Your search keyword '"Spiropoulos, John"' showing total 12 results

1. Prion disease modelled in Drosophila.

Author

Bujdoso R, Smith A, Fleck O, Spiropoulos J, Andréoletti O, and Thackray AM

Subjects

Animals, Humans, Drosophila, Drosophila melanogaster genetics, Animals, Genetically Modified, Mammals metabolism, Prion Diseases genetics, Prion Diseases metabolism, Prion Diseases pathology, Prions metabolism

Abstract

Prion diseases are fatal neurodegenerative conditions of humans and various vertebrate species that are transmissible between individuals of the same or different species. A novel infectious moiety referred to as a prion is considered responsible for transmission of these conditions. Prion replication is believed to be the cause of the neurotoxicity that arises during prion disease pathogenesis. The prion hypothesis predicts that the transmissible prion agent consists of PrP Sc , which is comprised of aggregated misfolded conformers of the normal host protein PrP C . It is important to understand the biology of transmissible prions and to identify genetic modifiers of prion-induced neurotoxicity. This information will underpin the development of therapeutic and control strategies for human and animal prion diseases. The most reliable method to detect prion infectivity is by in vivo transmission in a suitable experimental host, which to date have been mammalian species. Current prion bioassays are slow, cumbersome and relatively insensitive to low titres of prion infectivity, and do not lend themselves to rapid genetic analysis of prion disease. Here, we provide an overview of our novel studies that have led to the establishment of Drosophila melanogaster, a genetically well-defined invertebrate host, as a sensitive, versatile and economically viable animal model for the detection of mammalian prion infectivity and genetic modifiers of prion-induced toxicity., (© 2022. The Author(s).)

Published

2023

2. Characterization of goat prions demonstrates geographical variation of scrapie strains in Europe and reveals the composite nature of prion strains.

Author

Nonno R, Marin-Moreno A, Carlos Espinosa J, Fast C, Van Keulen L, Spiropoulos J, Lantier I, Andreoletti O, Pirisinu L, Di Bari MA, Aguilar-Calvo P, Sklaviadis T, Papasavva-Stylianou P, Acutis PL, Acin C, Bossers A, Jacobs JG, Vaccari G, D'Agostino C, Chiappini B, Lantier F, Groschup MH, Agrimi U, Maria Torres J, and Langeveld JPM

Subjects

Animals, Cattle, Europe, Goats, Mice, Prion Proteins genetics, Prions genetics, Encephalopathy, Bovine Spongiform transmission, Goat Diseases transmission, Prion Diseases transmission, Prion Proteins metabolism, Prions classification, Prions pathogenicity, Scrapie transmission

Abstract

Bovine Spongiform Encephalopathy (BSE) is the only animal prion which has been recognized as a zoonotic agent so far. The identification of BSE in two goats raised the need to reliably identify BSE in small ruminants. However, our understanding of scrapie strain diversity in small ruminants remains ill-defined, thus limiting the accuracy of BSE surveillance and spreading fear that BSE might lurk unrecognized in goats. We investigated prion strain diversity in a large panel of European goats by a novel experimental approach that, instead of assessing the neuropathological profile after serial transmissions in a single animal model, was based on the direct interaction of prion isolates with several recipient rodent models expressing small ruminants or heterologous prion proteins. The findings show that the biological properties of scrapie isolates display different patterns of geographical distribution in Europe and suggest that goat BSE could be reliably discriminated from a wide range of biologically and geographically diverse goat prion isolates. Finally, most field prion isolates showed composite strain features, with discrete strain components or sub-strains being present in different proportions in individual goats or tissues. This has important implications for understanding the nature and evolution of scrapie strains and their transmissibility to other species, including humans.

Published

2020

3. Ability of wild type mouse bioassay to detect bovine spongiform encephalopathy (BSE) in the presence of excess scrapie.

Author

Corda E, Thorne L, Beck KE, Lockey R, Green RB, Vickery CM, Holder TM, Terry LA, Simmons MM, and Spiropoulos J

Subjects

Animals, Blotting, Western, Cattle, Immunohistochemistry, Mice, Mice, Inbred C57BL, Prion Diseases metabolism, Scrapie metabolism, Biological Assay methods, Mice, Inbred Strains, Phenotype, Prion Diseases physiopathology, Scrapie physiopathology, Species Specificity

Abstract

Introduction: Scrapie and bovine spongiform encephalopathy (BSE) are transmissible spongiform encephalopathies (TSEs) which naturally affect small and large ruminants respectively. However, small ruminants, which are susceptible to BSE under experimental conditions, have been exposed to the same or similar contaminated food additives as cattle. To date two natural cases of BSE in small ruminants have been reported. As a result surveillance projects, combined with appropriate control measures, have been established throughout the European Union (EU) to minimize the overall incidence of small ruminant TSEs. Although BSE can be differentiated from classical scrapie (subsequently referred to as scrapie) if appropriate discriminatory tests are applied, the value of these tests in BSE/scrapie co-infection scenarios has not been evaluated fully. Mouse bioassay is regarded as the gold standard regarding differentiation of distinct TSE strains and has been used as to resolve TSE cases were laboratory tests produced equivocal results. However, the ability of this method to discriminate TSE strains when they co-exist has not been examined systematically. To address this issue we prepared in vitro mixtures of ovine BSE and scrapie and used them to challenge RIII, C57BL/6 and VM mice., Results: Disease phenotype analysis in all three mouse lines indicated that most phenotypic parameters (attack rates, incubation periods, lesion profiles and Western blots) were compatible with scrapie phenotypes as were immunohistochemistry (IHC) data from RIII and C57BL/6 mice. However, in VM mice that were challenged with BSE/scrapie mixtures a single BSE-associated IHC feature was identified, indicating the existence of BSE in animals where the scrapie phenotype was dominant., Conclusions: We conclude that wild type mouse bioassay is of limited value in detecting BSE in the presence of scrapie particularly if the latter is in relative excess.

Published

2015

4. Phenotype shift from atypical scrapie to CH1641 following experimental transmission in sheep.

Author

Simmons MM, Moore SJ, Lockey R, Chaplin MJ, Konold T, Vickery C, and Spiropoulos J

Subjects

Animals, Brain pathology, Genotype, Immunohistochemistry, Mice, Mice, Transgenic, Phenotype, Prion Diseases genetics, Prion Diseases transmission, Prions genetics, Prions metabolism, Scrapie genetics, Scrapie transmission, Sheep, Prion Diseases pathology, Scrapie pathology

Abstract

The interactions of host and infecting strain in ovine transmissible spongiform encephalopathies are known to be complex, and have a profound effect on the resulting phenotype of disease. In contrast to classical scrapie, the pathology in naturally-occurring cases of atypical scrapie appears more consistent, regardless of genotype, and is preserved on transmission within sheep homologous for the prion protein (PRNP) gene. However, the stability of transmissible spongiform encephalopathy phenotypes on passage across and within species is not absolute, and there are reports in the literature where experimental transmissions of particular isolates have resulted in a phenotype consistent with a different strain. In this study, intracerebral inoculation of atypical scrapie between two genotypes both associated with susceptibility to atypical forms of disease resulted in one sheep displaying an altered phenotype with clinical, pathological, biochemical and murine bioassay characteristics all consistent with the classical scrapie strain CH1641, and distinct from the atypical scrapie donor, while the second sheep did not succumb to challenge. One of two sheep orally challenged with the same inoculum developed atypical scrapie indistinguishable from the donor. This study adds to the range of transmissible spongiform encephalopathy phenotype changes that have been reported following various different experimental donor-recipient combinations. While these circumstances may not arise through natural exposure to disease in the field, there is the potential for iatrogenic exposure should current disease surveillance and feed controls be relaxed. Future sheep to sheep transmission of atypical scrapie might lead to instances of disease with an alternative phenotype and onward transmission potential which may have adverse implications for both public health and animal disease control policies.

Published

2015

5. Overexpression of chimaeric murine/ovine PrP (A136H154Q171) in transgenic mice facilitates transmission and differentiation of ruminant prions.

Author

Griffiths PC, Plater JM, Chave A, Jayasena D, Tout AC, Rice PB, Vickery CM, Spiropoulos J, Stack MJ, and Windl O

Subjects

Animals, Brain metabolism, Brain pathology, Cattle, Encephalopathy, Bovine Spongiform metabolism, Encephalopathy, Bovine Spongiform transmission, Humans, Mice, Prions genetics, Recombinant Fusion Proteins genetics, Ruminants genetics, Scrapie metabolism, Scrapie transmission, Sheep, Transgenes, Mice, Transgenic metabolism, Prion Diseases metabolism, Prion Diseases transmission, Prions metabolism, Recombinant Fusion Proteins metabolism, Ruminants metabolism, Up-Regulation

Abstract

Development of transgenic mouse models expressing heterologous prion protein (PrP) has facilitated and advanced in vivo studies of prion diseases affecting humans and animals. Here, novel transgenic mouse lines expressing a chimaeric murine/ovine (Mu/Ov) PrP transgene, including amino acid residues alanine, histidine and glutamine at ovine polymorphic codons 136, 154 and 171 (A136H154Q171), were generated to provide a means of assessing the susceptibility of the ovine AHQ allele to ruminant prion diseases in an in vivo model. Transmission studies showed that the highest level of transgene overexpression, in Tg(Mu/OvPrP(AHQ))EM16 (EM16) mice, conferred high susceptibility to ruminant prions. Highly efficient primary transmission of atypical scrapie from sheep was shown, irrespective of donor sheep PrP genotype, with mean incubation periods (IPs) of 154–178 days post-inoculation (p.i.), 100% disease penetrance and early Western blot detection of protease-resistant fragments (PrP(res)) of the disease-associated isoform, PrP(Sc), in EM16 brain from 110 days p.i. onwards. EM16 mice were also highly susceptible to classical scrapie and bovine spongiform encephalopathy (BSE), with mean IPs 320 and 246 days faster, respectively, than WT mice. Primary passage of atypical scrapie, classical scrapie and BSE showed that the PrP(res) profiles associated with disease in the natural host were faithfully maintained in EM16 mice, and were distinguishable based on molecular masses, antibody reactivities and glycoform percentages. Immunohistochemistry was used to confirm PrP(Sc) deposition in brain sections from terminal phase transmissible spongiform encephalopathy-challenged EM16 mice. The findings indicate that EM16 mice represent a suitable bioassay model for detection of atypical scrapie infectivity and offer the prospect of differentiation of ruminant prions.

Published

2013

6. The interpretation of disease phenotypes to identify TSE strains in mice: characterisation of BSE using PrPSc distribution patterns in the brain.

Author

Corda E, Beck KE, Sallis RE, Vickery CM, Denyer M, Webb PR, Bellworthy SJ, Spencer YI, Simmons MM, and Spiropoulos J

Subjects

Animals, Brain pathology, Cattle, Encephalopathy, Bovine Spongiform etiology, Encephalopathy, Bovine Spongiform pathology, Immunohistochemistry veterinary, Mice, Paraffin Embedding veterinary, PrPSc Proteins metabolism, Prion Diseases etiology, Prion Diseases genetics, Prion Diseases pathology, Retrospective Studies, Sheep, Encephalopathy, Bovine Spongiform genetics, PrPSc Proteins genetics, Prion Diseases veterinary

Abstract

In individual animals affected by transmissible spongiform encephalopathies, different disease phenotypes can be identified which are attributed to different strains of the agent. In the absence of reliable technology to fully characterise the agent, classification of disease phenotype has been used as a strain typing tool which can be applied in any host. This approach uses standardised data on biological parameters, established for a single host, to allow comparison of different prion sources. Traditionally prion strain characterisation in wild type mice is based on incubation periods and lesion profiles after the stabilisation of the agent into the new host which requires serial passages. Such analysis can take many years, due to prolonged incubation periods. The current study demonstrates that the PrPSc patterns produced by one serial passage in wild type mice of bovine or ovine BSE were consistent, stable and showed minimal and predictable differences from mouse-stabilised reference strains. This biological property makes PrPSc deposition pattern mapping a powerful tool in the identification and definition of TSE strains on primary isolation, making the process of characterisation faster and cheaper than a serial passage protocol. It can be applied to individual mice and therefore it is better suited to identify strain diversity within single inocula in case of co-infections or identify strains in cases where insufficient mice succumb to disease for robust lesion profiles to be constructed. The detailed description presented in this study provides a reference document for identifying BSE in wild type mice.

Published

2012

7. Different prion disease phenotypes result from inoculation of cattle with two temporally separated sources of sheep scrapie from Great Britain.

Author

Konold T, Lee YH, Stack MJ, Horrocks C, Green RB, Chaplin M, Simmons MM, Hawkins SA, Lockey R, Spiropoulos J, Wilesmith JW, and Wells GA

Subjects

Animals, Brain pathology, Cattle, Cattle Diseases diagnosis, Cluster Analysis, Encephalopathy, Bovine Spongiform metabolism, Encephalopathy, Bovine Spongiform pathology, Mice, Phenotype, PrPSc Proteins classification, Prion Diseases diagnosis, Prion Diseases pathology, Prion Diseases transmission, Sheep, Time Factors, United Kingdom epidemiology, Cattle Diseases pathology, Cattle Diseases transmission, Encephalopathy, Bovine Spongiform diagnosis, PrPSc Proteins isolation & purification, PrPSc Proteins pathogenicity, Prion Diseases veterinary, Sheep Diseases transmission

Abstract

Background: Given the theoretical proposal that bovine spongiform encephalopathy (BSE) could have originated from sheep scrapie, this study investigated the pathogenicity for cattle, by intracerebral (i.c.) inoculation, of two pools of scrapie agents sourced in Great Britain before and during the BSE epidemic. Two groups of ten cattle were each inoculated with pools of brain material from sheep scrapie cases collected prior to 1975 and after 1990. Control groups comprised five cattle inoculated with sheep brain free from scrapie, five cattle inoculated with saline, and for comparison with BSE, naturally infected cattle and cattle i.c. inoculated with BSE brainstem homogenate from a parallel study. Phenotypic characterisation of the disease forms transmitted to cattle was conducted by morphological, immunohistochemical, biochemical and biological methods., Results: Disease occurred in 16 cattle, nine inoculated with the pre-1975 inoculum and seven inoculated with the post-1990 inoculum, with four cattle still alive at 83 months post challenge (as at June 2006). The different inocula produced predominantly two different disease phenotypes as determined by histopathological, immunohistochemical and Western immunoblotting methods and biological characterisation on transmission to mice, neither of which was identical to BSE. Whilst the disease presentation was uniform in all scrapie-affected cattle of the pre-1975 group, the post-1990 inoculum produced a more variable disease, with two animals sharing immunohistochemical and molecular profile characteristics with animals in the pre-1975 group., Conclusion: The study has demonstrated that cattle inoculated with different pooled scrapie sources can develop different prion disease phenotypes, which were not consistent with the phenotype of BSE of cattle and whose isolates did not have the strain typing characteristics of the BSE agent on transmission to mice.

Published

2006

8. Prion disease modelled in Drosophila

Author

Bujdoso, Raymond, Smith, Andrew, Fleck, Oliver, Spiropoulos, John, Andreoletti, Olivier, Thackray, Alana, Bujdoso, Raymond [0000-0002-5068-3247], Thackray, Alana [0000-0002-2752-1127], and Apollo - University of Cambridge Repository

Subjects

Mammals, Histology, Prions, animal diseases, Review, Cell Biology, Prion Diseases, nervous system diseases, Pathology and Forensic Medicine, Transmissible, Animals, Genetically Modified, Drosophila melanogaster, Infectivity, Prion, Animals, Humans, Drosophila, Neurodegeneration

Abstract

Prion diseases are fatal neurodegenerative conditions of humans and various vertebrate species that are transmissible between individuals of the same or different species. A novel infectious moiety referred to as a prion is considered responsible for transmission of these conditions. Prion replication is believed to be the cause of the neurotoxicity that arises during prion disease pathogenesis. The prion hypothesis predicts that the transmissible prion agent consists of PrPSc, which is comprised of aggregated misfolded conformers of the normal host protein PrPC. It is important to understand the biology of transmissible prions and to identify genetic modifiers of prion-induced neurotoxicity. This information will underpin the development of therapeutic and control strategies for human and animal prion diseases. The most reliable method to detect prion infectivity is by in vivo transmission in a suitable experimental host, which to date have been mammalian species. Current prion bioassays are slow, cumbersome and relatively insensitive to low titres of prion infectivity, and do not lend themselves to rapid genetic analysis of prion disease. Here, we provide an overview of our novel studies that have led to the establishment of Drosophila melanogaster, a genetically well-defined invertebrate host, as a sensitive, versatile and economically viable animal model for the detection of mammalian prion infectivity and genetic modifiers of prion-induced toxicity.

Published

2022

9. Neuroanatomical distribution of abnormal prion protein in naturally occurring atypical scrapie cases in Great Britain.

Author

Moore, Sarah Jo, Simmons, Marion, Chaplin, Melanie, and Spiropoulos, John

Subjects

SCRAPIE, CHRONIC wasting disease, PRION diseases, BRAIN stem, NEUROLOGICAL disorders, CEREBRAL cortex, PREVENTIVE medicine

Abstract

Scrapie belongs to a group of diseases known as the transmissible spongiform encephalopathies or prion diseases. Two different categories of naturally occurring scrapie have been identified: classical scrapie, which was first recorded around 1750, and atypical scrapie or ‘Nor-98’, which was first identified in Norway in 1998. The molecular characteristics of atypical scrapie have been well defined, but detailed descriptions of the neuropathological phenotype are rare since the majority of cases have been detected through active surveillance programmes where only brainstem and cerebellum are collected for statutory diagnosis. In order to characterise the neuropathology of naturally occurring atypical scrapie in sheep, we examined multiple brain levels from 15 whole brains from field cases of atypical scrapie, both clinical suspects and fallen stock, collected in Great Britain between 2004 and 2006. We found that the distribution of disease-associated prion protein (PrPSc) and vacuolation in atypical scrapie cases are very different to both classical scrapie and experimental bovine spongiform encephalopathy in sheep. Immunolabelling for PrPSc is mild and restricted at the obex and more intense and widespread rostrally, particularly in the cerebellum, substantia nigra, thalamus and basal nuclei. Intracellular immunolabelling types are not seen, but distinctive white matter immunolabelling is widespread. Vacuolation associated with PrPSc deposits was not observed in the brainstem neuroanatomical areas commonly affected in classical scrapie and bovine spongiform encephalopathy, but was instead most prominent in the cerebellar cortex and neocortex. This is the largest comprehensive descriptive study of atypical scrapie pathology to date, and provides baseline data against which other natural or experimental cases can be compared. It also reinforces the current recommendation to collect cerebellum in addition to brainstem to enable confident confirmation of this distinct disease phenotype within surveillance programmes. [ABSTRACT FROM AUTHOR]

Published

2008

10. Four types of scrapie in goats differentiated from each other and bovine spongiform encephalopathy by biochemical methods.

Author

Langeveld, Jan P. M., Pirisinu, Laura, Jacobs, Jorg G., Mazza, Maria, Lantier, Isabelle, Simon, Stéphanie, Andréoletti, Olivier, Acin, Cristina, Esposito, Elena, Fast, Christine, Groschup, Martin, Goldmann, Wilfred, Spiropoulos, John, Sklaviadis, Theodoros, Lantier, Frederic, Ekateriniadou, Loukia, Papasavva-Stylianou, Penelope, van Keulen, Lucien J. M., Acutis, Pier-Luigi, and Agrimi, Umberto

Subjects

BOVINE spongiform encephalopathy, GOAT diseases, SCRAPIE, CHRONIC wasting disease, GOATS, PRION diseases

Abstract

Scrapie in goats has been known since 1942, the archetype of prion diseases in which only prion protein (PrP) in misfolded state (PrPSc) acts as infectious agent with fatal consequence. Emergence of bovine spongiform encephalopathy (BSE) with its zoonotic behaviour and detection in goats enhanced fears that its source was located in small ruminants. However, in goats knowledge on prion strain typing is limited. A European-wide study is presented concerning the biochemical phenotypes of the protease resistant fraction of PrPSc (PrPres) in over thirty brain isolates from transmissible spongiform encephalopathy (TSE) affected goats collected in seven countries. Three different scrapie forms were found: classical scrapie (CS), Nor98/atypical scrapie and one case of CH1641 scrapie. In addition, CS was found in two variants—CS-1 and CS-2 (mainly Italy)—which differed in proteolytic resistance of the PrPresN-terminus. Suitable PrPres markers for discriminating CH1641 from BSE (C-type) appeared to be glycoprofile pattern, presence of two triplets instead of one, and structural (in)stability of its core amino acid region. None of the samples exhibited BSE like features. BSE and these four scrapie types, of which CS-2 is new, can be recognized in goats with combinations of a set of nine biochemical parameters. [ABSTRACT FROM AUTHOR]

Published

2019

11. Prion-induced toxicity in PrP transgenic Drosophila

Author

Thackray, Alana M., Muhammad, Farooq, Zhang, Chang, Denyer, Margaret, Spiropoulos, John, Crowther, Damian C., and Bujdoso, Raymond

Subjects

*TRANSGENIC insects, *DROSOPHILA, *PRION diseases, *NEUROTOXICOLOGY, *GENE expression, *CLINICAL trials

Abstract

Abstract: Prion diseases are fatal transmissible neurodegenerative diseases of humans and various vertebrate species. In their natural hosts these conditions are characterised by prolonged incubation times prior to the onset of clinical signs of terminal disease. Accordingly, tractable models of mammalian prion disease are required in order to better understand the mechanisms of prion replication and prion-induced neurotoxicity. Transmission of prion diseases can occur across a species barrier and this is facilitated in recipients transgenic for the same PrP gene as the individual from which the infectious prions are derived. Here we have tested the hypothesis that exogenous ovine prions can induce neurotoxicity in Drosophila melanogaster transgenic for ovine PrP. Drosophila that expressed ovine PrP pan neuronally and inoculated with ovine prions at the larval stage by oral exposure to scrapie-infected sheep brain homogenate showed markedly accelerated locomotor and survival defects. ARQ PrP transgenic Drosophila exposed to scrapie-infected brain homogenate showed a significant and progressive reduction in locomotor activity compared to similar flies exposed to normal sheep brain homogenate. The prion-induced locomotor defect was accompanied by the accumulation of potentially misfolded PrP in the brains of prion-inoculated flies. VRQ PrP transgenic Drosophila, which expressed less ovine PrP than ARQ flies, showed a reduced median survival compared to similar flies exposed to normal sheep brain homogenate. These prion-induced phenotypic effects were PrP-mediated since ovine prions were not toxic in non-PrP transgenic control flies. Our observations provide the basis of an invertebrate model of transmissible mammalian prion disease. [Copyright &y& Elsevier]

Published

2012

12. A review of cleaning and disinfection guidelines and recommendations following an outbreak of classical scrapie.

Author

Alarcon, Pablo, Marco-Jimenez, Francisco, Horigan, Verity, Ortiz-Pelaez, Angel, Rajanayagam, Brenda, Dryden, Aidan, Simmons, Hugh, Konold, Timm, Marco, Carmen, Charnley, Judith, Spiropoulos, John, Cassar, Claire, and Adkin, Amie

Subjects

*SCRAPIE, *PRION diseases, *SODIUM hydroxide, *SODIUM hypochlorite, *INSTALLATION of equipment

Abstract

Classical scrapie is a prion disease of small ruminants, the infectious agent of which has been shown to be extremely persistent in the environment. Cleaning and disinfection (C&D) after a scrapie outbreak is currently recommended by many governments' veterinary advisors and implemented in most farms affected. Yet, the effectiveness of these procedures remains unclear. The aim of this study was to review existing literature and guidelines regarding farm C&D protocols following classical scrapie outbreaks and assess their effectiveness and the challenges that translation of policy and legislative requirements present at a practical level. A review of the literature was conducted to identify the on-farm C&D protocols used following outbreaks of scrapie, assess those materials with high risk for persistence of the scrapie agent on farms, and review the existing evidence of the effectiveness of recommended C&D protocols. An expert workshop was also organised in Great Britain (GB) to assess: the decision-making process used when implementing C&D protocols on GB farms, the experts' perceptions on the effectiveness of these protocols and changes needed, and their views on potential recommendations for policy and research. Outputs of the literature review revealed that the current recommended protocol for C&D [1 h treatment with sodium hypochlorite containing 20,000 ppm free chlorine or 2 M sodium hydroxide (NaOH)] is based on laboratory experiments. Only four field farm experiments have been conducted, indicating a lack of data on effectiveness of C&D protocols on farms by the re-occurrence of scrapie infection post re-stocking. Recommendations related to the control of outdoor environment, which are difficult and expensive to implement, vary between countries. The expert workshop concluded that there are no practical, cost-effective C&D alternatives to be considered at this time, with control therefore based on C&D only in combination with additional time restrictions on re-stocking and replacement with non-susceptible livestock or more genetically resistant types, where available. Participants agreed that C&D should still be completed on scrapie affected farms, as it is considered to be "good disease practice" and likely to reduce the levels of the prion protein. Participants felt that any additional protocols developed should not be "too prescriptive" (should not be written down in specific policies) because of significant variation in farm types, farm equipment and installations. Under this scenario, control of classical scrapie on farms should be designed with a level of C&D in combination with re-stocking temporal ban and replacement with livestock of limited susceptibility. [ABSTRACT FROM AUTHOR]

Published

2021