Fibre is a super important addition to your dog’s diet for a range of reasons, but where can we get it from? We’ve popped together 7 of our favourite foods to add to the bowl! Let’s get cracking. What is Fibre? Fibre is a non-digestible carbohydrate and it boasts a range of health benefits, for us, and our dogs. As fibre makes its way through the digestive tract, it can slow glucose absorption, which helps modulate blood sugar levels. It can also form a gel like substance which can trap potentially harmful pathogens. Fermentable fibres produce short chain fatty acids which have unique roles throughout the body. Not only do they contribute to maintaining a healthy gut barrier, but they are also precursors to many neurotransmitters, which directly affect mood and behaviour. Fibre is seen to modulate insulin production, blood pressure and thought to affect cholesterol and fatty acid absorption too. And last but not least, fibre can be a great way to modulate transit time in the gut too. Diarrhoea often results when transit time is too fast. Constipation often results when transit time is too slow. The perfect stool is a result of “just right” transit time. In addition, when this occurs, we support healthy anal gland expression. For a full expression, the faeces should be firm, and pick-up-able. This is why poor bowel movements can contribute to anal glands becoming impacted. 3 Top Tips for Anal Gland Health in Dogs Although fibre is generally an umbrella term, there are fibres within fibres, and we often hear more about the supplemental fibres when we are talking about our canine companions. Psyllium husk: Psyllium husk is a form of soluble fibre, it contains mucilage which swells when in contact with fluid, forming a gel. Psyllium can help to improve faecal consistency. Slippery Elm: An insoluble fibre with mucilage properties where it creates a film, soothes, protects, and helps to heal the entire gastric system, modulating gut function. The inner bark of the Slippery Elm is not only packed with nutrients like vitamins A, B complex, C, K, Calcium, magnesium, and sodium, but it also has anti-inflammatory properties. But we can get the benefits associated with fibre from a food first approach too! Fibrous Food Sources 1. Broccoli Not only is broccoli a great source of fibre but it is packed full of vitamins and minerals. You will find vitamins A, C and E, fibre and antioxidants in these little green trees! Vitamin A helps maintain structural and functional integrity of mucosal cells in innate barriers (skin, respiratory tract etc). Broccoli also contains a phytochemical called Indole-3-Carbinol. This compound is formed from a substance called glucobrassicin found in broccoli and other brasscia vegetables such as brussels sprouts, cabbage, collards, cauliflower, kale, mustard greens and turnips. Indole-3-carbinol is formed when these vegetables are cut, chewed, or lightly cooked and show some promise in their anti-cancer effect. To Serve: chop and lightly steam or blend. 2. Berries We generally love berries because they contain anthocyanins (Greek anthos =flower and kyáneos = blue). Many studies have linked these compounds with antioxidant, anti‐inflammatory, and anti-carcinogenic properties, along with protection against both heart disease and cancer, as well as a reduction in the risk of diabetes and cognitive function disorders. In addition, they have also demonstrated antimicrobial properties, specifically in cranberries and blueberries. But berries also pack a fair punch in terms of fibre content. Great berries to include are raspberries, blueberries, and cranberries. 3. Apples Another snack or training treat, apples pack a fair fibre punch! Chop into slices, just remember to avoid the seeds. Apples contain a range of antioxidants meaning they can help protect against oxidative stress. Apples are also a source of vitamin C and potassium. 4. Mushrooms There are literally thousands of species of mushrooms on the planet, so it can be a challenge to know where to start. But they are incredible in terms of the benefits they can provide. Mushrooms can be involved in the prevention of certain disease, the regeneration of damaged cells, the protection of tissues and cells and used during treatment of existing conditions. The bioactive compounds of mushrooms include polysaccharides, proteins, fats, ash, glycosides, alkaloids, volatile oils, tocopherols, phenolics, flavonoids, carotenoids, folates, ascorbic acid enzymes, and organic acids. Reishi mushrooms are adored for their immunomodulating benefits. Maiitike mushrooms have been used for their antibacterial function and cordyceps have been seen to inhibit inflammatory responses throughout the body. Mushrooms have been seen to be: Anti-inflammatory Anti-microbial Antioxidant Prebiotic Anti-diabetic And they are a great source of fibre for our dogs. If you are looking to add mushrooms to the bowl, cook them fully, lightly sauteed is fine. 5. Leafy greens Green leafy vegetables include spinach, kale, watercress and broccoli. In green leafy vegetables you will find vitamins A, C, E and K along with many of the B-vitamins. These vegetables also contain carotenoids. Carotenoids act as an antioxidant, deactivating free-radicals and limiting the damage they can cause. There are two broad classifications of carotenoids: carotenes and xanthophylls. The latter containing oxygen, whilst the former do not. Xanthophylls include lutein and zeaxanthin, which are both primarily associated with eye health. Beta-carotene one of the carotenes is turned into Vitamin A and is found in those green leafy veg like spinach and kale. Vitamin A is important in maintaining healthy skin, mucous membranes and supporting a functioning immune system. Green leafy vegetables also contain a rich source of folate, this is after all, where the name came from. Folate functions as a coenzyme in many processes in the body, it helps tissues grow and makes cells work. Folate is also involved in neurotransmitter synthesis, so it is implicated in mood and subsequently behaviour. To Serve: Lightly steam your kale or spinach, or blitz it up in a blender, pop it in a freezer mould and add them to your dog’s bowl! 6. Carrots You’ll notice the fibre content if you’ve ever fed these to your dog
Sadly, anal gland issues are quite prevalent in the general dog population and this can end up with owners asking groomers or vets to express them on a regular basis. The issue here is that anal gland expression has become the norm rather than the exception; and it really shouldn’t be. So, let’s take a look at the function of the anal glands and some of our top tips to promote anal gland health in the dog. What are the anal glands? The anal gland’s function is to release pheromones, enabling the communication between dogs and other mammals, including cats. The anal glands located on the lower sides of the anus, produce a fluid with a scent that identifies him or her, communicating sex, health, and approximate age to other animals. Healthy dogs display a huge variation in the appearance of their anal sac fluid; it can vary from yellow to brown and the consistency from watery to mucous to doughy. The secretion contains mucin rich in sialic acid and other anti-microbial proteins, namely lysozyme, immunoglobulin A and lactoferrin. As faeces is passed, the anal glands are expressed and so the fluid is secreted. But like all things in the body, sometimes this process goes a little wrong. The three main issues that arise with anal gland function include: impaction inflammation, and abscessation An anal sac impaction is characterized as an enlargement of the sacs due to retention of anal sac content, without showing any signs of inflammation except for pain and discomfort. Anal sac impaction can occur unilaterally, but most often it presents itself as bilateral. Anal sac inflammation, also called anal sacculitis, is defined as an enlargement combined with inflammation of the anal sac. The anal sac and perianal region often become red, swollen, and painful. In the case of an anal sac abscess, pyrexia (raised body temperature) is often present; however, pyrexia can also occur in the case of severe anal sac inflammation. An inflamed and often alopecic area of the anal sacs can be observed in the case of an anal sac abscess, again accompanied with swelling and pain. Discharge contaminated with blood can also occur. If your dog is suffering with their anal glands, you may notice the following: Scooting (dragging bottom on the floor) Licking or biting at the anus, Difficulty sitting or standing On rare occasion, chasing the tail. Predisposing Factors Anal sac disease is reported to occur more often in adult dogs and cats compared to puppies and kittens, Obesity may be a predisposing factor. Perianal fat can lead to compression of the anal sac ducts, resulting in retention of anal sac content. Anal sac disease in dogs seems to be more prevalent in spring/summer, Adverse food reactions or food allergies and atopic dermatitis are conditions mentioned as being associated with anal sac disease, There appears to be a relationship between the presence of diarrhoea and the occurrence of anal sac disease in dogs. 5 Reasons Why Your Dog May have Diarrhoea Sadly, there also appears to be around a 40% relapse rate for those dogs who suffer with anal gland disease. In dogs, recurrence of anal sac impaction and inflammation occurs on average after 4–5 months; for abscessation, the mean recurrence time is reported to be 10 months on average. Findings Here So, how can we avoid these issues, and certainly, if your dog has suffered anal gland issues, how can we avoid a relapse? 1) Support Healthy Immune Function The correlation between anal gland disease and food sensitivities and atopic dermatitis may suggest dysfunctional immune responses. It’s important to modulate inflammatory responses in the body and support a healthy immune system. It would be wise to embark on an elimination diet to establish any food sensitivities and optimise gut health. Elimination Diets For Dogs 7 Steps to Optimal Gut Health for Pets 2) Create a Healthy Gut Environment As the gut influences every function in the body, it makes sense to support its ecosystem as much as possible. Things that can contribute to a less than happy gut: Antibiotics Overuse of certain medications like proton pump inhibitors and antihistamines Poor liver function Poor motility Digestive disorders Poor pancreatic function Inflammation in the gut Stress Environmental toxins Dietary choices If you’d like to learn more about managing these for your dog, check out our blog here: What Can Help Gut Dysbiosis? 3) Feed a Wholefood Fresh Diet But you knew this one, didn’t you? When we feed foods that the digestive system can digest and utilise, everything moves as it should. Wholefoods offer roughage to the diet, helping elimination processes. Stools are better formed and so, as they pass, they express the anal glands. There has been data which indicated a meat only diet exacerbated anal gland issues, so remember if you do feed fresh, add some raw bones to the mix. If this is something you are unsure of, then please get in touch with us and we can help. Dietary fibre is also excellent at ‘moderating’ the transit time of food in the digestive tract. When this transit time is too fast (diarrhoea), fibre can slow digestion down and where it is too slow (constipation), it can help speed it up. Fibre can adapt beautifully and for this, a variation of vegetables and slippery elm is great. Slippery elm is a wonderful addition to your cat or dog’s diet, if they are having consistent anal gland problems. Slippery elm, also known as the red elm, is a native tree to North America. People use the inner bark for many different health concerns. It is a mucilage and as such, creates a layer around the mucous membrane of the digestive tract, soothing and healing the gut mucosa. If you would like some more pointers on supporting healthy anal gland function, check out our blog here: 4 Cornerstones for Healthy Anal Glands and if you would like some support with your dog’s health, then check out our services to see
As our pets eat their food, it passes from the stomach and into the small intestine. Whilst some of the digestive processes have already started, most of the chemical digestion that occurs in the small intestine relies on the activities of the pancreas, liver, and gallbladder. Let’s take a closer look at the function of the pancreas and its role in our pet’s digestion. What is the Pancreas? The pancreas is a gland found in the digestive system of our pet. It is made up of a head, a body and a pointy tail-like end. It is in the upper abdomen behind the stomach and carries out two main roles in the body: The pancreas produces: Enzymes that break down foods in the intestine Hormones that regulate blood sugar levels The pancreas is made up of small clusters of glandular epithelial cells. About 99% of these clusters constitute the exocrine portion of the organ. These cells secrete a mixture of fluid and digestive enzymes known as pancreatic juice. Pancreatic juice consists mostly of water, but it also contains some salts, sodium bicarbonate and several enzymes. The sodium bicarbonate gives the pancreatic juice a slight alkalinity that buffers the stomach acid in the chyme that has just arrived in the small intestine. It also stops the action of pepsin and creates the correct pH for the action of the digestive enzymes to function. The digestive juices that are made in the pancreas flow into the small intestine through a tube known as the pancreatic duct. In most bodies, this duct is joined by a similar duct coming from the gallbladder (the bile duct) before it reaches the small intestine. There is a circular muscle (sphincter) at the shared opening of the two ducts. This muscle controls the release of the digestive juices into the small intestine. The digestive juices usually only start working once they enter the small intestine. But if the pancreas is inflamed (pancreatitis), they already become active in the pancreas. This can start causing a range of issues. Digestive Enzymes Enzymes are biological molecules (typically proteins) that significantly speed up the rate of virtually all of the chemical reactions that take place within cells. When discussing the pancreas, there are three main types of enzymes: Lipases to break down fats Proteases to break down proteins Amylases to break down starch The remaining 1% of the clusters called pancreatic islets (islets of Langerhans) form the endocrine portion of the pancreas. These cells secrete the hormones glucagon, insulin and more. These hormones usually help to regulate blood glucose levels, stopping them from getting too high or too low. Glucose Regulation Glucose is a 6-carbon structure with the chemical formula C6H12O6. It is a source of energy for every organism in the world and is essential to fuel both aerobic and anaerobic cellular respiration. Glucose often enters the body in isometric forms such as galactose and fructose (monosaccharides), lactose and sucrose (disaccharides), or starch (polysaccharide). The body stores excess glucose as glycogen, which becomes liberated in times of fasting. Glucose is also derivable from products of fat and protein break-down through the process of gluconeogenesis. Once glucose is in the body, it travels through the blood and to energy-requiring tissues. There, glucose is broken down in a series of biochemical reactions releasing energy in the form of ATP. The ATP derived from these processes is used to fuel virtually every energy-requiring process in the body. As glucose is so important to life, it stands to reason that regulation of it is incredibly tight. And as we have noted, there are a number of hormones involved in this process. Hormones involved in Glucose Regulation Hormones Involved: Insulin is a peptide hormone. Insulin plays an important role to keep plasma glucose value within a relatively narrow range throughout the day. Insulin’s main actions are: (1) In the liver, insulin promotes glycolysis and storage of glucose as glycogen (glycogenesis), as well as conversion of glucose to triglycerides (2) In muscle, insulin promotes the uptake of glucose and its storage as glycogen (3) in adipose tissue, insulin promotes uptake of glucose and its conversion to triglycerides for storage Insulin lowers glucose levels. Glucagon: Glucagon acts exclusively on the liver to antagonise insulin effects on hepatocytes. It enhances glycogenolysis and gluconeogenesis. It also promotes oxidation of fat, which can lead to the formation of ketone bodies. Glucagon increases glucose levels. Levels of both insulin and glucagon vary depending on nutrient intake. The Fed State: The fed state occurs after a meal and is also known as the absorptive state. It is characterised by a high insulin to glucagon ratio. Anabolic metabolism dominates in the fed state largely to replenish fuel stores, this is achieved by glycogen synthesis, fatty acid synthesis and protein and amino acid metabolism. The Fasting State: The fasting state occurs between meals and ensures a maintenance of blood glucose level. This state is characterised by a low insulin to glucagon ratio. This low insulin to glucagon ratio overall promotes catabolism in comparison to the fed state. In this state the major pathways include gluconeogenesis, glycogenolysis, protein catabolism, lipolysis, and ketone body metabolism Endocrine cells secrete these respective hormones in response to external signals, such as nutrient intake or stress, via humoral, neural or hormonal signalling pathways. The Brain-Islet Axis The pancreas is highly innervated with both parasympathetic and sympathetic nerve fibres from the autonomic nervous system. At the same time, insulin receptors are widely distributed within the brain. In rat studies, lesions in various brain regions were shown to affect pancreatic hormone secretion. Norepinephrine also inhibits insulin secretion, which is an important aspect of the fight-or-flight response. Insulin release is stimulated by the cephalic phase, which is the period of anticipating a meal, to prepare the body to adequately respond to incoming nutrients. The Liver-Islet Axis The liver has a key role in glucose homeostasis by storing (glycogenesis) or releasing (glycogenolysis/gluconeogenesis) glucose. Liver Guard The Gut-Islet Axis The gut releases various
When we talk about nutrition we tend to focus on the protein and fat requirements of our pets (the carbohydrate requirement gets us all a little hot under the collar) and it stands to reason because they are macronutrients. What this means is that they are required in larger quantities for optimal bodily function. But we also have micronutrients, and despite them being required in lower quantities, they are still critical to health. Under the umbrella of micronutrients, we have vitamins and minerals. We have some helpful blogs on minerals here: Why Does My Dog Need Minerals – Part One Why Does My Dog Need Minerals – Part Two But, as vitamins are just as important, here at My Pet Nutritionist we thought we’d pop together a blog on why our dogs need them too! What Are Vitamins? Vitamins are defined by their physical and physiological characteristics. Vitamins are needed in minute quantities to function as essential enzymes, enzyme precursors of coenzymes in many of the body’s metabolic processes. Generally, vitamins are not synthesised by the body and must therefore be provided by food (but our canine companions have a trick up their sleeve with vitamin C for example). Fat vs. Water Soluble Vitamins Vitamins are split into fat soluble and water-soluble vitamins. In this blog, we will focus on the water-soluble vitamins. If you would like to learn more about the fat-soluble vitamins, then check out our blog here: Why Does My Dog Need Vitamins? Part One – The Fat-Soluble Vitamins The Water-Soluble Vitamins Water soluble vitamins are depleted at a faster rate because of limited storage and are less likely to cause toxicity but more likely to become deficient. Water soluble vitamins are absorbed by way of active transport, some vitamins require a carrier protein, like with B12 cobalamin (intrinsic factor), where others require a sodium dependent, carrier-mediated absorption pump. The B Vitamins The B complex vitamins are all water-soluble vitamins that were originally grouped together because of similar metabolic functions and occurrence in foods. These nine vitamins act as coenzymes for specific cellular enzymes that are involved in energy metabolism and tissue synthesis. Coenzymes are small organic molecules that must be present with an enzyme for a specific reaction to occur, like a key being required for a lock to engage. The following vitamins are all involved in the conversion of food to energy: thiamine riboflavin niacin pyridoxine pantothenic acid biotin The following are all important for cell growth and maintenance and/or blood cell synthesis: folate B12 cobalamin choline (it’s not actually a vitamin, but its often grouped with the B vitamins due to their similarities) Spotlight On… Biotin: Known as Vitamin H, for Haar and Haut (hair and skin), we know it more commonly as vitamin B7, or Biotin. One of the B vitamins, Biotin, helps the body convert food into energy. Specifically, biotin is involved in gluconeogenesis, which as we know is the synthesis of glucose from non-carbohydrate sources. Biotin is involved in fatty acid synthesis, which as we know, is key in skin health. Biotin is also involved in amino acid breakdown. Deficiency of biotin has been associated with immune depression and reduced collagen synthesis, another key consideration in structural health. Biotin deficiency is rare in those who ingest a varied diet, but symptoms in the dog include alopecia, dull coat, brittle hair and scaly skin. The use of antibiotics in the dog decreases the bacterial population of the large intestine which increases the dietary requirement for biotin. Rancid fats also inactive biotin, along with feed rancidity (storage conditions and length). Chlorine inactivates biotin, so this is of concern if dogs are offered chlorinated drinking water. Findings Here Many foods contain biotin, so opt for organ meats, eggs, fish, meat, seeds, and nuts. Fruits like raspberries also contain biotin, and vegetables like sweet potato. There are however some concerns that egg whites contain avidin which binds to biotin, making it unavailable for intestinal absorption. Deficiency has only occurred when over 30% of the diet consists of raw eggs. So, like all things, moderation is key. Vitamin B12 Vitamin B12, also known as cobalamin, is critical for a range of functions in the body. A common deficiency in human vegetarians, disorders of cobalamin metabolism are seemingly increasing in small animal medicine. The causes of deficiency range from chronic gastrointestinal disease to hereditary disease, but what is clear is the health impact of low levels. Vitamin B12 is essential for DNA and RNA synthesis and for cellular energy production. All cells in all bodies need to know what they are doing, and they need energy to do them! There are no known naturally occurring bioactive forms of B12 in plant sources. This is because B12 is synthesised by the bacteria in the gastrointestinal tract of animals, and then absorbed by the host animals. B12 is concentrated in their tissues, which is then eaten by other animals. Sources of B12 include red meat, fish, dairy and eggs. B12 can be depleted in times of stress. This occurs from a range of mechanisms. Stress is a physiological response; in the presence of a threat, the sympathetic nervous system kicks in for fight or flight. Energy is diverted to the brain and muscles as these are the parts of the body needed to escape. Once the threat has been resolved, the parasympathetic nervous system kicks in, returning energy to other bodily functions, which is why it is known as the rest and digest phase. In times of chronic stress, digestive functions can be significantly altered, which can result in malabsorption of nutrients, in this case B12. There are also suggestions that gastric acid can vary during times of stress, increasing or decreasing depending on the personality of the host. Changes in stomach acid secretion can also affect the digestion and absorption of nutrients. Can Stress Affect My Dog’s Digestive System? The last mechanism by which B12 levels are affected during times of stress is due to its role
When we talk about nutrition we tend to focus on the protein and fat requirements of our pets (the carbohydrate requirement gets us all a little hot under the collar) and it stands to reason because they are macronutrients. What this means is that they are required in larger quantities for optimal bodily function. But we also have micronutrients, and despite them being required in lower quantities, they are still critical to health. Under the umbrella of micronutrients, we have vitamins and minerals. We have some helpful blogs on minerals here: Why Does My Dog Need Minerals – Part One Why Does My Dog Need Minerals – Part Two But, as vitamins are just as important, here at My Pet Nutritionist we thought we’d pop together a blog on why our dogs need them too! What Are Vitamins? Vitamins are defined by their physical and physiological characteristics. Vitamins are needed in minute quantities to function as essential enzymes, enzyme precursors or coenzymes in many of the bodies metabolic processes. Generally, vitamins are not synthesised by the body and must therefore be provided by food (but our canine companions have a trick up their sleeve with vitamin C for example). Fat vs. Water Soluble Vitamins Vitamins are split into fat soluble and water-soluble vitamins. In this blog, we will focus on the fat-soluble vitamins, with the water-soluble vitamins to follow. Fat soluble vitamins can be stored in the body’s lipid deposits, making them more resistant to deficiency but also more likely to result in toxicity. Fat soluble vitamins require bile salts and fat to form micelles for absorption. They are then passively absorbed through the lacteals (the lymphatic vessels of the small intestine which absorb digested fats), usually in the duodenum and ileum and transported with chylomicrons to the liver via the lymphatic system. Synthetic and naturally made vitamins are used in the body in the same way but they do have different availabilities. The Fat-Soluble Vitamins Vitamin A Vitamin A is the term which describes several compounds which biologically, have the activity of the parent compound retinol. This form of the vitamin and its derivatives are found only in animal tissues, whereas plants contain precursors in the form of the carotenoids. These are the yellow/orange pigments found in carrots and many other vegetables. The most widely abundant precursor of vitamin A is carotene, and most animals can convert this into the vitamin itself. The well-known function of vitamin A is its role in vision. Vitamin A is a precursor of rhodopsin, the photopigment found in rods within the retina of the eye that helps us and our pets to see at night. One manifestation of vitamin A deficiency is slow, dark adaptation progressing to night blindness. Vitamin A is also part of the bone formation and bone resorption equation. It influences both osteoblast and osteoclast function. Much data is now suggesting higher vitamin A levels are associated with lower bone density so balancing levels is essential. Vitamin A plays a role in maintaining healthy endothelial cells which are those lining the body’s interior surfaces. As we know, in the gut, they play a role controlling the passage of antigens and commensal gut microbiota from the intestine into the bloodstream. Another key role of Vitamin A is supporting immune function. It helps make white blood cells which circulate in the body, searching for foreign invaders and cell irregularities. Sources of Vitamin A: Carotenoids: sweet potatoes, dark leafy greens, yellow/orange/red fruits/vegetables. Retinoids: animal meat; liver, fish oil. Vitamin D Vitamin D is actually a hormone that promotes calcium absorption. In human health, you will have heard it referenced as the sunshine vitamin as it is produced in the skin in response to sunlight (UV) exposure. Unlike herbivores and omnivores, cats and dogs are unable to synthesize Vitamin D adequately in the skin. There is no seasonal change in concentrations and studies have shown that when fed a diet deficient in Vitamin D, puppies develop rickets which could not be prevented by exposure to UVB light. Findings Here This means that cats and dogs are dependent on dietary sources of Vitamin D. There are two forms of Vitamin D. Vitamin D2 is also known as ergocalciferol which occurs in plants and Vitamin D3, known as cholecalciferol, is created in the skin during exposure to UV light and occurs in animals. Cholecalciferol (D3) is of greatest nutritional importance to both cats and dogs and luckily it can be obtained from the consumption of animal products that contain it. Once vitamin D3 is formed in the skin (of animals who can do so), it binds and is then either stored or transported to the liver. Both D2 and D3 are biologically inactive and must undergo two more steps to be activated. This involves both the liver and the kidneys. Vitamin D plays an indirect role in bone health by managing calcium levels in the body. It controls absorption of calcium in the intestine and the amount of calcium excreted by the kidneys. If Vitamin D levels are low, then the intestines struggle to absorb calcium. Vitamin D is also vital in immune function. We find vitamin D receptors on a range of immune cells, meaning there needs to be sufficient levels of it in the body for the cells to do their job. Vitamin D can help modulate inflammatory responses and is also required to produce natural killer cells which are known for killing virally infective cells. Findings Here The Importance of Vitamin D for Cats and Dogs Vitamin E Vitamin E includes several compounds, of which the most biologically active and widely distributed is alpha tocopherol. Vitamin E functions as an important antioxidant within cells, protecting lipids, particularly the polyunsaturated fatty acids in cell membranes against oxidative damage caused by free radicals and active forms of oxygen that may be generated during metabolic processes. The dietary requirement for vitamin E is influenced by the intake of selenium because of its role in glutathione
Being Global Prebiotic Week and something we are asked about regularly here at My Pet Nutritionist, we thought we’d explore the key differences between all those biotics! When we’re presented with prebiotics, probiotics and postbiotics, it’s hard to know where to start and if they even do a thing! So let’s get cracking. Prebiotics and probiotics are often thought of as one and the same, but their commonalities end with their role in the intestine. Prebiotics are fibre that feed the beneficial microorganisms residing in the intestine. Probiotics are live microorganisms that when ingested, can enhance intestinal microbial balance. Why is this important? The microbiome is an important modifier of disease and an essential component of immunity. Dysbiosis of the many microbiomes have been associated with a range of disorders. Your Puppy’s Microbiome What Can Cause Gut Dysbiosis Your Pet’s Immune System So, caring for the ecosystem found in the gut is of paramount importance. Prebiotics and Gut Health The most commonly considered prebiotics are classified as soluble fibres. They were first introduced as a functional food in 1995 by Marcel Roberfroid, but in 2007 Roberfroid clarified that only two classes of fructooligosaccharides (FOS) meet the full definition of a prebiotic. These are oligofructose and inulin. Oligofructose is a 2-8–chain fructose-based saccharide molecule that undergoes fermentation in the colon, providing nourishment to the bacteria found there. Inulin is a longer 9-64–chain fructose-based saccharide that is fermented more slowly, benefiting bacteria further down in the digestive system. It can also be broken down into FOS by intestinal bacteria to provide both FOS and inulin. These 2 fibres are considered minimally digestible because of the β bond–based connections of the fructose molecules. It is thought that dogs and cats lack the intestinal enzyme needed to break down the β bond and so they usually break down α saccharide bonds. The resident bacteria can break the β bond, producing short-chain fatty acids (SCFAs) known as acetate, propionate, and butyrate. SCFA’s have a range of roles for host health including: Energy source of intestinal cells Promote gut integrity Lower colonic pH Stimulate sodium and water absorption In addition, you may also find prebiotics containing the following: Mannan oligosaccharides (MOS) – from the yeast Saccharomyces cerevisiae Galactooligosaccharides (GOS) – found in dairy, beans and root vegetables Probiotics and Health Rather than encouraging the growth of beneficial bacteria and suppressing the growth of pathogenic bacteria, probiotics are thought to introduce beneficial bacteria into the environment. It is considered that the best use for these products is treatment of GI disease, such as diarrhoea and other GI abnormalities, including inflammatory bowel disease. The more we are learning about probiotic use, the more we are realising that the benefits associated are bacterial strain specific. What this means is the devil is in the detail. In addition, to function as a probiotic, the bacteria must: Survive the acid and bile in the GI tract Adhere to intestinal cells or colonise areas within the tract Exclude pathogenic adherence Produce acids, or other compounds which antagonise the growth of pathogens Be safe, non-invasive, non-carcinogenic and non-pathogenic The primary bacterial populations included in probiotics that have been seen to benefit both cats and dogs are lactic acid bacteria, especially lactobacilli, bifidobacteria, and enterococci. Postbiotics and Health Postbiotics are the bioactive compounds that probiotic bacteria produce when they consume prebiotic fibre. They are technically the waste products of probiotic bacteria and SCFA’s are one kind, along with: Enzymes Cell wall fragments Metabolites like vitamins and minerals Postbiotics are a relatively new concept, but they have been associated with a range of benefits: Postbiotics like butyrate (SCFA) can stimulate the production of regulatory T cells in the intestine, supporting immune function Cell wall fragments can increase the production of anti-inflammatory chemical messengers known as cytokines that help reduce inflammation and modulate immune responses Increased levels of butyrate have been associated with improved clinical outcomes in inflammatory bowel disease How Do We Get Them? It’s easy to reach for supplements, but certain foods already possess biotic properties. Sources of Prebiotics: Mushrooms Chicory Root Garlic Asparagus Dandelion Greens Bananas Sources of Probiotics: Fermented foods contain naturally occurring probiotics; but remember that prebiotics aren’t fussy about which bacteria they feed, so they could also feed harmful bacteria and yeast. Fermented foods can also be an issue for those dogs suffering SIBO or yeast infections. Bacterial Overgrowth Is Your Dog a Yeasty Beast Supplementation may be appropriate in certain cases, but as we have noted, benefits are often strain-specific and it’s essential to read the label fully if your dog suffers with sensitivities. Does My Dog Need a Prebiotic, Probiotic or Postbiotic? We would always advocate a food first approach, so offering a fresh whole-food diet, full of variety. But in tending to the ecosystem, which is a great modifier of disease, it’s important to not only include things of benefit, but avoid things of detriment too. The issue is when the bacteria populations in the gut get a little out of whack. We need to avoid those things that can cause imbalances between the good and bad guys in the gut: Overuse of antibiotics Proton pump inhibitors Antihistamines Poor motility Digestive disorders Poor pancreatic function Inflammation in the gut Stress Environmental toxins Dietary choices Poor liver function What Can Cause Gut Dysbiosis The inclusion of prebiotic foods is relatively easy to do, and either pre or probiotic supplementation may or may not be appropriate for your pet, but as you can see, it’s never as clear cut as we would like. Luckily, here at My Pet Nutritionist we look at everything that is going on for your pet and what may be compromising their health. Using this information, we develop a bespoke plan to get them on the right track. Check out our services if you would like to know more. Thanks for reading, Team MPN x
We sometimes talk about intolerances and allergies like this is the only thing that can cause your cat or dog’s itching. There can be so many reasons, layered reasons and some more serious than others. Here we explore some of the undetected and misdiagnosed reasons for your dog being itchy. Adrenal function The adrenal glands are located just in front of the kidneys. You will recognise them from when we discuss the stress response more often than not. The adrenal gland has 2 parts—the cortex and the medulla. The adrenal cortex is subdivided into 3 layers, and each layer produces a different set of steroid hormones. The outer layer produces the mineralocorticoids, which help regulate sodium and potassium salts. The middle layer produces glucocorticoids, which are involved in metabolising nutrients and reducing inflammation and immune responses. Finally, the inner layer produces sex hormones such as oestrogen, progesterone, and androgens. The adrenal medulla plays an important role in response to stress or low blood sugar levels in the body. It releases adrenaline and noradrenaline, both of which increase heart rate and blood pressure, increase blood sugar and slow digestion; the hallmark responses when us or our dogs are exposed to a stress trigger. The adrenal glands are part of the endocrine system – which is simply a system of glands that release chemical messengers called hormones. The endocrine system influences almost every cell, organ, and function in the body. So, if there is any issue in any part of it, things can start to go wrong. The two most common ways in which adrenal glands cause health issues are by producing too little or too much of certain hormones, which leads to hormonal imbalances. Hyperadrenocorticism (Cushing’s Disease) due to an excess of cortisol production frequently causes dogs to itch, lose hair, have thin skin with dark pigment, drink excessively and have recurring skin problems. But this raises another point, even if there are no physiological issues with the adrenal glands, high cortisol levels due to daily stress can also lead to itchy skin! Thyroid Function We’ll continue with the hormones for a minute and look at thyroid function. The thyroid is a butterfly shaped gland found in the neck. One of its main functions is to produce hormones to regulate the body’s metabolism, the process that turns food into energy. This too can produce too many hormones, or too few. These conditions are known as hyperthyroidism and hypothyroidism respectively. Hypothyroidism Hyperthyroidism Hyperthyroidism in Cats Skin issues are regularly noted in times of thyroid dysfunction, and this includes itchiness. Kidney Function Intense itchiness often accompanies late-stage kidney disease, and whilst the jury is out on the exact reasons behind it, it is thought that it’s relating to the build up of toxins in the body. This leads us nicely into the same itchy symptoms associated with early-stage liver disease, and this is considered for similar reasons. Detoxification Detoxification is carried out by a range of mechanisms, and this comes in particularly handy if one pathway is overwhelmed, another can pick up the slack. The Liver The liver neutralises a range of toxic chemicals, both those produced internally (waste from used hormones or neurotransmitters for example) and those from the environment, like air pollution, pesticides, and food additives. It does this by filtering the blood to remove large toxins, synthesising, and secreting bile and lastly enzymatically disassembling unwanted chemicals found in the body. Liver Guard Enzymatic Detoxification This enzymatical detoxification occurs in three phases. Phase I directly neutralises chemicals and changes them into new metabolites. These are then processed by phase II enzymes. This is known as the conjugation phase, which in short, liver enzymes attach small chemicals to the toxin. There are many ways in which this is done, it all depends on the type of chemical the liver is trying to manage. Phase I results in high levels of reactive oxygen species so antioxidant levels are key in modulating potential damage. Phase II is nutrient demanding and sufficient levels of key vitamins and minerals like vitamin A, C, E, B1, B2, B3 and iron are essential. Phase III is the elimination phase. For optimal excretion of toxins through the digestive system, gut health is vitally important. Maintaining the mucosal barrier is key for gut health along with supporting motility. The kidneys will also filter and process toxins from circulation, excreting them as urine. The skin also forms as an elimination pathway. This is why detoxification issues can result in skin issues. In cases of liver disease, it is considered that bile salt deposits under the skin, which results in itchiness. The most important thing to do to support detoxification is to avoid exposure in the first place, so consider how much you and your dog are exposed to: Pesticides Heavy smoke Phthalates Mould Medications like steroids, antibiotics, and painkillers Heavy metals Cleaning products Air fresheners Eating foods cooked at high temperatures (most commercial dry foods) This list is not exhaustive, but it is a place to start. This mechanism also applies to vaccines. There is increasing evidence that over-vaccination is associated with the development or aggravation of immune-mediated disorders and chronic diseases in individual pets that are genetically predisposed. The primary role of the immune system in dogs is to protect against foreign invaders, or abnormal cells that invade or attack. The immune system must distinguish between self and non-self. Substances that stimulate a response are antigens. These can be contained within bacteria, viruses or microorganisms or cancer cells. They may also exist on their own, like pollen or food particles. There are three lines of defence, physical barriers, nonspecific immunity, and specific immunity. But the immune system does not always function properly, it can be underactive and overactive. An underactive system puts the animal at risk of infection, but an overactive immune system can attack parts of its body that it misidentifies as being foreign. This is what happens in autoimmune conditions. The immune system can also overreact
If you’ve been following us here at My Pet Nutritionist for a while then you will likely have come across the concept of the gut barrier, and how when it gets compromised, things can start to go a little awry. Whilst leaky gut is being blamed for all sorts, we’re here to sort fact from fiction and we’ll start with the basics. What is the Gut Barrier? The gut barrier in effect, forms the lining of the gut and it has two main features: the physical barrier and the chemical barrier The physical barrier consists of tight junctions which form a selective permeable seal between adjacent epithelial cells. This “seal” is dynamically regulated by various extracellular stimuli and is closely associated with both health and disease. TJs contribute to the function of the physical intestinal barrier by regulating the paracellular movement of ions, solutes, and water across the intestinal epithelium. It also protects against pathogens and large, harmful molecules. The regulation of these TJs is therefore crucial to a healthy barrier and there are a number of things that can influence this. Immune mediated TJ function is well documented; cytokines play a key role in the integrity of the gut barrier. Tumor necrosis factor-α Tumor necrosis factor-α (TNF-α) is a proinflammatory cytokine that is produced mainly by activated T cells and macrophages (cells of the immune system). TNF-α is known to induce cell death and inflammatory response in intestinal epithelial cells and recent studies have also demonstrated that it impairs the intestinal TJ barrier. Findings Here Interleukin-1β Interleukin-1β (IL-1β), another inflammatory cytokine is markedly elevated in intestinal mucosa under inflammatory conditions. In addition, recent studies show that IL-1β causes increased intestinal TJ permeability. Findings Here On the other hand, Interleukin-10 (IL-10) is regarded as an anti-inflammatory cytokine. In vitro studies have demonstrated that IL-10 opposes the cellular functions induced by TNF-α and IFN-γ. It is suggested that IL-10 has a role in the protection of the intestinal barrier by regulation of TJ proteins. Findings Here Pathogenic Bacteria and Lipopolysaccharides It is well established that pathogenic bacteria also alter the intestinal epithelial TJ barrier. The most commonly referenced are Escherichia coli (E.coli) and Salmonella which lead to intestinal inflammation. In addition, lipopolysaccharides (LPS), also called endotoxins, a component of the outer walls of gram-negative bacteria also alter TJ protein assembly. In studies, LPS treatment is seen to increase TJ permeability and induce epithelial cell death. The other part of the barrier is the mucosal layer. Mucous Layer The mucus layer is the very first line of defence that external molecules encounter when they arrive in the gut, it prevents bacteria from directly contacting the epithelial cells, along with toxic substances and digestive enzymes. The main building blocks of the mucus layer are mucin proteins that form a gel-like sieve structure overlying the intestinal epithelium. In the small and large intestine, mucin 2 (MUC2) is the most abundant mucus protein secreted by goblet cells. MUC2 expression is critical in protection against disease, as Muc2 knock-out mice will often develop colitis. Findings Here The ability of mucins to bind water offers another protective element – they moisturise and lubricate, protecting the epithelial cells from dehydration and mechanical stress during the passage of food. Immune regulators are also found in the mucosal layer, which highlights its collaboration with the immune system. Mucous Turnover and Degradation The turnover of the intestinal mucous layer includes mucous synthesis, secretion, and degradation. It is a complex process that needs to be regulated and balanced to ensure optimal protective function. Mucin degradation has been recognized as a normal process of mucus turn-over in the GI tract, starting a few months after birth. Selective intestinal bacteria can degrade mucous glycans as an energy source, suggesting that there is a relationship between the microbiota and the mucosal layer. This is of concern in low fibre diets because in the absence of fibre as a fuel source, the microbiota will switch to mucosal glycans. It has been well established that low fibre diets are associated with a thinner colonic mucosa. Findings Here The rate of mucin turn-over can be modified by bacterial colonization, for example, the intestinal mucous requires the presence of bacteria to develop its full functionality; analysis has shown thin or even absent mucous layer in the colon of germ-free rats. Findings Here In addition, short chain fatty acids can stimulate mucous production. SCFA’s are the end products of microbial fermentation of undigestible carbohydrates with acetate, propionate and butyrate being the most common in the intestinal lumen. Starvation also influences mucin turnover. The mechanism during times of starvation is much the same as on low fibre diets, diverse bacterial species will switch to mucin as an energy source during nutrient deprivation. This poses food for thought in fasting. To Fast or Not To Fast? Finally, the consumption of a Western Style Diet (WSD) has been linked to the impairment of intestinal mucosal function. Animal studies have administered a WSD, high in fat, simple sugars and low in complex fibre and found that in just three days the mucosal layer was diminished. A reduction in MUC2 was found. However, when mice were transplanted with microbiota from a control diet, the mucosal dysfunction was prevented, despite being fed a WSD themselves. This suggests that in addition to dietary choices influencing the composition of the mucosal layer, so too does the microbiota. Your Puppy’s Microbiome What Can Cause Gut Dysbiosis What Can Help Dysbiosis Furthermore, there seems to be a bidirectional relationship between stress and mucosal barrier function. Animal studies have demonstrated that early life stress impairs development of mucosal barrier function, becoming a predisposing factor to intestinal disorders in adult life. Findings Here Can Stress Affect My Dog’s Digestive System 6 Tips for Your Anxious Dog Why Dogs Need To Chew Top Tips to Support Gut Barrier Health: Offer a species appropriate diet Limit toxic exposure Support beneficial microbiome formation and maintenance Limit stress exposure Address existing inflammation If you would
Generally, when we talk about fasting in the human realms, we are talking about intermittent fasting, and the function is largely to lose weight. What this mechanism actually does is reduce overall caloric intake, so by definition, if you reduce calories, there may be a resultant weight loss (note, we say may, because weight loss isn’t always that simple). But, when we talk about fasting in dogs it’s not generally around weight loss, it’s for longevity and improved health outcomes. Here at My Pet Nutritionist, it’s a question we get asked a lot. Should we fast dogs, or not? Let’s look at the science behind it. What Is Fasting? Fasting is not the same as starvation. Starvation occurs when there are no reserves left in the body; with insufficient intake of nutrients resulting in the break down of vital tissues. Fasting is simply a form of reduced calorie intake. What is interesting is that complete or modified fasting is a natural part of the wild canine diet. Wolves, the closest living relative to the dog are a window into dog physiology. When we look at the behaviour and lifestyle of wolves reintroduced into Yellowstone National Park, they show us that they are well designed for feast or famine. When hunting is easy, they may kill every two to three days. Generally, they will first eat organ meats, then muscle. At the end of the two- or three-day period, they then eat the bones and hide, including the fur. In times of low food abundance, wolves have been seen to scavenge bone and hide for several weeks at a time. Findings Here What Happens During a Fast Digestion is an incredibly demanding task. When it occurs, all hands are on deck. When it isn’t required, hands can be diverted to other tasks. What Does the Science Say? Most of the data is looking at fasting in rats, mice, monkeys, and humans. But we do have some data from dogs. Fasting has been seen to decrease toxic load. With little competition from substances absorbed after a meal, the liver is able to fully process waste products and excrete them efficiently. In addition, it has been demonstrated that during fasting, mitochondria downregulate. As you’ll remember, the mitochondria are the power plants of the cell, where we get energy from. But through the process, a high volume of free radicals are produced. Therefore, with downregulation, fewer free radicals are produced, which reduces oxidative stress. Fasting has been seen to decrease inflammatory molecules in many cell types. As we know inflammation underlies many chronic diseases and so it’s easy to agree when we see data suggesting that fasting reduces the incidence of: Cancer Arthritis Cognitive decline Diabetes (prevention) Dermatitis Liver, kidney, and heart disease Findings Here Findings Here Furthermore, fasting has showed a lower rate of muscle loss with age, with no apparent loss of bone density. Findings Here Finally, fasting for 48 hours has been shown to protect normal cells, but not cancer cells, from the toxic effects of chemotherapy. This approach has been utilised in humans to mitigate side effects associated with chemotherapy. Findings Here So, we know that fasting has some great benefits, but is there anything we should be mindful of? Well, we shouldn’t fast cats, in it’s true definition. The feline liver doesn’t downregulate during fasting, hepatic lipidosis (fatty liver disease) has been seen to occur in a cat fasted for as little as two days. But calorie restriction (to 70% of a standard diet) has been used in therapeutic approaches and favourably affected physical activity, lipid metabolism and insulin sensitivity. Findings Here There’s also no place for fasting in puppies. Puppyhood is one of the most nutritionally demanding periods; to build a body, they need the component parts. The same goes for bitches in whelp; to build babies, they need the component parts. A note on diabetes… Diabetes is a disease that results from an absolute or relative lack of insulin. As we know, insulin helps get glucose into cells to be used as energy; it therefore maintains the amount of glucose found in the bloodstream. Fasting with diabetes can result in dangerously low blood sugar levels. The bottom line? Guidance from a qualified practitioner may be worthwhile if you are considering fasting with any pre-existing health concerns. It may not be appropriate at all. So How Do You Do It? Well, there are two ways really. The first is to fast for a whole day once a week. This was seemingly the accepted routine for farmers and gundogs in decades gone by. But it’s not about removing what your dog would usually eat on that day, you simply spread it out on the other days – some have spread it throughout the week, some load it the day before and the day after the fast. Ensure that the amount you are feeding is appropriate for the healthy weight your pet requires. The other way is just providing an eating window. You can feed one meal per day, or two but within a short eating window of each other (generally 6-8 hours of each other). For example, you feed breakfast at 9am and then supper at 4 or 5pm. During any fasting periods, dogs should always have access to fresh, filtered water. As you have noticed, there is a difference between fasting and calorie restriction – fasting is allowing periods of rest between food ingestion. Calorie restriction is reduction of calories. But both have great health benefits, depending on the pet and their current health status. If you are looking to tackle a weight issue in your pet check out our blogs here. Obesity in Pets – Part I Obesity in Pets – Part II Fasting or calorie restriction may not be appropriate for all pets, and so if you are wondering if any dietary changes may be of benefit to your pet, check out our services. Consultations Thanks for reading, MPN Team x
Dogs are considered senior at half of their life expectancy. For some, this can come around a little earlier than expected. Are there changes we need to make as our dog ages? Well, there are always things we can do to support their health of our companion. Let’s take a look Aging is defined as the process of becoming older and whilst we still haven’t got to grips with the biological process in its entirety, there are some things we do know. Cells are thought to have a finite number of times they can replicate and divide. It is known as the Hayflick Limit. When a cell has reached that limit, it cannot divide anymore and will break down by programmed cell death. It is this limited capability that we see as aging. This programmed cell death usually occurs when telomeres (protective structures found at both ends of chromosomes) reach a critical length. It is therefore considered that telomere length serves as a biological clock. Telomere shortening occurs at every DNA replication – so if there is an increased need for cell replication, they will become shorter. This is why we are particularly interested here at My Pet Nutritionist, because there is such a high turnover of cells in the liver, gastrointestinal tract and skin (all parts of the body that we see many issues with). Shorter telomeres can also induce genomic instability and this sadly, is one of the leading factors in cancer. Cells have planned programmes to divide, replicate and ultimately die (apoptosis) – they get these messages from genes. When genes are unstable, their messages get a little like Chinese whispers and so the cells go rogue – dividing and replicating, but not dying. This aberrant growth is implicated in cancer. Diet can also affect telomeres. A diet contain omega-3 fatty acids is associated with a reduced rate of telomere shortening, Telomere length is positively associated with the consumption of nuts and fruits, Consumption of a diet including Vitamin E, Vitamin C and beta-carotene is also associated with longer telomeres – the inclusion of antioxidant compounds protects against oxidative damage. Dietary restriction also reduces oxidative burden, reducing damage to DNA – for this reason it is regularly associated with improved lifespans. In a study in Labrador retrievers, results indicated that 25 % restriction in food intake increased median life span and delayed the onset of signs of chronic disease. Findings Here The bottom line? The consumption of a whole-food, nutrient dense diet with the inclusion of omega-3 fatty acids is beneficial for the aging pet. Caloric restriction is also a consideration to make. On the other side of the scale, are there things that can negatively affect telomere length? Processed meats, high consumption of sugar over time and high intake of refined grains is negatively associated with telomere length. In short, the consumption of these foods is associated with shorter telomeres. If telomeres are shorter, the cell hits its limit sooner and carries out its programmed death sooner. Findings Here Cognitive Canine Dysfunction Cognitive dysfunction syndrome (CDS) is a progressive neurodegenerative disorder of senior dogs. It’s generally considered the dog version of Alzheimer Disease. It is thought that one third of senior dogs will show signs of confusion, restlessness, and less enjoyment of life. It is a result of a decline in higher brain functions, through degeneration. A variety of studies in the veterinary field have supported the proposal of nutritional manipulation, particularly with antioxidants as part of the treatment regime in cases of CDS and reported significant effects of modified diets. Evidence has demonstrated a place for the following nutrients: Antioxidants Alpha-Lipoic Acid Vitamin C Vitamin E L-Carnitine Co-enzyme Q10 EPA and DHA Phosphatidylserine It is considered that nutritional adjustment provided brain strengthening components, signalling enhancers, metabolic support, and antioxidants. Findings Here What was particularly interesting from the above study is that time spent active increased alongside the nutritional adjustment. Being sedentary is a shortcut to poor immune function largely due to lymph function. The Lymphatic System The lymphatic system is a network of vessels and nodes that spans the entire body. It is critical for health and for the immune system to function properly. Your Pet’s Immune System Both blood and lymphatic systems share many functional, structural, and anatomical similarities, but lymphatics are unique. Unlike the blood system, which is a closed loop with the heart actively pumping blood to oxygenate our tissues, lymphatics are open-ended. Movement of lymph is governed by rhythmic daily muscle movements propelling the fluid along network. The lymph fluid, called chyle, which contains immune cells, permeates every nook of the body. Movement of lymph fluid through the lymphatic vessels transports immune cells around the body, where they patrol all the remote corners of the body, keeping a lookout for anything untoward. The lymphatics also bring immune cells together in hubs of immune activity called lymph nodes. If the flow of lymph stops or becomes impaired, this vital immune surveillance and defence function can become compromised. And being sedentary sadly results in compromised lymph function. Therefore, movement for the aging dog is still important to support vital immune function. Within reason. We can’t hide from the fact that degenerative musculoskeletal issues are common in the aging dog, so care must be taken. Can Nutrition Support Joint Health What Is Pain and How to Look For It Obesity and Musculoskeletal Health in Dogs Natural Arthritis Guide and Herbs to Help Dogs You’ll be forgiven for thinking that lifestage nutrition is a bit of gimmick, but there’s no denying that the demands placed upon the body and brain are different across different life stages. For that reason, nutritional adjustment may be appropriate, depending on individual circumstances, lifestyle and health needs. If you would like further support for your aging or senior pet, then please check out our services to see if we may be able to help. Thanks for reading, Team MPN x
A diet we get asked about all the time here at My Pet Nutritionist, the Ketogenic diet isn’t always appropriate, but if it is, there are some hard and fast tips to follow. We thought we’d head on a whistle stop tour and give you what you need to know. The ketogenic diet is a low-carbohydrate, high-fat and moderate protein diet. In essence, it shifts the body’s energy fuel pathways. Healthy cells use carbohydrates or fats to produce energy. When carbohydrates are ingested, the body can either convert them to glucose for fuel, or it can store the glucose as glycogen in the liver or muscles. When fat is ingested, it too can be used for energy metabolism, but it can also be stored for a later time as triglycerides. When the body needs them, they are released as fatty acids which can fuel body movement, create heat and provide energy for body processes. If there is excessive oxidation of fatty acids, the cycle that is responsible for all of this gets a little overloaded, and the resulting compound is diverted to create ketone bodies. These ketone bodies can serve as a fuel source if glucose levels are too low in the body. Organs that have classically be thought to be dependent solely on glucose, like the brain, can in fact use ketones as an alternative energy source; it makes sense, above all, the brain needs to function when glucose is limited. The ketogenic diet has gained interest in epilepsy and cases of cancer, largely based on the Warburg theory whereby it was suggested that cancer cells have altered energy metabolism by way of increased glucose uptake. Findings Here A study of 21 epileptic dogs showed a 50% reduction in seizure frequency alongside a ketogenic diet. Findings Here That said, the ketogenic diet isn’t always as easy as thought. There are a number of considerations to make: Possible decrease in microbial diversity in the GI tract Potential nutrient shortfalls if not considered thoroughly Diarrhoea and constipation Generally, for dogs, a ketogenic diet can range from 69-90% fat, 9-30% protein and 1% carbohydrates. But true ketosis is generally achieved when the following are monitored: Macronutrient control and elimination of glucose Repeated testing (blood/ketone) Metabolic conditioning The bottom line? There is increasing evidence that a ketogenic diet has been of benefit in certain conditions, however, the true ratios will be dog dependent and for that reason we would advise any dietary plans to be developed alongside a qualified professional. Consultations However, we can use the basic premise of the ketogenic diet to support the health of our dogs. Top Tips for Dog Health from the Keto Ethos: 1) Keep Insulin Low Feed fat and protein and keep net carbs low. Net carbs are carbs minus their fibre content, so remember, fibre is a carby friend! 2) Keep Calories in Check Feed by eye – you want to see an hourglass figure from a birds-eye view. Feeding guidelines are just that – just because a calculator says you should feed that much, if your dog is looking chunky, reign it in! Feed for function, not for added (rounded) features! 3) Use Periodic Fasts Calorie restriction has been seen to add years to the lifespan! You can feed once per day, or limit feeding to a window (8 hours for example). You can also use 24 hour fasts periodically too! Fasting deserves a blog all on it’s own, so check back for more on this! 4) Reduce Inflammation Low carbs along with a calorie-controlled diet has been seen to reduce inflammation. 5)Keep Moving Most dogs will suffer from inactivity than too much exercise. Regular physical activity is known to regulate inflammatory responses in the body, support heart function and health, prevent telomere shortening (associated with aging), promote growth in brain cells and reduce risk of cognitive decline. If you would like any support creating a new dietary plan for your dog to address existing health concerns or simply to find what’s best for them at their stage of life, then please check out our services. What We Offer Thanks for reading, Team MPN x
As we know bacteria is everywhere, both the good ones and the not so good ones. Sometimes the bad ones can get a little out of hand and start causing a whole host of problems, we know this as bacterial overgrowth and we’re going to be looking at small intestinal bacterial overgrowth, or SIBO specifically. Here at My Pet Nutritionist is something we keep an eye out for, so we thought we’d let you know why. Small intestinal bacterial overgrowth (SIBO) is defined as excessive bacteria in the small intestine. SIBO is frequently implicated as the cause of chronic diarrhoea and malabsorption. Dogs with SIBO may suffer from unintentional weight loss, nutritional deficiencies, and osteoporosis for example. When we reference the microbiome, we are considering the microbial community found in the whole of the digestive tract. Generally, the further down we go, the more bugs we find. So, we would expect the majority of the bugs to be found in the colon. SIBO is when there are higher numbers found in the small intestine. The type of microbial flora present plays an important role in the manifestation of signs and symptoms of overgrowth. For example, a predominance of bacteria that metabolize bile salts to unconjugated or insoluble compounds may lead to fat malabsorption or bile acid diarrhoea. In contrast, microorganisms that preferentially metabolize carbohydrates to short-chain fatty acids and gas may produce bloating without diarrhoea because the metabolic products can be absorbed. There are a number of contributing factors to the development of SIBO but two of the main ones are gastric acid secretion and small intestine dysmotility. Gastric Acid Gastric acid is necessary in the digestion of food. Not only that but it suppresses the growth of ingested bacteria (it forms one of the protective barriers), which limits bacterial counts in the upper small intestine. Gastric acid is produced in the stomach, so it provides a buffer before compounds even reach the small intestine. Gastric acid is produced by the parietal cells in the stomach, and there are cases of autoimmunity whereby the body attacks its own parietal cells resulting in low levels of gastric acid. Not only that but certain medications like proton pump inhibitors are also used to suppress gastric acid. Antihistamine medications also suppress gastric acid secretion. PPIs are often used to treat a range of GI disorders in dogs and antihistamines are regularly used to treat allergic dermatitis. In addition, gastric acid secretion is regulated by the parasympathetic nervous system via the vagus nerve and there is clear evidence that increased levels of certain stress hormones inhibits the release of it. Can Stress Affect My Dog’s Digestive System The stress response also plays a role in intestinal motility. Intestinal Motility Several programmed movements are responsible for the transport of food between the different parts of the digestive system. Peristalsis is a series of wave-like muscle contractions that move food through the digestive tract. The migrating motor complex typically moves between the stomach and small intestine, sweeping the intestine clean between meals; this is the rumble you will hear! Hormones like motilin and ghrelin are involved in the generation of MMCs. Mass movement is another programmed movement, and this is what propels the formed poop into the rectum, ready for evacuation. Mass movements are put on hold overnight but start again in the morning. They follow their own circadian rhythm. Impaired gastric motility can result in food and waste sitting in the small intestine for longer that it should. There are a number of reasons why motility may be affected. Mechanical obstruction, Abnormalities in smooth muscle function, Secondary conditions such as electrolyte disturbances, metabolic disorders, concurrent medication use, stress, and abdominal inflammation. However, there is more attention being paid to the development of SIBO through antigens gaining access to the lamina propria. The lamina propria is a thin layer of connective tissue that forms part of the moist linings known as mucous membranes or mucosa which line the respiratory and gastrointestinal tract. It is therefore thought that a compromised mucosal barrier is a risk factor for SIBO. The mucus layer is the very first line of physical defence that external molecules encounter when they arrive in the gut lumen, it prevents bacteria from directly contacting the epithelial cells, along with toxic substances and digestive enzymes. Within this strand, it therefore prevents colonic inflammation. The main building blocks of the mucus layer are highly glycosylated mucin proteins that form a gel-like sieve structure overlying the intestinal epithelium. The small intestine only has one mucus gel layer whereas the colon has two layers: an outer, loose layer that allows the long-term colonisation of commensal bacteria, and an inner dense layer empty of bacteria. Mucin degradation has been recognized as a normal process of mucus turn-over in the GI tract, but selective bacterial species can degrade mucous glycans as an energy source in the absence of other food sources and so if degradation outperforms secretion, we start to have a problem. Furthermore, diets high in refined products, sugars and saturated fats are also associated with compromised mucosal function. Early stress is also linked to impaired mucosal development, so the health of our puppy’s gut really does start with the Mother! Prevalence of SIBO SIBO has also been noted in dogs with existing chronic intestinal disease, and although many breeds are affected, German Shepherds are seemingly predominant in reports. SIBO is regularly seen in dogs with exocrine pancreatic sufficiency. Juice culture is the gold standard for SIBO diagnosis, but it is often described as being technically difficult, time-consuming and expensive. In addition, bacterial counts may be influenced by environmental factors and infective load. One of the first things to consider is whether your dog is currently eating an antigenic diet – with the increased intestinal permeability that often accompanies SIBO, establishing sensitivities is a good place to start. Elimination Diets For Dogs In addition to this, if SIBO has been prolonged there may be underlying nutrient deficiencies so
