Sandrina Vandenput scite author profile

SUMMARYStandardized methods were used to make quantitative and qualitative assessments of respirable dust and aeroallergens in feed and bedding for horses.Concentrations of airborne dust were measured by using a Rion particle counter, and levels of major aeroallergens implicated in chronic obstructive pulmonary disease were measured by using an Andersen sampler. Laboratory conditions allowed comparison of the different sources of forage, supplements, and bedding without external influences such as ventilation, external temperature and horse activity affecting the result. Crass silages of approximately 50 % dry matter and alfalfa pellets appeared to be very good sources of forage with low levels of dust and aeroallergens. The studied good quality straw was significantly less dusty with fewer allergens than the wood shavings. Supplements, such as whole grains and molassed concentrates, contained many respirable particles and aeroallergens. Rolled grains were significantly more dusty than good hay.

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Is evidence-based medicine so evident in veterinary research and practice? History, obstacles and perspectives

Vandeweerd

Kirschvink

Clegg

et al. 2012

The Veterinary Journal

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Does an acute COPD crisis modify the cardiorespiratory and ventilatory adjustments to exercise in horses?

Art

Duvivier

Votion

et al. 1998

Journal of Applied Physiology

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The present study was conducted to understand better the mechanisms leading to the decrease in exercise capacity observed in horses suffering from chronic obstructive pulmonary disease (COPD). Five COPD horses were submitted to a standardized submaximal treadmill exercise test while they were in clinical remission or in acute crisis. Respiratory airflow, O2 and CO2 fractions in the respired gas, pleural pressure changes and heart rate were recorded, and arterial and mixed venous blood were analyzed for gas tensions, hemoglobin, and plasma lactate concentrations. O2 consumption, CO2 production, expired minute ventilation, tidal volume, alveolar ventilation, cardiac output, total pulmonary resistance, and mechanical work of breathing were calculated. The results showed that, when submaximally exercised, COPD horses in crisis were significantly more hypoxemic and hypercapnic and that their total pulmonary resistance and mechanical work of breathing were significantly higher and their expired minute ventilation significantly lower than when they were in remission. However, their O2 consumption remained unchanged, which was probably due to the occurrence of compensatory mechanisms, i.e., higher heart rate, cardiac output, and hemoglobin concentration. Last, their net anaerobic metabolism seemed to be more important.

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Traditional plant-based remedies to control gastrointestinal disorders in livestock in the regions of Kamina and Kaniama (Katanga province, Democratic Republic of Congo)

Embeya

Simbi

Stévigny

et al. 2014

Journal of Ethnopharmacology

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Effect of a set stabled environmental control on pulmonary function and airway reactivity of COPD affected horses

Vandenput

Votion

Duvivier

et al. 1998

The Veterinary Journal

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