CASOS EEB ATÍPICA NO BRASIL
1º CASO: de corte – 13 anos Ø Sertanópolis – Paraná; animal em decúbito – negahvo para raiva; sem alterações no histopatológico Ø 15.06.2012 – diagnóshco posihvo Imunohistoquímica – LANAGRO-PE – Nota Técnica 159/2012; Ø Animal Health and Veterinary Laboratories Agency (AHVLA), Weybridge, United Kingdom – 06.12.2012 - EEB a*pica do 0po H Vaca 2º CASO: corte 12 anos – abate 19.03.14 – vigilância abate emergência – decúbito esternal – fadiga muscular - Notas Técnicas DSA 42 e 52/2014 Ø Porto Esperidião, Mato Grosso; Ø CaracterísHcas – EEB aIpica do Hpo H Ambos no(ficados para OIE.
CASOS EEB ATÍPICA NO BRASIL
3º CASO – 2019 Vaca de corte Nelore – 17 anos Ø Vigilância abate de emergência – animal caído – coleta em 05.04.2019 Ø Nova Canaã do Norte, Mato Grosso Ø Diagnóshco posihvo ELISA – 13.05.2019 - LFDA-PE; Ø Laboratório da Agência de Inspeção de Alimentos Canadenses (CFIA) Alberta, Canada (Laboratório de Referência da OIE) – posihvo ELISA 31.05.2019 Ø CFIA – Canadá – Western Blot – EEB aIpica do Hpo H
OFFICIAL NOTE
Update on an atypical BSE case verified in Mato Grosso Share: Published 06/03/2019 5:41 PM 1- After examining the notification of the occurrence by the International Organization for Animal Health (OIE), this body determined today (3) the closure of the case without changing the Brazilian health status, which remains an insignificant risk for the disease.
2 - The OIE also informed that there will be no supplementary reports on the case.
3 - In the case of China, the Ministry of Agriculture, Livestock and Supply of Brazil has temporarily suspended the issuance of health certificates until the Chinese authority completes its assessment of the information already transmitted about the episode, thus complying with the provisions of the protocol bilateral agreement signed in 2015.
OFFICIAL NOTE
Occurrence of an atypical case of Bovine Spongiform Encephalopathy in Mato Grosso
Published on 05/31/2019 5:20 PM Updated on 05/31/2019 5:25 PM
The Agricultural Defense Secretariat of the Ministry of Agriculture, Livestock and Supply (Mapa) confirms the occurrence, in Mato Grosso, of an atypical case of Bovine Spongiform Encephalopathy ( BSE ). This disease occurs spontaneously and sporadically and is not related to the ingestion of contaminated food.
It is a beef cow, aged 17 years. All BSE- specific risk material was removed from the animal during emergency slaughter and incinerated at the slaughterhouse. Other animal-derived products were identified, located and preventively seized, with no entry of any product into the human or ruminant food chain. Therefore, there is no risk for the population.
It should be noted that the Ministry of Agriculture and the Institute of Agricultural Defense of Mato Grosso (INDEA/MT) immediately began field investigations, with a ban on the original property. All sanitary risk mitigation actions were completed even before the issuance of the final result by a reference laboratory of the World Organization for Animal Health (OIE). After confirmation, this Friday (31), Brazil officially notified the OIE and importing countries, as provided for by international standards.
According to OIE rules, there will be no change in Brazil's risk classification for the disease, which will continue as a country with an insignificant risk, the best possible for BSE . In more than 20 years of surveillance for the disease, Brazil registered only three cases of atypical BSE and no cases of classic BSE .
INTERNATIONAL MARKET
Brazil returns to export beef to China Sales were suspended since June 3 due to notification of an unusual case of BSE in Mato Grosso Share: Published 06/13/2019 11:04 AM Updated on 06/13/2019 1:08 PM China will resume beef imports from Brazil, which had been suspended since June 3, due to the notification of an atypical case of Bovine Spongiform Encephalopathy ( BSE ), detected in Mato Grosso.
China is the only country, among Brazil's importers, that has a sanitary protocol that requires the temporary suspension of meat imports when an atypical case of BSE is detected . The minister of Agriculture, Livestock and Supply, Tereza Cristina, received the news of the reopening of the Chinese market this morning. The minister reaffirmed that she will continue negotiating a new protocol with the Chinese health authorities.
The disease was found in a 17-year-old beef cow. All BSE- specific risk material was removed from the animal during emergency slaughter and incinerated at the slaughterhouse. Other animal-derived products were identified, located and preventively seized, with no entry of any product into the human or ruminant food chain. Therefore, there was no risk for the population.
TUESDAY, SEPTEMBER 27, 2016
Classical Scrapie Diagnosis in ARR/ARR Sheep in Brazil
Acta Scientiae Veterinariae, 2015. 43(Suppl 1): 69.
CASE REPORT Pub. 69
ISSN 1679-9216
1
Received: 4 August 2014 Accepted: 19 December 2014 Published: 6 February 2015
1Programa de Pós-graduação em Ciências Veterinárias (PPGCV), Faculdade de Veterinária (FaVet), Universidade Federal do Rio Grande do Sul (UFRGS), Porto Alegre, RS, Brazil. 2Setor de Patologia Veterinária (SPV), Departamento de Patologia Clínica Veterinária (DPCV), FAVET, UFRGS, Porto Alegre, RS, Brazil. 3Departamento de Ciências Morfológicas, Instituto de Ciências Básicas da Saúde (ICBS), UFRGS, Porto Alegre, RS. CORRESPONDENCE: J.S. Leal [
julianoob@gmail.com - Tel.: +55 (51) 3308 3631]. Setor de Patologia Veterinária, FAVET, UFRGS. Av. Bento Gonçalves n. 9090, Bairro Agronomia. CEP 91540-000 Porto Alegre, RS, Brazil.
Classical Scrapie Diagnosis in ARR/ARR Sheep in Brazil
Juliano Souza Leal1,2, Caroline Pinto de Andrade2, Gabriel Laizola Frainer Correa2, Gisele Silva Boos2, Matheus Viezzer Bianchi2, Sergio Ceroni da Silva2, Rui Fernando Felix Lopes3 & David Driemeier2
ABSTRACT
Background: Scrapie is a transmissible spongiform encephalopathy (TSE) that affects sheep flocks and goat herds. The transfer of animals or groups of these between sheep farms is associated with increased numbers of infected animals and with the susceptibility or the resistance to natural or classical scrapie form. Although several aspects linked to the etiology of the natural form of this infection remain unclarified, the role of an important genetic control in scrapie incidence has been proposed. Polymorphisms of the PrP gene (prion protein, or simply prion), mainly in codons 136, 154, and 171, have been associated with the risk of scrapie. Case: One animal from a group of 292 sheep was diagnosed positive for scrapie in the municipality of Valparaíso, state of São Paulo, Brazil. The group was part of a flock of 811 free-range, mixed-breed Suffolk sheep of the two genders and ages between 2 and 7 years from different Brazilian regions. Blood was collected for genotyping (for codons 136, 141, 154 and 171), and the third lid and rectal mucosa were sampled for immunohistochemistry (IHC) for scrapie, from all 292 animals of the group. IHC revealed that seven (2.4%) animals were positive for the disease. Collection of samples was repeated for 90 animals, among which the seven individuals diagnosed positive and 83 other animals that had some degree of kinship with those. These 90 sheep were sacrificed and necropsied, when samples of brain (obex), cerebellum, third eyelid, rectal mucosa, mesenteric lymph node, palatine tonsil, and spleen were collected for IHC. The results of IHC analyses carried out after necropsy of the seven positive animals submitted to the second collection of lymphoreticular tissue and of the 83 animals with some degree of kinship with them confirmed the positive diagnosis obtained in the first analysis, and revealed that three other sheep were also positive for scrapie. Samples of 80 animals (89%) were negative for the disease in all organs and tissues analyzed. In turn, 10 sheep (11%) were positive, presenting immunoreactivity in one or more tissues. Genotyping revealed the presence of four of the five alleles of the PrP gene commonly detected in sheep: ARR, ARQ, VRQ and ARH. These allele combinations formed six haplotypes: ARR/ARR, ARR/ARQ, ARH/ARH, ARQ/ARH, ARQ/ARQ and ARQ/VRQ. Animals were classified according to susceptibility to scrapie, when 8.9% of the genotyped sheep were classified into risk group R1 (more resistant, with no restriction to breeding). In turn, 40% of the animals tested ranked in groups R4 and R5 (genetically very susceptible, cannot be used for breeding purposes). Discussion: The susceptibility of sheep flocks depends on the genetic pattern of animals and is determined by the sequence of the gene that codifies protein PrP. Additionally, numerous prion strains are differentiated based on pathological and biochemical characteristics, and may affect animals differently, depending on each individual’s genotype. Most epidemiologic data published to date indicate that animals that carry the ARR/ARR genotype are less susceptible to classical scrapie. However, in the present study, the fact that two scrapie-positive sheep presented the haplotype ARR/ARR indicates that this genotype cannot always be considered an indicator of resistance to the causal agent of the classical manifestation of the disease. The coexistence in the same environment of several crossbred animals from different flocks and farms, which characterizes a new heterogeneous flock, may have promoted a favorable scenario to spread the disease, infecting animals in the most resistant group.
Keywords: biopsy, scrapie, TSEs, immunohistochemistry.
DISCUSSION
The susceptibility of sheep flocks to scrapie depends largely on the genetic pattern of the animal, and is determined mainly by the sequence of the gene that codifies the PrP protein, since there are several polymorphisms that affect the conversion of the cell protein PrPC to its pathological form, PrPSc [8, 9]. Nevertheless, it is not possible to consider the occurrence of only one form of ovine prion, since there are numerous prion strains with different pathological and biochemical characteristics that may affect animals distinctively, depending on their genotypes [1, 30]. In the present study, the frequency of codon VRQ was very low (2.2%), confirming previous findings, which revealed that the alleles ARR and ARQ prevail in Suffolk sheep, and that the allele ARH sometimes is detected [12, 32]. The high sensitivity of homozygous VRQ carriers or of individuals with ARQ haplotypes has also been reported in the literature [24]. This condition raises concerns about susceptibility from the epidemiological perspective, since the allele VRQ, which is rare or absent in breeds like Suffolk, was present in two animals, one of which was positive for scrapie. Most epidemiological and genetic data published indicate that sheep carrying the haplotype ARR/ ARR are less susceptible to classical form, while animals with the haplotype VRQ in homozygosis or with ARQ haplotypes are highly susceptible [24]. This hypothesis is supported by genotyping data for thousands of sheep with the disease around the world. For example, a study carried out in Japan described a classical scrapie case in one ARR/ARR sheep [16]. Sensitivity of ARR/ARR sheep in a scenario of oral exposure to the disease has also been reported [3]. Atypical cases were observed in ARR/ARR animals [11, 42].
Polymorphisms at codon positions 136, 154 and 171 are not the only ones associated with resistance or susceptibility to scrapie [33]. An analysis of the variation of codon positions 136 and 171, for instance, showed that each has several adjacent polymorphic sites and may codify up to four amino acids [7, 50]. The atypical scrapie form, characterized by strain Nor98 [6], is more frequently detected in AHQ animals that carry a polymorphism in codon 141, and has not been described in Suffolk sheep in Brazil [2]. This atypical form expresses phenylalanine (F), instead of leucine (L) in the form L141F [6, 37, 46].
However, although it is generally acceptable that classical scrapie is an infectious and contagious disease [14], contagion with the atypical form is questionable in light of the fact that the specific marker for the atypical manifestation of the disease is detected outside the central nervous system [5, 20, 29], even in cases experimentally transmitted to transgenic mice [35] and sheep [47]. Several studies have demonstrated that susceptibility to the atypical form is consistently associated with PrP codons 141 (L/F) and 154 (R/H) [6, 42]. In fact, studies have proposed the hypothesis that this form may evolve when the animal is not exposed to the infectious agent [5, 18, 29, 48], given the limited knowledge of the physiopathology of this manifestation of the disease [19].
In the present study, two (2/8) positive animals presented the haplotype ARR/ARR, which is considered to be the least susceptible and therefore responsible for the lowest risk of scrapie. However, like all sheep that were genotyped, these animals did not present any change in lysine in codon position 141. This change (that is, when lysine is replaced by phenylalanine) has been associated with atypical scrapie in Suffolk sheep [6]. Therefore, these two ARR/ARR sheep do not fit in the genotypic characteristics of sheep that may commonly present the atypical form. It is possible that the presence of several crossbred animals of different flocks and farms in the same environment, which characterizes an heterogeneous flock, has created the favorable conditions for the disease to evolve and spread, infecting the more susceptible animals.
The variation in the frequency of the PrP genotype between flocks has been identified as a real risk factor for the disease [4]. The introduction of adult sheep free of scrapie in contaminated flocks is believed to allow lateral transmission, even between adult animals with less susceptible genotypes [40, 45], although young sheep are more predisposed [43]. Other reasons behind differences in occurrence include the stress caused during husbandry and large population numbers [26]. Additionally, the lack of a defined epidemiological pattern and the different strains of the causal agent play an important role in inter-flock variability [40]. Several models were based on the assumption that outbreak duration is influenced by flock size and by the frequency of the PrP genotype in one flock [25, 26, 38, 51]. Commercial flocks with high genetic diversity, mainly in codons other than 136, 154 and 171, are more consistently affected. In these animals, the onset of clinical manifestations occurs at significantly different ages, with means varying from 2 to 5.7 years, due to noteworthy dissimilarities in age and PrP genotype profiles [40]. The purchase of infected animals has been pointed out as the main scrapie infection mechanism in flocks [27, 41].
*** The diagnosis of scrapie in two homozygous ARR/ARR sheep indicates that the resistance of this genotype to the classical form of the disease is debatable. Although scrapie in these animals is rare, the cases presented in this case report lend strength to the notion that its occurrence depends on a combination of infectious factors, including differences in biological and biochemical properties in the natural hosts to this prion.
MANUFACTURERS 1VMRD Pullman Albion Road. Pullman, WA, USA. 2Qiagen. Hilden, Germany. 3InvitrogenTM. São Paulo, Brazil. 4Life TechnologiesTM. Gaithersburg, MD, USA. 5InvitrogenTM. Carlsbad, CA, USA. 6Applied Biosystems Inc. Foster City, CA, USA. Declaration of interest. The authors report no conflicts of interest. The authors alone are responsible for the content and writing of the paper.
Scrapie diagnosis in a goat and four Santa Inês sheep from the same herd in Brazil
J.S. LealG.L.F. CorreaG.S. BoosM.V. BianchiF.M. BoabaidR.F.F. LopesD. Driemeier
Diagnóstico de scrapie em um caprino e quatro ovinos Santa Inês de um mesmo rebanho no Brasil
Scrapie is a fatal and progressive transmissible spongiform encephalopathy (TSE) of natural occurrence in sheep and goats. The suspicion of scrapie may be based on clinical signs; however, the detection of pathological features of the prionic protein (PrP) in target tissues is necessary to diagnose the disease. The presence of an abnormal protein form (PrPSc) in lymphoreticular and nervous tissues is an important characteristic in diagnosis. This paper reports a case of scrapie in a flock of 55 Suffolk crossbred sheep, 19 Santa Inês sheep and 21 goats in the Mato Grosso state, midwestern Brazil. The animals were euthanized after the confirmation of a scrapie case with clinical signs in a Suffolk sheep in the same farm. Samples of brainstem at the level of the obex and lymphoid issues like palatine tonsils, mesenteric lymph nodes, third eyelid fixed in formalin 10% were processed for histological examination. Histological examination with hematoxylin and eosin did not show any microscopic changes in samples. Immunohistochemistry (IHC) examination to detect anti-prion PrPSc was performed in lymphoid tissues. Scrapie diagnosis was confirmed based on IHC positive results for PrPSc in lymphoid tissues of a crossbreed goat and four Santa Inês sheep, without any clinical scrapie signs. IHC showed positive staining in at least three lymphoid germinal centers in goat mesenteric lymph node, palatine tonsil, and third eyelid samples. The mesenteric lymph node, and tonsil samples of all sheep showed positive immunostaining, and only one sheep showed positive staining in lymphoid follicles in the third eyelid. Scrapie diagnosis using IHC in fixed samples of lymphoreticular tissue is technically feasible to detect the disease in both goats and sheep, as a form of pre-clinical diagnosis. The results indicate that the herd was infected by a sheep coming from another herd where scrapie had been diagnosed before.
scrapie; prion; diseases of small ruminants; immunohistochemistry; lymphoid tissues
WEDNESDAY, JUNE 12, 2019
FINAL REPORT OF AN AUDIT CONDUCTED IN BRAZIL MAY 15 TO JUNE 2, 2017 EVALUATING THE FOOD SAFETY SYSTEMS GOVERNING MEAT PRODUCTS EXPORTED TO THE UNITED STATES OF AMERICA
TUESDAY, MARCH 26, 2019
Joint Statement from President Donald J. Trump USA and President Jair Bolsonaro Brazil FOREIGN POLICY BSE TSE Prion aka mad cow disease
SATURDAY, JUNE 01, 2019
Brazil reports another cases of mad cow disease atypical BSE TSE Prion
TUESDAY, SEPTEMBER 27, 2016
Classical Scrapie Diagnosis in ARR/ARR Sheep in Brazil
Acta Scientiae Veterinariae, 2015. 43(Suppl 1): 69.
MONDAY, AUGUST 02, 2021
A review of cleaning and disinfection guidelines and recommendations following an outbreak of classical scrapie
MONDAY, AUGUST 1, 2016
USDA Announces Reopening of Brazilian Market to U.S. Beef Exports and the Potential for Transmissible Spongiform Encephalopathy TSE prion disease
MONDAY, MAY 5, 2014
Brazil BSE Mad Cow disease confirmed OIE 02/05/2014
Monday, May 5, 2014
Brazil 2nd BSE Mad Cow disease confirmed OIE 02/05/2014
Thursday, April 24, 2014
Brazil investigates possible BSE mad cow case
WEDNESDAY, JANUARY 29, 2014
Another Suspect case of Creutzfeldt-Jakob disease investigated in Brazil
THURSDAY, SEPTEMBER 26, 2013
Brazil evaluate the implementation of health rules on animal by-products and derived products SRM BSE TSE PRION aka MAD COW DISEASE
Wednesday, December 19, 2012
Scientific Report of the European Food Safety Authority on the Assessment of the Geographical BSE Risk (GBR) of Brazil
***> Friday, December 07, 2012
***> ATYPICAL BSE BRAZIL 2010 FINALLY CONFIRMED OIE 2012