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Journal articles on the topic 'Anti-bacterial properties'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Anil Castelino, Prakash, Dr Jagadeesh Prasad Dasappa, Dr Prashantha Naik, Sharath Chandra K., and Anusha Kumari G. Y. "Mosquito-Larvicidal, Anti-Bacterial and Anti-Fungal Properties of Novel 2, 4-Disubstituted-[1, 3] - Thiazoles." Indian Journal of Applied Research 4, no. 3 (October 1, 2011): 25–31. http://dx.doi.org/10.15373/2249555x/mar2014/9.

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Balakrishna, Avula, Mudamala Veera Narayana Reddy, Sandip Kumar Nayak, Manubolu Manjunath, Chichili Devendranath Reddy, and Cirandur Suresh Reddy. "Synthesis, Anti-bacterial and Anti-oxidant Properties of Thiadiazaphosphol-2-ones." CHEMICAL & PHARMACEUTICAL BULLETIN 56, no. 10 (2008): 1486–89. http://dx.doi.org/10.1248/cpb.56.1486.

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LEVI-POLYACHENKO, NICOLE, AMY BRADEN, TABITHA ROSENBALM, WILLIAM WAGNER, MICHAEL MORYKWAS, LOUIS ARGENTA, EILEEN MARTIN, et al. "ELECTRICALLY CONDUCTIVE POLYMER NANOTUBES WITH ANTI-BACTERIAL PROPERTIES." Nano LIFE 02, no. 03 (September 2012): 1241002. http://dx.doi.org/10.1142/s1793984412410024.

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Nanotubes (NT) composed of the electrically active polymer poly (3,4-ethylenedioxythiophene) (PEDOT) have been used for photothermal ablation of both gram-positive (Staphylococcus aureus) and gram-negative (Escherichia coli) bacteria. Since infrared absorption of PEDOT is dominated by bipolarons strongly coupled to phonons, we hypothesize that nonradiative decay of these states leads to heat generation. Photothermal death of bacteria by PEDOT NT was compared to single-wall carbon nanotubes (SWNT). Complete eradication of bacterial colonies incubated with 100 ug/ml of either PEDOT NT or SWNT occurred with a single exposure to 1064 nm light (3.8 W/cm2) for 60 s. PEDOT NT were also shown to elicit a mild antibacterial response upon incubation with bacteria and no infrared exposure. PEDOT NT have the same capacity for photothermal ablation of bacteria as compared to SWNT; therefore, they represent an exciting new class of polymer based nanoparticles for medically-relevant photothermal therapies.
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4

Yadav, V., J. Gupta, R. Mandhan, A. K. Chhillar, R. Dabur, D. D. Singh, and G. L. Sharma. "Investigations on anti-Aspergillus properties of bacterial products." Letters in Applied Microbiology 41, no. 4 (October 2005): 309–14. http://dx.doi.org/10.1111/j.1472-765x.2005.01772.x.

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Al-juboori, S., Zainab Al-Sharify, T. Al-Sharify, A. Salman, S. Omran, M. Jaffar, and A. Hussain. "Anti-Bacterial Properties of Datura metel Leaves Extract." Journal of Environmental Studies 4, no. 1 (September 1, 2010): 69–76. http://dx.doi.org/10.21608/jesj.2010.184685.

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6

Chantereau, Guillaume, Nettie Brown, Marie-Anne Dourges, Carmen S. R. Freire, Armando J. D. Silvestre, Gilles Sebe, and Véronique Coma. "Silylation of bacterial cellulose to design membranes with intrinsic anti-bacterial properties." Carbohydrate Polymers 220 (September 2019): 71–78. http://dx.doi.org/10.1016/j.carbpol.2019.05.009.

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7

Burroughs, Laurence, Waheed Ashraf, Sonali Singh, Luisa Martinez-Pomares, Roger Bayston, and Andrew L. Hook. "Development of dual anti-biofilm and anti-bacterial medical devices." Biomaterials Science 8, no. 14 (2020): 3926–34. http://dx.doi.org/10.1039/d0bm00709a.

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8

Prapruddivongs, Chana, and Narongrit Sombatsompop. "Biodegradation and Anti-Bacterial Properties of PLA and Wood/PLA Composites Incorporated with Zeomic Anti-Bacterial Agent." Advanced Materials Research 747 (August 2013): 111–14. http://dx.doi.org/10.4028/www.scientific.net/amr.747.111.

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Anti-bacterial and biodegradation activities of Poly (lactic acid) (PLA) and wood flour/PLA composites (WPLA) were investigated for the effect of anti-bacterial agent addition. Silver substituted Zeolite (commercially designated as Zeomic) was used as anti-bacterial agent in this study. Anti-bacterial activities were investigated through dynamic shake flask method accompanying with plate count agar (PCA) technique, against Staphylococcus aureus as testing bacteria. The results of anti-bacterial activity were reported by viable cell count. For biodegradation test, the degree and rate of biodegradations were evaluated from percentage of carbon conversion, the test being carried out under laboratory controlled-aerobic degradation environment at a temperature of 58±2°C. The results found that addition of Zeomic did not perform anti-bacterial activities for both the neat PLA and WPLA due to non-diffusivity of silver in Zeomic. For biodegradation test, both PLA and WPLA samples during incubation times of 21-60 days had shown considerable biodegradation rates as a result of chain scission by hydrolysis reaction and subsequent enzymatic-biodegradation by microorganism of PLA molecules. Regarding the effect of wood and Zeomic addition, it was found that introducing wood and Zeomic in PLA matrix tended to markedly increase the degree and rate of biodegradation of PLA and WPLA materials, whereby the PLA having 10%wt of wood with 1.5%wt of Zeomic had the most satisfactory biodegradation level and rate as a consequence of accelerated hydrolysis degradation from moisture in wood and Zeomic.
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Atul, S. C., S. Ilaiyavel, and K. T. Jaishree. "Anti-bacterial Properties of Wear Resistant Thermal Diffusion Coatings." Transactions of the Indian Institute of Metals 73, no. 11 (October 6, 2020): 2911–17. http://dx.doi.org/10.1007/s12666-020-02094-5.

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Shao, Wei, Xiufeng Liu, Hui Liu, Shuxia Wang, and Rui Zhang. "Novel Bacterial Cellulose/TiO2 Nanocomposites with Enhanced Anti-Bacterial Properties." Journal of Bionanoscience 9, no. 1 (February 1, 2015): 68–72. http://dx.doi.org/10.1166/jbns.2015.1259.

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11

Zhang, Hong Xia, Jin Bo Huang, Cheng Yan Zhu, Wei Tian, Yan Qing Li, and Zhong Xiang Pan. "Preparation of the Photocatalyst Textiles and Test on the Antibacterial Properties." Advanced Materials Research 487 (March 2012): 273–76. http://dx.doi.org/10.4028/www.scientific.net/amr.487.273.

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In order to further study anti-bacterial properties and the influence of different content of photocatalyst fibers on the anti-bacterial properties, the photocatalyst and bamboo fiber were blended with different proportions and series of fabric samples were selected in the experiments. Shock method was used for the fabric samples which the anti-bacterial properties were tested and analyzed. Test results showed that, the inhibition of bacterial function is better for textiles woven with fibers of photocatalyst modification. When the fiber content of photocatalyst is 40% in the fabric, the inhibitory rate of the fabric can be reached to 86%, and can provide a theoretical basis for the future development of anti-bacterial fabrics.
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Desegaulx, M., J. Sirdaarta, P. Rayan, I. E. Cock, and P. A. McDonnell. "An examination of the anti-bacterial, anti-fungal and anti-Giardial properties of macadamia nut." Acta Horticulturae, no. 1106 (December 2015): 239–46. http://dx.doi.org/10.17660/actahortic.2015.1106.36.

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Guzińska, Krystyna, Dorota Kaźmierczak, Marzena Dymel, Ewelina Pabjańczyk-Wlazło, and Maciej Boguń. "Anti-bacterial materials based on hyaluronic acid: Selection of research methodology and analysis of their anti-bacterial properties." Materials Science and Engineering: C 93 (December 2018): 800–808. http://dx.doi.org/10.1016/j.msec.2018.08.043.

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14

Ganjre, Anjali, Rahul Kathariya, Neeta Bagul, and Vivek Pawar. "Anti-carcinogenic and Anti-bacterial Properties of Selected Spices: Implications in Oral Health." Clinical Nutrition Research 4, no. 4 (2015): 209. http://dx.doi.org/10.7762/cnr.2015.4.4.209.

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Acharya, Srinivas, Deepak Kumar Patra, Chinmay Pradhan, and Pradipta Kumar Mohapatra. "Anti-bacterial, anti-fungal and anti-oxidative properties of different extracts of Bruguiera gymnorrhiza L. (Mangrove)." European Journal of Integrative Medicine 36 (June 2020): 101140. http://dx.doi.org/10.1016/j.eujim.2020.101140.

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Trieu Ly, Hai, Van Minh Le, Minh Thu Nguyen, Thanh Huyen Pham, Hoang Dung Nguyen, and Minh Khoi Nguyen. "Anti-urolithic, anti-inflammatory and anti-bacterial properties of various extracts from Musa balbisiana Colla fruits." Pharmaceutical Sciences Asia 48, no. 4 (2021): 388–401. http://dx.doi.org/10.29090/psa.2021.04.20.109.

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17

Sokolov, N. N., M. A. Eldarov, M. V. Pokrovskaya, S. S. Aleksandrova, O. Yu Abakumova, O. V. Podobed, N. S. Melik-Nubarov, E. V. Kudryashova, D. V. Grishin, and A. I. Archakov. "Bacterial recombinant L-asparaginases: properties, structure and anti-proliferative activity." Biomeditsinskaya Khimiya 61, no. 3 (2015): 312–24. http://dx.doi.org/10.18097/pbmc20156103312.

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For more than 40 years L-asparaginases are used in combined therapy of acute lymphoblastic leukemia in children and the range of tumors sensitive to these enzymes constantly extends. This review summarizes results of studies aimed at creation of new systems for heterological expression of bacterial L-asparaginases as Erwinia carotovora (EwA), Helicobacter pylori (HpA), Yersinia pseudotuberculosis (YpA) and Rhodospirillum rubrum (RrA); special attention is paid to isolation of purified enzymes and their crystallization, modification by chitosan/polyethylene, physicochemical, kinetic and structural properties characterization, and the study of the cytotoxic or anti-proliferative activity of new recombinant L-asparaginases on cell cultures in vitro. The resultant recombinant L-asparaginases (EwA, YpA, HpA и RrA) exhibit reasonable cytotoxic action on the human leukemia cells comparable to the pharmacologically available L-asparaginase EcA and represent practical interest in respect to creation, on their basis, new effective antineoplastic remedies. Further prospects of researches on bacterial L-asparaginases are associated with development of analogs of Rhodospirillum rubrum L-asparaginase (RrA) by means of directed changes of the protein structure using genetic engineering, development of chito-PEGylation for receiving L-asparaginase preparations with improved pharmacokinetic characteristics.
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18

Mohammadi, Sepideh, Seyed Ataollah Sadat Shandiz, Razieh Bigdeli, Arash Mahboubi, Mehdi Hedayati, and Vahid Asgary. "Evaluation of Anti-Bacterial Properties of Euphorbia Condylocarpa Methanol Extract." Archives of Microbiology & Immunology 01, no. 01 (2016): 10–18. http://dx.doi.org/10.26502/ami.9365002.

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19

Duong, The Hy, Jean-François Briand, André Margaillan, and Christine Bressy. "Polysiloxane-Based Block Copolymers with Marine Bacterial Anti-Adhesion Properties." ACS Applied Materials & Interfaces 7, no. 28 (July 13, 2015): 15578–86. http://dx.doi.org/10.1021/acsami.5b04234.

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20

Sokolov, N. N., M. A. Eldarov, M. V. Pokrovskaya, S. S. Aleksandrova, O. Yu Abakumova, O. V. Podobed, N. S. Melik-Nubarov, E. V. Kudryashova, D. V. Grishin, and A. I. Archakov. "Bacterial recombinant L-asparaginases: Properties, structure, and anti-proliferative activity." Biochemistry (Moscow) Supplement Series B: Biomedical Chemistry 9, no. 4 (October 2015): 325–38. http://dx.doi.org/10.1134/s199075081504006x.

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21

Barros, J., L. Grenho, M. H. Fernandes, C. M. Manuel, L. F. Melo, O. C. Nunes, F. J. Monteiro, and M. P. Ferraz. "Anti-sessile bacterial and cytocompatibility properties of CHX-loaded nanohydroxyapatite." Colloids and Surfaces B: Biointerfaces 130 (June 2015): 305–14. http://dx.doi.org/10.1016/j.colsurfb.2015.04.034.

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22

Li, Cheng, Yichen Ding, Shreyas Kuddannaya, Yilei Zhang, and Liang Yang. "Anti-bacterial properties of collagen-coated glass and polydimethylsiloxane substrates." Journal of Materials Science 52, no. 17 (May 11, 2017): 9963–78. http://dx.doi.org/10.1007/s10853-017-1175-6.

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23

Weng, Yi. "Exploration on the Production of Natural Green Anti-Bacterial Health-Care Textiles." Advanced Materials Research 331 (September 2011): 115–18. http://dx.doi.org/10.4028/www.scientific.net/amr.331.115.

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Chitosan has the function of anti-bacterial, and it can produce natural green anti-bacterial health-care textiles. However, after the finishing process, the fabrics properties are influenced as well. With the experiments, we study the impaction of chitosan on the fabrics properties. The results indicate: the anti-bacterial performance is good after the finishing process, and the shrinkage has been greatly improved.
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24

Chen, Zhen-Ping, Ya Cai, and J. Phillipson. "Studies on the Anti-Tumour, Anti-Bacterial, and Wound-Healing Properties of Dragon's Blood1." Planta Medica 60, no. 06 (December 1994): 541–45. http://dx.doi.org/10.1055/s-2006-959567.

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25

Fernandéz, José R., Karl Rouzard, Michael Voronkov, Kristen L. Huber, Jeffry B. Stock, Maxwell Stock, Joel S. Gordon, and Eduardo Pérez. "Anti-inflammatory and anti-bacterial properties of SIG1273: A skin protecting cosmetic functional ingredient." Journal of Dermatological Science 84, no. 1 (October 2016): e19. http://dx.doi.org/10.1016/j.jdermsci.2016.08.067.

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26

Chen, Zhengming, Zhengwei Cai, Chengjing Zhu, Xianmin Song, Yanghua Qin, Minhui Zhu, Tao Zhang, Wenguo Cui, Haihong Tang, and Hongliang Zheng. "Injectable and Self‐Healing Hydrogel with Anti‐Bacterial and Anti‐Inflammatory Properties for Acute Bacterial Rhinosinusitis with Micro Invasive Treatment." Advanced Healthcare Materials 9, no. 20 (September 9, 2020): 2001032. http://dx.doi.org/10.1002/adhm.202001032.

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27

Shimizu, Yusuke, Yusuke Kawanobe, Toshiisa Konishi, Nobuyuki Kanzawa, Michiyo Honda, and Mamoru Aizawa. "Biocompatibility of Silver-Containing Calcium-Phosphate Cements with Anti-Bacterial Properties." Key Engineering Materials 631 (November 2014): 107–12. http://dx.doi.org/10.4028/www.scientific.net/kem.631.107.

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We have previously synthesized silver-containing hydroxyapatite (Ag-HAp) powders by an ultrasonic spray-pyrolysis (USSP) technique. On the other hand, we have successfully fabricated novel calcium-phosphate cements (CPCs) composed of mainly β-tricalcium phosphate (β-TCP) phase with anti-washout property (hereafter, β-TCP cement), which was set on the basis of chelate-bonding ability of inositol phosphate (IP6). In this study, we developed novel CPCs with both anti-bacterial and anti-washout properties by adding the Ag-HAp powder into the above β-TCP cements, and examined their anti-bacterial property and cytotoxicity. The Ag-HAp powders with Ag contents of 0, 2, and 5 mol% as a nominal composition were synthesized by an USSP technique. The raw powder for β-TCP cement was prepared by ball-milling the commercially-available β-TCP powder in the IP6 solution. The Ag-HAp/β-TCP powders were prepared by mixing Ag-HAp powder and β-TCP cement powder at a ratio of 25:75 in mass. The Ag-HAp/β-TCP cement was fabricated by mixing the above-mentioned Ag-HAp/β-TCP powder and 2.5 mass% Na2HPO4 solution at a powder/liquid ratio of 1/0.3 [g/cm3]. The anti-bacterial property of resulting cements was evaluated using Staphylococcus aureus by biofilm formation test. The Ag-HAp/β-TCP cements containing 2 and 5 mol% Ag showed strong anti-bacterial property among examined specimens. Furthermore, the cytotoxicity of Ag+ ion eluted from these cements was also examined using osteoblastic MC3T3-E1 cells and Transwell® kit. The relative cell viability cultured on each Ag-containing cement specimen was over 80 %, compared with the control (polystyrene plate). These results demonstrate that the present Ag-HAp/β-TCP cements containing 2 mol% Ag are promising one of the candidates as CPCs with both anti-bacterial property and biocompatibility.
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Quadrini, Fabrizio, Denise Bellisario, Loredana Santo, and Giovanni Matteo Tedde. "Anti-Bacterial Nanocomposites by Silver Nano-Coating Fragmentation." Materials Science Forum 879 (November 2016): 1540–45. http://dx.doi.org/10.4028/www.scientific.net/msf.879.1540.

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Silver nanocomposites are of great interest for several fields, ranging from packaging to biomedical applications, because of their known antibacterial properties. However, their use is strongly limited by technological issues: synthesis methods of silver nanoparticles are still difficult to control in terms of size, shape and aggregation. Moreover separation of nanoparticle aggregates should occur during part manufacturing by mixing with the polymer base but this process is also troublesome. In the present study, a new process to fabricate silver nanocomposites with antibacterial properties is presented. Silver nanofilms are deposited by radio frequency (RF) sputtering on polypropylene (PP) substrates. Consequently PP coated substrates are cut and inserted in a small-scale polymer mixer to produce the nanocomposite in a single step, without the need of producing nanoparticles. In fact, nanoparticles originate by the fragmentation of the nanocoating. Microscopic observations of nanocomposites revealed silver nanoclusters of different sizes. Their antibacterial activity has been verified in accordance to ISO 22196. The antibacterial activity of the nanocomposite was detected for the Escherichia coli and Staphylococcus aureus bacteria.
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Othman, Farhad M., Alaa A. Abdul-hamead, and Noor A. Hmeed. "Fabrication of Advanced Cement Mortar for Building Anti-Bacterial Applications." Al-Khwarizmi Engineering Journal 15, no. 1 (March 1, 2019): 89–96. http://dx.doi.org/10.22153/kej.2019.07.004.

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In this research, we have added nano anatase TiO2 as a partial replacement of Portland cement by a weight percentage of (0.25 to 1%) for the development of properties for protection against bacteria. The control mix was made by using "the cement to sand" proportion about (1: 2.75) with the "water to cement" proportion of (0.5) to study the structure, porosity, water absorption, density, mechanical properties, as well as anti-bacterial behavior. Inspections have been done such as scanning electron microscopy (SEM), and atomic force microscope (AFM) for mortar. Experimental results showed that after the addition of Nano powders in cement mortar, the structural properties improved significantly with the development of hydration of cement mortar at early age, reduction of porosity and the increase of density as well as enhancement in compressive and anti-bacteria properties that make the preparation of nano material very suitable for protection against bacteria.
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Kourlas, Helen. "Anti-inflammatory Properties of Macrolide Antibiotics." Journal of Pharmacy Practice 19, no. 5 (October 2006): 326–29. http://dx.doi.org/10.1177/0897190006295800.

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The use of macrolide antibiotics for other clinical uses outside of their antimicrobial capabilities has been questioned and theorized in both in vitro and animal studies. Several small clinical trials have shown that erythromycin, clarithromycin, and azithromycin possess anti-inflammatory characteristics in patients with respiratory diseases. To determine whether macrolide antibiotics possess this unique characteristic, data from controlled trials involving human subjects were extracted and analyzed. Conclusions from trials suggest that select macrolide antibiotics possess anti-inflammatory properties in patients with respiratory diseases who do not show evidence of a bacterial infection.
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Wu, James Chun-Cheng, Sudip Ray, Marija Gizdavic-Nikolaidis, Jianyong Jin, and Ralph P. Cooney. "Effect of polyvinylpyrrolidone on storage stability, anti-oxidative and anti-bacterial properties of colloidal polyaniline." Synthetic Metals 217 (July 2016): 202–9. http://dx.doi.org/10.1016/j.synthmet.2016.03.019.

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32

Artini, M., G. L. Scoarughi, R. Papa, A. Cellini, C. Avanzolini, E. Mileto, L. Rizzo, and L. Selan. "Comparison of Anti-Bacterial Prophylactic Properties of Two Different Vascular Grafts: Action of Anti-Bacterial Graft Coating and Systemic Antibiotic Treatment." International Journal of Immunopathology and Pharmacology 23, no. 1 (January 2010): 383–86. http://dx.doi.org/10.1177/039463201002300141.

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33

Jenab, Anahita, Rasoul Roghanian, and Giti Emtiazi. "Bacterial Natural Compounds with Anti-Inflammatory and Immunomodulatory Properties (Mini Review)." Drug Design, Development and Therapy Volume 14 (September 2020): 3787–801. http://dx.doi.org/10.2147/dddt.s261283.

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Tang, Li, Wenyu Gu, Peng Yi, Julie L. Bitter, Ji Yeon Hong, D. Howard Fairbrother, and Kai Loon Chen. "Bacterial anti-adhesive properties of polysulfone membranes modified with polyelectrolyte multilayers." Journal of Membrane Science 446 (November 2013): 201–11. http://dx.doi.org/10.1016/j.memsci.2013.06.031.

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Tanvir, Fouzia, Atif Yaqub, Shazia Tanvir, and William Anderson. "Poly-L-arginine Coated Silver Nanoprisms and Their Anti-Bacterial Properties." Nanomaterials 7, no. 10 (September 27, 2017): 296. http://dx.doi.org/10.3390/nano7100296.

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Church, Selina R., Thomas Lux, Craig Baker-Austin, Sam P. Buddington, and Stephen Ll Michell. "Vibrio vulnificus Type 6 Secretion System 1 Contains Anti-Bacterial Properties." PLOS ONE 11, no. 10 (October 31, 2016): e0165500. http://dx.doi.org/10.1371/journal.pone.0165500.

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Liang, Guang, Shulin Yang, Lijuan Jiang, Yu Zhao, Lili Shao, Jian Xiao, Faqing Ye, Yueru Li, and Xiaokun Li. "Synthesis and Anti-bacterial Properties of Mono-carbonyl Analogues of Curcumin." CHEMICAL & PHARMACEUTICAL BULLETIN 56, no. 2 (2008): 162–67. http://dx.doi.org/10.1248/cpb.56.162.

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Sebbar, Nada Kheira, Mohamed El Mehdi Mekhzoum, El Mokhtar Essassi, Abdelfettah Zerzouf, Ahmed Talbaoui, Youssef Bakri, Mohamed Saadi, and Lahcen El Ammari. "Novel 1,4-benzothiazine derivatives: synthesis, crystal structure, and anti-bacterial properties." Research on Chemical Intermediates 42, no. 9 (March 11, 2016): 6845–62. http://dx.doi.org/10.1007/s11164-016-2499-6.

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39

Ramos Chagas, Gabriela, Gabriela Morán Cruz, Gaël Giraudon-Colas, Farah Savina, Rachel Méallet-Renault, Sonia Amigoni, Frédéric Guittard, and Thierry Darmanin. "Anti-bacterial and fluorescent properties of hydrophobic electrodeposited non-fluorinated polypyrenes." Applied Surface Science 452 (September 2018): 352–63. http://dx.doi.org/10.1016/j.apsusc.2018.04.268.

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40

Medina, O., J. Nocua, F. Mendoza, R. Gómez-Moreno, J. Ávalos, C. Rodríguez, and G. Morell. "Bactericide and bacterial anti-adhesive properties of the nanocrystalline diamond surface." Diamond and Related Materials 22 (February 2012): 77–81. http://dx.doi.org/10.1016/j.diamond.2011.12.022.

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41

Gopinath, P., R. K. Yadav, P. K. Shukla, K. Srivastava, S. K. Puri, and K. M. Muraleedharan. "Broad spectrum anti-infective properties of benzisothiazolones and the parallels in their anti-bacterial and anti-fungal effects." Bioorganic & Medicinal Chemistry Letters 27, no. 5 (March 2017): 1291–95. http://dx.doi.org/10.1016/j.bmcl.2017.01.027.

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42

Wangchuk, Phurpa, Thanapat Sastraruji, Malai Taweechotipatr, Paul A. Keller, and Stephen G. Pyne. "Anti-inflammatory, Anti-bacterial and Anti-acetylcholinesterase Activities of two Isoquinoline Alkaloids–Scoulerine and Cheilanthifoline." Natural Product Communications 11, no. 12 (December 2016): 1934578X1601101. http://dx.doi.org/10.1177/1934578x1601101207.

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Corydalis plants containing isoquinoline alkaloids are reported to possess promising pharmacological properties for the treatment of important diseases including cancer, inflammation, Alzheimer's disease and microbial infections. As part of a wider program investigating Bhutanese medicinal plants, we have previously identified eight isoquinoline alkaloids from C. dubia. Out of these, we report here on two of the major alkaloids, scoulerine (1) and cheilanthifoline (2) and their inhibitory activities against acetylcholinesterase (anti-AChE), tumor necrosis factor alpha (anti TNF-α) and a bacterial strain, Helicobacter pylori. Both alkaloids showed weak anti TNF-α and antibacterial activities. However, the anti-AChE activity of scoulerine (1) was promising as it significantly inhibited AChE with a minimum inhibitory requirement (MIR) value of 0.0015 nmol, which was two-fold better than the reference drug, galanthamine (MIR value of 0.003 nmol). As there are limited anti-Alzheimer's chemotherapeutics, scoulerine (1) is worthy of further exploration, including lead optimization, structure-activity-relationship studies, analog development, pharmacodynamics and in vivo animal studies
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Jiang, Shou Xiang, Xiao Ming Tao, C. W. M. Yuen, C. W. Kan, L. Zhang, and P. S. R. Choi. "Functional Properties of Electroless Silver-Plated Cotton Fabric via LTP Pre-Treatment." Advances in Science and Technology 60 (September 2008): 170–75. http://dx.doi.org/10.4028/www.scientific.net/ast.60.170.

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Silver-plated textiles have exhibited their specific features not only on mechanical performance but also on functional properties. In this study, silver plating technique was applied on cotton fabric to improve its functional properties, especially the anti-bacterial and anti-UV properties. Silver plating was conducted in this research with the aid of oxygen and argon low-temperature plasma (LTP) pre-treatment on the cotton fabric to manipulate the film of the coating. The silver-plated cotton fabric was characterized in terms of its functional properties. The micro-roughness formed on the cotton fabric after the LTP pre-treatment facilitated the silver particles deposition. As a result, the anti-bacterial and anti-UV properties of the silver-plated cotton fabric and the water repellent ability of the cotton fabric were improved after the silver-plating process.
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44

Li, Yuqing, Weijun Xiu, Kaili Yang, Qirui Wen, Lihui Yuwen, Zichao Luo, Xiaogang Liu, Dongliang Yang, Xiaoji Xie, and Lianhui Wang. "A multifunctional Fenton nanoagent for microenvironment-selective anti-biofilm and anti-inflammatory therapy." Materials Horizons 8, no. 4 (2021): 1264–71. http://dx.doi.org/10.1039/d0mh01921f.

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FePS3 nanosheets with pH-responsive self-enhanced Fenton activity and ROS scavenging properties, are first explored to realize microenvironment-selective anti-biofilm and anti-inflammatory therapy for bacterial biofilm infections.
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45

Punniyakotti, Parthipan, Pratheep Panneerselvam, Dhandapani Perumal, Rajasekar Aruliah, and Subramania Angaiah. "Anti-bacterial and anti-biofilm properties of green synthesized copper nanoparticles from Cardiospermum halicacabum leaf extract." Bioprocess and Biosystems Engineering 43, no. 9 (May 4, 2020): 1649–57. http://dx.doi.org/10.1007/s00449-020-02357-x.

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46

Cui, Liyuan, Huangguan Chen, Jingyi Ma, Jianwei Han, and Limin Wang. "Synthesis of Vicinal Trifluoromethanesulfonate Substituted Diaryliodonium Salts and Their Anti-bacterial Properties." Chinese Journal of Organic Chemistry 39, no. 1 (2019): 270. http://dx.doi.org/10.6023/cjoc201808043.

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47

Hippius, Catharina, Vural Bütün, and Irem Erel-Goktepe. "Bacterial anti-adhesive properties of a monolayer of zwitterionic block copolymer micelles." Materials Science and Engineering: C 41 (August 2014): 354–62. http://dx.doi.org/10.1016/j.msec.2014.04.023.

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48

Afonso Camargo, Samira Esteves, Azeem S. Mohiuddeen, Chaker Fares, Jessica L. Partain, Patrick H. Carey, Fan Ren, Shu-Min Hsu, Arthur E. Clark, and Josephine F. Esquivel-Upshaw. "Anti-Bacterial Properties and Biocompatibility of Novel SiC Coating for Dental Ceramic." Journal of Functional Biomaterials 11, no. 2 (May 20, 2020): 33. http://dx.doi.org/10.3390/jfb11020033.

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A 200 nm plasma-enhanced chemical vapor-deposited SiC was used as a coating on dental ceramics to improve anti-bacterial properties for the applications of dental prosthesis. A thin SiO2 (20 nm) in the same system was deposited first, prior to SiC deposition, to improve the adhesion between SiC to dental ceramic. Silane and methane were the precursors for SiC deposition, and the SiO2 deposition employed silane and nitrous oxide as the precursors. SiC antimicrobial activity was evaluated on the proliferation of biofilm, Streptococcus sanguinis, and Streptococcus mutans on SiC-coated and uncoated dental ceramics for 24 h. The ceramic coating with SiC exhibited a biofilm coverage of 16.9%, whereas uncoated samples demonstrated a significantly higher biofilm coverage of 91.8%, measured with fluorescence and scanning electron microscopic images. The cytotoxicity of the SiC coating was evaluated using human periodontal ligament fibroblasts (HPdLF) by CellTiter-BlueCell viability assay. After 24 h of HPdLF cultivation, no obvious cytotoxicity was observed on the SiC coating and control group; both sets of samples exhibited similar cell adhesion and proliferation. SiC coating on a ceramic demonstrated antimicrobial activity without inducing cytotoxic effects.
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49

Shen, Liyan, Bailiang Wang, Jinlei Wang, Jinhong Fu, Catherine Picart, and Jian Ji. "Asymmetric Free-Standing Film with Multifunctional Anti-Bacterial and Self-Cleaning Properties." ACS Applied Materials & Interfaces 4, no. 9 (September 13, 2012): 4476–83. http://dx.doi.org/10.1021/am301118f.

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Chen, Yikai, Xuebin Zheng, Youtao Xie, Chuanxian Ding, Hongjiang Ruan, and Cunyi Fan. "Anti-bacterial and cytotoxic properties of plasma sprayed silver-containing HA coatings." Journal of Materials Science: Materials in Medicine 19, no. 12 (July 19, 2008): 3603–9. http://dx.doi.org/10.1007/s10856-008-3529-8.

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