Abstract
The study of canine athlete physiology has focused on endurance sled dog racing and high intensity short duration Greyhound racing, yet the number of dogs competing in low intensity endurance activities is rising due to the increased numbers of hunting and companion dog activities. There is little information on the physiological effect of longer duration low intensity endurance activities. We set out to evaluate the serum biochemistry, oxidative stress, and cortisol response before and after two consecutive days of exercise in ten healthy unconditioned male dogs. Exercise sessions consisted of 120 minutes on an exercise wheel at 11 km/hour on 2 consecutive days. Blood was collected at four time points: 24 hours pre-exercise (sample 1, Day 0, resting); 2 min post-exercise on days 1 and 2, (samples 2 and 3, respectively); and 20 hours post-exercise, collected on day 3(sample 4). Hematocrit, blood gases, serum chemistry, uric acid, cortisol, and F2-isoprostanes were determined. Serum biochemistry and hematocrit suggested hemoconcentration, mild muscle damage and respiratory alkalosis during exercise, which was expected in the unconditioned canine athlete. In addition, plasma indices of oxidative damage (F2-isoprostanes) increased, as did plasma uric acid (an endogenous antioxidant). Importantly, similar to human studies, plasma F2-isoprostanes decreased 24 hours after exercise suggesting a protective effect of exercise. Serum cortisol concentrations were also markedly elevated at the end of exercise on both days suggesting that timing of sampling may play a role in interpreting cortisol results when looking at previous field studies.
Highlights
The study of exercise physiology in canine athletes has focused primarily on the endurance sled dog and the sprinting Greyhound [1]-[4]
Unconditioned dogs participated in 2 low intensity endurance exercise sessions on 2 consecutive days
Immediately following the day 1 and day 2 low intensity endurance exercise sessions, phosphorus levels decreased to 65% and 60%, respectively, compared to pre-exercise levels (p < 0.05; Table 1)
Summary
The study of exercise physiology in canine athletes has focused primarily on the endurance sled dog and the sprinting Greyhound [1]-[4]. In the last 10 years, the number of dogs competing in other canine sports has increased significantly. These include the low intensity endurance activities (30% - 40% VO2 max) typical amongst law enforcement, military, detection, search and rescue, recreational hunting dogs and companion dog “athletes”. The only information on canine endurance exercise comes from the examination of the physiological extreme of the high intensity endurance activity of sled dog racing in highly conditioned athletes [2] [3] [6]. Hydration status and kennel management have been shown to significantly affect hemodynamics in dogs within the same race [7].Considering all of these possible confounding variables present in many sled dog studies, it is not surprising that these studies have demonstrated significant inter-individual, as well as inter-study, variation in measures of exercise-induced muscle damage, i.e., plasma creatine kinase (CK) and aspartate amino-transferase (AST) [3] [6]
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