Références des années 50 aux années 90 sur l'argent colloïdal
Les références suivantes ont été compilées par le docteur A. Bart Flick*(1). Les résultats surprenants des différentes formes d'argent (ionique ou aux protéines d'argent), sur les pathogènes est listé sur plus de 180 documents, études scientifiques et rapports.
Ces références viennent compléter celles du début du 20ème siècle.
1. Addicks, L. et al.: Silver in Industry, Reinhold Pub. Corp., NY 401-450, 584-597 (1940). Extensive bibliography on silver for water purification.
2. Akiyama, H. and Okamoto, S., Prophylaxis of indwelling urethral catheter infection: clinical experience with a modified Foley catheter and drainage system, J. Urol., 121, 40, 1979.
3. Avakyan, Z.A., Comparative toxicity of heavy metals for certain microorganisms, Microbiology, 36, 366, 1967.
4. Baenziger, N.C., Description of the structure of three silver-containing drug complexes, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
5. Barranco, S.D. and Colmano, G., Electrical Inhibition of Staphlococcus aureus, Virginia Medical, 646, 1976.
6. Barranco, S.D., Spadaro, J.A., Berger, T.J., and Becker, R.O., In vitro effect of weak direct current on staphlococcus aureus, Clinical Orthopaedics, 100, 250, 1974.
7. Becker, R.O., Electrical treatment of osteomyelitis, Surgery of the Musculoskeletal System, Churchill Livingstone, New York, 1983, 4, 10- 197.
8. Becker, R.O., The effect of electrically generated silver ions on human cells, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
9. Becker, R.O., Effect of anodally generated silver ions on fibrosarcoma cells, Electro- and Magnetobio., 11, 57, 1992.
10. Becker, R.O. and Esper, C., Electrostimulation and undetected malignant tumors, Clin. Orthop., 161, 336, 1981.
11. Becker, R.O. and Spadaro, J.A., Treatment of Orthopedic Infections with electrically generated silver ions, J. Bone Jt. Surgery., 60-A, 871, 1978.
12. Benvenisty, A.I., Tannenbaum, G., Ahlborn, T.N., Fox, C.L., Modak, S., Sampath, L., Reemtsma, K. and Nowygrod, R., Control of prosthetic bacterial infections: evaluation of an easily incorporated, tightly bound, silver antibiotic PTFE graft, J. Surg. Res., 44,1, 1988.
13. Berger, T.J., Spadaro, J.A., Chapin, S.E., and Becker, R.O., Electrically generated silver ions: quantitative effects on bacterial and mammalian cells, Antimicrob. Agents Chemother., 9, 357, 1976.
14. Berger, T.J., Spadaro, J.A., Bierman, R., Chapin, S.E., and Becker, R.O., Antifungal properties of electrically generated metallic ions, Antimicrob. Agents Chemother., 10, 856, 1976.
15. Block, Seymour, Ed.: Disinfection, Sterilization and Preservation, Chapter
16. Bolton, L., Foleno, B., Means, B., and Petrucelli, S., Direct-current bactericidal effect on intact skin, Antimicrob. Agents Chemother., 18, 137, 1980.
17. Bolton, M., The effects of various metals on the growth of certain bacteria, Am. Phys., ?, 174, ?.
18. Bragg, P.D. and Rainnie, D.J., The effect of silver ions on the respiratory chain of Escherichia coli, Can. J. Microbiol., 20, 883, 1974.
19. Buckley, W.R.: Localized Argyria, Arch. Dermatol. 88: 531-539, 1963.
20. Bult, A., Silver sulfanilamides and related compounds for dermatological application, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
21. Burke, J.F., and Bondoc, C.C., Combined burn therapy utilizing immediate skin allografts and 0.5% AgNO3, Arch. Surg., 97, 716, 1968.
22. Burleson, R., and Eiseman, B., Mechanisms of antibacterial effect of biologic dressings, Ann. Surg., 177, 181, 1973.
23. Burleson, R., and Eiseman, B., Effect of skin dressings and topical antibiotics on healing of partial thickness skin wounds in rats, Surg. Gynecol. Obstet., 136, 958, 1973.
24. Butts, A., The chemical properties of silver, Silver-Economics, Metallurgy, and Use, ed. Butts, A., Krieger, Huntington, NY 1975, 123.
25. Carr, H.S., Wlodkowski, T.J., Rosenkranz, H.S., Silver-sulfadiazine: in vitro antibacterial activity, Antimicrob. Agents Chemother., 4, 585, 1973.
26. Chu, C.S., McManus, A.T., Okerberg, C.V., Mason, A.D., and Pruitt, B.A., Weak direct current accelerates split-thickness graft healing on tangentially excised second-degree burns, J. Burn Care Rehab., 12, 285, 1991.
27. Chu, C.S., McManus, A.T., Mason, A.D., Okerberg, C.V. and Pruitt, B.A., Multiple graft harvestings from deep partial-thickness scald wounds healed under the influence of weak direct current, J. Trauma, 30, 1044, 1990.
28. Chu, C.C., Tsai, W.C., Yao, J.Y., and Chiu, S.S., Newly made antibacterial braided nylon sutures. 1. In vitro qualitative and in vivo preliminary biocompatibility study, J. Biomed. Mater. Res., 21, 1281, 1987
29. Cieszynski, T., Influence of negative electricity on infected callus and osteitis, Acta Morphologica Acad. Sci. Hung., 15, 309, 1967.
30. Collinge, C.A., Goll, G., Seligson, D. and Easly, K.J., Pin tract infections: silver vs. uncoated pins. Orthopedics, 17, 445, 1994.
31. Colmano, G., Medical Applications of monomolecular films of silver, gold and other metals, International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
32. Colmano, G., and Barranco, S.D., Inhibition of staphlococcus aureus on a contaminated electrode in the femur of the rabbitt by low electrical current and its relation to stress, Biophys. J., 15, 28a, 1975.
33. Colmano, G., and Barranco, S.D., Staphlococcus aureus inhibition by low direct current on silver electrodes in the femur of rabbits. Fifty- third Annual meeting of the Virginia Academy of Science, Harrisonburg, VA, May 6-9, 1975.
34. Colmano, G., Edwards, S.S., Lesch, T.E., and Barranco, S.D., Control of Staphlococcus aureus osteomyelitis by microampere activation of metal ions in monomolecular films on stainless steel pins, Fifty-Third Annual Meeting of the Virginia Academy of Science, Harrisonburg, VA, May 6- 9,
35. Colmano, G., Edwards, S.S., and Barranco, S.D. Activation of antibacterial silver coatings on surgical implants by direct current: preliminary studies in rabbits, _., 41, 964, 1980.
36. Colmano, G. , Edwards, S.S., Fainter, L.K. and Barranco, S. D., Electronmicrographs of silver and stainless steel surgical implants coated with silver compounds to control S. Aureus by direct current activation, Twenty-eighth Annual ORS, New Orleans, LA, January 19-21, 1982.
37. Colmano, G., Edwards, S.S. and Barranco, S.L., Effects of low direct current on monomolecular layers of metal stearates coating electrodes in bacterial cultures and surgical implants, Symposium URSI "Ondes Electro-magnetiques et Biologie", Jouy-en-Josas, Juillet, 1980, 149.
38. Colmano, G., Fainter, L.K., Edwards, S.S., and Barranco, S.D., SEM of S. aureus on current-activated surgical pins coated with silver and silver stearate monolayers, Second Annual BRAGS, Oxford, U.K., Sept. 20-22, 1982.
39. Cowlishaw, J., Spadaro, J.A., Becker, R.A., Inhibition of enzyme induction in e. coli by anadoc silver, J. Bioelectricity, 1, 295, 1982.
40. Crannell, M.Y., Silver in Medicine, Silver-Economics, Metallurgy and Use, ed. Butts, A., Krieger, Huntington, NY, 1975, 227.
41. Cullen, J.M. and Spadaro, J.A., Axonal regeneration in the spinal cord: a role for applied electricity, J. Bioelectricity, 2, 57, 1983.
42. Danscher, G., Rytter Norgaard, J.O., and Baatrup, E., Autometallography: tissue metals demonstrated by a silver enhancement kit, Histochemistry, 86, 465, 1987.
43. Deitch, E.A., Marino, A.A., Gillespie, T.E., and Albright, J.A., Silver-nylon: a new antimicrobial agent, Antimicrob. Agents Chemother., 23, 356, 1983.
44. Deitch, E . A. , Marino, A. A . , Malaleonok, V. , and Alb richt, J . A . , Silver nylon cloth: in vitro and in vivo evaluation of antimicrobial activity, J. Trauma, 27, 301, 1987.
45. Doherty, P.J. and Williams, D.F., The response of cells and cellular enzymes to silver, presented at Biointeractions 87, Cambridge, U.K., July 6-8, 1987, 38.
46. Conahue, G.F., The analytical chemistry of silver,...
47. Eichhom, G.L., Shin, Y.A., Butzow, J.J., Clark, P., and Tarien, E., Interaction of metal ions with biological systems, with special reference to silver and gold, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
48. Ellerman-Eriksen, S., Rungby, J., and Morgensen, S.C., Autointerference in silver accumulation in macrophages without affecting phagocytic, migratory or interferon-producing capacity, Virchows Arch., B. 53, 243, 1987.
49. Ersek, R.A., and Navarro, J.A., Maximizing wound healing with silver impregnated porcine xenograft, Todays OR Nurse, 12, 4, 1990.
50. Ersek, R.A., and Denton, D.R., Cross-linked silver-impregnated skin for burn wound management, J. Burn Care Rehabil., 9, 476, 1988.
51. Ersek, R.A., Gadaria, U., and Denton, D.R., New natural wound dressing, Phys. Ther. Forum, 5, 1, 1986.
52. Ersek, R.A., and Denton, D.R., Silver-impregnated porcine xenograft for damaged or missing skin, Contemp. Surg., 23, 83, 1983.
53. Ersek, R.A., and Denton, D.R., Treatment of skin graft donor sites using silver-impregnated porcine xenograft, Contemp. Orthop., 12, 27, 1986.
54. Ersek, R. A. and Denton, D . R. , Silver-impregnated porcine xenografts for treatment of meshed autografts, Plast. Surg., 13, 482, 1984.
55. ErsekR.A. and Lorio, J., The most indolent ulcers of the skin treated with porcine xenografts and silver ions, Surg. Gynecol. Obstet., 158, 431, 1984.
56. Ersek, R.A., and Denton, D.R., Rhinophyma: treatment with electrocautery and silver-impregnated porcine xenograft, Plast. Reconstr. Surg., 74, 269, 1984.
57. Ersek, R.A., and Hachen, H.J., Porcine xenografts in the treatment of pressure ulcers, Ann. Plast. Surg., 5, 464, 1980.
58. Ersek, R.A., and Denton, D.R., Nail bed avulsions treated with porcine xenografts, J. Hand Surg., 10A, 152, 1985.
59. Ersek, R.A., Denton, D.R., Surak, G.M., and Peters, C.W., Treatment of spider bites with silver-impregnated porcine xenografts, Texas Med., 81, 32, 1985.
60. Falcone, A.E., and Spadaro, J.A., Inhibitory effects of electrically activated silver material on cutaneous wound bacteria, Plast. Reconstruc. Surg., 77, 455, 1986.
61. Flick, A.B., Clinical application of electrical silver iontophoresis, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
62. Flowers III, R.H., Schwenzer, K.J., Kopel, R.F., Fisch, M.J., Tucker, S.I., and Farr, B.M., Efficacy of an attachable subcutaneous cuff for the prevention of intravascular catheter-related infection. JAMA, 261, 878, 1989.
63. Fox, C.L., Jr.: Silver Sulfadiazine - A New Topical Therapy for Pseudomonas in Burns; Arch. Surg., 96, 184-188 (1968)
64. Fox, C.L. and Modak, S.M., Mechanism of silver sulfadiazine action on burn wound infections, Antimicrob. Agents Chemother., 5, 582, 1974.
65. Fox, C.L. and Quintiliani, R., Uses of silver sulfadiazine in burns and surgical wounds, Inf. in Surg., 13, 1982.
66. Furst, A., Schlauder, M.C.: Inactivity of Two Noble Metals as Carcinogens; Jour. Environmental Pathology and Toxicology, 1, 51-57
67. Geddes, L.A., and Baker, L.E., Chlorided silver electrodes, Med. Res. Eng., Third quarter, 33, 1967.
68. Golubovich, V.N., and Rabotnova, I.L., Kinetics of growth inhibition in Candida utilis by silver ions, Microbio., 43, 948, 1974.
69. Gristina, A.G., and Costerton, J.W., Bacterial adherence to Biomaterials and tissue, J. Bone Jt. Surg., 67-A, 264, 1985.
70. Gruen, L.C., Interaction of amino acids with silver ions, Biochim. Biophys. Acta, 386, 270, 1975.
79. Holder, I.A., Knoll, C.A., and Wesselman, J., Norfloxacin and silvernorfloxacin as topical antimicrobial agents: results of in vitro susceptibility testing against bacteria and Candida sp. isolated from burn patients, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
80. Janz, G.J., and Ives, D.J.G., Silver, silver chloride electrodes, Ann. N.Y. Acad. Sci., ?, 210, ?.
81. Jono, K., Yamano, T., Fujmoto, T., and Eguchi, Y.: Bactericidal Action of Active Carbon Coated With Silver and Its Application to Water Purifiers; J. Takeda Research Lab., 33, 9-18, (1974).
82. Jones, A.M., and Bailey, J.A.: Effect of Silver from Cloud Seeding on Rabbits; Water, Air and Soil Pollution, 3/3, 353-363 (1974).
83. Kahn, J., Acetic acid iontophoresis for calcium deposits, Phys. Ther., 57, 658, 1977.
84. Kahn, J., Calcium iontophoresis in suspected myopathy, Phys. Ther.
85. Kirchoff, D.A.: Localized Argyria After a Surgical Endodontic Procedure, Oral Surg. 32: 613-617, 1971.
86. Kramer, S.J., Spadaro, J.A. and Webster, D.A., Antibacterial and osteoinductive properties of demineralized bone matrix treated with silver, Clin. Orthop. Rell. Res., 161, 154, 1981.
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88. Landeen, L.K., Yahya, M.T., Kutz, S.M., Gerba, C.P.: Microbiological Evaluation of Copper: Silver Disinfection Units for Use in Swimming Pools; Water Science Tech., 21, 3, 267-270 (1989).
89. Lee, J.V., Hibberd, M.L. and Stanley, S.C.: A Comparison of the Biocidal Properties of Silver Ions and Chloride Against Legionella Species; PHLS Centre for Applied Microbiology and Research, Porton Down, Salisbury SP4 OJG, England, DD3/2 AGREPORT (1989).
90. McHugh, G.L., Moellering, R.C., Hopkins, C.C. and Swartz, M.N., Salmonella typhimurium resistant to silver nitrate, chloramphenicol and ampicilin, Lancet, ii, 235, 1975.
103. Marshall, J.P., and Schneider, R.P.: Systemic Argyria Secondary to Topical Silver Nitrate, Arch. Dermatol. 113: 1077-1079, 1977.
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105. Merril, C.R., Silver-stain detection of proteins separated by polyacrylamide gel electrophoresis, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
106. Modak, S.M. and Fox, F.L., Binding of silver sulfadiazine to the cellular components of Pseudomonas aeruginosa, Biochem. Pharmacol., 22, 2391, 1973.
107. Modak, S.M., Sampath, L., Fox, C.L. Combined use of silver sulfadiazine and antibiotics topically in burn wounds as a possible solution to bacterial resistance, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
108. Modak, S.M., Sampath, Lester and Fox, C.L.: Combined Use of Silver Sulfadiazine and Antibiotics as a Possible Solution to Bacterial Resistance in Burn Wounds; Jour. Burn Care, Vol. 9, No. 4, p. 359 (July/Aug 1988).
109. Modak, S.M. and Fox, C.L. Sulfadiazine silver-resistant Pseudomonas in burns: new topical agents, Arch. Surg., 116, 854, 1981.
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77. Haynes, J.L., and Schulte, T.H., Antibacterial silver surfaces and assessment of needs and opportunities for clinical devices, First International Conference on Gold and Silver in Medicine, Bethesda, MD, May 13-14, 1987.
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92. MacKeen, P.C., Person, S., Warner, S.C., Snipes, W., and Stevens, S.E., Silver-coated nylon fiber as an antibacterial agent, Antimicrob. Agents Chemother., 31, 93, 1987.
93. Madden, M.R., Nolan, E., Finkelstein, J.L., Yurt, R.W., Smeland, J., Goodwin, C.W., Hefton, J., and Staiano-Coico, L., Comparison of an occlusive and semi-occlusive dressing and the effect of the wound exudate upon keratinocyte proliferation, J. Trauma, 29, 924, 1989.
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95. Maki, D.G., Cobb, L., Garman, J.K., Shapiro, J.M., Ringer, M., and Helgerson, R.B., An attachable silver-impregnated cuff for prevention of infection with central venous catheters: a prospective randomized multicenter trial, Am. J. Med., 85, 307, 1988.
96. Marchant, R.E., Miller, K.M. and Anderson, J.M., In vivo Leukocyte interactions with Biomer, J. Biomed. Mater. Res., 18, 1169, 1984.
97. Marino, A.A., Malakonok, V., Albright, J.A., Deitch, E.A. and Specian, R.D., Electrochemical properties of silver-nylon fabrics, J. Electrochem. Soc., 132, 68, 1985.
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