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Journal articles on the topic 'Sulfate(lauryl)'

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Published: 4 June 2021
Last updated: 17 February 2022

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1

Fiume, Monice, Wilma F. Bergfeld, Donald V. Belsito, Curtis D. Klaassen, James G. Marks, Ronald C. Shank, Thomas J. Slaga, Paul W. Snyder, and F. Alan Andersen. "Final Report on the Safety Assessment of Sodium Cetearyl Sulfate and Related Alkyl Sulfates as Used in Cosmetics." International Journal of Toxicology 29, no. 3_suppl (May 2010): 115S—132S. http://dx.doi.org/10.1177/1091581810364665.

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Sodium cetearyl sulfate is the sodium salt of a mixture of cetyl and stearyl sulfate. The other ingredients in this safety assessment are also alkyl salts, including ammonium coco-sulfate, ammonium myristyl sulfate, magnesium coco-sulfate, sodium cetyl sulfate, sodium coco/hydrogenated tallow sulfate, sodium coco-sulfate, sodium decyl sulfate, sodium ethylhexyl sulfate, sodium myristyl sulfate, sodium oleyl sulfate, sodium stearyl sulfate, sodium tallow sulfate, sodium tridecyl sulfate, and zinc coco-sulfate. These ingredients are surfactants used at concentrations from 0.1% to 29%, primarily in soaps and shampoos. Many of these ingredients are not in current use. The Cosmetic Ingredient Review (CIR) Expert Panel previously completed a safety assessment of sodium and ammonium lauryl sulfate. The data available for sodium lauryl sulfate and ammonium lauryl sulfate provide sufficient basis for concluding that sodium cetearyl sulfate and related alkyl sulfates are safe in the practices of use and concentration described in the safety assessment.
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2

Jeong, Hwa-Young, Sang-Hee Jeong, and Mi-Ae Jeong. "A Study on Variations of Halitosis According to Sodium Lauryl Sulfate Content of Toothpaste." Journal of the Korea Academia-Industrial cooperation Society 11, no. 8 (August 31, 2010): 2935–41. http://dx.doi.org/10.5762/kais.2010.11.8.2935.

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3

Antonova, Irina Nikolayevna, Vladimir Vladimirovich Grishin, and Yuriy Dmitriyevich Ignatov. "Comparative efficacy of toothpastescontaining sodium lauryl sulfate and lecithin." Reviews on Clinical Pharmacology and Drug Therapy 11, no. 1 (March 15, 2013): 50–54. http://dx.doi.org/10.17816/rcf11150-54.

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In the article the effect of sodium lauryl sulfate, and lecithin on the enamel of the tooth and the comparative analysis of efficiency of use of toothpaste with lecithin and other components similar to toothpaste with sodium lauryl sulfate, which is significantly more efficient pasta with lecithin. In addition to significant improvements in dental index, pasta with lecithin showed bleaching properties of the enamel of the tooth and the ability to gradually remove tartar.
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4

Yachna, M. G., O. B. Meched, O. P. Tretyak, and B. V. Yakovenko. "ВМІСТ ФОСФОЛІПІДІВ У ТКАНИНАХ КОРОПА ЛУCКАТОГО (CYPRINUS CARPIO L.) ЗА ДІЇ НАТРІЙ ЛАУРИЛСУЛЬФАТВМІСНОГО ТА БЕЗФОСФАТНОГО СИНТЕТИЧНИХ МИЮЧИХ ЗАСОБІВ." Scientific Issue Ternopil Volodymyr Hnatiuk National Pedagogical University. Series: Biology 76, no. 2 (July 26, 2019): 48–52. http://dx.doi.org/10.25128/2078-2357.19.2.8.

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The biological laws of adaptation of fish to the action of surfactants are studied. Changes in the content of phospholipids in the gills, brain, liver and skeletal muscle of the scaly carp (Cyprinus carpio L.) under the influence of sodium lauryl sulfate and nonphosphate synthetic detergent have been studied. Ambiguous mediated changes in indicators were identified under the action of toxicants. Such changes can be caused by both the direct action of surfactants on the body of hydrobionts and the peculiar restructuring of the lipid bichar in the direction of counteracting the influence of toxicants. With the experimental introduction of sodium lauryl sulfate-containing synthetic detergent and non-phosphate synthetic detergent into aquarium water, changes in the activity of phospholipids occur in all test tissues of the carp. When applying lauryl sulfate, we observe almost uniform effect on all investigated fabrics. With the tendency to increase, we observe indicators in the brain and white muscles, but with a tendency to decrease in the liver and gills. As for the effect of lauryl sulfate on the tissue, we observe the greatest importance in the liver tissues and uniform effect on the white muscle, brain and gills of the carp.
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5

Bidevkina, M. V., M. I. Golubeva, A. V. Limantsev, I. N. Razumnaya, T. N. Potapova, and E. A. Fedorova. "ASSESSMENT OF THE TOXICITY AND HAZARD OF SODIUM LAURYL SULFATE AT DIFFERENT EXPOSURE ROUTES." Toxicological Review, no. 4 (August 1, 2020): 56–59. http://dx.doi.org/10.36946/0869-7922-2020-4-56-59.

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Sodium lauryl sulfate is the most common surfactant used in the production of detergents, chloroprene rubber, plastics, artificial furs and in pharmaceutical industry. Sodium lauryl sulfate is a moderately hazardous substance when introduced into the stomach (DL50 for white mice and rats is in the range of 2086-2700 mg/kg), has a pronounced local irritant effect on the skin and mucous membranes of the eyes, has a skin-resorptive, sensitizing and pronounced cumulative effects. The threshold for acute inhalation action is set at 15,3 mg/m3 for changes in the function of the nervous system and irritating effects on the mucous membranes of the upper respiratory tract (an increase in the total number of cells in the nasal flushes).Recommended for approval tentative safe exposure level of sodium lauryl sulfate in the air of the working area is 0.2+ mg/m3 (aerosol).
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6

Agner, T., and P. Elsner. "Sodium lauryl sulfate: a never ending story?" British Journal of Dermatology 183, no. 1 (December 25, 2019): 13. http://dx.doi.org/10.1111/bjd.18787.

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7

Huang, Chun-Ming, Chao-Cheng Wang, Mikako Kawai, Stephen Barnes, and Craig A. Elmets. "Surfactant Sodium Lauryl Sulfate Enhances Skin Vaccination." Molecular & Cellular Proteomics 5, no. 3 (November 28, 2005): 523–32. http://dx.doi.org/10.1074/mcp.m500259-mcp200.

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8

Lee, Cheol Heon, and Howard I. Maibach. "The sodium lauryl sulfate model: an overview." Contact Dermatitis 33, no. 1 (July 1995): 1–7. http://dx.doi.org/10.1111/j.1600-0536.1995.tb00438.x.

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9

Rucker, James W., and David M. Cates. "2,2î-Bipyridine Catalyzed Bleaching of Cotton Fibers with Peracetic Acid." Textile Research Journal 58, no. 3 (March 1988): 148–60. http://dx.doi.org/10.1177/004051758805800305.

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Peracetic acid can be catalyzed to bleach cotton fibers at temperatures as low as 30°C by incorporating 2,2î-bipyridine in the bleach solution if the appropriate concentration of ferrous ions is present in the cotton fibers. The tris-2,2î-bipyridine ferrous ion complex (trischelate) is the catalytically active species, and sodium lauryl sulfate functions as a stabilizer for the peracid in the presence of the trischelate. The effects of pH, temperature, and concentrations of 2,2î-bipyridine, sodium lauryl sulfate, and ferrous ions on the kinetics and mechanism of peracetic acid decomposition have been investigated. Peracetic acid decomposition in the bleach solution is due mainly to alkaline hydrolysis without added ferrous ions and catalysis by the trischelate complex in solutions containing added ferrous ions. Overall decomposition follows the rate expression where k1 is the specific rate constant for alkaline hydrolysis and k3 is the specific rate constant for catalytic decomposition by the trischelate in the presence of sodium lauryl sulfate.
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10

Sulek, Marian W., Tomasz Wasilewski, and Krzysztof J. Kurzydłowski. "The Effect of Concentration on Lubricating Properties of Aqueous Solutions of Sodium Lauryl Sulfate and Ethoxylated Sodium Lauryl Sulfate." Tribology Letters 40, no. 3 (July 25, 2010): 337–45. http://dx.doi.org/10.1007/s11249-010-9668-3.

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11

Bhattachar, Shobha N., Donald S. Risley, Pornpen Werawatganone, and Aktham Aburub. "Weak bases and formation of a less soluble lauryl sulfate salt/complex in sodium lauryl sulfate (SLS) containing media." International Journal of Pharmaceutics 412, no. 1-2 (June 2011): 95–98. http://dx.doi.org/10.1016/j.ijpharm.2011.04.018.

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12

Klyosova, K. G., I. V. Bushueva, and S. A. Gladisheva. "Study of the influence of concentration of surface-active substances on trifuzol release from veterinary intrauterine suppositories." Farmatsevtychnyi zhurnal, no. 4 (July 30, 2020): 88–93. http://dx.doi.org/10.32352/0367-3057.4.20.09.

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The main direction in increasing meat and milk production for the coming years is the intensification of all livestock industries. Disease animals with lesions of the genitals are fairly common, causing considerable economic damage due to loss of productivity of animals and even infertility. At the present time the search continues for veterinary medicines, which would ensure the effectiveness of treatment of diseases of the sexual sphere, in particular, cattle, and the extension of the range of veterinary medicines and their dosage forms. So, the goal is to improve the existing veterinary intrauterine suppositories by the use of more effective active substances and foaming agent in its composition that improves the efficiency of the funds and consequently the effectiveness of treatment of inflammatory diseases of the reproductive organs in cattle. Use piperidine 2-(5-(2-furyl)-4-phenyl-1,2,4-triazole-3-ylthio)acetate (trifuzol) as active substances in veterinary intrauterine suppository provides increased therapeutic effectiveness in the treatment, particularly of catarrhal endometritis in cows compared with the known means. Its use allows to improve the course of the pathological process. Introduction sodium lauryl sulfate in the composition of the suppository can improve the clinical effect of the proposed use of the funds due to the fact that the melting means it begins to foam, grow in volume and take in this view of the entire uterine cavity of the animal and thus distribute the active substance evenly over the entire inner surface of the uterus as a result of biopharmaceutical research determined that the optimal release trifuzol of intrauterine suppositories is provided by a combination of auxiliary substances – the fundamentals-media (a mixture of polyethylene oxides with a molecular weight of 1 500 and 400 in the ratio 9:1) and surfactant (sodium lauryl sulfate). The aim of this study was scientific substantiation of surfactant concentration (sodium lauryl sulfate) in-utero drug trifuzol in the form of suppositories. Suppositories were prepared by the method of pouring with the use of forms from semi-automatic Franco-Crespi. The concentration of the surfactant (sodium lauryl sulfate) were 0,5%, 1%, 2%, 3% and 5% by weight of the drug, the content trifuzol – 0.1 g each suppositories. Research on the scientific basis of the concentration of surfactant in the suppository was carried out according to plan one-way with repeated observations. It is proved that the concentration of the surfactant (sodium lauryl sulfate) significantly affects its release from the dosage form. Found that 0.5% concentration of sodium lauryl sulfate for optimal release trifuzol of veterinary intrauterine suppositories.
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13

Morais, Alessandra Gorette de, Carlos Adolpho Magalhães Baltar, and Carlos Alberto Pereira. "Lead recovery by flotation with sodium lauryl sulfate." Rem: Revista Escola de Minas 66, no. 1 (March 2013): 117–21. http://dx.doi.org/10.1590/s0370-44672013000100016.

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Lead recoverable slag is of economic and environmental importance. The aim of this study was to assess the possibilities of its recovery by flotation with sodium lauryl sulfate (SLS). The similar nature of the lead and iron particles formed by solidification of the melted slag impairs selectivity during the flotation process. In order to verify the most favorable conditions for selectivity, SLS adsorption mechanisms for lead and iron particles were studied. The adsorption was monitored by means of zeta potential and surface tension determinations. Flotation tests were conducted under the most promising conditions identified for selectivity. The results suggest that SLS adsorption in lead particles is of a chemical nature. It was observed that the formation of lead lauryl sulfate is easier in alkaline medium. A 79% lead recovery was obtained at pH 10 using only 10-3 M collector concentration. Nevertheless, the best selectivity conditions were obtained in an acid medium.
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14

Tupker, R. A., C. Willis, E. Berardksca, C. H. Lee, M. Fartasch, T. Atinrat, and J. Serup. "Guidelines on sodium lauryl sulfate (SLS) exposure tests." Contact Dermatitis 37, no. 2 (August 1997): 53–69. http://dx.doi.org/10.1111/j.1600-0536.1997.tb00041.x.

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15

Sugár, M., E. Schnetz, and M. Fartasch. "Does sodium lauryl sulfate concentration vary with time?" Contact Dermatitis 40, no. 3 (March 1999): 146–49. http://dx.doi.org/10.1111/j.1600-0536.1999.tb06012.x.

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16

Florea-Spiroiu, Manuela, Diana Achimescu, Ioana Stanculescu, Munizer Purica, Raluca Gavrila, and Sandu Peretz. "Anti-fog chitosan/sodium lauryl ether sulfate films." Polymer Bulletin 70, no. 12 (August 29, 2013): 3305–16. http://dx.doi.org/10.1007/s00289-013-1023-z.

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17

Vigo, F., C. Uliana, and M. Novi. "Electro-oxidation of sodium lauryl sulfate aqueous solutions." Journal of Applied Electrochemistry 18, no. 6 (November 1988): 904–8. http://dx.doi.org/10.1007/bf01016049.

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18

Inda, Vratika Singh, and Bibin Jacob Emmanuel. "Sodium lauryl sulfate in relation with aphthous ulcer." Journal of Advanced Clinical and Research Insights 7, no. 5 (2020): 73–74. http://dx.doi.org/10.15713/ins.jcri.309.

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19

Wilhelm, Klaus-P., and Howard I. Maibach. "Susceptibility to irritant dermatitis induced by sodium lauryl sulfate." Journal of the American Academy of Dermatology 23, no. 1 (July 1990): 122–24. http://dx.doi.org/10.1016/s0190-9622(08)81204-2.

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20

Oosterhaven, J. A. F. "Anatomical location differences in sodium lauryl sulfate‐induced irritation." British Journal of Dermatology 181, no. 1 (July 2019): 19–20. http://dx.doi.org/10.1111/bjd.18100.

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21

Quan, C., G. Khoe, and D. Bagster. "Adsorption of sodium lauryl sulfate onto arsenic-bearing ferrihydrite." Water Research 35, no. 2 (February 2001): 478–84. http://dx.doi.org/10.1016/s0043-1354(00)00271-2.

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22

Powale, Rajendra S., and Sunil S. Bhagwat. "Influence of Electrolytes on Foaming of Sodium Lauryl Sulfate." Journal of Dispersion Science and Technology 27, no. 8 (December 2006): 1181–86. http://dx.doi.org/10.1080/01932690600859804.

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23

Mahajan, Tanu, Lalit Kumar, K. Dwivedi, and D. D. Agarwal. "Sodium Lauryl Sulfate–Catalyzed Oxidative Chlorination of Aromatic Compounds." Synthetic Communications 42, no. 24 (December 15, 2012): 3655–63. http://dx.doi.org/10.1080/00397911.2011.589560.

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24

Prihapsara, F., W. A. Saputra, A. N. Artanti, D. E. Ermawati, S. Rohmani, and A. Yugatama. "Permeability of Piroxicam with Sodium Lauryl Sulfate as Surfactant." IOP Conference Series: Materials Science and Engineering 578 (October 4, 2019): 012054. http://dx.doi.org/10.1088/1757-899x/578/1/012054.

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25

Karsan, Aly, Ian Maclaren, Debbie Conn, and Louis Wadsworth. "An Evaluation of Hemoglobin Determination Using Sodium Lauryl Sulfate." American Journal of Clinical Pathology 100, no. 2 (August 1, 1993): 123–26. http://dx.doi.org/10.1093/ajcp/100.2.123.

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26

Milinkovic-Budincic, Jelena, Lidija Petrovic, Jadranka Fraj, Sandra Bucko, Jaroslav Katona, and Ljiljana Spasojevic. "Rheological characterisation of chitosan/sodium lauryl ether sulfate complexes." Acta Periodica Technologica, no. 50 (2019): 152–62. http://dx.doi.org/10.2298/apt1950152m.

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Chitosan is a cationic biopolymer, which attracts more and more attention in recent years, due to its exceptional physical and chemical properties, expressive biocompatibility and possibilities of obtaining from renewable sources. Formed polymer/surfactant complexes affect changes in the rheological properties and the final result is the formation of coacervates. The purpose of this study was to investigate the rheological properties of aqueous solutions of cationic polyelectrolyte, chitosan and sodium lauryl ether sulfate (SLES), an anionic surfactant, widely used in the cosmetics industry. Using the Thermo Haake RS600 rheometer, changes in the rheological and elastic properties of chitosan and SLES mixtures have been identified, gained as a result of the interaction of the components. In all examined samples coefficient of thixotropy was increasing with increase SLES concentration and achieves a maximum value at the mass ratio chitosan:SLES 1:2, after which it reduces. The oscillatory measurements in mixtures, performed by amplitude sweep method at low oscillating frequency 1 Hz, show that the linear viscoelastic region increases with increasing SLES concentration up to the same chitosan:SLES mass ratio. By monitoring the changes in the rheological parameters of the mixtures over five days, it was observed that the viscosity, the coefficient of thixotropy and elasticity were increasing, indicating that changes in the system occur over a longer period of time. In that manner, obtained results indicate the possibility of using rheological methods for a more detailed description of the interaction in the chitosan/SLES mixtures, important for their application in cosmetics and pharmaceutical industries.
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27

Uter, Wolfgang, Johannes Geier, Detlef Becker, Jochen Brasch, and Harald Loffler. "The MOAHLFA index of irritant sodium lauryl sulfate reactions: first results of a multicentre study on routine sodium lauryl sulfate patch testing." Contact Dermatitis 51, no. 5-6 (November 2004): 259–62. http://dx.doi.org/10.1111/j.0105-1873.2004.00458.x.

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28

Qiao, Sen, Nan Zheng, Tian Tian, Cong Yu, and Jiti Zhou. "Effects of short-term exposure to linear anionic surfactants (SDBS, SLS and SDS) on anammox biomass activity." RSC Advances 6, no. 58 (2016): 53004–11. http://dx.doi.org/10.1039/c6ra06238e.

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This work demonstrates the feasibility of nitrogen removal from wastewater containing linear anionic surfactants, including sodium dodecyl benzene sulfonate, sodium lauryl sulfate and sodium dodecyl sulfonate, by using the anammox process.
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29

Lewandowski, Andrzej, and Katarzyna Szymczyk. "Partitioning of Selected Anisole and Veratrole Derivatives between Water and Anionic Surfactant Micelles." Molecules 25, no. 24 (December 9, 2020): 5818. http://dx.doi.org/10.3390/molecules25245818.

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The UV absorption spectra of six structurally related derivatives of anisole and veratrole, i.e., anisaldehyde, (E)-anethole, estragole, veratraldehyde, methyleugenol and (E)-methylisoeugenol, were recorded at various concentrations of the anionic surfactants, either sodium lauryl sulfate (SLS) or sodium lauryl ether sulfate (SLES) at T = 298 K. In addition, conductivity and density measurements were made for the SLS and SLES solutions to determine the volumetric properties of the studied surfactants. Next, using the W. Al-Soufi, L. Pińeiro and M. Novo model (APN model) including the pseudo-phase model for micellar solubilization, the values of micelle-water partition coefficients for each perfume-surfactant system were determined. In addition, the relations between the molecular structures of the solute and the head group of the surfactant and the value of the micelle-water partition coefficient as well as the octanol-water one were discussed.
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30

Philipson, K. D., G. A. Langer, and T. L. Rich. "Charged amphiphiles regulate heart contractility and sarcolemma-Ca2+ interactions." American Journal of Physiology-Heart and Circulatory Physiology 248, no. 1 (January 1, 1985): H147—H150. http://dx.doi.org/10.1152/ajpheart.1985.248.1.h147.

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We have used charged amphiphiles as phospholipid analogues to modulate the interaction of Ca2+ with myocardial sarcolemma. The amphiphiles were dodecyl sulfate, dodecyltrimethylamine, and lauryl acetate; these are anionic, cationic, and neutral molecules, respectively. The hydrophobic alkyl chain is identical in each case; only the hydrophilic head group is varied. The anionic dodecyl sulfate (50-100 microM) augmented the Ca2+ binding and Na+-Ca2+ exchange activity of sarcolemmal vesicles by approximately 80% and increases the contractility of rabbit papillary muscle. Both developed force and its derivative were increased by approximately 100% with no increase in rest tension. Cationic dodecyltrimethylamine (20-100 microM) produced nearly opposite effects. Neutral lauryl acetate (100 microM) had little apparent effect on any measurement. The charged amphiphiles should be useful tools for further elucidation of excitation-contraction coupling processes in a variety of contractile tissues.
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31

Ranjani, G. Indu Siva, and K. Ramamurthy. "Analysis of the Foam Generated Using Surfactant Sodium Lauryl Sulfate." International Journal of Concrete Structures and Materials 4, no. 1 (June 30, 2010): 55–62. http://dx.doi.org/10.4334/ijcsm.2010.4.1.055.

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32

Herlofson, Bente Brokstad, Pal Brodin, and Harald Aars. "Increased human gingival blood flow induced by sodium lauryl sulfate." Journal of Clinical Periodontology 23, no. 11 (November 1996): 1004–7. http://dx.doi.org/10.1111/j.1600-051x.1996.tb00528.x.

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33

Amaral, L. Q., and M. E. Marcondes Helene. "Nematic domain in the sodium lauryl sulfate/water/decanol system." Journal of Physical Chemistry 92, no. 21 (October 1988): 6094–98. http://dx.doi.org/10.1021/j100332a049.

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34

Jain, Rajeev, D. C. Tiwari, and Preeti Pandey. "Electrocatalytic quantifaction of antitubarcular drug ethionamide in sodium lauryl sulfate." Journal of Molecular Liquids 198 (October 2014): 364–68. http://dx.doi.org/10.1016/j.molliq.2014.07.025.

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35

Barkvoll, Pal, Gunnar Rolla, and Anne Kristin Svendsen. "Interaction between chlorhexidine digluconate and sodium lauryl sulfate in vivo." Journal of Clinical Periodontology 16, no. 9 (October 1989): 593–95. http://dx.doi.org/10.1111/j.1600-051x.1989.tb02143.x.

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36

Park, Soo Keun, Dong Houh, Yung Jin Oh, Kyung Ok Kim, and Chung Won Kim. "The Effect of pH on Sodium Lauryl Sulfate Irritancy Potential." Annals of Dermatology 2, no. 1 (1990): 13. http://dx.doi.org/10.5021/ad.1990.2.1.13.

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37

Herlofson, Bente Brokstad, and Pål Barkvoll. "Sodium lauryl sulfate and recurrent aphthous ulcers: A preliminary study." Acta Odontologica Scandinavica 52, no. 5 (January 1994): 257–59. http://dx.doi.org/10.3109/00016359409029036.

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38

Jurkiewicz, Kazimierz. "Adsorption off Lauryl Sulfate from Electrolyte Solutions on Cobalt Hydroxide." Separation Science and Technology 22, no. 11 (November 1987): 2229–51. http://dx.doi.org/10.1080/01496398708068610.

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39

Seidenari, Stefania, and Barbara Belletti. "Instrumental evaluation of subclinical irritation induced by sodium lauryl sulfate." Contact Dermatitis 30, no. 3 (March 1994): 175. http://dx.doi.org/10.1111/j.1600-0536.1994.tb00703.x.

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40

Assev, Synnøve, Sonni Mette Wäler, and Gunnar Rolla. "Are sodium lauryl sulfate?containing toothpastes suitable vehicles for xylitol?" European Journal of Oral Sciences 105, no. 2 (April 1997): 178–82. http://dx.doi.org/10.1111/j.1600-0722.1997.tb00197.x.

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41

Paulo, Ana M. S., Rozelin Aydin, Mauricio R. Dimitrov, Harm Vreeling, Ana J. Cavaleiro, Pedro A. García-Encina, Alfons J. M. Stams, and Caroline M. Plugge. "Sodium lauryl ether sulfate (SLES) degradation by nitrate-reducing bacteria." Applied Microbiology and Biotechnology 101, no. 12 (March 15, 2017): 5163–73. http://dx.doi.org/10.1007/s00253-017-8212-x.

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42

Freitas, Rosa, Serena Silvestro, Francesca Coppola, Silvana Costa, Valentina Meucci, Federica Battaglia, Luigi Intorre, Amadeu M. V. M. Soares, Carlo Pretti, and Caterina Faggio. "Toxic impacts induced by Sodium lauryl sulfate in Mytilus galloprovincialis." Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 242 (April 2020): 110656. http://dx.doi.org/10.1016/j.cbpa.2020.110656.

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43

A.M. Wadaa, Mohammad, and Mohammad Mubarak . "Skin Lesions Induced by Sodium Lauryl Sulfate (SLS) in Rabbits." Journal of Medical Sciences 5, no. 4 (September 15, 2005): 320–23. http://dx.doi.org/10.3923/jms.2005.320.323.

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44

Polli, Vania Regina Gabbi, Alnei Ramos Prochnow, and Juliane Zimmernan Tamanini. "EXTRACTION OF COLORED SUBSTANCES FROM MATE (ILEX PARAGUARIENSIS)." SOUTHERN BRAZILIAN JOURNAL OF CHEMISTRY 6, no. 6 (June 20, 1998): 45–51. http://dx.doi.org/10.48141/sbjchem.v6.n6.1998.47_1998.pdf.

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Liquid-liquid extraction of pigments present in mate (flex Paraguariensis) was studied using various organic solvents and different concentrations. The best results were obtained using diethyl ether and sodium lauryl sulfate. The effect of the addition of ethanol on the extraction process was also analyzed.
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45

Rahman, SM Moshiur, Tushar Saha, Zia Uddin Masum, and Jakir Ahmed Chowdhury. "Evaluation of Physical Properties of Selected Excipients for Direct Compressible Tablet." Bangladesh Pharmaceutical Journal 20, no. 1 (April 5, 2017): 34–38. http://dx.doi.org/10.3329/bpj.v20i1.32091.

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Excipients play important roles in the manufacturing of direct compressible tablet. The physical properties of excipients like flow properties, bulk density, tapped density, compressibility and diameter of particles are the most important studies which should be taken under consideration. Excipients like lactose, ludipress, avicel, povidone, sodium starch glycolate, sodium lauryl sulfate, sodium carboxy methyl cellulose, polyethylene glycol 4000 (PEG 4000) and maize starch are used and found that PEG 4000, avicel PH-101, ludipress and sodium lauryl sulfate showed an angle of repose below 400 which indicates good flow properties and others are not. The highest compressibility value is obtained from lactose and compressibility value was lowest for PEG 4000. It was found from the average diameter of excipients that sodium starch glycolate is very fine graded powder because all particles pass through a sieve (100 mesh) and the highest value is obtained from PEG 4000.Bangladesh Pharmaceutical Journal 20(1): 34-38, 2017
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46

Ngan, Tran Thi Kim, Tran Thien Hien, Le Thi Hong Nhan, and Xuan Tien Le. "Formulation of Face-Wash from Coconut (Cocos nucifera (L.)) Oil in Ben Tre Province, Vietnam." Key Engineering Materials 882 (April 2021): 183–90. http://dx.doi.org/10.4028/www.scientific.net/kem.882.183.

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Today, the need for human care and beauty is increasing. The use of personal care products, especially those from nature, has been given special attention by consumers. With diverse features and good effects on the human body, especially the skin, coconut oil is being cared for by many manufacturers. With the aim of diversifying personal care products from coconut oil, this research has initially achieved positive results. Soap saponified as raw soap is considered to have good cleaning effect (better than sodium lauryl sulfate solution (SLS) when diluted to the same concentration). The combination of 10% crude soap and 4% sodium lauryl ether sulfate (SLES) surfactants formulate cleansing products with effective cleansing properties. Ingredients auxiliary cleaners, moisturizing, and softening, antioxidants are added with the appropriate content to improve the disadvantages of raw soap. The personal care products that have been studied have the potential to enter the cosmetic market and attract many consumers.
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47

Tian, Jie Mo, Xiao Yan Wang, Li Min Dong, Chen Wang, and Wei Xu. "Preparation of Porous Hydroxyapatite Scaffolds." Key Engineering Materials 280-283 (February 2007): 1541–44. http://dx.doi.org/10.4028/www.scientific.net/kem.280-283.1541.

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Porous hydroxyapatite (HA) ceramic scaffolds were prepared using three-dimensional (3-D) gel-lamination technology with sodium lauryl sulfate as foaming agent and lauryl as foaming stabilizing agent. With gelling system of sodium alginate and calcium chloride, the foamy HA slurry was gelled layer by layer on the 3-D gel-lamination machine to prepare the porous ceramic scaffolds. The viscosity of the foamy ceramic slurry was examined. After sintering, the porous HA bioceramic was characterized in terms of the porous microstructure and mechanical properties. The experimental results demonstrated that the resultant porous ceramic with appropriate pore size, porosity characters, mechanical properties and bioactivity could be obtained.
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48

Park, Sang-Rye, Young-Min Kim, Byul-Bora Choi, and Ji-Young Kim. "The effect of the cytotoxicity of sodium lauryl sulfate containing toothpaste on HaCaT and NIH-3T3 cells." Journal of Korean society of Dental Hygiene 15, no. 4 (August 30, 2015): 719–25. http://dx.doi.org/10.13065/jksdh.2015.15.04.719.

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49

Zhdanova, G. O., K. D. Zyuzina, S. E. Sergienko, M. N. Saksonov, A. E. Balayan, V. Zh Tsyrenov, and D. I. Stom. "On the Effect of Surfactants on the Baikal Oligochaete Mesenchytraeus bungei Michaelsen." Bulletin of Irkutsk State University. Series Biology. Ecology 35 (2021): 86–96. http://dx.doi.org/10.26516/2073-3372.2021.35.86.

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Pollution of natural objects with surfactants is relevant, including for the lake Baikal. Here, until the near future, there was a constant increase in the tourist flow and, as a result, the ingress of these pollutants into the reservoir. First of all, the inhabitants of the littoral zone come into contact with the incoming pollutants. In this regard, the work evaluated the effect of surfactants on the survival rate of the Baikal endemic oligochaetes Mesenchytraeus bungei Michaelsen, 1901. These enchitreids are a common species. They are widespread throughout the lake from the water's edge to the deepest depths. Therefore, M. bungei is recommended as an indicator object for ecological monitoring of the lake Baikal. The tested compounds are representatives of different types of surfactants: anionic – sodium lauryl sulfate, cationic –cetyltrimethylammonium bromide and nonionic – tween-80. Baikal oligochaetes M. bungei Michaelsen, 1901 were collected in July – August 2020 in the splash zone of Lake Baikal in settlement Bolshiye Koty (South Baikal). Enchitreid about 1.8-2.0 cm long was used in the experiments. After adaptation to laboratory conditions (2 days with water aeration using a microcompressor), further incubation was carried out in glass or plastic cages with nonsterile Baikal water at a temperature of 8–10 °C and an illumination of 250-300 lux. River sand was placed at the bottom, the layer thickness of which was 0.8-1.5 cm. Baikal oligochaetes M. bungei Michaelsen, 1901 turned out to be sensitive to the anionic surfactant sodium lauryl sulfate and cationic cetyltrimethylammonium bromide at a content of 0.005-0.006 mM. So, with the addition of 0.006 mM sodium lauryl sulfate for 3 days of the experiment, the proportion of dead individuals of the test object was 40%, at 0.0125 mM – 60%, at 0.025 mM – 90%, and at 0.05 mM complete death of all enchitreid individuals was observed. Adding CTAB at a concentration of 0.005 mM increased the proportion of dead oligochaetes to 40%. TAB twice – up to 0.01 mM – led to the death of all worms. The nonionic surfactant tween-80 did not have a negative effect on the Baikal oligochaetes in the concentration range from 1 to 60 mM. The tested surfactants to reduce the degree of their effect on the survival of oligochaetes can be arranged in the following row: cetyltrimethylammonium bromide (LC100 = 0.01 mM)> sodium lauryl sulfate (LC100 = 0.05 mM)> tween-80 (harmless up to 60 mM inclusive).
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CALICCHIA, MELISSA L., CONNIE I. E. WANG, TAKEHIRO NOMURA, FUMIO YOTSUZUKA, and DARYL W. OSATO. "Selective Enumeration of Bifidobacterium bifidum, Enterococcus faecium, and Streptomycin-Resistant Lactobacillus acidophilus from a Mixed Probiotic Product." Journal of Food Protection 56, no. 11 (November 1, 1993): 954–57. http://dx.doi.org/10.4315/0362-028x-56.11.954.

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Modified VF-Bouillon agar with 0.5 mg/ml lithium chloride, 20 μg/ml sodium lauryl sulfate, 5 mg/ml sodium propionate, and 10 μg/ml neomycin sulfate was used with a triple-layer diffusion technique to selectively enumerate Bifidobacterium bifidum. Modified Brigg's agar was used to enumerate Enterococcus faecium. Modified Brigg's agar with 1,200 μg/ml streptomycin sulfate was used in a double-layer diffusion technique to selectively enumerate a streptomycin-resistant strain of Lactobacillus acidophilus. Selective enumeration of the individual bacterial components was compared to the mixture with an average 99% recovery of each component.
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