Can dogs drink water after exercise?

Learn more about 2Penn Vet Working Dog Center at the University of Pennsylvania School of Veterinary Medicine in Philadelphia, Pennsylvania, USA.

Learn more about 2Penn Vet Working Dog Center at the University of Pennsylvania School of Veterinary Medicine in Philadelphia, Pennsylvania, USA.

Learn more about 2Penn Vet Working Dog Center at the University of Pennsylvania School of Veterinary Medicine in Philadelphia, Pennsylvania, USA.

Working dogs that were properly hydrated and exercise-conditioned were given free access to tap water (TW) with or without a nutrient-enriched water supplement (NW), and their physiological responses to exercise were assessed. Before and after performing work-related field tasks, physiological samples and measurements were taken in a warm, moderately humid environment. In a cross-over design study, 12 dogs (8–23 months old) were tested three times during each period with exercise sessions lasting up to 30 minutes on days 4, 3, and 11. Dogs were given a daily combination of portion-controlled NW and ad libitum TW or ad libitum TW. Pulse rate (PR), core (BTcore), and ear (BTear) temperatures were measured before and serially after exercise. Urine was taken first thing in the morning, whereas blood samples and body weight (BW) measurements were taken before and right after exercise. Ambient temperature was above 21. 7°C (71°F) and relative humidity ranged from 36 to 76%. On any exercise day, there was no difference between the treatment groups in the activity parameters, AM urine measurements, post-exercise percent change of BW, resting PR, or resting BTcore. The mean BTcore for all dogs varied from 104 to 122 after exercise. 8 to 105. 6°F. When compared to BTcore, immediate post-exercise BTear always had lower means. 3 to 104. 0°F. The effect of time was highly significant (P < 0. 001), with BTcore and BTear returning to resting levels 60 minutes after exercise. A significant main effect of time was seen in PR and several blood values. Dogs in the NW group had lower mean BTear and PR by 0 over the recovery period. 6°F and 3. 4 bpm, respectively. In this population of working dogs undergoing a 30 minute bout of exercise, daily consumption of a NW along with unrestricted access to TW can lessen the post-exercise-related BTcore and BTear hyperthermia and improve pulse rate recovery.

Due to their natural athletic ability, dogs can perform a variety of jobs or services that require physical exertion. Therefore, it’s important to consider the multi-systemic effects of exercise and the performance-limiting factors. Dogs exert energy during exercise, which causes heat production and insufficient heat dissipation, resulting in the natural process of hyperthermia (1–5). An important physiological indicator of thermoregulation and the risk of heat stress, hyperthermia has been observed in dogs in response to exercise of various durations and intensities. However, it is also a factor that reduces performance during physical activity (6–8). Early studies on dogs found that peripheral cooling during exercise could increase exercise capacity and reduce hyperthermia as evidenced by lower muscle, hypothalamic, and rectal temperatures (4, 5). More advanced techniques have recently been used in canine exercise studies to monitor brain temperature (BT) in exercising dogs with the least amount of interference during or after exercise. These methods include recording core body temperature (BTcore) with ingestible sensors (9–12) and ear temperature (BTear) with non-contact infrared thermography of the tympanic membrane (12, 13), which is representative of brain temperature in humans (14, 15), but has not yet been confirmed as brain temperature in dogs.

In dogs, evaporative heat loss and respiratory exchange play a major role in controlling body temperature (1). Exercise and evaporative cooling through panting together cause a number of physiological changes, including hyperthermia (1), increased heart rate and panting (7), concurrently increased respiratory water loss that contributes to the change from a eu-hydrated (true-hydration) state to a hypohydrated (dehydrated) state (16, 17), and many others (8, 12). One of the earliest studies on canine athletes found that, in addition to the impact of thermal regulation, dehydration can have a negative impact on exercise performance (18), with dehydrated dogs conserving body water at the expense of higher BT. Dehydration’s impact on thermoregulation, either prior to exercise or while exercising, and reduced or impaired performance are both related. Dehydrated dogs, specifically, have higher resting rectal and hypothalamic temperatures (17). When compared to dogs who started their 30-minute workout adequately hydrated, dehydrated dogs develop higher BTrec at the end of the workout (7, 16, 19). Dehydrated dogs also have lower carotid blood flow, a lower cardiac output, and a lower rate of evaporative water loss 30 minutes after exercise (16), all of which will increase hyperthermia but help to reduce water loss.

Despite the fact that numerous studies on canine exercise have looked at hyperthermia and water loss, they have mainly concentrated on physiological changes in dehydrated or given a hypertonic solution (model to increase plasma osmolality and not change plasma volume) dogs as opposed to “hydrated” dogs with unrestricted access to tap water (4, 5, 7, 16, 17, 19) dogs. The use of a water supplement to improve hydration or lower the risk of dehydration in dogs on exercise-related dehydration (20) or physiological changes (21) has only been studied in a small number of nutrition studies. The use of a glycerol solution decreased exercise-related dehydration, whereas testing of an electrolyte-enriched solution did not show a benefit to reduce post-exercise BT (21, 22). It appears that no research has been done to determine whether a nutrient-enriched water supplement (NW) containing glycerol and/or other nutrients might affect changes in BT caused by exercise in dogs. As opposed to this, a ton of research has been done to examine the use of water supplements to support human athletes’ increased water needs, prevent dehydration, and lower hyperthermia (23-26). There is no consensus on how to define optimal water intake volume in dogs, optimal hydration, or the overall impact of adequate hydration on health (29), so the nutritional recommendation to always have fresh water available for the pet’s own desire to consume water and establish individual eu-hydration (27) is still used. Estimates of water requirements for dogs have been reported for daily maintenance (27) and exercise (28), but no estimates of water requirements have been reported for dogs for daily maintenance (29). More recently, a study on canine nutrition evaluated a NW that was given to dogs as a supplement to ad libitum tap water and found that non-exercising dogs would have significantly increased daily water intake and hydration (30).

This study was created to assess two goals based on earlier research. First, assess the physiological effects of exercise in hydrated, exercise-trained dogs operating in a warm, moderately humid environment that was predicted to cause sub-clinical to mild dehydration. Dogs performing a variety of exercises, such as search, agility, and retrieving, were evaluated physiologically for pre-exercise urine parameters, exercise hyperthermia of BTcore and BTear, pulse rate, venous blood gases, and body temperature. Second, to see if a NW that has been shown to increase hydration in dogs that aren’t exercising (30) would reduce the physiological changes brought on by exercise that lead to fatigue, poor performance, or heat stress. When dogs always had free access to tap water or received a portion-controlled amount of NW daily in addition to free access to tap water, it was assumed that they were adequately hydrated before exercise. We predicted that dogs consuming the NW along with unlimited tap water would show that physiological changes brought on by exercise would recover more quickly or be less pronounced than the tap water control group.

As previously mentioned (12), the University of Pennsylvania Institutional Animal Care and Use Committee approved the study protocol (#805342). Twelve dogs of five different breeds, eight males and four females, were exercise-conditioned; they included six Labrador retrievers, three German shepherds, one Dutch shepherd, one Springer spaniel, and one German wirehaired pointer. The dogs’ ages ranged from 8 to 23 months (with 16 months as the median). The BW mean was 26. 3 kg (± SD 5. 8 kg) and ranged from 14. 4 to 36. 4 kg (31. 7 to 80. 0 lbs). A physical examination and a veterinarian’s assessment at the start of each week were both used to determine whether or not each dog participating in the exercise trial had overall good general health before the trial started. Every dog that took part in the study had previously received training in retrieving and various agility and search tasks. Exercise conditioning was outlined as daily activity of the same kind and duration as the exercise protocol for at least four weeks prior to the study. The University of Pennsylvania owned dogs that were enrolled in the Penn Vet Working Dog Center (PVWDC) training program, where they received daily training and resided in foster homes on the weekends. Dogs were individually and temporarily housed in a large (1. 5 × 1 × 1. when not engaged in training or exercise during the day, a 2 m) crate at the PVWDC. Every field activity and sample collection took place on the PVWDC grounds.

Daily food intake was monitored throughout the study. To maintain an ideal body condition score between 4 and 5 out of 9 (31) all dogs were fed twice or three times per day. Dogs were kept on commercial dry kibble (Nestlé Purina PetCare Company, St. Louis, Mo., Purina Pro Plan Sport All Life Stages Performance 30/20 Formula Dog Food or Purina Pro Plan Focus Sensitive Skin and Stomach Formula Dog Food). ) through the duration of the trial. Only on days when samples were collected after exercise, the mid-day feeding for dogs fed three times a day was postponed until after all post-exercise measurements were taken.

How much water should a dog drink?

Water makes up a large portion of both our bodies and that of our dogs. Water aids in digestion, delivers essential nutrients, and controls a dog’s body temperature. And if a dog doesn’t drink enough water, they risk dehydration, which, if left untreated, could result in serious medical conditions like organ failure. So, just how much water is enough?.

A dog should typically consume 1 ounce of water per pound of body weight each day. This means that a dog weighing 65 pounds needs to drink 65 ounces of water each day. That is approximately 8 cups or a half a gallon of water.

However, there are numerous variables that can alter this average amount before you pull out the measuring cup and begin to carefully give water to your dog. For instance, if your dog consumes primarily moist foods, such as homemade or canned food, they will consume some of that water. Additionally, if they only consume dry kibble, they may require more water than usual to maintain proper hydration. A dog’s thirst and water consumption can also be affected by other factors.

How long should you wait to give dog water after exercise?

After exercise, you should wait at least an hour before feeding your dog so that their stomachs have time to settle and relax before consuming a substantial amount. Always make sure that your dog has access to fresh, clean water, whether you feed him before or after exercise.

Is it OK to drink water immediately after exercise?

1. Drink water: Be sure to sip on some water after your workout. After working out, drinking water regulates body temperature and replaces fluids lost through perspiration.

FAQ

Should you give dogs water after a walk?

When your dog is in hotter climates or during the warmer months, they should naturally drink more water. Additionally, after vigorous activity, such as going for a walk or playing, they should drink more water. Additionally, you should anticipate your dog to drink more water each day if they consume dry kibble.

Can we have water immediately after exercise?

Drink water: Be sure to sip on some water after your workout. After working out, drinking water regulates body temperature and replaces fluids lost through perspiration. Drinking water is crucial to your weight loss program. 2.

Can dogs eat immediately after workout?

Never feed your dog immediately before or after vigorous exercise. This could make the dog’s stomach more likely to bloat or twist, especially in large-breed or dogs with deep chests. Dogs shouldn’t be fed an hour before or after exercise, as a general rule.