Infectivity of Prion Protein Bound to Stainless Steel Wires: A Model for Testing Decontamination Procedures for Transmissible Spongiform Encephalopathies

Zheng-xin Yan; Lothar Stitz; Peter Heeg; Eberhard Pfaff; Klaus Roth

doi:10.1086/502392

Abstract

Objectives:

To establish an animal model to study transmissible spongiform encephalopathy using hamsters and steel wires contaminated with infectious brain materials as transfer vehicles, and, based on this model, to test decontamination procedures against the infectious prion proteins on the steel wires as a near real situation bioassay.

Design:

Infectious brain materials were given to healthy hamsters intracerebrally either as a suspension or as dried materials on the surface of steel wires. The animals were observed for 18 months. During this period, animals showing definitive clinical signs were euthanized. Decontamination studies were performed by reprocessing contaminated steel wires with different disinfection agents and procedures before implantation.

Results:

Pathological prion proteins were able to bind to the steel wires and caused disease after the contaminated wires were implanted in the brains of hamsters. When the contaminated wires were treated with different reprocessing procedures before implantation, infectivity was reduced, which was manifested directly by prolonged survival time of the test animals. These results show that this model can be used as a bioassay to validate reprocessing procedures for surgical instruments.

Conclusions:

At the time of submission of this article, only the group of hamsters incubated with wires reprocessed with an alkaline detergent, followed by sterilization with a modified cycle in a hydrogen peroxide gas plasma sterilizer (4 injections), showed no clinical signs of disease and remained alive. Two animals from the group receiving sodium hydroxide followed by autoclaving (at 134° C for 18 minutes) died. Furthermore, the tested enzymatic cleaning agent seemed to have no positive effect.

References

1.Prusiner, SB. Novel proteinaceous infectious particles cause scrapie. Science 1982;216:136–144.Google Scholar

2.Prusiner, SB. Prion diseases and the BSE crisis. Science 1997;278:245–251.Google Scholar

3.Aguzzi, A, Weissmann, C. Prion research: the next frontiers. Nature 1997;389:795–798.Google Scholar

4.Wadsworth, JD, Joiner, S, Hill, AF, et al.Tissue distribution of protease resistant prion protein in variant Creutzfeldt-Jakob disease using a highly sensitive immunoblotting assay. Lancet 2001;358:171–180.Google Scholar

5.Hilton, DA, Ghani, AC, Conyers, L, et al.Accumulation of prion protein in tonsil and appendix: review of tissue samples. BMJ 2002;325:633–634.Google Scholar

6.Taylor, DM, Fraser, H, McConnell, I, et al.Decontamination studies with the agents of bovine spongiform encephalopathy and scrapie. Arch Virol 1994;139:313–326.Google Scholar

7.Taylor, DM. Inactivation of transmissible degenerative encephalopathy agents: a review. Vet J 2000;159:10–17.Google Scholar

8.Bruce, ME, McConnell, I, Will, RG, Ironside, JW. Detection of variant Creutzfeldt-Jakob disease infectivity in extraneural tissues. Lancet 2001;358:208–209.Google Scholar

9.La Ministre de l'Emploi et de la Solidarite. Circular Letter No. DGS/5C/DHOS/E2/2001/138 from March 14, 2001. Paris: La Ministre de l'Emploi et de la Solidarite; 2001. Available at: www.hosmat.com/circulaires/textes01/138.htm. Accessed January 2003.Google Scholar

10.Zobeley, E, Flechsig, E, Cozzio, A, Enari, M, Weissmann, C. Infectivity of scrapie prions bound to a stainless steel surface. Mol Med 1999;5:240–243.Google Scholar

11.Flechsig, E, Hegyi, I, Enari, M, Schwarz, P, Collinge, J, Weissmann, C. Transmission of scrapie by steel-surface-bound prions. Mol Med 2001;7:679–684.Google Scholar

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Lemmer, Karin Mielke, Martin Pauli, Georg and Beekes, Michael 2004. Decontamination of surgical instruments from prion proteins: in vitro studies on the detachment, destabilization and degradation of PrPSc bound to steel surfaces. Journal of General Virology , Vol. 85, Issue. 12, p. 3805.

Sehulster, Lynne M. 2004. Prion Inactivation and Medical Instrument Reprocessing: Challenges Facing Healthcare Facilities. Infection Control & Hospital Epidemiology, Vol. 25, Issue. 4, p. 276.

Baxter, H. C. Campbell, G. A. Whittaker, A. G. Jones, A. C. Aitken, A. Simpson, A. H. Casey, M. Bountiff, L. Gibbard, L. and Baxter, R. L. 2005. Elimination of transmissible spongiform encephalopathy infectivity and decontamination of surgical instruments by using radio-frequency gas-plasma treatment. Journal of General Virology, Vol. 86, Issue. 8, p. 2393.

Marchetti, Bernard and Pineau, Lionel 2005. Risque Infectieux Exogène En Endoscopie Digestive. Revue Francophone des Laboratoires, Vol. 2005, Issue. 376, p. 67.

Novakofski, J. Brewer, M. S. Mateus-Pinilla, N. Killefer, J. and McCusker, R. H. 2005. Prion biology relevant to bovine spongiform encephalopathy1. Journal of Animal Science, Vol. 83, Issue. 6, p. 1455.

Jackson, Graham S. McKintosh, Edward Flechsig, Eckhard Prodromidou, Kanella Hirsch, Petra Linehan, Jackie Brandner, Sebastian Clarke, Anthony R. Weissmann, Charles and Collinge, John 2005. An enzyme–detergent method for effective prion decontamination of surgical steel. Journal of General Virology , Vol. 86, Issue. 3, p. 869.

Keeler, Natalie Schonberger, Lawrence B. Belay, Ermias D. Sehulster, Lynne Turabelidze, George and Sejvar, James J. 2006. Investigation of a Possible Iatrogenic Case of Creutzfeldt-Jakob Disease After a Neurosurgical Procedure. Infection Control & Hospital Epidemiology, Vol. 27, Issue. 12, p. 1352.

Uetera, Y. 大原, 信介三村, 芳和大林, 俊彦斎藤, 祐平 and 熊田, 直人 2006. Perspectives in Disinfection and Sterilization(<Review>Recent Topic in Cleaning, Disinfection, and Sterilization). JAPANES JOURNAL OF MEDICAL INSTRUMENTATION, Vol. 76, Issue. 11, p. 762.

Müller, Henrik Stitz, Lothar and Riesner, Detlev 2006. Risk assessment for fat derivatives in case of contamination with BSE. European Journal of Lipid Science and Technology, Vol. 108, Issue. 10, p. 812.

Riemer, Constanze Bamme, Theresa Mok, Simon Wing Fai and Baier, Michael 2006. 3-Methyl-4-Chlorophenol for Prion Decontamination of Medical Devices. Infection Control & Hospital Epidemiology, Vol. 27, Issue. 7, p. 778.

Baxter, R.L. Baxter, H.C. Campbell, G.A. Grant, K. Jones, A. Richardson, P. and Whittaker, G. 2006. Quantitative analysis of residual protein contamination on reprocessed surgical instruments. Journal of Hospital Infection, Vol. 63, Issue. 4, p. 439.

Lipscomb, I.P. Pinchin, H.E. Collin, R. Harris, K. and Keevil, C.W. 2006. Are surgical stainless steel wires used for intracranial implantation of PrPsc a good model of iatrogenic transmission from contaminated surgical stainless steel instruments after cleaning?. Journal of Hospital Infection, Vol. 64, Issue. 4, p. 339.

Sutton, J. M. Dickinson, J. Walker, J. T. Raven, N. D. H. and Weinstein, R. A. 2006. Methods to Minimize the Risks of Creutzfeldt-Jakob Disease Transmission by Surgical Procedures: Where to Set the Standard?. Clinical Infectious Diseases, Vol. 43, Issue. 6, p. 757.

Nelson, Douglas B 2006. Current issues in endoscope reprocessing and infection control during gastrointestinal endoscopy. World Journal of Gastroenterology, Vol. 12, Issue. 25, p. 3953.

Garske, Tini Ward, Hester J.T Clarke, Paul Will, Robert G and Ghani, Azra C 2006. Factors determining the potential for onward transmission of variant Creutzfeldt–Jakob disease via surgical instruments. Journal of The Royal Society Interface, Vol. 3, Issue. 11, p. 757.

Vadrot, C. and Darbord, J.-C. 2006. Quantitative evaluation of prion inactivation comparing steam sterilization and chemical sterilants: proposed method for test standardization. Journal of Hospital Infection, Vol. 64, Issue. 2, p. 143.

Redecke, Lars Bergen, Martin von Clos, Joachim Konarev, Peter V. Svergun, Dimitri I. Fittschen, Ursula E.A. Broekaert, José A.C. Bruns, Oliver Georgieva, Dessislava Mandelkow, Eckhard Genov, Nicolay and Betzel, Christian 2007. Structural characterization of β-sheeted oligomers formed on the pathway of oxidative prion protein aggregation in vitro. Journal of Structural Biology, Vol. 157, Issue. 2, p. 308.

Fichet, G. Antloga, K. Comoy, E. Deslys, J.P. and McDonnell, G. 2007. Prion inactivation using a new gaseous hydrogen peroxide sterilisation process. Journal of Hospital Infection, Vol. 67, Issue. 3, p. 278.

Mittelbach, Martin Pokits, Bernd Müller, Henrik Müller, Mario and Riesner, Detlev 2007. Risk assessment for prion protein reduction under the conditions of the biodiesel production process. European Journal of Lipid Science and Technology, Vol. 109, Issue. 1, p. 79.

Lawson, Victoria A. Stewart, James D. and Masters, Colin L. 2007. Enzymatic detergent treatment protocol that reduces protease-resistant prion protein load and infectivity from surgical-steel monofilaments contaminated with a human-derived prion strain. Journal of General Virology , Vol. 88, Issue. 10, p. 2905.

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Infectivity of Prion Protein Bound to Stainless Steel Wires: A Model for Testing Decontamination Procedures for Transmissible Spongiform Encephalopathies

Abstract

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Infectivity of Prion Protein Bound to Stainless Steel Wires: A Model for Testing Decontamination Procedures for Transmissible Spongiform Encephalopathies

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