Panagiotis D. Katsoulos scite author profile

The present review comments on the role of the use of zeolites as feed additives on the prevention and/or the treatment of certain farm animal diseases. Both natural and synthetic zeolites have been used in animal nutrition mainly to improve performance traits and, based on their fundamental physicochemical properties, they were also tested and found to be efficacious in the prevention of ammonia and heavy metal toxicities, poisonings as well as radioactive elements uptake and metabolic skeletal defects. During the last decade, their utilization as mycotoxin-binding adsorbents has been a topic of considerable interest and many published research data indicate their potential efficacy against different types of mycotoxins either as a primary material or after specific modifications related to their surface properties. Ingested zeolites are involved in many biochemical processes through ion exchange, adsorption and catalysis. Recent findings support their role in the prevention of certain metabolic diseases in dairy cows, as well as their shifting effect on nitrogen excretion from urine to faeces in monogastric animals, which results in lower aerial ammonia concentration in the confinement facilities. Moreover, new evidence provide insights into potential mechanisms involved in zeolites supporting effect on animals suffered from gastrointestinal disturbances, including intestinal parasite infections. All the proposed mechanisms of zeolitesÕ effects are summarized in the present review and possible focus topics for further research in selected areas are suggested.

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Alternatives to antibiotics for farm animals.

Papatsiros

Katsoulos²,

Koutoulis³

et al. 2014

CABI Reviews

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Nowadays, there is an increasing concern for the public health about the consequences from the long and increased use of antibiotics in livestock production. The use of antibiotics in animal feed as growth promoters has been completely banned by the European Union since 2006, based on their possible negative effects on human and animal health. The removal of growth promoters has led to animal performance problems and a rise in the incidence of certain animal diseases. Thus, there is an urgent need to find alternatives to antibiotics, especially in EU. Due to the modern consumers' concern about the potential development of antibiotic-resistant bacteria as well as at the same time the need to prevent economic losses of the farmers, alternatives to antibiotics has been developed to prevent the health problems and to improve the growth performance in farm animals. Owing to the full ban of antibiotic use in EU there is an urgent need to find alternatives to in-feed antibiotics. New strategies and commercial products must be developed to improve animal health and performance, based on their safety, efficacy and cost-effectiveness. The aim of this study is to summarize the beneficial effects of currently used alternatives to in-feed antibiotics, i.e. probiotics, prebiotics, organic acids, phytogenic compounds and zeolites on health and growth performance in farm animals (swine, poultry and ruminants).

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Effects of Age and Reproductive Stage on Certain Serum Biochemical Parameters of Chios Sheep Under Greek Rearing Conditions

Roubies

Panousis

Fytianou

et al. 2006

Journal of Veterinary Medicine Series A

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The aim of the present study was to determine the normal ranges of the most commonly used serum biochemical parameters of sheep reared under Greek breeding conditions, as well as to test for the effects of the age and reproductive status of the animals on the normal values of these parameters. In total, 200 clinically healthy Chios sheep from 10 farms were used in the experiment. For the determination of the effect of age 150 sheep were assigned in three groups. Group A consisting of 50 lambs aged 2-6 months (mean +/- SD: 4.15 +/- 1.08), group B of 50 non-pregnant ewes into lactation aged 1-3 years (mean +/- SD: 2.12 +/- 0.86) and group C of 50 non-pregnant ewes into lactation aged more than 3 years (mean +/- SD: 5.98 +/- 1.66). For evaluating the effect of reproductive status 50 pregnant ewes in dry period were used, 15-30 days before the expected day of lambing (group D), along with the 100 non-pregnant ewes into lactation of groups B and C (group E). Blood sampling was performed once, in dry ewes from December to January, and in lambs and lactating ewes from March to May. The results showed that of the 14 biochemical parameters determined in serum, six were significantly affected by the age and eight by the reproductive stage of the animals.

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Development and validation of a TaqMan probe-based real-time PCR method for the differentiation of wild type lumpy skin disease virus from vaccine virus strains

Agianniotaki

Chaintoutis

Haegeman

et al. 2017

Journal of Virological Methods

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Investigation on the incidence of adverse reactions, viraemia and haematological changes following field immunization of cattle using a live attenuated vaccine against lumpy skin disease

Katsoulos

Chaintoutis

Dovas

et al. 2017

Transbound Emerg Dis

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SummaryThe present study was performed to investigate the clinical impact and certain virological and haematological parameters following immunization of cattle against lumpy skin disease (LSD). The study was conducted in a dairy cattle farm (215 animals), immunized with a Neethling strain-based live vaccine. Twenty-seven animals (14 lactating cows, four dry cows and nine calves) were randomly selected for repetitive blood and saliva samplings. An EvaGreen-based real-time PCR was designed to differentiate vaccine from field LSDVs. Vaccinated animals underwent examination for adverse reactions. Nodule samples were collected from two representative cases for histopathological testing and virus identification. Milk yield was calculated based on bulk-tank measurements of all lactating cows (79). Viral DNA was detected between days 6-15 post-vaccination (p.v.) at 63% of the sampled animals (17/27). Saliva and bulk-tank milk samples were LSDV-negative. Pronounced swelling was observed at injection sites of 12% of the immunized animals (26/215), starting at day 6 p.v., and was resolved after 2-4 days. Small-sized (<0.5 cm) cutaneous lumps were developed between days 8-18 p.v. at 9% of the vaccinated animals (19/215). These were observed in adult cows and not in calves/heifers.Resolution was observable 10 days post-development. The vaccine virus was also identified in nodules and injection-site aspirates. Haematological changes (e.g., lower leucocyte counts) were observed in cows and not in calves. Daily milk production was being reduced during the first 12 days p.v. LSD immunization of cows resulted in nodules and low viraemia levels. The fact that nodules and haematological changes were not observed in calves, along with the low viraemia, supports the reduced virulence of the Neethling vaccine strain. The characteristic nodules in vaccinated animals could allow clinical differentiation from those observed in LSD. The developed real-time PCR efficiently differentiates infected from vaccinated cattle, and should be further validated as a tool in LSD surveillance. † The first two authors contributed equally to this work.

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