Senior dog diet

Last updated

Senior dog food diets are pet foods that are catered toward the senior or mature pet population. The senior dog population consists of dogs that are over the age of seven for most dog breeds, [1] though in general large and giant breed dogs tend to reach this life stage earlier when compared to smaller breed dogs. Senior dog foods contain nutrients and characteristics that are used to improve the health of the aging dog. Aging in dogs causes many changes to occur physiologically that will require a change in nutrient composition of their diet. [1]

Contents

A major change that occurs is the decrease in energy requirements [1] which is addressed by lowered caloric content of senior pet foods. Although energy requirements decrease, protein requirements increase as the dog ages. Senior dog foods include a higher protein content as well as highly digestible protein sources to deal with this. Nutrients included for joint and bone health include glucosamine, chondroitin, omega-3 fatty acids as well as two main minerals; calcium and phosphorus. Sources of fiber included in senior dog foods include beet pulp and flax seed as well as fructooligosaccharides (FOS) and mannanoligosaccharides (MOS). These act to increase gastrointestinal health.

Brain and cognitive health decline as the dog ages which leads to the inclusion of vitamin E and L-carnitine in senior dog diets to combat this decline. Skin and coat health can also decline in older dogs due to various reasons. [2] The inclusion of linoleic acid as well as vitamin A into senior dog diets helps to improve or maintain the skin and coat of senior dogs. Immune system health is important to maintain in older dogs to prevent the development of various diseases. By including omega-3 and omega-6 fatty acids, vitamin E, β-carotene as well as pre- and pro-biotics, the immune system can be boosted and maintained to help improve overall health.

Senior dogs
Dog for Senior Dog Food Diet Wikipedia Page.jpg
Dogs are considered seniors around seven years of age for most dog breeds.

Energy demand

The maintenance energy requirement (MER), or the energy that is required to maintain normal activity, decreases significantly as a result of lean body mass loss in aging dogs. [1] The MER can decrease by up to 25% as dogs age due to this loss. [3] Basal metabolic rate is maintained by lean mass energy expenditure, which accounts for 96% of the function of lean mass. [3] The metabolizable energy, or the amount of available energy which is left after the losses in urine, feces and combustible gas is subtracted, can be found on the food bag or calculated using the modified Atwater equation:

ME (kcal/kg) = 10[(3.5 x Crude Protein) + (8.5 x Crude Fiber) + (3.5 x Nitrogen Free Extract)]

This equation takes into consideration the amount of energy availability from crude protein, crude fiber, and the nitrogen free extract from pet foods in order to calculate the amount of energy the animal is receiving from the food. [4]

It is important to consider the metabolizable energy content of senior or mature pet foods using this equation, as energy requirements will vary with age. [5]

Protein

A dog's requirements for protein increases as a result of a reduced ability to synthesize proteins as it ages. [3] As a result, it is extremely important to not restrict protein consumption to a senior dog as it can be as just as harmful as protein deficiency in young dogs. [3]

To ensure good health, it is important to provide dogs with the 22 amino acids which they require. Of these 22 amino acids, 12 can be synthesized. The rest must be provided by good sources of dietary protein in adequate quantities. Good sources of protein include eggs and fish, which have a high biological value. This value describes the percentage of usable amino acids within the protein. [6] It has been recommended that a minimum of 2.55 grams of protein per kilogram of body weight should be fed daily to ensure that protein requirements are met. [3]

It is important to understand that protein requirements based on weight are variable and that many factors influence the protein requirements of each senior dog.

Bone and joint health

Joint deterioration occurs as dogs age. As their joints become less lubricated there is increased friction between the bone and the cartilage. With this increased friction, the cartilage deteriorates and wears away. The reduction of this cushion in the joints causes bone-on-bone contact to occur, causing the animal great discomfort. This can cause various related issues such as altered gaits and changes in activity levels resulting in a greater possibility of obesity and other conditions related to mobility and activity levels.

Joint and bone health deteriorate as dogs age. The new book of the dog - a comprehensive natural history of British dogs and their foreign relatives, with chapters on law, breeding, kennel management, and veterinary treatment (1911) (white background 2).jpg
Joint and bone health deteriorate as dogs age.

There has been research done in human medicine that indicates the positive effect that a combination of chondroitin sulphate and glucosamine can have on moderate-to-severe knee pain. [7] This effect is likely very similar to the effect these two ingredients have on the joints of aging dogs. It is important to note the effects of these supplements is not instant and the aforementioned studies showed approximately a 3-month period between the beginning of supplementation and the reduction of symptoms. [8]

Glucosamine

Glucosamine is a building block for the synthesis of cartilage tissue. [9] It is found naturally in the body, mainly in the fluid which surrounds the joints. [8] This can help aging joints by maintaining the cartilage, thus reducing the pain caused by bone-on-bone contact within the joint (this is the primary source of joint pain in aging animals). This will increase the mobility of the dog which is vital for the maintenance of a healthy weight and general body function. There have also been some studies which have showed anti-inflammatory properties of glucosamine which would also help joint function in aging dogs. [8] Glucosamine is usually provided in supplements in the form of glucosamine sulfate, or by the inclusion of chicken meal in the diet, as it contains glucosamine as well as chondroitin. [9] [10]

Chondroitin

Chondroitin is a major component in the composition of cartilage. [9] It helps the cartilage retain moisture, lubricating the joint and allowing ease of movement of the bone across the cartilage. [8] This reduces the damage to the cartilage over time. Chondroitin is produced naturally in the boy but older dogs can often benefit from a supplemental dose of chondroitin. [8] Chondroitin is commonly supplied as a supplement in the form of chondroitin sulfate.

Omega-3 fatty acids

Omega-3 fatty acids include docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA). These two fatty acids have been shown to improve gait score and lameness in dogs with osteoarthritis. [11] Omega-3 fatty acids have also been shown to have noticeable anti-inflammatory properties. It is for this reason, among other benefits, that they are routinely included at supplemental levels in senior dog diets. [12] A good source of omega-3 fatty acids in dog foods include fish oils and other fish sources (especially salmon and herring) as well as flaxseed. [13]

Calcium and phosphorus

One of the most basic requirements of the aging dog's body is the requirement for maintenance of their bones. In order for the bones to be able to heal from any injury or erosion, as well as maintain their strength to avoid these problem, they need a ready supply of calcium and phosphorus. [14] Both of these are essential nutrients according to AAFCO guidelines, and should be included in a senior dog diet. [15] Calcium and Phosphorus are also very valuable in the maintenance tooth health of dogs. In order for calcium to be properly absorbed into the body dogs will require another nutrient, vitamin D. [16] [17] adequate vitamin D is needed to form enough calcitriol, known as the active form of vitamin D. [17] If enough is not present the body will begin to draw from stores of vitamin D within the body like the bones and teeth for its needs. [17] This can lead to bone weakening and the inability to repair bone damage. [17]

Gastrointestinal health

Sources of Fiber

Beet pulp is a good source of insoluble fiber. Sugar beet cossettes.jpg
Beet pulp is a good source of insoluble fiber.

Beet pulp

Beet pulp is a common ingredient in dog diets as it is a very versatile and useful fiber source. [18] [19] Beet pulp provides fiber to the diet which acts as a stool hardener and aids in lower tract “cleansing”. [18] [19] The composition of beet pulp is such that it is an insoluble and moderately fermentable fiber. [18] [19] This means it can add bulk to the diet as well as moisture to the stool while also supplying the animal's cells lining the intestine with energy due to the moderate fermentation that occurs. [18] [19]

Flax seed

Flax seed is the whole seed of the flax plant which contains both soluble and insoluble fiber. [20] The insoluble fraction includes cellulose, hemicellulose, and lignin. [20] These components have a very good water binding capacity which aids in adding bulk into the diet of the dog. [20] This has varying benefits for dogs depending on their lifestyle. In some dogs, it aids in digestion by preventing constipation, in others it acts to improve satiety and encourage weight loss. [21] Flaxseed is also a good source of omega-3 and omega-6 fatty acids which have multiple health benefits for the animal such as improving coat quality. [21] Flax seed is also one of the richest sources of alpha linoleic acid (ALA). [21] ALA can be converted by the dog to DHA and EPA to carry out various functions in the body.

Fructooligosaccharides and mannanoligosaccharides

Fructooligosaccharides, commonly known as FOS, consist of many different types of indigestible oligosaccharides. [22] FOS is shown to be beneficial in providing a source of energy for the good gut bacteria in dogs. [22] Mannanoligosaccharides are also known as MOS which also have an effect on the overall gut health in dogs. [22] These compounds both contain oligosaccharides however; they work in different manners. Constipation prevention and treatment can be carried out by the supplementation of FOS by its subsequent effect on gut bacteria. [22] MOS works in a different manner by effecting the attachment of bad bacteria in the gut of the dog. [22] These bad bacteria attach to the epithelial lining of the gastrointestinal tract and can cause the beginnings of pathogenic diseases. [22] MOS works to counteract these by preventing the binding of these deleterious bacteria. [22]

A study carried out in dogs determined that these two compounds when supplemented together can help with overall immune function. [22] This is due to the decrease in overall bad bacteria and an increase in good bacteria in the gastrointestinal tract. These two compounds also were not found to have any detrimental effects on food consumption, stool quality or stool output. [22]

Brain and cognitive health

A dogs brain undergoes many pathological changes during the aging process. Some of these changes can include damage to the DNA (deoxyribonucleic acid), a decrease in the amount of myelin overlay on nerve cells as well as a buildup of protein in the brain which can potentially have toxic effects. [23] Due to these physiological changes senior and aging dog can have possible impairment of proper cognition. [23] This impairment can include complex learning tasks as well as memory issues. [23]

Vitamin E

The addition of Vitamin E as an antioxidant in senior dog food can have a positive effect on brain and cognitive health. Vitamin E is a fat soluble vitamin which works to prevent oxidative damage from occurring. [23] Reactive oxygen species can develop in the brain and can have a harmful effect by causing oxidative stress on the tissues if they are not subdued by antioxidants. [24] Mitochondrial aerobic metabolism is thought to be the largest source of reactive oxidative species. [23] As the mitochondria age their function declines which causes an increase in the production of oxidative species. [23]

Studies carried out in aging dogs looking at the effects of antioxidant supplemented diets have shown that older dogs supplemented with antioxidants including Vitamin E were able to correctly perform tasks more often than senior dogs whose diets were not supplemented. [23] It has also been shown that in senior dogs consuming these antioxidant enriched diets there was an increase in positive behavioural actions during the feeding period compared to senior dogs consuming diets that were not supplemented. [23]

L-carnitine

L-carnitine is an amino acid and precursor of acetyl-L-carnitine which is a mitochondrial cofactor. [23] It acts to help with overall mitochondrial function as well as lipid metabolism which is an important function of mitochondria. [23] This is important as an increase in mitochondrial function will help to reduce the rates of oxidative reactions in the brain which overall decrease damage to DNA and stimulates better cognitive function. [23]

Skin and coat health

Several physiological changes in the senior pet can lead to a decline in skin and coat health. [2] Some of these changes include a loss of elasticity in the skin which leads to wrinkling, hair follicle atrophy which can cause hair loss, a decrease in oil secretion which can lead to dry and flaky skin as well as a loss of melanocytes which causes the loss of pigmentation of the hair follicles. [2] Skin and coat health is one of the most noticeable aging changes due to the fact that it results in a change in appearance of the senior dog. Skin and coat health are important to upkeep as dogs age and there are many components in senior dog foods that can benefit this important area of health.

Soybean oil is a good source of linoleic acid. Soybean Oil, Meal and Beans (10059732523).jpg
Soybean oil is a good source of linoleic acid.

Linoleic acid

Linoleic acid is a polyunsaturated fatty acid that is classified as an omega 6-fatty acid. [25] Linoleic acid plays an important role in the maintenance of the water barrier of skin. [25] This helps prevent the dryness and scaly skin that occurs during the aging process. Omega 6-fatty acids can also have a slight anti-imflammatory role. [25] Good sources of linoleic acid to look for in senior dog foods include corn oil, soybean oil and poultry fat. [25]

Vitamin A

Vitamin A is a fat soluble vitamin that aids in the keratinization process of hair. [26] This process is important in maintaining a healthy coat in the aging dog and preventing the deterioration of epithelial tissues. [26] Dogs do not directly need a source of Vitamin A as they can convert beta-carotene (a precursor to Vitamin A) into Vitamin A. [26] However, Vitamin A supplementation in senior dog diets can assist senior dogs in maintaining their coats as their sebaceous activity and skin elasticity decrease. Vitamin A supplements can be included in senior dogs diets however there are also other good sources of Vitamin A. These include milk, egg yolk, and liver. [20] The inactive form of Vitamin A, beta-carotene can be found in high amounts in carrots. [20]

Zinc

Zinc is one of many trace minerals recommended for dogs of all ages. [27] Dogs experience loss of elasticity and dryness of the skin as they age. [2] The addition of zinc in the diet aids in the development of collagen and wound healing, and also will prevent the skin from becoming dry and flaky. [27] Senior dogs can obtain zinc in their diet through the addition of various ingredients, including; red meats, whole grains, poultry by-product meals, and fish meals.

Copper

Loss of hair pigmentation is a common concern for senior dogs. [2] Copper has been shown to improve coat conditions by reducing dry skin and improving the overall pigmentation of the coat. [28] Therefore, copper may able to delay the natural aging process of the whitening of a dog's coat. [28]

 Riboflavin

Senior dogs require a larger amount of riboflavin for maintenance compared to adult dogs. Vitamin B2, also known as riboflavin, plays an important role as a cofactor for the metabolism of carbohydrates. Riboflavin is required in the diet to prevent cracking and dry skin, as well as a darkening of the pigmentation of skin. [29] Riboflavin is also important for the vision of the senior dog as deficiencies can cause alterations in blood supply to the cornea which may lead to impaired vision and potential blindness. [29] A source of riboflavin in senior dog diets is important to help prevent changes that aging can cause on skin.

Immune system health

Immune functions start to decline due to compromised ability to efficiently produce various proteins and cells that are important for the body's defense system as dogs age. Free radicals can cause oxidative stress, killing the cells or impairing the functional capability of the cells, which leads to weakening of the immune system. [30] Therefore, providing dietary antioxidants can be an effective method to prevent the oxidative stress and support the immune system.

Ratio of omega-6 to omega-3 fatty acids

Omega-6 and omega-3 fatty acids are very important for a strong healthy immune system and for preventing chronic disease in dogs. It is crucial in pet diets that the ratio of omega-6 to omega-3 fatty acids is properly balanced in order to achieve optimal health. [31]

It is recommended to have a ratio of 5:1 to 10:1, with there being more omega-6 fatty acids than omega-3's. AAFCO has a maximum ratio listed of 30:1. [15] For ideal health and decreased risk of low-grade chronic inflammation, it is more beneficial to have a lower ratio versus a higher one. [32] Omega-3 fatty acids have anti-inflammatory properties and therefore need to be supplemented in a closer ratio to omega-6's which are more inflammatory. [33] Out of all of the omega-3 fatty acids that could be used, the most potent are found in fish oil in the forms of EPA and DHA, these have the highest immunomodulatory activities. [33] Omega-3 fatty acids tend to increase antioxidant requirements because they oxidize so rapidly, therefore when they are in a closer ratio to omega-6 fatty acids, as recommended, antioxidants must also be supplemented in the diet. [33]

Vitamin E

Vitamin E is an antioxidant that can be supplemented in the diet in order to strengthen the effect of fatty acid supplementations. [31] This vitamin works to decrease the production of pro-inflammatory markers that are found in synovial fluid of the joints. [34] With the help of this antioxidant, chronic inflammation can be avoided which aids senior dogs in maintaining a healthier immune system as well as helping to ease the symptoms of osteoarthritis. Also, formation of H
2O
2, which is a reactive oxygen species that suppress lymphocyte proliferation, can be decreased by vitamin E. [35]

β-Carotene

Beta-carotene can be found in certain vegetables and it is a highly potent antioxidants. The number of T-cells is naturally decreased with age, leading to compromised immune function. However, in old dogs supplemented with dietary beta-carotene had no statistical difference in the amount of CD4+ T cells when compared to younger dogs. [36] It can also enhance cell-mediated immune responses and help prevent cancer. [37] Dogs supplemented with high dose of dietary beta-carotene may show red discoloration of feces and staining of hair. [38] However, toxicity level of beta-carotene in dogs is not clearly understood as dogs can also cleave beta-carotene into vitamin A in their intestines. [39]

Prebiotic and probiotic

Since the gastrointestinal tract is exposed to foreign materials from ingested food, a healthy microbiota in the gut is a very important component of the immune system. [40] Prebiotic and probiotic supplements can help maintain healthy gut flora. [41] Examples of common prebiotic ingredients in dog foods are Fructooligosaccharides(FOS), Mannanoligosaccharides (MOS), and beta-glucan. Examples of common probiotic ingredients in dog foods are Lactobacillus acidophilus and Enterococcus faecium .

See also

Related Research Articles

<span class="mw-page-title-main">Vitamin A</span> Essential nutrient

Vitamin A is a fat-soluble vitamin and an essential nutrient for animals. The term "vitamin A" encompasses a group of chemically related organic compounds that includes retinol, retinal, retinoic acid, and several provitamin (precursor) carotenoids, most notably beta-carotene. Vitamin A has multiple functions: it is essential for embryo development and growth, for maintenance of the immune system, and for vision, where it combines with the protein opsin to form rhodopsin – the light-absorbing molecule necessary for both low-light and color vision.

<span class="mw-page-title-main">Retinol</span> Chemical compound

Retinol, also called vitamin A1, is a fat-soluble vitamin in the vitamin A family that is found in food and used as a dietary supplement. Retinol or other forms of vitamin A are needed for vision, cellular development, maintenance of skin and mucous membranes, immune function and reproductive development. Dietary sources include fish, dairy products, and meat. As a supplement it is used to treat and prevent vitamin A deficiency, especially that which results in xerophthalmia. It is taken by mouth or by injection into a muscle. As an ingredient in skin-care products, it is used to reduce wrinkles and other effects of skin aging.

<span class="mw-page-title-main">Kitten</span> Juvenile cat

A kitten is a juvenile cat. After being born, kittens display primary altriciality and are fully dependent on their mothers for survival. They normally do not open their eyes for seven to ten days. After about two weeks, kittens develop quickly and begin to explore the world outside their nest. After a further three to four weeks, they begin to eat solid food and grow baby teeth. Domestic kittens are highly social animals and usually enjoy human companionship.

A nutrient is a substance used by an organism to survive, grow, and reproduce. The requirement for dietary nutrient intake applies to animals, plants, fungi, and protists. Nutrients can be incorporated into cells for metabolic purposes or excreted by cells to create non-cellular structures, such as hair, scales, feathers, or exoskeletons. Some nutrients can be metabolically converted to smaller molecules in the process of releasing energy, such as for carbohydrates, lipids, proteins, and fermentation products, leading to end-products of water and carbon dioxide. All organisms require water. Essential nutrients for animals are the energy sources, some of the amino acids that are combined to create proteins, a subset of fatty acids, vitamins and certain minerals. Plants require more diverse minerals absorbed through roots, plus carbon dioxide and oxygen absorbed through leaves. Fungi live on dead or living organic matter and meet nutrient needs from their host.

<span class="mw-page-title-main">Dietary supplement</span> Product that provides additional source of nutrients

A dietary supplement is a manufactured product intended to supplement one's diet by taking a pill, capsule, tablet, powder, or liquid. A supplement can provide nutrients either extracted from food sources or that are synthetic in order to increase the quantity of their consumption. The class of nutrient compounds includes vitamins, minerals, fiber, fatty acids, and amino acids. Dietary supplements can also contain substances that have not been confirmed as being essential to life, but are marketed as having a beneficial biological effect, such as plant pigments or polyphenols. Animals can also be a source of supplement ingredients, such as collagen from chickens or fish for example. These are also sold individually and in combination, and may be combined with nutrient ingredients. The European Commission has also established harmonized rules to help insure that food supplements are safe and appropriately labeled.

<span class="mw-page-title-main">Dog food</span> Food intended for consumption by dogs usually made from meat

Dog food is food specifically formulated and intended for consumption by dogs and other related canines. Dogs are considered to be omnivores with a carnivorous bias. They have the sharp, pointed teeth and shorter gastrointestinal tracts of carnivores, better suited for the consumption of meat than of vegetable substances, yet also have ten genes that are responsible for starch and glucose digestion, as well as the ability to produce amylase, an enzyme that functions to break down carbohydrates into simple sugars – something that obligate carnivores like cats lack. Dogs evolved the ability living alongside humans in agricultural societies, as they managed on scrap leftovers and excrement from humans.

<span class="mw-page-title-main">Cat food</span> Food for consumption by cats

Cat food is food specifically designed for consumption by cats. As obligate carnivores, cats have specific requirements for their dietary nutrients, namely nutrients found only in meat, such as taurine, arginine, and Vitamin B6. Certain nutrients, including many vitamins and amino acids, are degraded by the temperatures, pressures and chemical treatments used during manufacture, and hence must be added after manufacture to avoid nutritional deficiency.

Skin disorders are among the most common health problems in dogs, and have many causes. The condition of a dog's skin and coat is also an important indicator of its general health. Skin disorders of dogs vary from acute, self-limiting problems to chronic or long-lasting problems requiring life-time treatment. Skin disorders may be primary or secondary in nature, making diagnosis complicated.

Raw feeding is the practice of feeding domestic dogs, cats, and other animals a diet consisting primarily of uncooked meat, edible bones, and organs. The ingredients used to formulate raw diets vary. Some pet owners choose to make home-made raw diets to feed their animals but commercial raw diets are also available.

<span class="mw-page-title-main">Dog coat</span> Hair that covers its body

The coat of the domestic dog refers to the hair that covers its body. Dogs demonstrate a wide range of coat colors, patterns, textures, and lengths.

<span class="mw-page-title-main">Lutein</span> Yellow organic pigment created by plants

Lutein is a xanthophyll and one of 600 known naturally occurring carotenoids. Lutein is synthesized only by plants, and like other xanthophylls is found in high quantities in green leafy vegetables such as spinach, kale and yellow carrots. In green plants, xanthophylls act to modulate light energy and serve as non-photochemical quenching agents to deal with triplet chlorophyll, an excited form of chlorophyll which is overproduced at very high light levels during photosynthesis. See xanthophyll cycle for this topic.

Cat skin disorders are among the most common health problems in cats. Skin disorders in cats have many causes, and many of the common skin disorders that afflict people have a counterpart in cats. The condition of a cat's skin and coat can also be an important indicator of its general health. Skin disorders of cats vary from acute, self-limiting problems to chronic or long-lasting problems requiring life-time treatment. Cat skin disorders may be grouped into categories according to the causes.

<span class="mw-page-title-main">Aging in dogs</span> Aging in dogs

Aging in dogs varies from breed to breed, and affects the dog's health and physical ability. As with humans, advanced years often bring changes in a dog's ability to hear, see, and move about easily. Skin condition, appetite, and energy levels often degrade with geriatric age, and medical conditions such as cancer, kidney failure, arthritis, dementia, and joint conditions, and other signs of old age may appear.

<span class="mw-page-title-main">Vegan nutrition</span> Nutritional and human health aspects of vegan diets

Vegan nutrition refers to the nutritional and human health aspects of vegan diets. A well-planned, balanced vegan diet is suitable to meet all recommendations for nutrients in every stage of human life. Vegan diets tend to be higher in dietary fiber, magnesium, folic acid, vitamin C, vitamin E, iron, and phytochemicals; and lower in calories, saturated fat, cholesterol, long-chain omega-3 fatty acids, vitamin D, calcium, zinc, and vitamin B12.

<span class="mw-page-title-main">Puppy nutrition</span>

The developmental life stage of dogs requires a specific intake of nutrients to ensure proper growth and development and to meet energy requirements. Despite the fact that puppies have different nutritional requirements compared to their adult counterparts, of the 652 breeders surveyed in the United States and Canada in 2012, 8.7% report feeding puppies commercial diets not intended for the developmental life stage of canines. Large and small dog breeds have even more specific nutrient requirements during growth, such as adjusted calcium to phosphorus ratio, and as such should receive a breed specific growth formula. Feeding diets formulated by a nutritionist for specific breeds and life stage differences in nutrient requirements ensures a growing puppy will receive the proper nutrition associated with appropriate skeletal, neurological and immune development. This includes nutrients such as protein, fibre, essential fatty acids, calcium and vitamin E. It is therefore important to feed puppies a diet that meets the minimum and/or maximum requirements established by the National Research Council.

<span class="mw-page-title-main">Senior cat diet</span>

A senior cat diet is generally considered to be a diet for cats that are mature, senior, or geriatric. Nutritional considerations arise when choosing an appropriate diet for a healthy senior cat. Dietary management of many conditions becomes more important in senior cats because changes in their physiology and metabolism may alter how their system responds to medications and treatments.

High performance sport dogs are those bred and trained to compete in various athletic events. Events include but are not limited to, agility trials, hunting and racing. These events are physically and metabolically demanding. As a result, canine athletes require specialized nutrition in order to perform at high levels during events and for maintenance and recovery. The main nutritional concern for sport dogs is adequate energy. A well-balanced diet, containing the appropriate amounts of protein, fat, carbohydrate, fiber and micronutrients is essential to meet these energy requirements.

<span class="mw-page-title-main">Hypoallergenic dog food</span>

Hypoallergenic dog food diets are created for dogs that experience food-related allergies causing adverse effects to their physical health.Super Hypoallergenic is enzymatic hydrolyzed hypoallergenic ostrich protein. The molecules that usually become allergens are intact proteins or glycoproteins. Hypoallergenic dog food diets offer a variety of protein sources that are unique by using proteins that are not recognized by the dog's antibodies as being antigens, minimizing allergic reactions for example Ostrich meat, bones and sinews. Adding novel protein sources, such as novel meats that a dog or its ancestors have never been exposed to is one method. Novel proteins can also be created by chemically modifying well known protein sources using hydrolysis techniques, rendering proteins unrecognizable by the gastrointestinal tract. Not all antigens are specific to proteins, however, and it is possible for anything that the body ingests to become an allergen. Providing diets with a limited amount of ingredients can be used for diagnostic purposes, as well as for dogs who are allergic to the common ingredients that are used in pet food. Certain nutrients are commonly incorporated into hypoallergenic dog food to help alleviate the symptoms of an allergic reaction. These ingredients include omega-3 fatty acids, Vitamins A and E, zinc, novel carbohydrates, and fiber.

In general, cognitive support diets are formulated to include nutrients that have a known role in brain development, function and/or maintenance, with the goal of improving and preserving mental processes such as attentiveness, short-term and long-term memory, learning, and problem solving. Currently, there is very little conclusive research available regarding cat cognition as standardized tests for evaluating cognitive ability are less established and less reliable than cognitive testing apparatus used in other mammalian species, like dogs. Much of what is known about feline cognition has been inferred from a combination of owner-reported behaviour, brain necropsies, and comparative cognitive neurology of related animal models. Cognition claims appear primarily on kitten diets which include elevated levels of nutrients associated with optimal brain development, although there are now diets available for senior cats that include nutrients to help slow the progression of age-related changes and prevent cognitive decline. Cognition diets for cats contain a greater portion of omega-3 fatty acids, especially docosahexaenoic acid (DHA) as well as eicosapentaenoic acid (EPA), and usually feature a variety of antioxidants and other supporting nutrients thought to have positive effects on cognition.

<span class="mw-page-title-main">Vegetarian and vegan dog diet</span> Adequate meat-free or animal-free nutrition

As in the human practice of veganism, vegan dog foods are those formulated with the exclusion of ingredients that contain or were processed with any part of an animal, or any animal byproduct. Vegan dog food may incorporate the use of fruits, vegetables, cereals, legumes including soya, nuts, vegetable oils, as well as any other non-animal based foods.

References

  1. 1 2 3 4 Laflamme, Dorthy (May 2005). "Nutrition for Aging Cats and Dogs and the Importance of Body Condition". Veterinary Clinics of North America: Small Animal Practice. 35 (3): 713–742. doi:10.1016/j.cvsm.2004.12.011. PMID   15833567.
  2. 1 2 3 4 5 Bellows, Jan; Colitz, Carmen M. H.; Daristotle, Leighann; Ingram, Donald K.; Lepine, Allan; Marks, Stanley L.; Sanderson, Sherry Lynn; Tomlinson, Julia; Zhang, Jin (2014-12-17). "Common physical and functional changes associated with aging in dogs". Journal of the American Veterinary Medical Association. 246 (1): 67–75. doi: 10.2460/javma.246.1.67 . ISSN   0003-1488. PMID   25517328.
  3. 1 2 3 4 5 Churchill, Julia A. (2015). "Nutrition for senior dogs: New tricks for feeding old dogs" (PDF). Clinician's Brief. Retrieved November 17, 2017.
  4. Hall J.A., Melendez L.D. and Jewell D.E. (2013). "Using gross energy improves metabolizable energy predictive equations for pet foods whereas undigested protein and fiber content predict stool quality". PLOS ONE. 8 (1): e54405. Bibcode:2013PLoSO...854405H. doi: 10.1371/journal.pone.0054405 . PMC   3544805 . PMID   23342151.
  5. "Metabolizable energy and caloric density". Pet education. Retrieved November 18, 2017.
  6. "Dietary protein for dogs and cats - the importance of digestible proteins". Happy Dog Food. November 8, 2016. Retrieved November 17, 2017.
  7. Clegg, Daniel O.; Reda, Domenic J.; Harris, Crystal L.; Klein, Marguerite A.; O'Dell, James R.; Hooper, Michele M.; Bradley, John D.; Bingham, Clifton O. III; Weisman, Michael H. (2006-02-23). "Glucosamine, Chondroitin Sulfate, and the Two in Combination for Painful Knee Osteoarthritis". New England Journal of Medicine. 354 (8): 795–808. doi: 10.1056/NEJMoa052771 . ISSN   0028-4793. PMID   16495392.
  8. 1 2 3 4 5 "Glucosamine and Chrondroitin for Arthritis". www.arthritis.org. Retrieved 2017-10-30.
  9. 1 2 3 "What is Chicken Meal in Dog Food? - Purina® | Purina". www.purina.com. Retrieved 2017-10-30.
  10. Nutro. "NUTRO™ WHOLESOME ESSENTIALS™ Large Breed Senior Farm-Raised Chicken, Brown Rice & Sweet Potato Recipe". www.nutro.ca. Retrieved 2017-10-30.
  11. Roush, James K.; Cross, Alan R.; Renberg, Walter C.; Dodd, Chadwick E.; Sixby, Kristin A.; Fritsch, Dale A.; Allen, Timothy A.; Jewell, Dennis E.; Richardson, Daniel C. (2010). "Evaluation of the effects of dietary supplementation with fish oil omega-3 fatty acids on weight bearing in dogs with osteoarthritis". Journal of the American Veterinary Medical Association. 236 (1): 67–73. doi:10.2460/javma.236.1.67. PMID   20043801.
  12. Wall, Rebecca; Ross, R Paul; Fitzgerald, Gerald F; Stanton, Catherine (2010-05-01). "Fatty acids from fish: the anti-inflammatory potential of long-chain omega-3 fatty acids". Nutrition Reviews. 68 (5): 280–289. doi: 10.1111/j.1753-4887.2010.00287.x . ISSN   1753-4887. PMID   20500789.
  13. "Common Pet Food Ingredients" (PDF). Skaerv Veterinary Clinic. October 31, 2017.
  14. "Calcium Supplements". vca_corporate. Retrieved 2017-10-30.
  15. 1 2 "The Association of American Feed Control Officials > Home". www.aafco.org. Retrieved 2017-10-30.
  16. Parfitt, A. M.; Gallagher, J. C.; Heaney, R. P.; Johnston, C. C.; Neer, R.; Whedon, G. D. (1982-11-01). "Vitamin D and bone health in the elderly". The American Journal of Clinical Nutrition. 36 (5): 1014–1031. doi:10.1093/ajcn/36.5.1014. ISSN   0002-9165. PMID   6765068.
  17. 1 2 3 4 "Calcium and Vitamin D: Important at Every Age | NIH Osteoporosis and Related Bone Diseases National Resource Center". www.bones.nih.gov. Retrieved 2017-10-30.
  18. 1 2 3 4 Canine and feline nutrition : a resource for companion animal professionals. Case, Linda P. (3rd ed.). Maryland Heights, Mo.: Mosby. 2011. pp. 421–422. ISBN   9780323066198. OCLC   664112342.{{cite book}}: CS1 maint: others (link)
  19. 1 2 3 4 Fahey, G; Merchen, N; Corbin, J; Hamilton, A; Serbe, K; Lewis, S; Hirakawa, D (1990). "Dietary fiber for dogs: I. Effects of graded levels of dietary beet pulp on nutrient intake, digestability, metabolizable energy and digesta mean retention time". Journal of Animal Science. 68 (12): 4221–4228. doi:10.2527/1990.68124221x. PMID   1962765.
  20. 1 2 3 4 5 "Common Pet Food Ingredients" (PDF). Retrieved 2017-10-30.
  21. 1 2 3 Adolphe, Jennifer; Fitzpatrick, Kelley. "FLAXSEED: Nutrition Benefits for Dogs and Cats" (PDF). Flax Council of Canada. 2: 1–4.
  22. 1 2 3 4 5 6 7 8 9 Swanson, K.S., Grieshop, C.M., Flickinger, E.A., Bauer, L.L., Healy, HP., Dawson K.A., Merchen N.R. and Fahey G.G. Jr. (May 2002). "Supplemental fructooligosaccharides and mannanoligosaccharides influence immune function, ileal and total tract nutrient digestibilities, microbial populations and concentrations of protein catabolites in the large bowel of dogs". The Journal of Nutrition. 132 (5): 980–989. doi: 10.1093/jn/132.5.980 . PMID   11983825.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  23. 1 2 3 4 5 6 7 8 9 10 11 Roudebush, Philip; Zicker, Steven C.; Cotman, Carl W.; Milgram, Norton W.; Muggenburg, Bruce A.; Head, Elizabeth (2005-09-01). "Nutritional management of brain aging in dogs". Journal of the American Veterinary Medical Association. 227 (5): 722–728. doi: 10.2460/javma.2005.227.722 . ISSN   0003-1488. PMID   16178393.
  24. Gadoth and Gobel, Nathan and Hans (2011). Oxidative Stress and Free Radical Damage in Neurology. Totowa, New Jersey: Humana Press. pp. 1–2. ISBN   9781603275149.
  25. 1 2 3 4 Straus M. (November 2012). "Plant oils: do you know which plant oils may help your dog, and which ones could cause problems?". Whole Dog Journal. 15: 16.
  26. 1 2 3 Watson, Tim D.G. (1998). "Diet and Skin Disease in Dogs and Cats". The Journal of Nutrition. 128 (12): 2783–2789. doi: 10.1093/jn/128.12.2783s . PMID   9868266.
  27. 1 2 Marsh, K.; Coe, S.; Ruedisueli, F.; Watson, T. (2000). "Effects of zinc and linoleic acid supplementation on the skin and coat quality of dogs receiving a complete and balanced diet". Veterinary Dermatology. 11 (4): 277–284. doi:10.1046/j.1365-3164.2000.00202.x.
  28. 1 2 Tewari, D.; Singh, V.K.; Gautam, S.; Dwivedi, V. (December 2013). "Nutritional dermatosis - a review". Intas Polivet. 14: 199–202.
  29. 1 2 Spies, Tom D. (1943). "The Natural Occurrence of Riboflavin Deficiency in the Eyes of Dogs". Science. 98 (2547): 369–370. Bibcode:1943Sci....98..369S. doi:10.1126/science.98.2547.369. JSTOR   1671149. PMID   17748289.
  30. Puertollano, Maria A.; Puertollano, Elena; Alvarez de Cienfuegos, Gerardo; de Pablo, Manuel A. (1 July 2011). "Dietary Antioxidants: Immunity and Host Defense". Current Topics in Medicinal Chemistry. 11 (14): 1752–1766. doi:10.2174/156802611796235107. PMID   21506934.
  31. 1 2 Wander, R. C.; Hall, J. A.; Gradin, J. L.; Du, S. H.; Jewell, D. E. (June 1997). "The ratio of dietary (n-6) to (n-3) fatty acids influences immune system function, eicosanoid metabolism, lipid peroxidation and vitamin E status in aged dogs". The Journal of Nutrition. 127 (6): 1198–1205. doi: 10.1093/jn/127.6.1198 . ISSN   0022-3166. PMID   9187636.
  32. Dietary Reference Intakes for Energy, Carbohydrate, Fiber, Fat, Fatty Acids, Cholesterol, Protein and Amino ACids (Macronutrients). Washington D.C.: National Academy Press. 2005.
  33. 1 2 3 Simopoulos, Artemis P. (2002-12-01). "Omega-3 Fatty Acids in Inflammation and Autoimmune Diseases". Journal of the American College of Nutrition. 21 (6): 495–505. doi:10.1080/07315724.2002.10719248. ISSN   0731-5724. PMID   12480795. S2CID   16733569.
  34. Rhouma, Mohamed; de Oliveira El Warrak, Alexander; Troncy, Eric; Beaudry, Francis; Chorfi, Younès (2013). "Anti-inflammatory response of dietary vitamin E and its effects on pain and joint structures during early stages of surgically induced osteoarthritis in dogs". Canadian Journal of Veterinary Research. 77 (3): 191–198. ISSN   0830-9000. PMC   3700444 . PMID   24101795.
  35. Hall, Jean A.; Tooley, Katie A.; Gradin, Joseph L.; Jewell, Dennis E.; Wander, Rosemary C. (June 2003). "Effects of dietary n-6 and n-3 fatty acids and vitamin E on the immune response of healthy geriatric dogs". American Journal of Veterinary Research. 64 (6): 762–772. doi: 10.2460/ajvr.2003.64.762 . PMID   12828263. S2CID   41785417.
  36. Massimino, Stefan; Kearns, Robert J.; Loos, Kathleen M.; Burr, John; Park, Jean Soon; Chew, Boon; Adams, Scott; Hayek, Michael G. (November 2003). "Effects of Age and Dietary β-Carotene on Immunological Variables in Dogs". Journal of Veterinary Internal Medicine. 17 (6): 835–842. doi: 10.1111/j.1939-1676.2003.tb02523.x . PMID   14658721.
  37. Hughes, David A. (1999). "Effects carotenoids on human immune function". Proceedings of the Nutrition Society. 58 (3): 713–718. doi: 10.1017/S0029665199000932 . PMID   10604207.
  38. HEYWOOD, R; PALMER, A; GREGSON, R; HUMMLER, H (August 1985). "The toxicity of beta-carotene". Toxicology. 36 (2–3): 91–100. doi:10.1016/0300-483X(85)90043-5. PMID   4049434.
  39. Head, Elizabeth; Rofina, Jaime; Zicker, Steven (January 2008). "Oxidative Stress, Aging, and Central Nervous System Disease in the Canine Model of Human Brain Aging". Veterinary Clinics of North America: Small Animal Practice. 38 (1): 167–178. doi:10.1016/j.cvsm.2007.10.002. PMC   2390776 . PMID   18249248.
  40. Kau, Andrew L.; Ahern, Philip P.; Griffin, Nicholas W.; Goodman, Andrew L.; Gordon, Jeffrey I. (15 June 2011). "Human nutrition, the gut microbiome and the immune system". Nature. 474 (7351): 327–336. doi:10.1038/nature10213. PMC   3298082 . PMID   21677749.
  41. Deng, Ping; Swanson, Kelly S. (21 November 2014). "Gut microbiota of humans, dogs and cats: current knowledge and future opportunities and challenges". British Journal of Nutrition. 113 (S1): S6–S17. doi: 10.1017/S0007114514002943 . PMID   25414978.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.