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Journal articles on the topic 'Biocaptor'

Author: Grafiati
Published: 4 June 2021
Last updated: 18 February 2022

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1

El-Safty, S. A., M. A. Shenashen, M. Ismael, and M. Khairy. "Mesocylindrical Aluminosilica Monolith Biocaptors for Size-Selective Macromolecule Cargos." Advanced Functional Materials 22, no. 14 (2012): 3013–21. http://dx.doi.org/10.1002/adfm.201200393.

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2

Ma, Sheng-Xing, Paul C. Lee, Thomas L. Anderson, Xi-Yan Li, and Isabelle Z. Jiang. "Response of Local Nitric Oxide Release to Manual Acupuncture and Electrical Heat in Humans: Effects of Reinforcement Methods." Evidence-Based Complementary and Alternative Medicine 2017 (2017): 1–8. http://dx.doi.org/10.1155/2017/4694238.

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This study was to examine the influences of manual acupuncture (MA) and electrical heat corresponding to reinforcing methods on nitric oxide (NO) release over the skin regions in humans. A device with collecting solution was taped to the skin surface along pericardium (PC) or lung (LU) meridian. Acupuncture needles were gently inserted into PC 4 with reinforcing stimulation (low force/rate) for 20 minutes in the MA group. LU11 on the finger was heated (43-44°C) by electrical heat for 20 minutes. Biocapture was consecutively conducted for two 20-minute intervals during and after each treatment.
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3

Cao, Huan H., Nako Nakatsuka, Wei-Ssu Liao, et al. "Advancing Biocapture Substrates via Chemical Lift-Off Lithography." Chemistry of Materials 29, no. 16 (2017): 6829–39. http://dx.doi.org/10.1021/acs.chemmater.7b01970.

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4

López-Pacheco, Itzel Y., Eduardo Israel Castillo-Vacas, Lizbeth Castañeda-Hernández, et al. "CO2 biocapture by Scenedesmus sp. grown in industrial wastewater." Science of The Total Environment 790 (October 2021): 148222. http://dx.doi.org/10.1016/j.scitotenv.2021.148222.

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5

Shuster, M. J., A. Vaish, H. H. Cao, et al. "Patterning small-molecule biocapture surfaces: microcontact insertion printing vs. photolithography." Chemical Communications 47, no. 38 (2011): 10641. http://dx.doi.org/10.1039/c1cc13002a.

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6

Satayeva, Zh I., and A. M. Tayeva. "Research of camel shanks proteinhydrolyzates by electrophoregram." Journal of Almaty Technological University, no. 3 (January 16, 2021): 67–73. http://dx.doi.org/10.48184/2304-568x-2020-3-67-73.

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This research aims to study the degree of hydrolysis, determining the nature of protein hydrolyzates, which determine their size and molecular weight by the method of electrophoregram. In this research, a camel pancreas suspension was used to hydrolyze proteins from camel shanks. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) was used to monitor the distribution of proteins and evaluate their molecular weights at different incubation times. Electrophoregram processing using the BioCapt program (Vilber Lourmat, France) determines the nature of the hydrolysis of protein and
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7

van den Reek, J. M. P. A., M. M. B. Seyger, P. P. M. van Lümig, et al. "The journey of adult psoriasis patients towards biologics: past and present - Results from the BioCAPTURE registry." Journal of the European Academy of Dermatology and Venereology 32, no. 4 (2017): 615–23. http://dx.doi.org/10.1111/jdv.14684.

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8

Tongprawhan, Wassa, Sirasit Srinuanpan, and Benjamas Cheirsilp. "Biocapture of CO 2 from biogas by oleaginous microalgae for improving methane content and simultaneously producing lipid." Bioresource Technology 170 (October 2014): 90–99. http://dx.doi.org/10.1016/j.biortech.2014.07.094.

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9

Raoux, M., Y. Bornat, A. Quotb, B. Catargi, S. Renaud, and J. Lang. "P169 Biocapteur hybride destiné au suivi fonctionnel à long terme et au criblage sur les îlots de Langerhans." Diabetes & Metabolism 38 (March 2012): A71. http://dx.doi.org/10.1016/s1262-3636(12)71271-5.

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10

Gouget, B., A. Sarran, P. Daumain, J. Pollet, and A. Feuillu. "Intérêt clinique du lactate Intérêt du biocapteur enzymatique pour la mesure du lactate sur sang total associée aux gaz du sang." Revue Française des Laboratoires 1998, no. 302 (1998): 146–49. http://dx.doi.org/10.1016/s0338-9898(98)80115-7.

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11

Klijn, S. L., J. M. P. A. van den Reek, G. van de Wetering, A. van der Kolk, E. M. G. J. de Jong, and W. Kievit. "Biologic treatment sequences for plaque psoriasis: a cost-utility analysis based on 10 years of Dutch real-world evidence from BioCAPTURE." British Journal of Dermatology 178, no. 5 (2018): 1181–89. http://dx.doi.org/10.1111/bjd.16247.

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12

Klijn, S. L., J. M. P. A. van den Reek, G. van de Wetering, A. van der Kolk, E. M. G. J. de Jong, and W. Kievit. "Biologic treatment sequences for plaque psoriasis: a cost-utility analysis based on 10 years of Dutch real-world evidence from BioCAPTURE." British Journal of Dermatology 178, no. 5 (2018): e356-e356. http://dx.doi.org/10.1111/bjd.16613.

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13

Guo, Pengfei, Yuejin Zhang, and Yongjun Zhao. "Biocapture of CO2 by Different Microalgal-Based Technologies for Biogas Upgrading and Simultaneous Biogas Slurry Purification under Various Light Intensities and Photoperiods." International Journal of Environmental Research and Public Health 15, no. 3 (2018): 528. http://dx.doi.org/10.3390/ijerph15030528.

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14

CAGNARD, O., E. ALOCHE, F. NAKACHE-DANGLOT, et al. "Tests de capteurs biologiques pour l’évaluation de l’écotoxicité d’eaux usées traitées." Techniques Sciences Méthodes 6, no. 6 (2021): 87–102. http://dx.doi.org/10.36904/tsm/202106087.

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Comment peut-on mettre en lumière et discriminer les pollutions dues aux micropolluants en sortie de stations d’épuration ? Les mesures physico-chimiques en continu sur le terrain ainsi que les mesures chimiques en laboratoire ne rendent pas compte de la réalité de la pollution dite diffuse due aux micropolluants. Trois types de bioessais ou biocapteurs ont été testés, de juillet 2019 à mars 2020, sur la station d’épuration de Saint-Fons (Rhône, France) afin de déterminer ce qu’ils peuvent apporter à la surveillance de la qualité des eaux usées traitées : les bancs d’expérimentation ex situ tr
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15

Osbild, D., M. Babut, and P. Vasseur. "Les biocapteurs appliqués au contrôle des eaux: Revue - État de l'art." Revue des sciences de l'eau 8, no. 4 (2005): 505–38. http://dx.doi.org/10.7202/705236ar.

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Cet article présente l'ensemble des biocapteurs en cours d'étude et proposés pour le contrôle en continu, automatisé et in situ de la qualité des eaux. Le principe des systèmes, étudiés jusqu'ici majoritairement en laboratoire et sur pilote, sera donné avec leurs performances au plan sensibilité et spécificité de détection des polluants hydriques. Ces performances conditionnent leur domaine d'application : les systèmes très sensibles étant affectés au contrôle des eaux d'alimentation et des eaux souterraines, les moins sensibles au contrôle des effluents très contaminés. Les biocapteurs peuven
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16

van der Schoot, L. S., J. M. P. A. van den Reek, J. M. M. Groenewoud, et al. "Female patients are less satisfied with biological treatment for psoriasis and experience more side‐effects than male patients: results from the prospective BioCAPTURE registry." Journal of the European Academy of Dermatology and Venereology 33, no. 10 (2019): 1913–20. http://dx.doi.org/10.1111/jdv.15733.

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17

Zweegers, J., B. Roosenboom, P. C. M. van de Kerkhof, et al. "Frequency and predictors of a high clinical response in patients with psoriasis on biological therapy in daily practice: results from the prospective, multicenter BioCAPTURE cohort." British Journal of Dermatology 176, no. 3 (2016): 786–93. http://dx.doi.org/10.1111/bjd.14888.

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18

Pandard, P., and P. Vasseur. "Biocapteurs pour le contrôle de la toxicité des eaux : application des bioélectrodes algales." Revue des sciences de l'eau 5, no. 3 (2005): 445–61. http://dx.doi.org/10.7202/705141ar.

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L'amélioration de la qualité de l'environnement passe par la réalisation de contrôles de toxicité in situ et en continu des sources de pollution ou des milieux contaminés, à l'aide de systèmes automatisés à réponse rapide. Les systèmes donnant une réponse en temps réel permettent d'intervenir immédiatement à la source, d'interrompre le rejet d'un flux toxique et de prévenir ainsi les accidents de pollution. Ce type de stratégie ne peut être développé qu'au moyen de biocapteurs : les méthodes d'essais conventionnelles n'autorisent que des contrôles de toxicité épisodiques, en laboratoire, effec
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19

Zweegers, J., J. M. M. Groenewoud, J. M. P. A. van den Reek, et al. "Comparison of the 1- and 5-year effectiveness of adalimumab, etanercept and ustekinumab in patients with psoriasis in daily clinical practice: results from the prospective BioCAPTURE registry." British Journal of Dermatology 176, no. 4 (2017): 1001–9. http://dx.doi.org/10.1111/bjd.15023.

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20

Klijn, S. L., J. M. P. A. van den Reek, G. van de Wetering, A. van der Kolk, E. M. G. J. de Jong та W. Kievit. "斑块状银屑病的生物治疗顺序:基于来自BioCAPTURE的10年荷兰实际证据的成本效用分析". British Journal of Dermatology 178, № 5 (2018): e375-e375. http://dx.doi.org/10.1111/bjd.16632.

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21

"Autoglycémie : la technique biocapteur." Revue Française des Laboratoires 1999, no. 313 (1999): 60. http://dx.doi.org/10.1016/s0338-9898(99)80136-x.

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22

Vasilieva, Svetlana, Elena Lobakova, Timofey Grigoriev, et al. "Bio-inspired materials for nutrient biocapture from wastewater: Microalgal cells immobilized on chitosan-based carriers." Journal of Water Process Engineering, November 2020, 101774. http://dx.doi.org/10.1016/j.jwpe.2020.101774.

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23

Liu, Zhiqiang, Subash C. B. Gopinath, Zhifang Wang, Yibo Li, Periasamy Anbu, and Wenlong Zhang. "Zeolite-iron oxide nanocomposite from fly ash formed a ‘clubbell’ structure: integration of cardiac biocapture macromolecules in serum on microelectrodes." Microchimica Acta 188, no. 6 (2021). http://dx.doi.org/10.1007/s00604-021-04834-w.

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