Browsing by Author "Shoveller AK"

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    Age-Dependent Increase in Small Intestinal Permeability and Sex-Dependent Absorptive Capacity in Cats (Felis catus)
    (Wiley-VCH GmbH, 2025-11-02) Patterson K; Bermingham EN; Fraser K; Bernstein D; Weidgraaf K; Shoveller AK; Thomas DG
    Age-associated changes in intestinal permeability and function have not been studied in domestic cats, leaving a key factor in the relationship between age and digestive health in cats unexplored. Due to factors not currently understood, mature and senior cats may experience a loss of fat and protein digestibility, along with a loss of body weight (BW), impacting lifespan and quality of life. Therefore, to establish the relationship between age and intestinal health, intestinal permeability and absorptive capacity were quantified in young and senior cats using a differential sugar absorption test (SAT) on cat plasma. A solution containing four different sized sugars was orally administered to 36 healthy mixed-breed domestic shorthair cats (male (n = 21) and female (n = 15)) split into two groups by age, young 2.40 ± 0.758 (n = 21) and senior 11.23 ± 1.896 (n = 15) years (mean ± SD). Blood was collected before and again 3 h after dosage and plasma was analysed using liquid chromatography mass-spectrometry (LC-MS). Intestinal permeability was higher (p = 0.004) in senior cats than young cats, and was not affected by sex (p = 0.288), sampling date (p = 0.652), or BW (p = 0.951). Absorptive capacity was higher (p = 0.033) in male cats than females, and was not affected by age class (p = 0.440), sampling date (p = 0.580), or BW (p = 0.652). In conclusion, intestinal permeability was higher in older cats and suggests age-related changes in intestinal barrier structure and function. These findings highlight the need to further consider increased intestinal permeability as a cause of reduced nutrient digestibility in older cats, offering a new target for interventions to enhance their health and well-being.
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    Nutritional needs and health outcomes of ageing cats and dogs: is it time for updated nutrient guidelines?
    (Oxford University Press on behalf of the American Society of Animal Science, 2024-06-20) Bermingham EN; Patterson KA; Shoveller AK; Fraser K; Butowski CF; Thomas DG
    Implications • While cats are classed as senior at 10 years of chronological age, physiological and health changes occur from 8 years of age and it appears that diet may influence the ageing process. • Dogs are classed as senior at 12 years for smaller dogs and 10 years for larger breeds. Due to differences in longevity associated with breed size a definite age that dogs start to experience changes is difficult to establish. • Despite our pets ageing, living in extreme cases to 30 + years, there are no explicit nutritional guidelines for feeding ageing animals. Increased scientific knowledge around the specific nutritional requirements of ageing cats and dogs is required. • Many of the underlying physiological processes (e.g., immune function) and age-associated health conditions (e.g., cognitive decline) respond to nutritional intervention. This suggests that nutritional and regulatory guidelines, should consider recommendations for ‘senior+’ pets. • Due to the unique nutritional requirements of cats and dogs, more specific knowledge around the mechanisms of ageing is required.