D. H. Duvivier scite author profile

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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Validation of a portable equine metabolic measurement system

Art

Duvivier²,

Erck

et al. 2006

Equine Veterinary Journal

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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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Aerosol deposition in equine lungs following ultrasonic nebulisation versus jet aerosol delivery system

Votion¹,

Ghafir²,

Munsters³

et al. 1997

Equine Veterinary Journal

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Summary Therapeutic aerosols play an increasing role in the treatment of equine respiratory disorders. This route of delivery permits concentration of significant amounts of drugs at the site of action without unwanted high systemic concentration and resultant side effects. The efficiency of such a topical therapy depends on the quantity of inhaled drugs deposited in the lungs and, for some drugs, on the proportion retained in specific parts of the lungs. The objective of this study was to define and to compare quantitative (dose deposited) and qualitative (regional distribution) deposition of an aerosol in the equine lungs, using either an ultrasonic nebuliser (UN) currently used in human medicine or a high pressure jet nebuliser (JN) especially developed for the equine species. This comparison was possible owing to gamma‐scintigraphy, a noninvasive technique ideally suited to give information about both total and regional deposition of inhaled drugs in the respiratory tract. The quantitative study did not point out any difference between the 2 systems concerning the activity released from the nebuliser proportionally to the initial loaded dose (mean ± s.d. 45.95 ± 4.93% for the UN vs. 46.47 ± 8.49% for the JN). By contrast, the percentage of the dose released reaching the lungs was significantly lower with the UN compared to the JN (5.09 ± 0.66% vs. 7.35 ± 1.96 %). The qualitative analysis did not show any significant difference in size of aerosol deposition image between the 2 nebulisers. However peripheral deposition was significantly higher with JN compared to UN. In conclusion, both nebulisers may be used for aerosol therapy in the equine species. The ultrasonic and pneumatic nebulisation achieved drug deposition in the peripheral part of the lungs (i.e. small airways and lung parenchyma).

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Aerosol therapy in the equine species

Duvivier

Votion

Vandenput

et al. 1997

The Veterinary Journal

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D. H. Duvivier

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

Validation of a portable equine metabolic measurement system

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

Aerosol deposition in equine lungs following ultrasonic nebulisation versus jet aerosol delivery system

Aerosol therapy in the equine species

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