Thematische Bibliographien / Flow-stop / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Flow-stop“

Autor: Grafiati
Veröffentlicht am 26. Juni 2021
Zuletzt aktualisiert am 2. Februar 2022

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1

Modonesi, C., M. Marzola, E. Morsiani, M. Indelli, L. Gulmini, M. Montanari, L. Vallieri, G. Ferrocci, G. Azzena und G. Lelli. „Stop-flow in Malignant Pleural Mesothelioma“. Tumori Journal 88, Nr. 4 (Juli 2002): S11. http://dx.doi.org/10.1177/030089160208800458.

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2

Pałasz, T., L. Mikowska, B. Głowacz, Z. Olejniczak, M. Suchanek und T. Dohnalik. „Stop-Flow SEOP Polarizer for 129Xe“. Acta Physica Polonica A 136, Nr. 6 (Dezember 2019): 1008–17. http://dx.doi.org/10.12693/aphyspola.136.1008.

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3

Katayama, Kenji, Hiroko Nomura, Hiroki Ogata und Takeshi Eitoku. „Diffusion coefficients for nanoparticles under flow and stop-flow conditions“. Physical Chemistry Chemical Physics 11, Nr. 44 (2009): 10494. http://dx.doi.org/10.1039/b911535h.

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4

Dendukuri, Dhananjay, Shelley S. Gu, Daniel C. Pregibon, T. Alan Hatton und Patrick S. Doyle. „Stop-flow lithography in a microfluidic device“. Lab on a Chip 7, Nr. 7 (2007): 818. http://dx.doi.org/10.1039/b703457a.

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5

Perez-Montesinos, Jean, Michael P. Dixon und Michael Kyte. „Detection of Stop Bar Traffic Flow State“. Transportation Research Record: Journal of the Transportation Research Board 2259, Nr. 1 (Januar 2011): 132–40. http://dx.doi.org/10.3141/2259-12.

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6

Pester, Christian W., Benjaporn Narupai, Kaila M. Mattson, David P. Bothman, Daniel Klinger, Kenneth W. Lee, Emre H. Discekici und Craig J. Hawker. „Engineering Surfaces through Sequential Stop-Flow Photopatterning“. Advanced Materials 28, Nr. 42 (12.09.2016): 9292–300. http://dx.doi.org/10.1002/adma.201602900.

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7

JIMBO, Tomohiko. „Put a Stop to High Current Flow“. Journal of the Society of Mechanical Engineers 115, Nr. 1123 (2012): 394–95. http://dx.doi.org/10.1299/jsmemag.115.1123_394.

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8

Liu, G., und Z. Xin. „Basic aspects of stop-flow split injection“. Chromatographia 28, Nr. 7-8 (Oktober 1989): 385–90. http://dx.doi.org/10.1007/bf02261020.

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9

Lionello, Andrea, Jacques Josserand, Henrik Jensen und Hubert H. Girault. „Dynamic protein adsorption in microchannels by “stop-flow” and continuous flow“. Lab on a Chip 5, Nr. 10 (2005): 1096. http://dx.doi.org/10.1039/b506009e.

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10

Effros, R. M., R. Schapira, K. Presberg, K. Ozker und E. R. Jacobs. „Stop-flow studies of solute uptake in rat lungs“. Journal of Applied Physiology 85, Nr. 3 (01.09.1998): 986–92. http://dx.doi.org/10.1152/jappl.1998.85.3.986.

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Stop-flow studies were used to characterize solute uptake in isolated rat lungs. These lungs were perfused at 8 or 34 ml/min for 10–28 s with solutions containing125I-albumin and two or more of the following diffusible indicators: [3H]mannitol, [14C]urea,3HOH,201Tl+, or86Rb+. After this loading period, flow was stopped for 10–300 s and then resumed to flush out the perfusate that remained in the pulmonary vasculature during the stop interval. Concentrations of201Tl+and86Rb+in the venous outflow decreased after the stop interval, indicating uptake from exchange vessels during the stop interval. The amount of these K+ analogs lost from the circulation during the stop interval was greater when the intervals were longer. However, losses of201Tl+at 90 s approached those at 300 s. Because extraction continued after the vasculature had been flushed, vascular levels had presumably fallen to negligible levels during the stop interval. By 90 s of stop flow the vascular volume that was cleared of201Tl+averaged 0.657 ± 0.034 (SE) ml in the experiments perfused at 8 ml/min and 0.629 ± 0.108 ml in those perfused at 34 ml/min. Increases in perfusate K+decreased the cleared volumes of201Tl+and86Rb+. Uptake of [3H]mannitol, [14C]urea, and3HOH during the stop intervals was observed only when the lungs were loaded at high flow for short intervals. Decreases in201Tl+and86Rb+concentrations in the pulmonary outflow can be used to identify the fraction of the collected samples that were within exchange vessels of the lung during the stop interval and may help determine the distribution of solute and water exchange along the pulmonary vasculature.
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11

TANG, TIE-QIAO, YAN LI und HAI-JUN HUANG. „THE EFFECTS OF BUS STOP ON TRAFFIC FLOW“. International Journal of Modern Physics C 20, Nr. 06 (Juni 2009): 941–52. http://dx.doi.org/10.1142/s0129183109014096.

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In this paper, we use the traffic flow model proposed by Tang et al. [Physica A387, 6845 (2008)] to study the effects of bus stop on traffic flow. Our numerical tests show that bus stop will have great effects on the stability of traffic flow and that the effects are related to the initial density and the number of bus stops. The numerical results are accordant with the real traffic, which shows that the model proposed by Tang et al. can describe some complex traffic phenomena resulted by bus stop.
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12

Iaffaioli, Rosario Vincenzo. „Stop Flow in abdominal and pelvic cancer relapses“. Frontiers in Bioscience 11, Nr. 1 (2006): 1284. http://dx.doi.org/10.2741/1882.

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13

Chen, Yizheng, Jasmine C. Sabio und Ryan L. Hartman. „When solids stop flow chemistry in commercial tubing“. Journal of Flow Chemistry 5, Nr. 3 (September 2015): 166–71. http://dx.doi.org/10.1556/1846.2015.00001.

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14

Pohlen, Uwe, Gert Berger, Marion Jung, H. J. Buhr und Benjamin Franklin. „First results of abdominal stop-flow perfusion (ASFP)“. Gastroenterology 118, Nr. 4 (April 2000): A837. http://dx.doi.org/10.1016/s0016-5085(00)85489-x.

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15

Guadagni, Stefano, Evangelos Kanavos, Mario Schietroma, Giammaria Fiorentini und Gianfranco Amicucci. „Selected Hypoxic Stop-flow Perfusions: Indication and Limits“. Tumori Journal 92, Nr. 5 (September 2006): 402–6. http://dx.doi.org/10.1177/030089160609200506.

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16

Bong, Ki Wan, Jiseok Lee und Patrick S. Doyle. „Stop flow lithography in perfluoropolyether (PFPE) microfluidic channels“. Lab Chip 14, Nr. 24 (07.10.2014): 4680–87. http://dx.doi.org/10.1039/c4lc00877d.

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17

Enderby, David, und Crew Leader. „Give Customers Maximum Flow With Corp Stop Cleaner“. Opflow 19, Nr. 10 (Oktober 1993): 9. http://dx.doi.org/10.1002/j.1551-8701.1993.tb01219.x.

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18

Liu, Guanghui, und Zhenxue Xin. „The glass insert in stop-flow split injection“. Chromatographia 29, Nr. 7-8 (April 1990): 385–88. http://dx.doi.org/10.1007/bf02261307.

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19

Kallskog, O., und D. J. Marsh. „TGF-initiated vascular interactions between adjacent nephrons in the rat kidney“. American Journal of Physiology-Renal Physiology 259, Nr. 1 (01.07.1990): F60—F64. http://dx.doi.org/10.1152/ajprenal.1990.259.1.f60.

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We sought to determine whether tubuloglomerular feedback (TGF), activated from one nephron, affects other arterioles derived from the same cortical radial artery. Surface nephrons supplied by a single cortical radial artery were identified by injecting Ringer solution containing Fast Green from a narrow-gauge polyethylene catheter inserted via a lumbar artery into a renal artery. Stop-flow pressure was measured in an identified nephron from such a grouping. In one series, increasing end-proximal flow rate from 0 to 50 nl/min of synthetic tubular fluid in one member of an identified pair of nephrons reduced stop-flow pressure by 1.3 +/- 0.2 mmHg in the other member. When the nephrons were derived from different cortical radial arteries, the stop-flow pressure changed -0.2 +/- 0.1 mmHg. In another series, increasing flow in the adjacent nephron from 0 to 50 nl/min decreased stop-flow pressure 3.9 +/- 0.9 mmHg, and increasing flow in the adjacent nephron by the same amount when flow in the first nephron was 50 nl/min decreased stop-flow pressure 3.4 +/- 0.7 mmHg. These results indicate the operation of an interaction among nephrons derived from a common cortical radial artery. Such an interaction could produce a cooperative effect larger than that predicted from measured single-nephron responses when systemic arterial pressure changes.
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20

Gandini, Roberto, Daniel Konda, Sergio Abrignani, Marcello Chiocchi, Valerio Da Ros, Daniele Morosetti und Giovanni Simonetti. „Treatment of Symptomatic High-Flow Female Varicoceles with Stop-flow Foam Sclerotherapy“. CardioVascular and Interventional Radiology 37, Nr. 5 (05.11.2013): 1259–67. http://dx.doi.org/10.1007/s00270-013-0760-6.

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21

Zeng, Jun-Wei, Yong-Sheng Qian, Hui Wang und Xu-Ting Wei. „Modeling and simulation of traffic flow under different combination setting of taxi stop and bus stop“. Modern Physics Letters B 32, Nr. 25 (05.09.2018): 1850301. http://dx.doi.org/10.1142/s0217984918503013.

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Taxis and buses have significant influence on traffic flow due to their special moving and stopping behavior. Based on the analysis of their operation and stopping characteristics, a two-lane cellular automaton model for urban roads considering the influence of stopping behavior is established, the vehicle type, cell length and moving speed are re-described. Considering the linear taxi stop and the linear bus stop, the characteristics of traffic flow under two different combination settings are studied. The numerical simulation results show that the combined bottleneck effect has little impact on flow rate and average speed when the bus stop is set on the upstream of the taxi stop, and the distance between stops should be 50 m. These findings lay a solid foundation for better description of urban traffic flow and enable better scientific planning and control of urban traffic.
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22

Yang, Qin, Xian Zhou Wang, Ming Yue Liu, Jing Hu und Zhi Guo Zhang. „Optimization of Valve Block Shape Using CFD“. Applied Mechanics and Materials 190-191 (Juli 2012): 133–38. http://dx.doi.org/10.4028/www.scientific.net/amm.190-191.133.

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Stop valves are commonly used as fluid flow control equipments in many engineering applications. A numerical study of a three-dimensional, complex geometry, stop-check valve was performed for model validation and improved understanding of valve flow features. This paper has provided a numerical investigation of the fluid flow inside a stop valve, including the modeling and the simulation of the stop valves. According to the simulation result of original valve structure, two cone valve block shape with different gradient are presented to bring some optimization to the stop-valve. CFD simulations were conducted for different structure of the valve to verify the performance of the valve after redesign the internal flow structure. The simulation results show that the pressure drop vortex strength, maximum velocity and velocity nonuniformity of valve outlet had been reduced obviously. Furthermore, the results of the three-dimensional optimization analysis of valve shape can be used in the design of low noise and high efficiency valve for industry.
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23

YAMAUCHI, Misa, Masato TAKAHASHI, Mikio KOBAYASHI, Eiketsu SHO, Hiroshi NANJO, Kouichi KAWAMURA und Hirotake MASUDA. „Normalization of high-flow or removal of flow cannot stop high-flow induced endothelial proliferation“. Biomedical Research 26, Nr. 1 (2005): 21–28. http://dx.doi.org/10.2220/biomedres.26.21.

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24

Wong, Chi-kwong, und Yiu-yin Lee. „The Effects of Signal System and Traffic Flow on the Sound Level“. Applied Sciences 10, Nr. 13 (28.06.2020): 4454. http://dx.doi.org/10.3390/app10134454.

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Traffic noise is a major pollution problem in Hong Kong and many large cities throughout the world. Indeed, traffic noise and traffic flow patterns interact, however, there is a very little research effort studying it. To the best knowledge of the authors, the present research is the first on-site measurement study about the effect of a traffic signal on the noise level of moving vehicles. Various cases of “stop and go” and “non-stop” were considered in the traffic noise measurements, where the terms “stop and go” and “non-stop” represent a traffic road with and without traffic signals, respectively. The L10 and Leq noise levels were recorded and compared in the present study. From the results, it was found that the stop time and traffic flow are factors that also affect the sound level properties.
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25

Kresge, Nicole, Robert D. Simoni und Robert L. Hill. „Britton Chance: Olympian and Developer of Stop-Flow Methods“. Journal of Biological Chemistry 279, Nr. 50 (Dezember 2004): 109–11. http://dx.doi.org/10.1016/s0021-9258(20)67732-8.

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26

Ohshima, S., M. Sakon, H. Ohsato, S. Nakamori, T. Aoki, N. Higaki, T. Yamada et al. „Regional stop-flow chemotherapy for non-resectable pancreatic carcinoma“. Gastroenterology 114 (April 1998): A488. http://dx.doi.org/10.1016/s0016-5085(98)81976-8.

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27

Colombo, R. M., und A. Groli. „Minimising stop and go waves to optimise traffic flow“. Applied Mathematics Letters 17, Nr. 6 (Juni 2004): 697–701. http://dx.doi.org/10.1016/s0893-9659(04)90107-3.

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28

Donati, A., R. Coltrinari, G. Mercuri, P. Carletti, G. Conti, S. Loggi, S. Falcetta, P. Pelaia und P. Pietropaoli. „Hemodynamic changes and cytokine trends during abdominal stop-flow“. Critical Care 3, Suppl 1 (1999): P177. http://dx.doi.org/10.1186/cc550.

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29

Panda, Priyadarshi, Shamsher Ali, Edward Lo, Bong Geun Chung, T. Alan Hatton, Ali Khademhosseini und Patrick S. Doyle. „Stop-flow lithography to generate cell-laden microgel particles“. Lab on a Chip 8, Nr. 7 (2008): 1056. http://dx.doi.org/10.1039/b804234a.

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30

Schenk, David J., Jonathan Z. Ho, Joseph P. Simeone, Michael A. Wallace, Brian P. Cato, Steven J. Staskiewicz, Allen N. Jones und David G. Melillo. „Applications of LC-ARC™ stop-flow radiochemical detection“. Journal of Labelled Compounds and Radiopharmaceuticals 50, Nr. 5-6 (2007): 543–44. http://dx.doi.org/10.1002/jlcr.1255.

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31

Shepherd, Robert F., Priyadarshi Panda, Zhihao Bao, Kenneth H. Sandhage, T. Alan Hatton, Jennifer A. Lewis und Patrick S. Doyle. „Stop‐Flow Lithography of Colloidal, Glass, and Silicon Microcomponents“. Advanced Materials 20, Nr. 24 (16.12.2008): 4734–39. http://dx.doi.org/10.1002/adma.200801090.

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32

Baah, David, Tobias Donnell, Sesha Srinivasan und Tamara Floyd-Smith. „Stop Flow Lithography Synthesis and Characterization of Structured Microparticles“. Journal of Nanomaterials 2014 (2014): 1–9. http://dx.doi.org/10.1155/2014/142929.

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In this study, the synthesis of nonspherical composite particles of poly(ethylene glycol) diacrylate (PEG-DA)/SiO2and PEG-DA/Al2O3with single or multiple vias and the corresponding inorganic particles of SiO2and Al2O3synthesized using the Stop Flow Lithography (SFL) method is reported. Precursor suspensions of PEG-DA, 2-hydroxy-2-methylpropiophenone, and SiO2or Al2O3nanoparticles were prepared. The precursor suspension flows through a microfluidic device mounted on an upright microscope and is polymerized in an automated process. A patterned photomask with transparent geometric features masks UV light to synthesize the particles. Composite particles with vias were synthesized and corresponding inorganic SiO2and Al2O3particles were obtained through polymer burn-off and sintering of the composites. The synthesis of porous inorganic particles of SiO2and Al2O3with vias and overall dimensions in the range of ~35–90 µm was achieved. BET specific surface area measurements for single via inorganic particles were 56–69 m2/g for SiO2particles and 73–81 m2/g for Al2O3particles. Surface areas as high as 114 m2/g were measured for multivia cubic SiO2particles. The findings suggest that, with optimization, the particles should have applications in areas where high surface area is important such as catalysis and sieving.
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33

Terris, James M., und Carmel E. Bixby. „Renal physiology of the pig: Application of stop-flow“. Comparative Biochemistry and Physiology Part A: Physiology 96, Nr. 1 (Januar 1990): 41–43. http://dx.doi.org/10.1016/0300-9629(90)90038-t.

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34

Harynuk, James, und Tadeusz Górecki. „Comprehensive two-dimensional gas chromatography in stop-flow mode“. Journal of Separation Science 27, Nr. 5-6 (April 2004): 431–41. http://dx.doi.org/10.1002/jssc.200301649.

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35

Noel, John, Hui Wang, Nankang Hong, Jian-Qin Tao, Kevin Yu, Elena M. Sorokina, Kristine DeBolt et al. „PECAM-1 and caveolae form the mechanosensing complex necessary for NOX2 activation and angiogenic signaling with stopped flow in pulmonary endothelium“. American Journal of Physiology-Lung Cellular and Molecular Physiology 305, Nr. 11 (01.12.2013): L805—L818. http://dx.doi.org/10.1152/ajplung.00123.2013.

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We showed that stop of flow triggers a mechanosignaling cascade that leads to the generation of reactive oxygen species (ROS); however, a mechanosensor coupled to the cytoskeleton that could potentially transduce flow stimulus has not been identified. We showed a role for KATP channel, caveolae (caveolin-1), and NADPH oxidase 2 (NOX2) in ROS production with stop of flow. Based on reports of a mechanosensory complex that includes platelet endothelial cell adhesion molecule-1 (PECAM-1) and initiates signaling with mechanical force, we hypothesized that PECAM-1 could serve as a mechanosensor in sensing disruption of flow. Using lungs in situ, we observed that ROS production with stop of flow was significantly reduced in PECAM-1−/− lungs compared with lungs from wild-type (WT) mice. Lack of PECAM-1 did not affect NOX2 activation machinery or the caveolin-1 expression or caveolae number in the pulmonary endothelium. Stop of flow in vitro triggered an increase in angiogenic potential of WT pulmonary microvascular endothelial cells (PMVEC) but not of PECAM-1−/− PMVEC. Obstruction of flow in lungs in vivo showed that the neutrophil infiltration as observed in WT mice was significantly lowered in PECAM-1−/− mice. With stop of flow, WT lungs showed higher expression of the angiogenic marker VEGF compared with untreated (sham) and PECAM-1−/− lungs. Thus PECAM-1 (and caveolae) are parts of the mechanosensing machinery that generates superoxide with loss of shear; the resultant ROS potentially drives neutrophil influx and acts as an angiogenic signal.
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Tomita, Minoru, Istvan Schiszler, Yutaka Tomita, Norio Tanahashi, Hidetaka Takeda, Takashi Osada und Norihiro Suzuki. „Initial Oligemia with Capillary Flow Stop Followed by Hyperemia during K+-Induced Cortical Spreading Depression in Rats“. Journal of Cerebral Blood Flow & Metabolism 25, Nr. 6 (23.02.2005): 742–47. http://dx.doi.org/10.1038/sj.jcbfm.9600074.

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Local cerebral blood volume (CBV) and capillary flow changes in regions of depolarizing neurons during K+-induced cortical spreading depression (CSD) in the cerebral cortex of α-chloralose-urethane-anesthetized rats were examined employing a transillumination (550 nm) video system. Capillary flow was calculated as the reciprocal of mean transit times of blood in pixels of 40 μm × 40 μm, each of which contains a few capillaries. Potassium microinjection into the cortex evoked repetitive wave-ring spreads of oligemia at a speed of ca. 2.33±0.48 mm/min. During the spread of CSD, tracer (either saline or carbon black) was injected into the internal carotid artery. Colocated with the oligemic wave, we detected capillary flow stop as evidenced by disappearance of the hemodilution curves. At any location in the region of interest within the cerebral cortex, we observed cyclic changes of capillary flow stop/hyperperfusion in synchrony with oligemia/hyperemia fluctuations. The initial flow stop and oligemia were ascribed to capillary compression by astroglial cell swelling, presumably at the pericapillary endfeet, since the oligemia occurred before larger vessel changes. We conclude that local depolarizing neurons can decrease adjacent capillary flow directly and immediately, most likely via astroglial cell swelling, and that the flow stop triggers upstream arteriolar dilatation for capillary hyperperfusion.
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Rosén, Tomas, Nitesh Mittal, Stephan V. Roth, Peng Zhang, Fredrik Lundell und L. Daniel Söderberg. „Flow fields control nanostructural organization in semiflexible networks“. Soft Matter 16, Nr. 23 (2020): 5439–49. http://dx.doi.org/10.1039/c9sm01975h.

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38

Yoshiiwa, Toshiya, Satoshi Umezu, Manabu Tokeshi, Yoshinobu Baba und Mitsuru Shindo. „Synthesis and Reactions of Ynolates via a Stop-Flow Method with a Flow Microreactor“. Journal of Flow Chemistry 4, Nr. 4 (10.12.2014): 180–84. http://dx.doi.org/10.1556/jfc-d-14-00008.

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39

Qian, Jun, und Yong Ju Hu. „Research on Bus Stop Based on Cellular Automaton Model“. Advanced Materials Research 1008-1009 (August 2014): 1484–88. http://dx.doi.org/10.4028/www.scientific.net/amr.1008-1009.1484.

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Based on the NaSch model,a cellular automaton mode with two lanes is proposed by computer simulation analysis,which considers the influence of passengers on bus stop.By using MatLab simulation,the paper compares the different traffic flow characteristics between harbor-shaped and nonharbor shaped bus stop.It also analyzes the relationship between the traffic flow and the number of bus,the scope and intensity of bus stop in different ways.The results show that harbor-shaped bus stop is the effective method to alleviate the crowd traffic in the case of larger traffic density;It takes more passengers in the system which used harbor shaped bus stop can accommodate more buses;Harbor-shaped bus stop produced better improvement in the negative influence of bus stopping on local roads.
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40

Huang, Zhaoguo, Xiucheng Guo, Chunbo Zhang und Hongying Zhang. „Modeling the Effects of Bus Stops on Bicycle Traffic Flow by Cellular Automata“. Journal of Advanced Transportation 2018 (02.09.2018): 1–8. http://dx.doi.org/10.1155/2018/5876104.

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Since currently huge traffic demands for public bus and bicycles exist in the majority of cities of China, it is highly likely that the bus stop has undeniable impacts on the bicycle flow that is close to the bus stop. In this paper, we proposed the test in several bicycle paths beside bus stops in Nanjing and aimed at exploring the specific effects of bus stop on the bicycle flow nearby. We assumed there were two such effects: space restriction and pedestrian conflicts. Further, we built up a cellular automation (CA) model to study the feature of these effects and find out not only the outcome of these two effects, but also the inner correlation between them.
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41

Song, Jung-Ae. „The Paradox of Stop and Flow in Chuang-tzu’s Philosophy“. Journal of the New Korean Philosophical Association 88 (30.04.2017): 253–73. http://dx.doi.org/10.20433/jnkpa.2017.04.88.253.

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42

Baah, David, Tobias Donnell, Julaunica Tigner und Tamara Floyd-Smith. „Stop flow lithography synthesis of non-spherical metal oxide particles“. Particuology 14 (Juni 2014): 91–97. http://dx.doi.org/10.1016/j.partic.2013.09.001.

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43

van der Griend, Benjamin F. H., und R. Ross Kennedy. „Time to stop the go slow on the low flow“. Pediatric Anesthesia 29, Nr. 4 (April 2019): 300–301. http://dx.doi.org/10.1111/pan.13618.

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44

de Faria, Pedro, Wolfgang Sofka und Edlira Shehu. „Stop the Knowledge Flow: Knowledge Protection Intensity of MNC Subsidiaries“. Academy of Management Proceedings 2014, Nr. 1 (Januar 2014): 12075. http://dx.doi.org/10.5465/ambpp.2014.48.

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45

Pilati, P., D. Miotto, S. Bertolo, M. Minante, T. Darisi, S. Mocellin, D. Casara et al. „Hypoxic Antiblastic Stop-Flow Perfusion: Clinical Outcome and Pharmacokinetic Findings“. Journal of Chemotherapy 16, sup5 (November 2004): 44–47. http://dx.doi.org/10.1080/1120009x.2004.11782383.

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46

Lin, W., E. Jacobs, R. M. Schapira, K. Presberg und R. M. Effros. „Stop-flow studies of distribution of filtration in rat lungs“. Journal of Applied Physiology 84, Nr. 1 (01.01.1998): 47–52. http://dx.doi.org/10.1152/jappl.1998.84.1.47.

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Lin, W., E. Jacobs, R. M. Schapira, K. Presberg, and R. M. Effros. Stop-flow studies of distribution of filtration in rat lungs. J. Appl. Physiol. 84(1): 47–52, 1998.—The stop-flow approach was used to investigate where filtration occurs in the pulmonary vasculature after elevation of left atrial pressure and aspiration of HCl. Rat lungs were perfused for 11 min at zero left atrial pressures, and then flow was stopped for 10 min and left atrial pressures were increased to 20 cmH2O. Thereafter,3HOH was instilled into the air spaces, and the pulmonary vasculature was flushed by perfusing it from the pulmonary artery to left atrium (anterograde flush) or in the opposite direction (retrograde flush). Increases in fluorescein isothiocyanate (FITC)-dextran (molecular weight 2,000,000) indicated filtration, and these preceded increases in3HOH after anterograde but not retrograde flushes. This suggests that some filtration occurred through vessels that were relatively venous compared with those through which3HOH exchange had occurred. Filtration increased fivefold after instillation of 0.1 N HCl in isotonic saline into the air spaces before perfusion. Increases in Evans blue-labeled albumin concentrations were <40% those of FITC-dextran, indicating loss from the vasculature, but increases in unlabeled albumin and FITC-albumin were comparable.
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47

KINN, ANNE-CHARLOTTE. „Stop-flow Measurement of Detrusor Contractility in Bladder Outflow Obstruction“. British Journal of Urology 64, Nr. 4 (Oktober 1989): 363–67. http://dx.doi.org/10.1111/j.1464-410x.1989.tb06044.x.

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48

Castellar, M. R., F. Borrego, M. C�novas, A. Manj�n und J. L. Iborra. „Stability against stop of flow of an immobilizedZymomonas mobilis bioreactor“. Biotechnology Letters 11, Nr. 9 (September 1989): 665–68. http://dx.doi.org/10.1007/bf01025279.

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49

Varrassi, G., S. Guadagni, A. Ciccozzi, F. Marinangeli, T. Pozone, A. Piroli, I. Marsili und A. Paladini. „Hemodynamic variations during thoracic and abdominal stop-flow regional chemotherapy“. European Journal of Surgical Oncology (EJSO) 30, Nr. 4 (Mai 2004): 377–83. http://dx.doi.org/10.1016/j.ejso.2004.01.009.

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50

Oldridge, Nathan, Ognjen Panic und Tadeusz Górecki. „Stop-flow comprehensive two-dimensional gas chromatography with pneumatic switching“. Journal of Separation Science 31, Nr. 19 (16.09.2008): 3375–84. http://dx.doi.org/10.1002/jssc.200800265.

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