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
Would you be surprised to know that a study carried out in 1988 concluded there were no differences in allergens found on different breeds of dogs? In short, if you’re allergic to dogs, you’re allergic to all dogs? Findings Here Have we moved on significantly from 1988 and produced dogs that we’re no longer allergic to? We have artificial intelligence which can remind us of our daily schedule, but surely, a new type of dog, that’s pushing it? You’re correct. We’ve not produced a new type of dog (in that sense), if you’re allergic to dogs. You’re allergic to dogs. So, where does this notion of a hypoallergenic dog come from? They do exist, but in their true definition. Hypo means under or beneath according to the Greeks. Its synonyms include fewer, or less. Therefore, a hypoallergenic dog simply means a dog that is less likely to cause a reaction. It does not mean the dog is totally allergy safe. Where the confusion lies, is that many think allergy sufferers are allergic to the hair found on the dog. This is not the case. Generally, allergy sufferers are allergic to a protein found in the saliva and urine of the dog. As the dog grooms themselves, they spread the protein to their skin and coat. As new skin cells are produced, old ones are shed, which release into the environment (known as dander). This is why people are often told they are allergic to dog dander. As hair is shed into the environment, you are exposed to the protein covered hair. So, a hypoallergenic dog is generally one that sheds less (less hair for you to be exposed to), they often have curly coats (which traps hair and dander so less is shed into the environment) or have less hair (but these guys still lose dead skin cells which can cause a reaction). They are also more likely to be regularly groomed which removes the protein from the coat and skin more frequently. For many of us who have mild allergies, we tend to put up and shut up simply because we couldn’t imagine spending our lives without pets, so is there anything we can do to reduce our symptoms? You’ll know that here at My Pet Nutritionist we’re not a fan of long-term use of antihistamines, so let’s look at other options. 1) Find a new love for cleaning! Whilst it can often be the last thing you want to do at the end of a long day, getting into a habit of regularly whipping around your home will keep allergens in the environment at bay! If you don’t want to tackle the whole house as soon as you get in, create a to-do list at the beginning of the week. You may tackle your kitchen on Monday, your hall on Tuesday, your bedroom on Wednesday and so on. Rather than dusting, use a damp cloth or use the dusting attachment on your vacuum. You want to remove the allergens not just move them around or throw them back into the air that you are breathing. Set a timer on your phone or clock, spend 25 minutes a day cleaning. That’s 1.74% of your day. 2) Use a Vacuum with a HEPA filter! To keep allergens at bay, vacuum at least 2-3 times a week, if not daily. HEPA means high efficiency particulate air and its design traps microscopic particles keeping them from being thrown back into the environment. Most pet vacuums have an inbuilt HEPA filter but it’s worth checking the label if you’re in the market for a new one! 3) And an air purifier! It may be worthwhile investing in an air purifier in your home. Again, these are built with HEPA filters which trap dust and dirt. They can be a helpful addition to your home if you are struggling with your symptoms. 4) Pay attention to your bedding! If your dog sleeps with you, first decide whether this is great for your symptoms. If it doesn’t affect you too severely, ensure you wash your bedding at least weekly. Place blankets or throws on your bed so you can wash them even more regularly. Encase pillows and mattress with dust-proof covers as this helps keep particles from getting inside. Vacuum your mattress regularly. 5) Curtains! Be mindful of the curtains you are hanging in your home. Whilst you can purchase some beautiful fabrics, some are dry clean only. This isn’t ideal if you need to be washing them regularly – it’ll cost a fortune! Cotton curtains can often just be washed in the washing machine and hung to dry. Just like the response in our dogs, allergies result in a characteristic pattern of inflammation, so ensuring out own inflammatory responses are appropriate is just as important. Risk Factors in Human Allergies: Family history – predispositions to certain allergies, Microbiome disruption, Ultra-hygienic environment, Regular consumption of high-histamine foods, Nutrient deficiencies, Exposure to environmental toxins, Impaired methylation affects histamine clearance and more. Top Tips to Support Allergies in Humans: Live bacteria supplementation may support immune function, Consider histamine exposure in diet, Quercetin possesses anti-inflammatory and antihistamine properties, Nettle too functions as an antihistamine and blocks proinflammatory cytokines, Vitamin C supports histamine detoxification, Reduce stress! Gut Guardian A slightly different blog this time, but one we hope was useful, nonetheless. If your dog is sadly the one who suffers with sensitivities or allergies, then check out our blogs: 5 Basic Tips For Allergies Itchy Cats and Dogs Naturally Itching Has Become Such An Epidemic Does My Dog Need An Allergy Test In addition, allergies are one of our expert areas, so check out our services here: Consultations Thanks for reading, Team MPN x
Of course it can. But, we wouldn’t be doing us, you as pet owners, or the pets in your care any justice if we didn’t go into a little more detail. Here at My Pet Nutritionist we’ve seen hundreds of pets with joint concerns. Prevention is better than cure and this is where nutrition can certainly play a role. Even in chronic degeneration, there are changes that can be made for the better. Sadly, there are genetic dispositions to joint issues, and we can’t change that, but we can do a little bit of damage limitation. There’s certainly a lot to cover, so let’s get cracking. The Skeleton The Skeleton is essentially a supporting framework. It consists of strong, mineralised bone which form a sophisticated system to facilitate movement. Bone is a light, yet strong connective tissue consisting of around 30% collagen and other matrix proteins with around 70% minerals. These minerals include calcium and phosphorus, but magnesium, sodium and potassium are also present in conjugated form. Bones come together to form joints. The type of joint formed determines the degree and direction of motion. For example, joints with a ball and socket formation allow for a rotation whilst hinge joints only allow for bending and straightening. In a joint, the ends of the bones are covered in cartilage, which helps reduce friction as joints move. With age, this cartilage can degrade. Tendons connect muscle to bone and are made up mostly of collagen. Ligaments surround joints and help to stabilise them. They also connect bone to bone. Bone Formation Also known as ossification, bone formation is a process where new bone is produced. Bone starts as a cartilage model which gets slowly replaced. Osteoblasts are the cells that form new bone; think of it as a blast that spreads, and osteoblasts spread to form new bone. Osteoblasts secrete osteoids which are simply unmineralized bone tissue. Soon after the osteoid is laid down, inorganic salts (calcium and phosphorus) are deposited which forms the hardened material that we know as bone. Inappropriate levels of calcium and phosphorus during growth therefore understandably contribute to bone deformities and skeletal disorders. Diets high in phosphorus, particularly with low calcium reduce bone mass and density. We see this in the, now thankfully rare, disease in horses. Big head disease, more common in countries like Australia, is also known as bran disease or Miller’s disease. The colloquial names demonstrate immediately the dietary link. Clinically termed hyperparathyroidism, it affects the skeleton of horses. The horse’s bones slowly demineralise due to the low levels of calcium found in their system. The low calcium levels are usually due to one of two reasons. Calcium bioavailability due to high levels of phytates in bran, Calcium bioavailability due to oxalate containing grasses. As we know, phytate is when phytic acid binds to a mineral. Phytic acid is the principal storage form of phosphorus, and it binds to zinc, iron, calcium, magnesium and more! What this means is that the mineral it binds to is less available. Sadly, phytic acid is found in plant-foods like grains, nuts and legumes and for us pet owners, of note, it is found in wheat, barley, rice and maize; the same ingredients found in many commercial pet foods. There is therefore the possibility that phytate can affect calcium bioavailability and be of detriment to bone formation, growth, and maintenance. Oxalic acid is an organic compound found in many plants including leafy greens, vegetables, fruits, nuts and seeds. This too can bind to minerals including calcium and then becomes calcium oxalate. This not only results in low calcium levels, of detriment to bone formation, growth and maintenance but may also lead to renal issues and/or failure. It seems however, that high phosphorus and high calcium diets blunt the effects of each other. These two minerals interact in the gastrointestinal tract to limit absorption of the other. Therefore, a calcium: phosphorus ratio of 1.1:1 to 2:1 is recommended for dogs. On the subject of the gastrointestinal tract, most minerals are absorbed largely in the small intestine (although they can be absorbed from any portion in the GI tract). So, the digestive tract needs to be working as it should to aid absorption and therefore utilisation of the minerals. Inflammation within the GI tract is often linked with vitamin and mineral deficiency. Findings Here Furthermore, those suffering with inflammatory bowel conditions are often treated with medications like glucocorticoids to reduce the inflammation caused by the disease. In the process, these medications disrupt the development and maintenance of healthy bones. Bone formation proceeds outwards from ossification centres; short bones tend to have one in the middle whereas long bones typically have three, one at each end and one in the middle. Ossification, or bone formation continues until there is a thin strip of cartilage left at each end of the bone. This is known as the epiphyseal plate, or growth plate in the dog world. When the bone reaches full adult maturity, the cartilage is replaced with bone and “sealed” for want of a better word. Glucocorticoids have a direct, inhibitory effect on the growth plate, as demonstrated by in vivo and organ culture studies. Glucocorticoids slow longitudinal bone growth by inhibiting chondrocyte proliferation, hypertrophy, and cartilage matrix synthesis. In vivo, dexmethasone, a potent synthetic glucocorticoid, infused directly into the proximal tibial growth plates of young rabbits caused a 77% inhibition in growth. Findings Here It would therefore be appropriate to consider the root cause of any inflammatory conditions alongside any treatment plan. When considering calcium and phosphorus absorption, it pays to consider vitamin D because it stimulates the intestinal absorption of those minerals. Vitamin D is a fat-soluble vitamin found in foods like oily fish, liver, and eggs. Being a known contributor to bone health, when puppies are fed a diet lacking in Vitamin D, they can develop Rickets. However, at the other end of the scale, puppies fed too much vitamin D experience impaired ossification (bone formation).
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
Did you ever get warned that kissing a stranger was like kissing everyone they had ever kissed too? Sadly, the same advice applies to our dogs too! Luckily when we’re talking about canine oral papillomas, they can’t be transmitted to humans, but these warts are caused by a virus which can be passed between dogs. So what’s the lowdown on canine papillomas? And why do our dogs get them? Here at My Pet Nutritionist, they seem to be the topic of the year so let’s take a look at them in a little more detail. What is the Canine Papilloma Virus? Warts in dogs are caused by infection with canine papilloma virus (CPV). They appear as lesions mostly found on the lips and muzzle and have a cauliflower like appearance. They can also grow on the oral mucosa which can affect eating and swallowing. In most cases, they are left untreated and may resolve within 3-12 months of presentation. CPV is transmitted through direct contact with another infected canine, and it spreads relatively easily. But as it’s a virus, its understandable that it most commonly strikes dogs with weakened or underdeveloped immune systems (which is why they are more common in younger dogs). The virus will also more easily settle in injured skin, so if a dog suffers with pre-existing skin issues they may be at an increased risk. The Immune System 101 When the body is invaded by bacteria, a virus or parasites, an immune alarm goes off, setting off a chain reaction of cellular activity in the immune system. Specific cells are deployed to help attack the invading pathogen. Those cells often do the job, and the invader is destroyed. But sometimes, when the body needs a more sophisticated attack, it turns to a more specialised set of cells. These cells are like the special ops of the immune system—a line of defence that uses past behaviours and interactions to tell it exactly how to deal with the threat. Through exposure to the virus, he body learns how to deal with it, which is why older dogs don’t always develop lesions even if they are living with another dog who does. But as we know, there are many things that can affect how well the immune system is functioning. Lifestyle and environmental factors can dictate if the immune system is fast and efficient, or whether it’s as much use as a chocolate teapot. What can affect immune function? Sleep Sleep is widely studied for its evolutionary benefits. It is crucial for most daily functions and in humans suffering sleep restriction, they have attention lapses, slowed working memory, reduced cognition and depressed thought. Studies have shown a significant reduction in activity in dogs experiencing sleep restriction. Findings Here One of the main purposes of sleep is to consolidate memories or learning. This has also been found true in dogs. Learning affects sleep structure which ultimately decides whether you retain the information or not. Interestingly, in studies, those dogs allowed to sleep after learning a new command were more likely to retain the command at a later date, than dogs allowed to walk or play. So, if you want to train your dog, they need their sleep. Findings Here But it is clear that sleep and the circadian rhythm significantly influence immune functions. It is thought that sleep facilitates the function of immune cells and also their redistribution to lymph nodes. In addition, in clinical studies, sleep on the night after experimental vaccinations produced a strong and persistent increase in the number of antigen specific cells and antibody titres. This suggests that sleep plays a role in immunological memory. Findings Here Under laboratory conditions, dogs will sleep around 13 hours per day. But this is very generic. Older dogs will sleep more as they tend to experience periods of broken sleep. Puppies too will sleep a lot more – generally 18-20 hours. Stress Since the dawn of time, both us and our dog’s ancestors have been subject to evolutionary pressure from the environment. The ability to respond to environmental threats or stressors such as predation or natural disaster enhanced survival. In mammals, these responses include changes that increase the delivery of oxygen and glucose to the heart and skeletal muscles. We know this as the stress response, or rather more specifically the fight or flight part of the stress response. But this serves as a redirection of resources, and data clearly suggest that chronic stressors suppress cellular and humoral responses in the immune system. In short, stress lowers the body’s response to viral load. Have you ever noticed that that pesky cold sore rears its ugly head when you’re feeling a little run down? That said, acute stressors (lasting a couple of minutes) upregulate certain immune pathways. This makes total evolutionary sense. In addition to the risk inherent in the situation, like a predator, fighting and fleeing carries the risk of injury and subsequent entry of infectious agents into the bloodstream or skin. Any wound in the skin is likely to contain pathogens that could multiply and cause infection. Stress-induced changes in the immune system that could accelerate wound repair and help prevent infections from taking hold would therefore be beneficial. The key is balance. Both us and our pets are designed to tackle short term stressors, the issue is when they become chronic and continually deplete our resources. Diet The immune system has a number of cells it can call upon, but these cells need to be made somewhere. In addition, for the messages to get sent around the body and for the antigens to be effectively neutralised, other cofactors and compounds are needed. Whilst the body is incredibly smart and can synthesise certain compounds itself, the majority of them need to come from somewhere and this somewhere is largely the diet. In addition, an activated immune system further increased the demand for energy during periods of infection. The Ultimate Raw Feeding Guide for Dogs Furthermore, the majority
On average, a dog may spend 3.3 minutes eating grass, per day. Now, when there are 1,440 minutes in a day, it doesn’t seem that much does it? However, when most dogs head on over to a grassy tuft and start eating, most owners start to worry, it’s certainly a question we are asked often here at My Pet Nutritionist. This is largely due to the common misconception that dogs who eat grass are nutritionally deficient or because vomiting sometimes follows a grass-eating session, they have an upset tummy. Well, we’re here to explore why grass-eating may not be what you think it is, and we’re talking about cats too! Plant Eating Mammals can be roughly divided into three groups: Carnivores, Omnivores, Herbivores, Plants are the primary food source of herbivores and relatively abundant in the environment. The composition of plant tissue is quite different from animals; plant cell walls are rich in carbohydrates especially cellulose, which is difficult for animals to digest. Furthermore, several plants contain toxic compounds as built-in defences (to prevent being eaten). For these reasons, herbivores have developed unique digestive systems to detoxify these compounds and obtain nutrients from these plant cells. Cats, however, are unable to detoxify phenolic compounds found in plants. The Struggle of The Cat in Our Toxic World But there is historical evidence of plant material ingestion in carnivores, both cats and dogs. Some suggest it’s accidental intake, whereas others argue there may be some advantages to plant eating. So why do dogs eat grass? Illness One particular study explored grass eating in dogs. All dogs participating in the study had a full health check carried out by a vet and they were deemed in good health. There were no reported parasites and did not have any diagnosed digestive issues. In 12 dogs, 709 grass eating events occurred. Vomiting only occurred after 5 events. The researchers concluded that there was no evidence grass-eating was linked to sickness. Findings Here Gut Guardian Could it be that we tend to pay more attention to the instances that end in vomiting and therefore consider it sickness related? As humans we do seem to be hard-wired to remember negative experiences as opposed to positive ones. Findings Here Deficient Diet There is also little evidence to support the idea that dogs eat grass to gain vital nutrients they aren’t receiving from their usual diet. When explored, there was no indication that dogs fed a table scrap, commercial or raw food diet were more or less likely to eat grass. You’d think there would be some nutritional differences across the range of diets – but all dogs across that range of diets were still prone to grass-eating. Findings Here So, is grass just a food source to dogs? When considering how much grass dogs eat and when, it is clear that dogs eat more grass before their usual mealtime. Dogs tend to eat more grass in the morning, then as the day wears on, time spent eating grass, reduces. Findings Here This data could suggest that grass-eating is simply a hunger response. As grass is often widely accessed, it’s an easy food source! Parasite Control Grass-eating behaviour is an innate predisposition inherited from wild canid ancestors. It is believed that purging on plants was an effective way to control intestinal parasites. Plant-material is difficult to digest and so it passes right through the digestive tract. As it passes through the tract, it takes the parasites with it. They are then simply pooped out. Findings Here Here it’s easy to panic and think, if your dog is eating grass, he must have worms; but no studies to date have shown this to be the case. Our dogs are simply demonstrating a behaviour that is innate to them. Dogs under the age of one are noted as more frequent grass-eaters than older dogs. We can firstly consider this a behaviour; like babies, puppies also explore their world through their mouth, but researchers have suggested this is more likely related to their ability to fight pathogens. Maintenance metabolism, the energy required to maintain homeostasis, scales fractionally with body size and as such, smaller animals require more metabolic energy per unit of body mass. Therefore, energy loss caused by parasites has higher consequences for smaller carnivores. It is in the younger dog’s interest to ensure they remain free of parasites. The same applies to cats. The energetic cost of parasite load is relatively high for the cat. In evolutionary sense, they would have also had a higher exposure to potentially harmful pathogens through increased food intake. Plant eating in cats has also been considered a way to evacuate hair or undigested materials. Sugar-cane-derived fibres have been seen to reduce the size of hairballs in the scat of domestic cats. An interesting cycle is proposed in the cat. Fleas are the main ectoparasite in the cat, and self-grooming with their rough tongue is one of the main removal strategies. As the flea load increases, the intensity of grooming increase, which is likely to increase ingestion of its own hair. So, plant eating could be a control for both ecto and endo parasites in the cat. Findings Here Liver Guard Is Eating Grass Bad For Dogs? Whilst some dogs do vomit after eating grass, it’s not usually linked to any further complications. The issue arises when dogs eat grass that has been chemically treated. There are many reports of glyphosate toxicity; a common product used to control weeds. Accidental exposure has resulted in vomiting, diarrhoea and lethargy. Dogs also develop respiratory distress. Cats appear more sensitive, more often resulting in fatalities. Findings Here Glyphosate and My Dog You also have the risk of toxic plants which are not limited to, but include: Sago Palm Tomato Plant Ivy Amaryllis Gladiola American Holly Daffodil Milkweed Castor Bean Azalea/Rhododendron Tulip Chrysanthemum Begonia Oleander There is little evidence to suggest any nutritional or illness related reasons for a dog to eat grass and there is consistency
Here at My Pet Nutritionist, we take a holistic view of your pet’s health. So, whilst we focus primarily on nutritional adjustments we can make, we look at everything else that is going on for your pet too. Not surprisingly we find that stress is a key player in many of the concerns brought to us. Most of us are familiar with the concept of stress, but do we truly understand the mechanism and the far-reaching impact it has on the body? Stress is huge, so we’ll try to condense it as much as we can. Stay with us. Despite the biological stress response being around for millennia, we first started paying attention to the actual response in the early part of the 1900s. Walter Cannon was the first Professor of Physiology at Harvard, and he was particularly interested in how the body managed to maintain its balance even when faced with things that could threaten it’s being. Building on this, Hans Selye established that no matter the stressor, each body (and brain) experienced the same cascade of responses. He also proposed that during the response to one stressor, our ability to withstand another is diminished. We often reference his theory when we discuss trigger stacking – and we’ve all been there – that day, when you miss your alarm, you spill the milk as you’re putting it in your coffee, then you lose your keys – and your ability to manage challenges that day just seems reduced. But on a biological level, we also see that when we are going through particularly stressful times, our immune system isn’t quite as nifty as dealing with threats and so we start picking up bugs and that old faithful cold sore rears its ugly head. The same concept applies to dogs, and if you sadly share your life with a reactive dog, you’ll see trigger stacking in them too. Equally, if they live with chronic stress, their immune function may go rogue too. This is why we always consider stress levels in those dogs who suffer with inflammatory skin issues. What is Stress? The official response starts in the brain. The amygdala, being the part of the brain that deals with emotions, sends a message to the hypothalamus which is like the command centre of the body. It communicates with the rest of the body through the autonomic nervous system which controls involuntary body functions like breathing, blood pressure and heartbeat. The autonomic nervous system is then split further into two branches, the sympathetic nervous system, and the parasympathetic nervous system. These are the systems that we are particularly interested in in the stress response. The Sympathetic Nervous System This system is known as the fight or flight system. We can think of it like the gas pedal of the stress response. This system: Dilates pupils – to see oncoming danger, Inhibits saliva production, Dilates bronchia, Increases heart rate, Inhibits the activity of the digestive system, Relaxes urinary bladder, This system is like a redistribution centre. When the body is faced with a stressor that can challenge body homeostasis, it redirects resources to re-balance. Blood is sent to the limbs to mobilise and why waste energy on food digestion? But this is where we see many issues. As we know, to absorb and utilise nutrients the digestive system needs to do its job. If the stress response is inhibiting the action of the digestive system, then it can’t do what it needs to. As part of sympathetic response, corticotropin-releasing-factor (CRF) is released. The name isn’t particularly important, but it seemingly plays a considerable role in altering gastrointestinal functions. It has been found that CRF: Inhibits gastric acid secretion Inhibits small intestine transit Increases intestinal permeability Increases visceral sensitivity Gastric Acid Secretion Gastric acid is a digestive fluid formed in the stomach, produced by parietal cells. The highly acidic environment in the stomach causes proteins from foods to lose their folded structure (denature) which exposes the peptide bonds. It is therefore a key player in protein digestion. Gastric acid secretion is regulated by the parasympathetic nervous system via the vagus nerve and by the hormone gastrin which stimulates the parietal cells. There is also an increased risk of infection with reduced gastric acid secretion. Low or no gastric acid can reduce the disinfectant properties of the gastric lumen. Gastric acid suppression is also associated with the development of food intolerances and allergies. Findings Here Small Intestine Transit The small intestine is chiefly involved in the digestion and absorption of nutrients, it receives pancreatic secretions and bile through the hepatopancreatic duct to aid its functions. In the stress response, it is thought that this mechanism encourages vomiting to expel potential pathogens, as in the large intestine, transit time is increased, again to aid expulsion. Poor motility can lead to small intestine bacterial overgrowth (SIBO) which is frequently implicated in nutritional deficiencies, malabsorption, weight loss and bowel changes like diarrhoea. Findings Here Intestinal Permeabilit The intestinal barrier is made up of tight junctions which allows the absorption of nutrients whilst limiting the transport of potential harmful antigens. Early stress and chronic stress have been seen to increase intestinal permeability both through TJ function and mucous degradation. Animal studies have demonstrated that early life stress impairs development of mucosal barrier function, becoming a predisposing factor to intestinal disorders in adult life. However, these stress induced changes do seem to respond to probiotic intervention. Probiotics have been seen to restore colonic tight junction integrity and enhance the mucus barrier. This is largely because stress impacts the bacterial community found in the gut. Studies have shown that early life maternal separation, for example, results in a significant decrease in fecal lactobacillus numbers, three days post separation. Mothers who report feeling stressed have a significantly higher number of proteobacteria and lower lactic acid bacteria. Findings Here Visceral Sensitivity Evidence suggests that long term stress facilitates pain perception and sensitises pain pathways. There is a clear gene-environment interaction which
A question that often pops up here at My Pet Nutritionist so we thought we’d do a whistle stop tour on the gallbladder and some of the more common issues that can arise when it’s not functioning as it should. Let’s get cracking. The gallbladder is a pear-shaped organ that sits just under the liver. Its function is to store and concentrate bile, a yellow-brown digestive juice produced by the liver. It is part of the biliary tract. When food enters the small intestine, a hormone known as cholecystokinin is released, this tells the gallbladder to contract and secrete bile into the small intestine, through the common bile duct. There are two important functions of bile: Bile contains bile acids, which are critical for digestion and absorption of fats and fat-soluble vitamins in the small intestine. Many waste products, including bilirubin, are eliminated from the body by secretion into bile and elimination in faeces. Bile contains water, electrolytes and a battery of organic molecules including bile acids, cholesterol, phospholipids and bilirubin. Sadly, the build up of these very compounds can lead to a number of problems in the gallbladder, they are known as canine gallbladder diseases and include: Biliary Sludge Gallbladder mucoceles Gallstones Gut Guardian Biliary Sludge Gallbladder sludge is a collection of cholesterol, calcium, bilirubin, and other compounds that build up in the gallbladder. It is more technically known as biliary sludge. It is not technically a condition on its own, but it’s presence can lead to further issues. Gallbladder sludge has been associated with: Obesity Rapid weight loss Cholecystitis – the swelling and inflammation of the gallbladder. It can result in bile trapped in the gallbladder, causing pain, vomiting, and bloating Blocked biliary ducts – these allow the gallbladder to drain – if sludge can’t escape, it accumulates Of interest, biliary sludge has been associated with acute cases of pancreatitis. In human cases, where no cause of pancreatitis could be found, upwards of 30% of patients showed evidence of biliary sludge. Findings Here If the initial cause of gallbladder sludge is rectified, then it often resolves on its own. However, if the factors remain, gallbladder sludge can lead to gallstones. Gallstones Gallstones are not surprisingly, small stones that form in the gallbladder. It’s when there is an imbalance in the usual liquid composition of bile inside. Because inadequate emptying or infrequent gallbladder movement are usual factors that increase the likelihood of gallstones forming, it’s easy to see how biliary sludge can lead to gallstones. Risk Factors for gallstones; Obesity, Older age, Disorders of the digestive system, Rapid weight loss, Signs and Symptoms of gallstones: Vomiting Jaundice Loss of appetite Abdominal pain Fever Discomfort after eating Gallstones are more commonly seen in older dogs, and often in smaller breeds like miniature schnauzers and miniature poodles. They may be identified in the gallbladder, common bile ducts, hepatic, or interlobular ducts. They are generally composed of cholesterol, bile pigments and calcium carbonate. Gallbladder mucoceles (GBM) A gallbladder mucocele is an abnormal accumulation of bile laden mucoid material within the gallbladder, resulting in bile duct obstruction. Mucins, which play a major role in the development of gallbladder mucoceles, are a family of polysaccharides secreted by mucosal epithelial cells of the gallbladder, stomach, intestines and other organs. Mucins act as surfactants and play a mucoprotective role by preventing self-digestion of mucosal epithelium by digestive juices. A gallbladder mucocele is characterized by the excessive secretion of mucin from gallbladder epithelium. Dogs who have suffered with GBM have ranged in age from 3-14 years old, but middle to older aged dogs are thought to be at a higher risk. A genetic mutation has also been found on the ABCB4 (MDR3) phospholipase flippase transported in Shetland Sheepdogs and others. There is an increased incidence in these dogs along with Miniature Schnauzers and Cocker Spaniels. Findings Here Signs and Symptoms of GBM: Loss of appetite Lethargy Vomiting Diarrhoea Jaundice Abdominal pain or discomfort The underlying cause of GBM is essentially unknown, but there are considered associations. For example, gallbladder mucoceles has been associated metabolic disruption. Dogs with GBM: are characterized by significantly diminished antioxidant capacity demonstrate altered energy metabolism have abnormal lipid metabolism demonstrate presence of xenobiotics compared to controls In addition, those dogs with GBM formation show increases in certain compounds that suggest they are in a state of excess metabolic energy. This is why these dogs show lower levels of pantothenate, riboflavin and nicotinamide riboside because there is an increased demand for these compounds in energy transportation. Findings Here There is also consideration given to hydration state; studies have indicated an underlying defect in electrolyte, acid-base or fluid transport. Findings Here Finally, the formation of gallbladder mucoceles has been associated with certain medication use: Dogs with GBM were 2.2 times as likely to have had reported use of thyroxine 3.6 times as likely to have had reported treatment for Cushing’s disease 2.3 times as likely to have had reported use of products containing imidacloprid (insecticide) Findings Here Supporting Healthy Gallbladder Function Maintain an ideal body score Obesity in Pets – Part One Obesity in Pets – Part Two Support digestive function Low Fat Kangaroo The Dog’s Digestive System Optimal Gut Health Pancreatitis: Natural Guide for Pets Stay hydrated! Offer filtered water and ditch the dry! Offer antioxidant rich foods! Berries and leafy greens are a great place to start! Dietary Patterns Studies have indicated that the consumption of sugar, refined grains, processed meats and low-fat food products are associated with increased risk of gallstone disease. Likewise, the intake of nuts, fruits, vegetables and omega-3 PUFAs is associated with reduced gallstone disease. Supportive nutrients in terms of gallbladder health include fibre, magnesium, and vitamin C. Findings Here Why Is Magnesium So Important to Your Pet Why Fibre is Good For Your Dog Why Chia Is So Good For Your Dog Issues with the gallbladder are sadly not that simple, there are several factors to consider. If you are concerned about your dog’s gallbladder or liver
Here at My Pet Nutritionist, we have clients and followers from all over the globe, but most of the team is based in the UK and we’ll admit, the changing climate gets us a little hot under the collar with the risks posed to our canines. So, here is our ultimate guide to summer living with canines. Exercising Dogs During the Summer It’s seen world over, no matter when their Summer arrives, we are bombarded with images or stories of dogs suffering with heat stroke. For some it is fatal. Sometimes it’s obvious how the dog has succumbed, other times, well-meaning owners just haven’t realised the true impact of certain exercise on their dog in the heat. So how do we deal with the heat? How do we keep our dogs exercised and stimulated? Firstly, we need to get a handle on heatstroke. As you may, or may not, know; to cool themselves, dogs pant. They don’t sweat like us humans (they do have some sweat pads in their paws, so if they are stressed, you may notice sweaty paws at the Vets). But when panting isn’t enough to maintain the status quo, their body temperature rises. If this isn’t corrected quickly enough, it causes problems. Symptoms of Heat Stroke Severe panting, Difficulty breathing (particularly if your dog already has any respiratory problems), Severe salivating, Vomiting, Diarrhoea, Raised temperature, Blood in urine, Nose bleeds (and other bleeding problems), Ultimately, collapse and coma, Factors that increase risk of heatstroke: Lack of water, Enclosed space, Excessive humidity, Obesity, Intense exercise, Old age, Cardiovascular disease or respiratory disease, Lack of acclimatisation. Prevention is better than cure, so here are our top tips: Firstly, only walk your dog at the coolest times of the day. Even if this means getting up earlier and going to bed later. It may also be necessary to shorten your usual walk, but it’s better to be safe than sorry. Ensure free access to fresh filtered water at all times, Check the temperature of the pavement – if you can’t hold your hand to it, your dog can’t walk on it. Keep your dog inside, even out of the garden at the hottest parts of the day. Put fans on or air con if you have them! If you have a sheltered spot in your garden, consider setting up a dog pool. Remember to change the water regularly though! Consider investing in cooling mats or cooling jackets. Water Hazards For Dogs It is almost instinctive to want to take our dogs near water on a hot day, but like everything in life, that too has its risks. Blue/Green Algae – when in doubt, just stay out! When present in water, there is an unmistakable hue. Blue/Green Algae thrives in warm, nutrient-rich water and will form “blooms.” It naturally occurs in lakes, ponds, canals, rivers, and reservoirs around the world. They are a type of bacteria, known as cyanobacteria, which can produce toxic chemicals that are harmful to the health of people and animals. When ingested, it can cause vomiting, diarrhea, respiratory distress, weakness, lethargy, and seizures. It can also be fatal. Blue/green algae is often found in water where there is a film or scum like appearance. Country parks sometimes have warnings up, or their websites will identify any recent blooms so it’s always worth checking sources before heading out. Findings Here Water Intoxication Aside from the assumed risk of drowning in water, for dogs who play and retrieve a lot in water there is also the risk of water intoxication. This is when your dog has ingested far too much water for their body to handle. Initial symptoms include vomiting, lethargy, and abdominal distention. Further symptoms include weakness, coma, seizures, and ataxia. Be mindful if your dog swallows water when they are retrieving and keep their time in the water to a moderate level. Findings Here Rip tides – in a very general sense! Whilst you may not be at the beach, we’re talking about all bodies of water that may have fast and strong currents. It could be a rip at the beach or simply a fast-flowing section of river. Before you let your dog venture into any water, watch it for a few minutes. Watch the flow, watch for any white water as this will help you figure out any underlying currents. You need to be sure the water is safe and that your dog is capable of swimming in it. Smaller dogs or less able pooches may struggle with even the slightest of currents, so again, when in doubt, just stay out! Waterborne illness! There is always a risk of water borne nasties, especially in stagnant pools of water. So: Opt for fresh and flowing water where possible, Don’t allow your dog to drink from the water source, provide fresh water from home/a bottle, Rinse them off when you get home, Watch for any changes in health or behaviour over the next couple of days. Keeping Dogs Stimulated If your walks are shorter, or even not existent on some days, then brain games are a great way to keep your dog settled. Treasure Hunt! Ideal for both food and toy orientated dogs, you can hide either high value treats or toys around the home or garden. At first, hold the treat or toy out in front of your dog and allow him to watch you where you hide it. Encourage him to find it. Praise him when he does, giving him the treat or allowing him to play with the toy. Repeat and as he finds the treasure, label the behaviour; for example, “hunt.” Start with hiding the treasure in easy to access places, eventually moving to harder to reach locations. Name that toy! Providing your dog doesn’t destroy his toys as soon as look at them, we can teach him the names of them. Start with one toy. Throw the toy and encourage him to retrieve the toy. As he brings you the
Histamine intolerance (HIT), more technically known as enteral histaminosis, is characterised by the development of problematic symptoms after the ingestion of histamine containing foods. However, current schools of thought are that HIT is not solely due to dietary histamine exposure, but exposure along with insufficient or impaired histamine detoxification. We can see the raised eyebrows from here, so here at My Pet Nutritionist, we thought we’d take a closer look at this issue. What is histamine Histamine is a transmitter in the nervous system and a signalling molecule in the gut, skin, and immune system. It is synthesised from the amino acid histidine which is in fact an essential amino acid for humans and dogs. It is primarily associated with the functioning of the immune system. During an immune reaction, histamine is released from mast cells throughout the body and contributes to the physical changes necessary for the immune system to fight the pathogen, like the increase in blood pressure, temperature, swelling, and constriction in the lungs. Histamine is released to carry out a function and then it is removed, or it should be, efficiently. Detoxification of dietary histamine normally occurs in intestinal epithelial cells via the enzyme diamine oxidase (DAO) as well as histamine-N-methyl-transferase (HNMT) in the liver. The term histamine intolerance is used similarly to lactose intolerance in humans (LIT). LIT, with a deficiency of the enzyme lactase, shows parallels to the definition of HIT, with a deficiency of the GI enzyme diamine oxidase (DAO). DAO is a secretory protein stored in structures of the plasma membrane and is responsible for the degradation of extracellular histamine. The expression of DAO is restricted to certain tissues, mainly the small intestine, colon, placenta and kidneys. In the intestine, DAO activity increases progressively from the duodenum to the ileum and is located mainly in the intestinal villi. On the other hand, the enzyme HNMT is expressed in a wide range tissues including the kidneys and liver, the spleen, colon, prostate, ovaries, spinal cord cells, trachea, and respiratory tract. The gateway for dietary histamine is the intestinal epithelium. So, although HNMT is also present in the gastrointestinal tract, the more highly expressed DAO plays the major role in protecting the body against exogenous histamine, whether originating from ingested food or generated by the intestinal microbiota. What Can Cause Deficiencies in DAO? There are polymorphisms in the genes that encode for the DAO enzyme, but certain medications, including over the counter products are seen to inhibit the activity of DAO enzyme too. They include: Analgesics – morphine, NSAIDs Antiarrhythmics Antibiotics Antifungals Antimalarial Diuretics Motility agents Muscle relaxants Vitamins – ascorbic acid, thiamine Findings Here Furthermore, several inflammatory bowel pathologies affecting mucosal integrity are known to result in impaired DAO activity. DAO activity has been proposed as a marker of the integrity of intestinal mucosa. In inflammatory bowel diseases, reduced DAO activity was related to the degree of mucosal damage. In one human study, DAO activity was significantly reduced in cases of ulcerative colitis compared to the control population. gut guardian can help support histamine intolerance and allergies. Findings Here Gut Guardian Prevalence of DAO deficiency in HIT In human studies, 80% of patients showing symptoms of HIT also demonstrated DAO deficiency. Symptoms of HIT include: urticaria pruritus diarrhoea abdominal pain vomiting constipation cough rhinitis If DAO production is low, histamine blood serum will inevitably be high. This is where the liver needs to be functioning effeciently, to assist with excess histamine metabolism. Liver Guard Diagnosing HIT Currently the general rule of thumb is that two or more symptoms of HIT are being presented. Other gastrointestinal pathologies should also be dismissed. Low histamine diets are recommended in the short term, to establish remission or improvement in symptoms. Low Histamine Diets Foods that potentially contain high levels of histamine are: a) those microbiologically altered, such as fish and meat, or derived products that may have been preserved or processed in unsuitably hygienic conditions. b) fermented products, in which the bacteria responsible for the fermentation process may also have aminogenic capacity. If you would like more information on low histamine diets check out our blog here. Low Histamine Diets for Dogs More are now acknowledging the role of DAO inhibitor medications and the result on histamine load. In addition, we must consider how the health of the gut may be influencing enzyme capacity and so we really need to take a look at the bigger picture. Does My Pet Need to Detox 7 Steps to Optimal Gut Health for Pets If any of this is ringing a little true for your dog, then please check out our services to see if we may be able to help. Thanks for reading, Team MPN x
Calcium is one of the most abundant minerals in the body. We tend to notice it for its role in bone health, but it’s also involved in muscle contraction and cardiovascular health. There’s a lot of information out there around calcium, especially in the growing dog, so let’s take a look at its function, balance and some of My Pet Nutritionist’s favourite sources. What is Calcium? Calcium is a metal with the symbol Ca, it is also defined as an electrolyte. Calcium ions play a role in: Physiological and biochemical processes in the body Signal pathways Messengers in neurotransmitter release from neurons Contractions of all muscle cell types Cofactors in many enzymes Fertilisation Calcium Balance Only a small percentage of total body calcium is needed for the above roles, the rest is stored in bones and teeth for structural support. When calcium intake is low or malabsorbed, the body will pull stored calcium from bones to maintain normal functioning. This is what leads to poor bone health – the body is always cashing in on its stores! Calcium balance or homeostasis is regulated by parathyroid hormone, calcitriol and calcitonin. When blood calcium levels drop, the parathyroid glands secrete parathyroid hormone (PTH) which stimulates the conversion of vitamin D in the kidneys to its active form calcitriol. This decreases urinary excretion of calcium but raises urinary excretion of phosphorus. Elevated PTH also promotes bone resorption (break down) which releases calcium and phosphorus into the blood from bones. Higher calcitriol concentrations increase intestinal absorption of calcium oh phosphorus too! As calcium levels normalise, PTH secretion stops and the thyroid gland secretes the hormone, calcitonin. This reduces bone resorption and well as calcium absorption and promotes urinary calcium excretion again. Bone Health The skeleton is essential as a supporting framework. It consists of strong, mineralised bone which form a sophisticated system to facilitate movement. Bone is a light, yet strong connective tissue consisting of around 30% collagen and other matrix proteins with around 70% minerals. These minerals obviously include calcium and phosphorus but magnesium, sodium and potassium are also present in conjugated form. Also known as ossification, bone formation is a process where new bone is produced. Look at any large breed and it’s clear to see how much new bone needs to be produced from birth to full skeletal maturity. Bone starts as a cartilage model which gets slowly replaced. Osteoblasts are the cells that form new bone. They secrete osteoids. Osteoid tissue is simply unmineralized bone tissue. Soon after the osteoid is laid down, inorganic salts (calcium and phosphorus) are deposited which forms the hardened material that we know as bone. Bone formation proceeds outwards from ossification centres; short bones tend to have one in the middle whereas long bones typically have three, one at each end and one in the middle. Ossification, or bone formation continues until there is a thin strip of cartilage left at each end of the bone. This is known as the epiphyseal plate, or growth plate in the dog world. When the bone reaches full adult maturity, the cartilage is replaced with bone and “sealed” for want of a better word. It is widely recognised that bone mass and density are determined by various concurrent factors, such as genetics, hormones, physical activity, and certainly, nutrition. While genetic factors have a critical role in growth and peak bone development, an adequate intake of bone nutrients represents the main factor for the full expression of a given genetic potential and for bone maintenance during adulthood. An optimal calcium intake is necessary for bone health at all stages of life. Dietary requirements for calcium are determined by the need for bone development and bone maintenance, which vary throughout life, being higher during puppy-hood, adolescence, during pregnancy and lactation, and in the aging dog. The risk of bone loss is increased in: Low calcium diets, Low protein diets, Hyperthyroidism, Oestrogen deficiency (of interest in spayed females) Findings Here Findings Here Findings Here Too Much Calcium Lifelong physical activity with adequate calcium and vitamin D slow the rate of bone loss. Interestingly, in humans, supplemental calcium leading to excessive calcium intake has been seen to reduce the bone growth stimulating effects of PTH. Furthermore, PTH suppression caused by high calcium intake is thought to reduce magnesium absorption. However, one study following dogs for a 40-week period, notes that adult dogs are capable of regulating calcium balance with no adverse effects on health. It was concluded that when exposed to increased Ca levels, dogs will reduce intestinal absorption, so excretion increases via faeces and urine. It is posited that this is an evolutionary adaption, because dogs are inherent scavengers likely to consume large, infrequent meals high in Ca-rich bony material, rather than Ca-deficient foods. This was explored further, and adult dogs fed a Ca deficient diet did not adjust their Ca excretion leading to negative calcium balance. Findings Here That said, this study was based on a dry diet and the authors themselves posit digestibility as a limitation. “Commercial dog diets contain raw ingredients and undergo processing such as extrusion and cooking, which generally limit Dry Matter digestibility, and consequently lower Ca availability.” They suggest that home-prepared diets with high digestibility may increase Ca absorption and result in a positive Ca balance instead. The bottom line? Opt for a fresh-food diet with sources of calcium and always speak with a qualified practitioner before considering supplementation. Muscle Contraction The muscular system is made up of muscle tissue and is responsible for functions such as maintenance of posture and control of various circulatory systems. This includes the beating of the heart and the movement of food through the digestive system. The muscular system is strongly associated with the skeletal system in facilitating movement. Both voluntary and involuntary muscular system functions are controlled by the nervous system. Muscle is a highly specialised soft tissue that produces tension which results in the generation of force. Muscle cells, or myocytes, contain myofibrils comprised of actin
