Tiziano Dorotea scite author profile

We conducted a survey of attitudes towards antimicrobial use and awareness of antimicrobial resistance among turkey and rabbit farmers (N ¼ 117 and N ¼ 41, respectively) in Italy's utmost turkey-and rabbit-producing region. We found either similarities or significant differences between these two livestock sectors. Most farmers of both groups (72% of turkey farmers vs 76% of rabbit farmers) reported that antimicrobials are properly used in their farms. Almost three-quarters of the farmers reported that antimicrobials solve the health problem treated for. However, 47% of turkey farmers and 78% of rabbit farmers reported that antimicrobial use could be decreased, with a 20-30% reduction being the most frequently chosen range. Genetic improvement was reported to be the main factor able to reduce antimicrobial use in turkeys, whereas improvements in feed quality and microclimate were the main factors for rabbits. Most farmers reported that high antimicrobial use may affect the quality of meat products and be hazardous to human health, but they also reported that antimicrobial resistance is mainly related to antimicrobial use in humans. In conclusion, turkey and rabbit farmers have a generally positive opinion on veterinary antimicrobial use, but also low levels of awareness of the negative impact on public health. Economic and structural factors of rabbit production industry may explain the differences observed. Farm veterinarians will be crucial to support farmers' education and the expected transition to lower antimicrobial use while maintaining high animal health/ welfare standards. HIGHLIGHTS 47% of turkey vs. 78% of rabbit farmers thought that antimicrobial use can be decreased A 20-30% reduction of antimicrobials was the most frequently supposed range Turkey and rabbit farmers showed a low level of awareness of the negative impact of antimicrobial usage in their farms on human health ARTICLE HISTORY

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Pseudomyotonia in Romagnola cattle caused by novel ATP2A1mutations

Murgiano

Sacchetto

Testoni

et al. 2012

BMC Vet Res

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BackgroundBovine congenital pseudomyotonia (PMT) is an impairment of muscle relaxation induced by exercise preventing animals from performing rapid movements. Forms of recessively inherited PMT have been described in different cattle breeds caused by two independent mutations in ATP2A1 encoding a skeletal-muscle Ca2+-ATPase (SERCA1). We observed symptoms of congenital PMT in four related Romagnola beef cattle from Italy and evaluated SERCA1 activity and scanned ATP2A1 for possible causative mutations.ResultsWe obtained four PMT affected Romagnola cattle and noted striking clinical similarities to the previously described PMT cases in other cattle breeds. The affected animals had a reduced SERCA1 activity in the sarcoplasmic reticulum. A single affected animal was homozygous for a novel complex variant in ATP2A1 exon 8 (c.[632 G>T; 857 G>T]). Three out of four cases were compound heterozygous for the newly identified exon 8 variant and the exon 6 variant c.491 G>A(p. Arg146Gly), which has previously been shown to cause PMT in Chianina cattle. Pedigree analysis showed that the exon 8 double mutation event dates back to at least 1978. Both nucleotide substitutions are predicted to alter the SERCA1 amino acid sequence (p.[(Gly211Val; Gly284Val)]), affect highly conserved residues, in particular the actuator domain of SERCA1.ConclusionClinical, biochemical and DNA analyses confirmed the initial hypothesis. We provide functional and genetic evidence that one novel and one previously described ATP2A1 mutation lead to a reduced SERCA1 activity in skeletal muscles and pseudomyotonia in affected Romagnola cattle. Selection against these mutations can now be used to eliminate the mutant alleles from the Romagnola breed.

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H7N7 Highly Pathogenic Avian Influenza in Poultry Farms in Italy in 2016

et al. 2017

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After the H7N7 highly pathogenic (HP) avian influenza (AI) outbreak in 2013, and a single case of H5N8 HPAI in 2014, in April 2016, a H7N7 HPAI virus was detected in northeastern Italy. The case occurred in an organic free-range laying hen farm located in proximity with one of the highest densely populated poultry areas (DPPAs) in Italy. Control measures provided by the Council of the European Union in directive 2005/94/CE were promptly applied, and enhanced surveillance activities were implemented in the DPPAs. On May 16, 2016, a second case was confirmed in a fattening turkey farm within the protection zone of the previous outbreak. Following an epidemiologic inquiry, another turkey farm was considered at risk of transmission and was subjected to preemptive culling. Epidemiologic data and phylogenetic analyses indicated that the virus was likely introduced from wild birds as a low pathogenicity AI strain, through direct contact. The rapid containment of the outbreak proves the level of preparedness of the veterinary public health sector in Italy. Nevertheless, the recurrent introductions from wild birds indicate the need of improving both the biosecurity levels in the DPPA and the surveillance activities in wild birds to quickly detect the presence of AI in the territory.

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Fast-twitch skeletal muscle fiber adaptation to SERCA1 deficiency in a Dutch Improved Red and White calf pseudomyotonia case

Dorotea

Grünberg

Murgiano

et al. 2015

Neuromuscular Disorders

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Tiziano Dorotea

Genetic Diversity of Highly Pathogenic Avian Influenza A(H5N8/H5N5) Viruses in Italy, 2016–17

Farmers’ attitudes towards antimicrobial use and awareness of antimicrobial resistance: a comparative study among turkey and rabbit farmers

Pseudomyotonia in Romagnola cattle caused by novel ATP2A1mutations

H7N7 Highly Pathogenic Avian Influenza in Poultry Farms in Italy in 2016

Fast-twitch skeletal muscle fiber adaptation to SERCA1 deficiency in a Dutch Improved Red and White calf pseudomyotonia case

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