بررسی اثر لاکتوفرین آزاد و نانولیپوزومی بر بیوفیلم پلی میکروبی مشتق شده از بزاق در مدل Active Attachment biofilm

مراجع و منابع این مقاله:

• Amissah, F., T. Andey, and K.M. Ahlschwede, Nanotechnology-based therapies for ...
• Dewhirst, F.E., et al., The human oral microbiome. Journal of ...
• Scharnow, A.M., A.E. Solinski, and W.M. Wuest, Targeting S. mutans ...
• Donlan, R.M., Biofilms: microbial life on surfaces. Emerging infectious diseases, ...
• Jamal, M., et al., Bacterial Biofilm: Its Composition. Formation and ...
• Rosa, L., et al., Lactoferrin and oral pathologies: a therapeutic ...
• Lemos, J., et al., The biology of Streptococcus mutans. Microbiology ...
• Lemos, J.A. and R.A. Burne, A model of efficiency: stress ...
• Gilbert, J.A., et al., Current understanding of the human microbiome. ...
• Kandimalla, K.K., et al., Ability of chitosan gels to disrupt ...
• Krupińska, A.M. and Z. Bogucki, Clinical aspects of the use ...
• Leitch, E. and M. Willcox, Elucidation of the antistaphylococcal action ...
• Pedersen, A.M.L. and D. Belstrøm, The role of natural salivary ...
• Oho, T., et al., A peptide domain of bovine milk ...
• Bjarnsholt, T., et al., Pseudomonas aeruginosa tolerance to tobramycin, hydrogen ...
• Ceri, H., et al., The Calgary Biofilm Device: new technology ...
• Donlan, R.M. and J.W. Costerton, Biofilms: survival mechanisms of clinically ...
• Tenover, F.C., Mechanisms of antimicrobial resistance in bacteria. The American ...
• Burmølle, M., et al., Enhanced biofilm formation and increased resistance ...
• Kara, D., S.B. Luppens, and J.M. ten Cate, Differences between ...
• Luppens, S., et al., Effect of Veillonella parvula on the ...
• Ramsey, M.M. and M. Whiteley, Polymicrobial interactions stimulate resistance to ...
• Pamunuwa, G., V. Karunaratne, and D. Karunaratne, Effect of lipid ...
• Cacciotti, I., et al., Application of nano/microencapsulated ingredients in chewing ...
• Dera, M.W. and W.B. Teseme, Review on the application of ...
• Bonifacio, B.V., et al., Nanotechnology-based drug delivery systems and herbal ...
• Liu, W., et al., Stability during in vitro digestion of ...
• Rasti, B., et al., Comparative study of the oxidative and ...
• Habibi, P., et al., Effects of free and nano‐encapsulated bovine ...
• Vergara, D. and C. Shene, Encapsulation of lactoferrin into rapeseed ...
• Exterkate, R., W. Crielaard, and J. Ten Cate, Different response ...
• McBain, A., et al., Development and characterization of a simple ...
• Van Loveren, C., J. Buijs, and J. Ten Cate, The ...
• Silva, T.C., et al., Application of an active attachment model ...
• Consortium, H.M.P., Huttenhower C, Gevers D, Knight R, Abubucker S, ...
• Mark-Welsh, J., et al., Biogeography of a human oral microbiome ...
• Visca, P., et al., Growth and adsorption of Streptococcus mutans ...
• lactoferrin. Medical microbiology and immunology, ۱۹۸۹. ۱۷۸(۲): p. ۶۹-۷۹ ...
• Oho, T., M. Mitoma, and T. Koga, Functional domain of ...
• Rosa, L., et al., Lactoferrin: a natural glycoprotein involved in ...
• Longhi, C., et al., Influence of lactoferrin on the entry ...
• Dalmastri, C., et al., Enhanced antimicrobial activity of lactoferrin by ...
• Williams, T.J., R.P. Schneider, and M.D. Willcox, The effect of ...
• Kawasaki, Y., et al., Inhibitory effects of bovine lactoferrin on ...
• Dial, E.J. and L.M. Lichtenberger, Effect of lactoferrin on Helicobacter ...
• Lu, J., et al., Lactoferrin: a critical mediator of both ...
• Ochoa, T.J., et al., Lactoferrin impairs type III secretory system ...
• Hendrixson, D., et al., Human milk lactoferrin is a serine ...
• Rose, J.E., D.H. Meyer, and P.M. Fives-Taylor, Aae, an autotransporter ...
• Wakabayashi, H., et al., Inhibitory effects of lactoferrin on growth ...
• Eriksson, E. and E. Erlandsson, Inhibitory Properties of Lactoferrin on ...
• Morita, Y., et al., Effects of lactoferrin and lactoperoxidase‐containing food ...
• Arslan, S., K. Leung, and C. Wu, The effect of ...
• Singh, P.K., Iron sequestration by human lactoferrin stimulates P. aeruginosa ...
• Morrissey, P.E., et al., Inhibition of Streptococcus mutans binding to ...
• Niemi, L.D., O. Hernell, and I. Johansson, Human milk compounds ...
• Allison, L.M., et al., Effect of human milk and its ...
• Gudipaneni, R.K., et al., Short term comparative evaluation of antimicrobial ...
• Shin, K., et al., Effects of a composition containing lactoferrin ...
• Francesca, B., et al., Both lactoferrin and iron influence aggregation ...
• Alarfaj, R.E., et al., Antibacterial Efficacy of Liposomal Formulations Containing ...
• Yamakami, K., et al., Sustainable inhibition efficacy of liposome-encapsulated nisin ...
• Ashrafi, B., et al., Mentha piperita essential oils loaded in ...
• Karimi, N., et al., Thymol, cardamom and Lactobacillus plantarum nanoparticles ...
• Kaeriyama, E., et al., Effect of bovine lactoferrin on enamel ...
• Amissah, F., T. Andey, and K.M. Ahlschwede, Nanotechnology-based therapies for ...
• Scharnow, A.M., A.E. Solinski, and W.M. Wuest, Targeting S. mutans ...
• Donlan, R.M., Biofilms: microbial life on surfaces. Emerging infectious diseases, ...
• Jamal, M., et al., Bacterial Biofilm: Its Composition. Formation and ...
• Rosa, L., et al., Lactoferrin and oral pathologies: a therapeutic ...
• Lemos, J., et al., The biology of Streptococcus mutans. Microbiology ...
• Lemos, J.A. and R.A. Burne, A model of efficiency: stress ...
• Gilbert, J.A., et al., Current understanding of the human microbiome. ...
• Kandimalla, K.K., et al., Ability of chitosan gels to disrupt ...
• Krupińska, A.M. and Z. Bogucki, Clinical aspects of the use ...
• Leitch, E. and M. Willcox, Elucidation of the antistaphylococcal action ...
• Pedersen, A.M.L. and D. Belstrøm, The role of natural salivary ...
• Oho, T., et al., A peptide domain of bovine milk ...
• Bjarnsholt, T., et al., Pseudomonas aeruginosa tolerance to tobramycin, hydrogen ...
• Ceri, H., et al., The Calgary Biofilm Device: new technology ...
• Donlan, R.M. and J.W. Costerton, Biofilms: survival mechanisms of clinically ...
• Tenover, F.C., Mechanisms of antimicrobial resistance in bacteria. The American ...
• Burmølle, M., et al., Enhanced biofilm formation and increased resistance ...
• Kara, D., S.B. Luppens, and J.M. ten Cate, Differences between ...
• Luppens, S., et al., Effect of Veillonella parvula on the ...
• Ramsey, M.M. and M. Whiteley, Polymicrobial interactions stimulate resistance to ...
• Pamunuwa, G., V. Karunaratne, and D. Karunaratne, Effect of lipid ...
• Cacciotti, I., et al., Application of nano/microencapsulated ingredients in chewing ...
• Dera, M.W. and W.B. Teseme, Review on the application of ...
• Bonifacio, B.V., et al., Nanotechnology-based drug delivery systems and herbal ...
• Liu, W., et al., Stability during in vitro digestion of ...
• Rasti, B., et al., Comparative study of the oxidative and ...
• Habibi, P., et al., Effects of free and nano‐encapsulated bovine ...
• Vergara, D. and C. Shene, Encapsulation of lactoferrin into rapeseed ...
• Exterkate, R., W. Crielaard, and J. Ten Cate, Different response ...
• McBain, A., et al., Development and characterization of a simple ...
• Van Loveren, C., J. Buijs, and J. Ten Cate, The ...
• Silva, T.C., et al., Application of an active attachment model ...
• Consortium, H.M.P., Huttenhower C, Gevers D, Knight R, Abubucker S, ...
• Mark-Welsh, J., et al., Biogeography of a human oral microbiome ...
• Visca, P., et al., Growth and adsorption of Streptococcus mutans ...
• lactoferrin. Medical microbiology and immunology, ۱۹۸۹. ۱۷۸(۲): p. ۶۹-۷۹ ...
• Oho, T., M. Mitoma, and T. Koga, Functional domain of ...
• Rosa, L., et al., Lactoferrin: a natural glycoprotein involved in ...
• Longhi, C., et al., Influence of lactoferrin on the entry ...
• Dalmastri, C., et al., Enhanced antimicrobial activity of lactoferrin by ...
• Williams, T.J., R.P. Schneider, and M.D. Willcox, The effect of ...
• Kawasaki, Y., et al., Inhibitory effects of bovine lactoferrin on ...
• Dial, E.J. and L.M. Lichtenberger, Effect of lactoferrin on Helicobacter ...
• Lu, J., et al., Lactoferrin: a critical mediator of both ...
• Ochoa, T.J., et al., Lactoferrin impairs type III secretory system ...
• Hendrixson, D., et al., Human milk lactoferrin is a serine ...
• Rose, J.E., D.H. Meyer, and P.M. Fives-Taylor, Aae, an autotransporter ...
• Wakabayashi, H., et al., Inhibitory effects of lactoferrin on growth ...
• Eriksson, E. and E. Erlandsson, Inhibitory Properties of Lactoferrin on ...
• Morita, Y., et al., Effects of lactoferrin and lactoperoxidase‐containing food ...
• Arslan, S., K. Leung, and C. Wu, The effect of ...
• Singh, P.K., Iron sequestration by human lactoferrin stimulates P. aeruginosa ...
• Morrissey, P.E., et al., Inhibition of Streptococcus mutans binding to ...
• Niemi, L.D., O. Hernell, and I. Johansson, Human milk compounds ...
• Allison, L.M., et al., Effect of human milk and its ...
• Gudipaneni, R.K., et al., Short term comparative evaluation of antimicrobial ...
• Shin, K., et al., Effects of a composition containing lactoferrin ...
• Francesca, B., et al., Both lactoferrin and iron influence aggregation ...
• Alarfaj, R.E., et al., Antibacterial Efficacy of Liposomal Formulations Containing ...
• Yamakami, K., et al., Sustainable inhibition efficacy of liposome-encapsulated nisin ...
• Ashrafi, B., et al., Mentha piperita essential oils loaded in ...
• Karimi, N., et al., Thymol, cardamom and Lactobacillus plantarum nanoparticles ...
• Kaeriyama, E., et al., Effect of bovine lactoferrin on enamel ...
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