journal of biological chemistry》2011,286(14):12495-12508
Spherical high density lipoprotein (sHDL), a key player in reverse cholesterol transport and the most abundant form of HDL, is associated with cardiovascular diseases. Small angle neutron scattering with contrast variation was used to determine the solution structure of protein and lipid components of reconstituted sHDL. Apolipoprotein A1, the major protein of sHDL, forms a hollow structure that cradles a central compact lipid core. Three apoA1 chains are arranged within the low resolution structure of the protein component as one of three possible global architectures: (i) a helical dimer with a hairpin (HdHp), (ii) three hairpins (3Hp), or (iii) an integrated trimer (iT) in which the three apoA1 monomers mutually associate over a portion of the sHDL surface. Cross-linking and mass spectrometry analyses help to discriminate among the three molecular models and are most consistent with the HdHp overall architecture of apoA1 within sHDL. 相似文献
90.