Vomiting is one of the most common reasons owners take their dog to the vet. Here at My Pet Nutritionist it is a common symptom too, but it is often misperceived for regurgitation. There are a number of reasons for both, and they are very different mechanisms. So, let’s first establish the difference between vomiting and regurgitation, and focus specifically on reasons why your dog may be regurgitating. What’s the difference between vomiting and regurgitating? Vomiting is an active process, where the dog is forcefully ejecting the contents of their stomach or intestines. It is often preceded by sound. Food is usually at least partially digested, or it may be bile that comes up. In vomiting you will notice signs of nausea, like drooling or lip licking. Regurgitation is more passive and usually happens while a dog is eating or shortly afterward. There is usually no sound beforehand. Regurgitation is often just water or undigested food. Regurgitation can be common if a dog eats something that is too large – think large bones or chews. Some dogs will attempt to re-ingest it as soon as they’ve regurgitated it. But there are also some other reasons for regurgitation. 1) Stress Stress is a response in the body –and it is similar across humans and dogs. When exposed to a stressful trigger, the sympathetic nervous system fires up. During this process, resources are directed away from the digestive system and so digestive function is compromised. This can lead to the development of acid reflux which is one of the more common reasons for regurgitation. Stress has also been seen to affect oesophageal sensitivity. During stress, corticotropin releasing hormone plays a key role. This hormone is regularly implicated in hypersensitivity (which is why conditions like IBS are more common in those who are anxious or stressed). But what it means is that the oesophagus is more sensitive to mechanical distension, chemical stimuli and more, which may lead to regurgitation. 2) Reduced Mucosal Integrity In the same strand, mucosal integrity also influences oesophageal hypersensitivity. Just like we have a barrier in the skin and gut, we also have an oesophageal one. It too is made up of tight junctions and has its own plethora of defence mechanisms, including a mucosal barrier. But the presence of acid, in cases of acid reflux can injure the oesophageal epithelium and so, in turn, it damages the mucosal barrier, along with the tight junction formation. During attempts to repair, the inflammatory response is called to action, and animal studies into oesophageal damage have suggested it is a double-edged sword. This inflammatory response has been seen to lower oesophageal pressure through its action on smooth muscle which, not only allows for further reflux of acid,but also then delays acid clearance. Findings Here. The take home here is to restore mucosal integrity as soon as possible and modulate inflammation with ingredients such as l-glutamine, slipper elm, deglycerised and marshmallow root. Gut Guardian 3) Good Stress You may notice that your dog is more likely to regurgitate if they eat too soon after exercise. There is such a thing as good stress, but the response in the body will be the same. When your dog is running, chasing and playing, they are asking their body to move away from homeostasis. Their body will need compounds at a higher rate than what they are needed at rest. It therefore places their body under stress and so, resources are redirected. Digestion is no longer a required function and energy conversion is more important. The sympathetic nervous system is the functional stress response, the parasympathetic nervous system is the commande rthat walks into a room and states, “as you were!” But this command can take time to be heard, and so, if your dog eats too soon after exercise, the entirety of the parasympathetic nervous system hasn’t yet got the message. Without a fully functioning digestive system,it propels the food back out again. Always be mindful of when you choose to offer meals to your dog. 4) The Food Being Fed Regurgitation immediately after eating is in fact relatively common in dogs – but this doesn’t mean its normal. From experience, we often link it to the type of food being fed, as often in many cases, when the food is changed,the regurgitation stops. This can be for a number of reasons,but in short, the body isn’t liking what is going in. The enteric nervous system (ENS) is a subset of the autonomous nervous system and can function independently of the central nervous system. The enteric nervous system innervates the entirety of the digestive system and ENS neurons become hyperexcitable in the presence of toxins, bacteria, inflammatory and immune mediators. Animal studies have demonstrated hyperexcitability of ENS neurons after sensitization withmilk ingestion, leading to mast cell degranulation and histamine release. What caused the sensitisation in this study isn’t relevant, the note to make is that hyperexcitability can occur after sensitization, leading to aberrant enteric function. And so, it pays to consider an inflammatory/immune component in cases of chronic regurgitation. An elimination diet may be useful in this case. Check out our blog for more information. Here Equally, an easily digestible recipe such as white fish, can help, if fish is well tolerated. Low Fat Fish Of interest here is the crosstalk between the microbiome and the enteric nervous system. ENS nerves are thought to detect microbial products because germ-free animals exhibit significantly altered enteric function. A healthy microbiome is therefore crucial for the correct digestive messages to get where they need to go. To support your dog’s microbiome, check out our blog: Here 5) Structure There are cases where the structure of the oesophagus can result in frequent regurgitation. This can be a developmental abnormality or blockage. A thorough exam would be necessary to establish the severity of any structural issue. Summary In many acute cases of regurgitation, acid reflux often comes intoplay. If you would like to learn more then check out
Coprophagy,the technical way of saying a dog’s (or other animal’s) tendency to eat their own or other animal’s poop, is possibly more common than you may think, and certainly an issue we are told about here at My Pet Nutritionist. Throwback to the 1940’s and 1960’s and studies on rabbits and rats respectively suggested that it occurred due to vitamin synthesis and the frequency depended largely on nutritional requirements during growth or aging. So, much like Chinese whispers, we have come to the understanding that our dog is eating their poop because they are deficient in something. Findings here. You could stop reading there and have an answer to your question, but you would be wrong. Firstly, your dog isn’t a rat or a rabbit. There’s a little more to this less than desirable habit, so let’s delve a little deeper. What is coprophagy? Coprophagy is common in rats, rabbits, guinea pigs and chinchillas. Rabbits even excrete two types of faeces; hard and soft. Soft faeces are re-ingested but hard faeces are not. If rats are prevented from the act, then they require dietary supplementation of thiamin, biotin, pantothenic acid, folic acid, Vitamin B12 and Vitamin K. Findings here. Based on this information, if you were to notice a dog commonly eating their own poop you would consider that they too did it for nutritional reasons. But it all comes down to the digestive system. In rodents and rabbits, bacterial synthesis of nutrients occurs in the lower gastrointestinal tract. Here, little absorption occurs. By eating their own faeces, it gives them another shot at absorbing the nutrients, for want of a better description. So why do dogs eat their own poop? Well, it has its own name, so it’s nothing new. Canine conspecific coprophagy is regularly mentioned to vets and use alike, and is a regular search term on the world wide web. Some argue that it is a sign of an underlying medical issue,for example: 1) Enzyme deficiency As we know, a key part of the digestive process is enzymatic breakdown. Without key enzymes, food will pass through undigested. There is a school of thought which suggests the dog will eat their own faeces, to give themselves another chance at digesting the food and utilising the nutrients; exactly like the rodents did. 2) Increased appetite There are certain conditions which increase appetite, like diabetes and thyroid issues and so in an attempt to meet their ravenous needs, a dog will eat anything in sight! On the same side of this coin – there are others that argue a dog will eat his own faeces if he is being underfed. That said, the number of obese dogs is increasing year on year, so, before you alter his feeding amounts, check out our blogs: Here and Here. Others argue that it’s not necessarily a health issue, but more a psychological issue. Some have noted that it can occur in bored dogs; whether the dogs are simply amusing themselves, or in fact it’s attention seeking behaviour. For example, many owners don’t like dogs eating poop, so when they spot it, they give the dog attention;despite it being a negative interaction. Think of it like the child who misbehaves as soon as the parent takes that important phone call. However, in order to get a handle on the true reason, a study was conducted that looked at the diet of coprophagic dogs, it looked at house-training, their eating habits and what behaviour modifications had successfully been used in managing it. Findings here. This study found that the diet of the dog had no significant impact,therefore suggesting no nutritional basis for the behaviour and coprophagic dogs were just as easily house-trained as non-coprophagic dogs; so, they still maintained a typical aversion to faeces like most dogs. Interestingly, those dogs who ate their own poop, were more readily described as greedy eaters. Sadly, the success rate of behaviour modification to stop the dog eating their own poop was close to zero. Let’s see if their like of other animal’s poop sheds anymore light on the reasoning behind this particular behaviour. Why do dogs eat cat poop? The most likely explanation is that whatever hasn’t been absorbed by the cat during their digestion, attracts the dog to eat the poop. In some commercial cat foods, compounds are added to make the food palatable; these aren’t always absorbed by the cat, so they just come out the other end. Why do dogs eat another dog’s poop? There’s little evidence to suggest a nutritional basis for eating another dog’s poop. The factors relating to a dog eating faeces include: Greedy eating Breed group (hounds and terriers are more likely to do so) Multiple dogs in the house Eating dirt Eating cat stools It doesn’t appear to make a difference whether they are eating their own, or another dog’s poop – if they are going to eat poop, they’re going to eat poop. Why do dogs eat wild animal poop? When you’re out on your walks with your poop eater, he’s probably found rabbit or horse poop. Why are they drawn to it? The explanation could lie in their plant-eating habits! With horses and rabbits being herbivores, are dogs seeking the plant content of their poop? Again, grass-eating is not linked to nutritional deficiency or illness. Some owners perceive it as a way for dogs to make themselves sick. But dogs fed commercial, table scrap or raw diets were no more prone to grass or plant eating than the others. The answer to this question takes us back to their ancient beginnings. Plant-eating seemed to play a role in controlling internal parasites. Plant material passes through the intestinal tract, wrapping around worms and thereby clearing them out. Findings here. The parasites would then be found in the faeces, which leads us to another reason why a dog would eat poop – to keep their den clear of parasites. Some domestic dogs take themselves off to the furthest point
Whilst we often reference lip licking in anticipation food, there are a number of reasons why dogs especially, may demonstrate this behaviour. Some may even surprise you. So, let’s take a look at some of the more common reasons for lip smacking, or licking, that we see here at My Pet Nutritionist. 1) Anticipation of Food! We can head back to Pavlov and his dogs to put this behaviour into context. Most of us are familiar with the concept of conditioning that Pavlov introduced – he paired a bell with food, and eventually, the dogs would salivate in anticipation of the food, just by hearing the bell. This increase in salivation will encourage lip licking to help manage the extra fluid in the mouth! But what is also interesting is that food also stimulates the reward system in the brain – and the physical response to this type of reward is often saliva – again, the lip licking is a mechanism to manage the extra fluid in the mouth. 2) Lip Licking in response to stress! Not surprisingly, stress can result in hypo (too little) and hyper (too much) salivation! Either way, lip licking is often the result. On the one side, activation of the sympathetic nervous system (fight or flight), redirects resources and in doing so, digestive functions are sacrificed. As saliva is an important part of the digestive process, production is therefore reduced. The resulting dry mouth can encourage lip licking behaviour. Licking is also a maternal behaviour – they would clean and groom their offspring, soothing them during the action. Many dogs demonstrate licking behaviour because it elicits positive responses. It is well demonstrated that those born to Mothers who engaged in grooming/licking behaviour, are more resilient to stress, and develop more appropriate coping mechanisms. Findings here That said, increased salivation can be implicated in certain health issues that are exacerbated by stress – here salivation may be a side effect of an underlying issue, like acid reflux. 3) Acid Reflux Acid reflux is where stomach acid ends up somewhere it shouldn’t. As we know, the body is pretty nifty and has a few tricks up it’s sleeve to deal with rogue compounds. In response to the irritant in the oesophagus (stomach acid), salivary glands can over produce in an attempt to neutralise it. Ironically, acid reflux can be a result of reduced salivary production in the first place. There are a number of causes of acid reflux, poor lower sphincter functioning, abnormal oesophageal clearance, altered mucosal resistance and delayed gastric emptying (which is why it can be implicated alongside stress). If you would like more information about tackling acid reflux, then check out our blog here. 4) To smell better! Dogs use their tongues to enhance their sense of smell. When they lick a surface their transfer molecules via their tongue to olfactory receptors and then to the vomero nasal organ. When a dog keeps their nose wet, they are lowering the surface tension of the scent molecules so they can be translated better! Dogs are incredible at detecting minute traces in their environment – this also applies to information from us humans. We must consider whether our dog is attempting to gain more information about those around him when he is licking his lips. 5) Gastrointestinal Disorder Lip licking is often paired with nausea,along with excess salivation, lack of appetite, increased swallowing and lethargy. For this reason, it is often considered that lip licking is more likely associated with some gastrointestinal disorder or discomfort. One particular study sought to investigate this. Dogs demonstrating excessive licking behaviour were studied. In 14 of 19 licking dogs, gastrointestinal abnormalities were noted. They included: Delayed gastric emptying Irritable bowel syndrome/disease Food intolerances or allergies Pancreatitis Gastric foreign body Giardia Researchers concluded that full gastric health should be considered in any dog presenting with excessive licking behaviour. Findings here If you would like a head start on supporting your dog’s digestive health, then check out our blogs here: The Dog’s Digestive System 7 Steps to Optimal Gut Health for Your Pet Natural Guide for Pets IBD Pancreatitis and a Natural Nutrition Regime 6) Disorders of the Mout Gum disease is an inflammatory condition,symptoms include bad breath, drooling along with mouth and tongue inflammation. Sadly, bacteria can be translocated from the mouth into the rest of the body, often causing secondary infections and issues. For more information on dental care for your dog check out our blog here. But disorders of the mouth aren’t limited to periodontal disease. They can also include lip disorders found in those breeds with dropping upper lips and lower lip folds (like spaniels,bulldogs and St. Bernards). The lips accumulate moisture, becoming the perfect breeding ground for harmful bacteria. The lip folds can become fowl-smelling,inflamed, uncomfortable and swollen, resulting in your dog licking them to try to soothe them. Keeping these folds is therefore essential to your dog’s health! As is supporting their skin and oral microbiome. Please check out blog on puppy microbiome here. Your dog can also develop lip wounds – from a rogue branch or grass seed that has gotten wedged. If you are concerned about your dog’s lip licking behaviour – checking in their mouth is a good place to start. These are the more common reasons why your dog may be licking their lips, but they are not the only ones. Your dog may lip his lips for any one of the following reasons: Medication side effect Infectious disease Car sickness Reluctance to swallow (irritation/blockage) Inflamed tonsils Structural defects in the mouth Metabolic disorder (liver or kidney issues), Natural Guide To Liver Disease and Natural Nutrition Guide to Kidney Disease. Abscess. Disorder/blockage of the salivary glands Pain Whilst we can’t change the structure of your dog’s mouth, we have a wealth of experience tackling gastrointestinal disorders in the canine. If you are concerned about excessive lip licking in your dog and are wondering where to start, check out our services to see
You are what you eat! This is a phrase that has dominated the media for decades. On a biochemical level it’s true – each cell in the body has a function, to carry out that function, it needs nutrients, co-factors and energy. Whilst some nutrients and cofactors can be synthesised within the body – in one way shape of form, what cells need must come from somewhere, and that somewhere is the diet. This also applies to the cells that tell us, and our dogs how to behave, or more interestingly, influences how us or them feel. So, can food affect behaviour? It sure can! But the full answer needs a little more explanation, so grab a coffee and join us as we take a look at the link between food and mood, and specifically which compounds or foods may play a role. What is Mood? Mood is the way us or our dogs are feeling at a particular time and they can change – depending on internal and external factors. Although they can change – moods still have physiological symptoms – for example, during anger, heart rate increases and in humans, a noticeable red flush to the face. When calm, heart rate reduces. Being focussed or distracted is also a mood and this is largely affected by biochemical processes too. In this case, the right balance of dopamine. Dopamine is a neurotransmitter, and these chemical messengers are in fact a key element in how food can influence behaviour. Neurotransmitters are like the nervous system’s carrier pigeons. The main neurotransmitters that do that work are acetylcholine, dopamine, gamma-aminobutyric acid (GABA), glutamate, histamine, norepinephrine and serotonin. Neurotransmitters can be excitatory, or inhibitory. They either make something do something or stop something doing something. Like an accelerator and a brake pedal. All of these neurotransmitters must be made from something. We can think of it like a recipe for behaviour – we have main ingredients, but we also need some seasoning (co-factors)! So, let’s take a look at the recipe book for some of the heavy lifting neurotransmitters. Acetylcholine Acetylcholine stimulates muscle contraction, both skeletal and smooth. It is also involved in attention, memory, and learning. Acetylcholine is needed in high amounts during waking hours, but in low levels during restorative sleep. In most cases acetylcholine is excitatory. What is of interest is that acetylcholine is released by nerve cells during times of mild stress (or concentrating on learning something new), so during these times, demand is increased. Acetylcholine is synthesised from choline and it is carried out in the liver. Sources of choline include egg yolks, liver, kidney and seeds. Dopamine Dopamine can be both inhibitory and excitatory depending on the receptors it acts upon. It contributes to the control of voluntary movement and influences learning, attention, and emotion. It is largely associated with reward mechanisms in the brain and plays a part in pleasure seeking. Dopamine gets particular interest in incarcerated humans, but also in aggression in dogs. Aggressive dogs have been found to have significantly different alleles for dopamine receptors than their non-aggressive counterparts; short form alleles demonstrate greater impulsivity. Whilst it is easy to suggest that aggression and impulsivity is in the genes, there are processes that can regulate gene expression. DNA methylation is one such epigenetic mechanism. If you would like to know more about this then check out our blog here. Findings here Dopamine is synthesised from phenylalanine and tyrosine which are both amino acids. Sources of phenylalanine include dairy, eggs, nuts, chicken, beef, pork and fish. Sources of tyrosine include chicken, turkey, fish, bananas, yoghurt, pumpkin seeds and sesame seeds. Dopamine is broken down by a couple of enzymes, and there can be genetic variants which affect how quickly it occurs –for some, dopamine may hang around a little too long, for some it may disappear incredibly quickly. Increased breakdown can lead to attention deficit behaviour and often fatigue like behaviour. On the other side of the scale, decreased breakdown is sometimes noted in aggressive behaviour. Altered protein intake can sometimes help to balance this out. GABA GABA is the primarily inhibitory neurotransmitter in the brain, this stops the firing of neurons and we call it the breaks on the brain. By inhibiting neural activity, GABA facilitates sleep, reduces mental and physical stress, lowers anxiety, and creates a calmness of mood. Its relationship with glutamate is key to overall balance. GABA also modulates intestinal motility,gastric emptying, and gastric acid secretion. Findings here GABA’s recipe includes an amino acid too, glutamine. Sources of glutamine include beef, chicken, dairy, fish, eggs, cabbage, spinach, carrots, kale, and papaya. Serotonin Serotonin has a wide-ranging role in the body including regulation of energy balance, food intake, and GI and endocrine function. But its behavioural processes include mood, perception, reward, anger, aggression, appetite, memory and attention. In cases of canine aggression, serotonin levels are found to be significantly lower than their non-aggressive counterparts. Serotonin is synthesised from tryptophan, but you might already know this! However, in times of stress, tryptophan gets stolen. We’re not lying. It’s called the “tryptophan steal”. Tryptophan also feeds another pathway in the body, known as the kynurenine pathway which is a necessary pathway, but in times of stress or inflammation this pathway steps up a notch and siphons the little tryptophan we did have! Foods to boost serotonin: Banana Pineapple Pomegranate Strawberry Spinach Nettle Kiwi Lettuce Tuna Turkey Chicken Oats Nuts and Seeds Glutamate Glutamate has excitatory effects on nerve cells, and it can actually excite cells to their death. Both too much and too little glutamate are harmful. The oversupply of it can lead to seizures, and environmental stress can significantly enhance glutamatergic release. Findings here But like everything in the body, we’re looking for goldilocks – just enough! Glutamate occurs naturally in protein-containing foods like diary, mushrooms, meat, fish and some vegetables. Histamine Histamine is a transmitter in the nervous system and a signalling molecule in the gut, skin, and immune system. It is
Would you believe that around 70% of the consultations we carry out here at My Pet Nutritionist are surrounding allergies? The reasons for this are largely multi-factorial and bigger than the scope of one blog article, but as in the words of someone much smarter than us – you’ve got to start somewhere – so we thought we’d explore histamine in a little more detail. What it is, what it does, if indeed it is found in foods and whether there is anything, we can do to reduce the load. So, let’s get cracking. 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. Before we knew better (and in some labs we still don’t), animal studies established that histidine deplete diets result in dog death! Findings here Histamine is primarily associated with the functioning of the immune system. During an immune reaction, histamine is released and contributes to the physical changes necessary for the immune system to fight the pathogen, including the increase in blood pressure, temperature, swelling, and constriction in the lungs. Like all things in the body, histamine needs receptors for it to do its job and there are especially high concentrations of histamine receptors found in the lungs, skin, blood vessels, and gastrointestinal tract. Histamine is stored in granules in mast cells throughout the body and as we know mast cells mediate inflammatory responses such as hypersensitivity and allergic reactions. The granule protects the histamine; if histamine could float freely it would degrade very quickly. Histamine is released from those granules in response to tissue injury resulting from cold, heat, toxins, and trauma. As noted, there are numerous histamine receptors throughout the body. H1 and H2 receptors are of most interest in the hypersensitivity and allergic response (but there are H3 and H4 too). H1 receptor binding results in a range of actions. Peripheral sensory neurons are acted upon which causes itching and sometimes pain. Intestinal smooth muscle is affected causing constriction, cramps and possibly diarrhoea. H1 receptor binding can result in secretory mucosa causing bronchi and nasal mucus. Lastly the pulmonary smooth muscle can be affected resulting in constriction. There are some tissues that have both H1 and H2 receptor binding sites. This includes the cardiovascular system. Histamine binding here drops blood pressure by widening the blood vessels. It also increases heart rate. There are also dermatological effects resulting in increased permeability. This is often described as the triple response resulting in the reddening of the skin, wheal formation and an irregular “halo” flare, also known as hives. H2 receptor binding sites are more commonly seen in the stomach itself. Histamine can bind to parietal cells stimulating the secretion of gastric acid. This is why antihistamine medication is sometimes implicated in digestive dysfunction due to the lower secretion of gastric acid – which is ironic, when partially digested proteins can then become antigenic. H1 receptors are involved in type 1 hypersensitivity reactions (involves immunoglobulin E – IgE – mediated release of antibodies), H2 are involved in Th1 lymphocyte cytokine production, H3 are involved in blood-brain barrier function and H4 are also expressed on mast cells exacerbating histamine and cytokine generation. The long and the short of it, histamine stimulates inflammation and is a prominent contributor to hyper sensitivities and allergic disease (but it is only one of many mediators of allergic disease). Histamine kick starts the processes to get rid of the offending particle/s – whether this is to sneeze pollen from your nose, or to expel food allergens from the gut, but it also plays a role in wakefulness, appetite, and endocrine homeostasis. So, histamine is in fact necessary to maintain homeostasis (balance in the body). But there can be too much of a good thing. Histamine is released to carry out a function and then it is removed by a few different pathways. The enzymes we are particularly interested in are diamine oxidase (DAO) along with histamine-N-methyltransferase (HNMT). DAO inhibition or disruption can result in disproportionate amounts of histamine in the body which can result in a range of GI symptoms along with cardiovascular, respiratory, and skin complaints. Disruption of HNMT function, on the other hand, tends to affect the nervous system. HNMT inactivates histamine by transferring a methyl group, so methylation is a key process in maintaining HNMT activity. Methylation is a relatively simple process, but it occurs billions of times every second! It underlies the proper function of virtually every body system. It is dependent on certain key nutrients like folate in its active form, methyl folate, B12 and B6. There are a number of factors that can affect methylation, from nutrition to genes, but stress and vaccination is a major drain on it. The stress response is a sequence of processes that relies on methylation, depleting key nutrients as it goes. Therefore, if methylation isn’t efficient, HNMT isn’t efficient, and histamine can become imbalanced affecting behaviour, sleep, appetite, immune function and digestion. A range of factors can increase histamine in the body such as infections, B12/folate deficiency, magnesium deficiency, stress, inflammation, trauma and exercise. Not only that but certain gut bacteria produce histamine. DAO and HNMT can become flooded when there is a high histamine load, subsequently affecting breakdown. Histamine load can be increased by the ingestion of high-histamine foods too, but the release of it can also be promoted in the body, by foods we know as liberators. The following list is of foods to avoid if opting for a low-histamine approach to hypersensitivity, whilst getting to the bottom of things. Fermented foods (kefir, sauerkraut etc, prebiotics) Tripe Vinegars (including ACV) Long-stored nuts Beans and pulses Canned foods Citrus fruits Banana Wheat germ Spinach Canned fish (salmon can contain more histamine than most) There is also discussion around yeast behaving as a histamine generating catalyst, so the general rule
The Universe inside your Puppy Here at My Pet Nutritionist we always focus on microbrial health, so we delve into it’s importance for your puppy to hopefully set them up for life. Microbes have been around for billions of years, humans – less than a million and we all know there is much disagreement over the domestication of our faithful furry friends. Microbes can multiply in minutes, survive and thrive in every habitat on earth, and technically, they’ve killed more people than all wars combined. But, without them, we actually couldn’t survive. Microbes are like a bad version of Ed Sheeran, you need me, I don’t need you. The body is in fact like a mini ecosystem. It has many different microbial communities throughout the body. They live inside; in the lungs, nose, urinary tract, and digestive tract, but they also live on; they are all over the skin! Because you sadly have jobs that need to get done today, we’re just going to do a whistle stop tour of the three main microbial communities and how we can support them in the puppy. First up, the skin microbiota. Not surprisingly, the skin microbiota plays a role in skin conditions like atopic dermatitis and even some skin cancers. Check out our blog on atopic dermatitis in pets here. In the dog, there are different communities found in different areas of the skin; there are also clear differences in diversity between healthy and allergic dogs. The skin provides one of the first lines of defence in the immune system, but in two ways. Not only does it have its physical structure to keep things in, and things out, but the community of microbes on the skin also protect against potentially harmful pathogens. The good guys can engulf the bad guys before they gain entry into the body, but they can also compete for nutrients and resources, to prevent the bad guys from thriving. In utero, foetal skin is thought to be sterile. But colonisation of microbes occurs during and immediately after birth. As the newborn puppy moves through the birth canal, he is exposed to a variety of bacteria from Mum. Once puppy is born and grooming begins, Mum passes even more over to her offspring. Mum health is therefore imperative – not only for the diversity she possesses but also her emotional health. Stressed Mum’s are less likely to engage in grooming behaviour, so if she isn’t grooming her offspring, she’s not passing her microbes to them. The environment greatly influences the microbiome of the skin. There are noted variations in skin microbial communities between those living rurally and those in urban areas. There is also an increase in chemical use associated with urban living, which also influences the composition of the microbiome. Diversity is significantly reduced with the use of detergents and antibacterial cleaning products. Potentially pathogenic taxa are also increased as there are fewer good guys to keep the bad guys in check. This is why skin issues like acne or dermatitis are deemed western diseases; they simply just aren’t found on the skin of indigenous tribes or on that of individuals from non-industrialised societies. What is also interesting is that there is also a clear distinction between male and female microbiome, therefore suggesting hormonal influences. This poses food for thought in the neutered pet and how their microbiome is subsequently affected. Unnecessary use of antibiotics also affects the skin microbiome, along with excessive use of grooming products and of course nutrition. The Oral Microbiota There is a collection of microbes found in the mouth; these are the ones that result in bad breath or dental issues. Again, they pose a first line of defence against ingested potentially harmful pathogens. But they also play a role in metabolising certain nutrients. It is clear that the oral microbiota found in dogs differs significantly from humans – some researchers have even gone as far as saying that a human bite would be more dangerous than a dog bite in terms of wound infection potential. Findings here The oral microbiota is gaining more attention and for good reason – there are associations between oral microbiota composition and weight gain, much like we have with the gut microbiota. So, caring for the mouth cavity is just as important as caring for the gut, and colonisation, like in the skin occurs at and shortly after birth – and certainly within the teething period! Data is relatively new, but in human realms, to support oral health, the guidelines regularly include avoiding ultra-processed foods along with high-sugar foods (think high-fructose corn syrup found in many dog treats and processed foods). Guidelines also promote dental hygiene –for our puppies and dogs, raw, meaty bones are a great opportunity to support dental health. Remember to choose appropriately sized bones for puppies – soft bones like chicken necks or wings. They must always be raw – cooked bones pose a splinter risk! The Gut Microbiota/Microbiome 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. SIBO or small intestinal bacterial overgrow this when there are too many bugs in the small intestine. We want the majority of them in the large intestine. Each puppy and dog have a unique microbiome – just as we do. It’s like a fingerprint. How cool is that? But it just goes to show that if there is dysbiosis (imbalance of good to bad guys) – there is no one silver bullet. For our puppy, we are in a great position to support optimal gut health from the beginning (not withstanding gene interactions). When we talk about the microbiota or microbiome, we are not just talking about bacteria, but fungi and viruses which live inside the gut too. This is totally normal – the good guys with the right tools can keep the bad guys in check. This community can metabolise nutrients (ruminant
Any quick search on the internet will populate a range of breeds that are seemingly notorious for being fussy eaters. If you have a basenji, husky or yorkie, it looks like you’re signed up for a lifetime of stressful meals. Except here at My Pet Nutritionist, we don’t believe everything we read on the internet. Whilst all those breeds could indeed be fussy eaters, so can many more. And they are. It is perhaps one of the more common questions we are asked, “how can I get my dog to eat?” Being a fussy eater can be technically defined as an eating disorder, and there are a number of causes. From behavioural to biochemical, let’s take a look at the complex world of the fussy eater. The Function of Eating Food components are the main sources of energy for the canine body. Not only that, but it provides the compounds needed for each cell to do its job. As the body carries out its tasks, it uses fuel and compounds, as reserves run low, signals bounce around the body to kickstart feeding behaviour. This is hunger, a physical need to eat. Appetite is quite simply the desire to eat. Hunger and appetite can be at odds. You may want to eat, but not need to, and you may need to eat, but not want to (in times of stress for example). Appetite and hunger are largely controlled by the brain and a range of hormones. The Brain In the brain sits the hypothalamus. Through its connection to the pituitary gland, it modulates the endocrine system. It is involved in a range of daily activities including temperature regulation and energy maintenance. We know it plays a role in eating behaviour as several lesions to small areas of it can result in overeating and under eating. The lateral hypothalamus is defined as the feeding centre and the ventromedial hypothalamus is defined as the satiety centre. This is largely an oversimplification, but it certainly demonstrates the role. The hypothalamus receives information from the digestive system like stomach extension, chemical nature of ingested food and the metabolic activity of the liver and uses it to maintain energy balance. It also receives information from the emotion/reward system. Food is a rewarding object that induces pleasant emotions. Findings here The amygdala is largely responsible for this. Studies have demonstrated that when the reward value of food decreases, so too does eating motivation. Sadly, these studies often include the injection of lithium after eating, of which causes discomfort. But it does raise an interesting point in terms of the fussy eater in your life. We’ll revisit this later. Food reward is elicited by several events that occur before it even passes through the oesophagus, namingly the appearance and shape of the food, the taste and smell and then the pleasure of swallowing the food. We know this because in tube-feeding studies, reward sensations are reduced. In short, when subjects were no longer allowed to taste or chew it, they did not want to eat it. That said, in sham studies, when animals are denied nutrition because everything swallowed leaks out of a tube connected to the oesophagus, they eat and swallow more than usual, but they are still unsatiated. This tells us just how complex eating behaviour actually is. And provides food for thought for the gluttonous dog (on the other side of the scale). Hormones Hormones are probably the most talked about in terms of eating behaviour. You’ve all likely come across leptin and ghrelin. Leptin is produced in adipose cells, or fat cells. So, the more fat cells there are,the more leptin. In short, the more fat available in reserves, the less you need to eat. If you have no fat cells, you need to conserve your energy until you next find food. Leptin crosses the blood-brain barrier, and there are high numbers of leptin receptors found in the hypothalamus, brain stem and other regions of the brain. Rising leptin in a fed state inhibits food intake by suppressing a range of peptides involved in eating behaviour. Ghrelin is predominantly secreted in the stomach and it too modulates cells found in the hypothalamus by increasing excitatory inputs and decreasing inhibitory inputs. Here we are talking about neurotransmitters. These chemical messengers modulate much of our and our pet’s behaviour and they either make something do something or stop something from doing something. Whilst dopamine can be both inhibitory and excitatory, ghrelin is seen to have a large influence on the release of dopamine via increases in cell excitability. As dopamine is involved in reward and motivation, ghrelin is thought to target the motivational functions geared to gaining food and to select those which are more rewarding (high calorie). Findings here In eating disorders, dopamine is one of the neurotransmitters that gets a lot of attention. In times of reduced food intake (fussy eating), dopamine neurons are activated, in the short-term rewarding the lack of food. It is considered that it is a physiological response in an attempt to increase motivation to forage for food. Findings here However, there are also other mechanisms in which the dopaminergic system comes into play for the fussy eater. A central feature of the dopamine neuron response is that it is triggered by unexpectancy. After receiving an unexpected reward like food (or how many likes our recent post has got on social media) a dopamine surge is elicited. When this becomes a regular occurrence, the dopamine signal is triggered by the conditioned stimulus in predicting the reward. However, the dopamine system does not respond when the reward is received. If the reward is predicted, then not received, there is a dip in dopamine activity. What this means, is that your dog may do the song and dance ready for their bowl of food, but then walk a way as soon as it is placed in front of them. The reward they predicted (tasty food), isn’t what was received. The other neurotransmitter that gets a
As we look at photos or videos of dogs devouring their food, when we are dealing with a fussy eater, the question we always sit with is; why won’t my dog do that? Being a fussy eater can be technically defined as an eating disorder, and there are a number of causes. From behavioural to biochemical, let’s take a look at the complex world of the fussy eater and we’ll share our top 5 tips for dealing with them. Eating Behaviour Appetite and hunger are largely controlled by the brain and a range of hormones. In the brain the hypothalamus receives information from the digestive system like stomach extension, chemical nature of ingested food and the metabolic activity of the liver and uses it to maintain energy balance. It also receives information from the emotion/reward system. Food is a rewarding object that induces pleasant emotions. Studies have demonstrated that when the reward value of food decreases, so too does eating motivation. Sadly, these studies often include the injection of lithium after eating, which causes discomfort, but it does give us food for thought, pun intended, if our dog is eating food which may be causing them discomfort. The most discussed hormones when we are looking at appetite and hunger are leptin and ghrelin. Leptin is produced in adipose cells, or fat cells. So, the more fat cells there are, the more leptin is produced. In short, the more fat that is available in reserves, the less you need to eat. Ghrelin is predominantly secreted in the stomach, and it too modulates cells found in the hypothalamus by increasing excitatory inputs and decreasing inhibitory inputs. Here we are talking about neurotransmitters. Ghrelin is seen to have a large influence on the release of dopamine via increases in cell excitability. As dopamine is involved in reward and motivation, ghrelin is thought to target the motivational functions geared to gaining food and to select those which are more rewarding (high calorie). However, there are also other mechanisms in which the dopaminergic system comes into play for the fussy eater. A central feature of the dopamine neuron response is that it is triggered by unexpectancy. After receiving an unexpected reward like food (or how many likes our recent post has got on social media) a dopamine surge is elicited. For the dog who ends up with the same bowl of food every day, there is no longer unexpectancy. The other neurotransmitter that gets a little attention in terms of eating behaviour is serotonin. Serotonin has a well confirmed role in the regulation of eating behaviour. Serotonin is a key player in feelings of nausea – so higher levels could be produced in response to something not sitting quite right in the digestive system. What’s super interesting is that serotonin is metabolised largely by monoamine oxidase (MAO) so it stands to reason that MAO inhibitors can contribute to high levels in the body. Sadly, certain insecticides found on flea and tick collars contain MAO inhibitors. We must also consider the cascade of hormones that are released during the stress response. Stress is a redirection of resources, and this includes away from digestive function. If our dogs are exposed to acute or chronic stress, it could remove their desire to eat. That said, as an owner managing a fussy eater, the owner too can become stressed and anxious that the dog isn’t getting the nutrients they need to thrive. Unfortunately for us, dogs have incredible olfactory capabilities, meaning they can smell our stress! They also have this capacity to mirror our emotions. And so, when they don’t eat, we get stressed, so they get stressed and may be even less likely to eat. So what does all of this mean? If you have investigated further and there is no underlying health issue that could be causing your dog to be a fussy eater, they could: Be suffering discomfort from the food they are eating, whether this is a sensitivity, or issues with digestion. They are then less likely to want to eat it next time for fear of feeling poorly. Have an undesirable body score – there is a difference between the occasional fussy eater, and the chronic fussy eater. If your dog is only occasionally refusing food, they may well just not need it at that moment. Be bored with their food – this often applies to many commercial foods – dry food we’re looking at you. Having the same bowl of food every mealtime removes the sense of unexpectancy. Be stressed or sense our stress – have there been any recent changes to your routine? Are you more stressed than usual? Has their walking route changed? Have they had an altercation with another dog on a walk? Are there any new pets in the home? Have you moved any furniture? Have you noticed any other changes to your dog’s behaviour? Have there been any changes to your behaviour? Our 5 Top Tips for Managing a Fussy Eater: 1) Establish mealtimes! There’s no unexpected reward if a bowl of food is always laid out. 2) Ditch the dry! What is more boring than the same bowl of pellets every mealtime? Offer fresh food with a range of tastes, aromas, and textures. In addition, variety is the spice of life – use novel proteins – what’s more unexpected than novelty? This can also be helpful if you are concerned your dog may have a sensitivity to certain foods. Finally, cooking alters the aroma and texture of many foods so this can be a great way to entice if needed. 3) Use mealtimes as opportunities to enrich your dog’s life! Offer food in bowls or plates, or even on wooden boards. There is no categoric link between height of feeding and gastric torsion in dogs, so consider at what level you offer their meals; do they need to be raised if they are struggling with any musculoskeletal issues. If they are in pain whilst eating,
If you’ve just rinsed your dog off after a meander through the woods, then their licking is likely grooming behaviour. But, here at My Pet Nutritionist, we often see dogs who excessively lick causing abrasions and hair loss. Whilst it’s often indicative of an irritation, there are in fact some other reasons why your dog may start licking in the absence of a jaunt through a muddy puddle. Let’s take a look at some of the more common causes. 1) Stress Yes – stress can take the blame for this one too! Stress is like the wonder woman of life – is there anything she can’t do? For anyone who has spent time investigating dog behaviour, you’ll know that lip licking in particular is a sign of stress. An interesting theory here suggests that because stress depletes essential nutrient resources, lip licking is in fact a sign of malnutrition. Deficiencies in a range of nutrients like vitamin B2, B3, B12, iron, and Vitamins A, C and K and Zinc have all been known to cause irritation and inflammation in and around the mouth and lips. The licking is thought to be an attempt to soothe it. Findings here However, other suggestions explore the idea that the lip licking mechanism is thought to soothe the stress response by activating the parasympathetic nervous system. Yet, this mechanism can apply to licking of all body parts, not just the lips. The stress response is dominated by the sympathetic nervous system; it increases heart rate, widens eyes in order to assess the threat better and redirects resources in order to deal with it. Once the threat has passed, the parasympathetic nervous system kicks in and re-balances. The chief of the parasympathetic nervous system is the vagus nerve, and chewing, along with licking is considered to activate it. Through the action, attention is redirected and focussed on that particular task, not what is making them stressed. Findings here Licking is also deemed a self-soothing behaviour through its association with oxytocin. Oxytocin is a hypothalamic nonapeptide linked to increased levels of social interaction, well-being and anti-stress effects. Oxytocin is released by sensory stimulation (touch) and promotes the release of dopamine whilst decreasing the cascade of stress response mechanisms throughout the brain and body. Oxytocin also modulates the activity of serotonin which as we know is a key hormone in mood stability, feelings of well-being and reward. An element of this could have also been learned behaviour from their mother. Licking and grooming behaviour is a key feature in determining neural changes and fear responses in offspring. Those from low licking mothers tend to show a greater stress-response and proceeded to be low-lickers themselves (if they were female and had their own litter). The same also occurred for high lickers. Findings here The bottom line? Excessive licking could be a response to stress faced by your dog. Watch out for other signs of stress like: Panting in the absence of exercise Salivating in the absence of food Pacing Inappropriate toiletting Unusual vocalising Out of character behaviour Wide eyes Flat ears Abnormal tail placement Work to remove the trigger and support them with other stress reduction strategies. Also, be mindful that chronic stress can deplete essential nutrient resources. our Calm Complex can help support the above signs of stress. 2) Pain Pain is an uncomfortable feeling that gives us and our dogs an indication that something isn’t as it should. Not only are many breeds incredible at hiding pain (it wouldn’t have helped them in evolutionary terms), but they also lack the ability to converse. Whilst we would all love to think we have this form of communication with our dogs, we can miss things, especially if they are pretty crafty at hiding them! The sensation of pain is a necessary function that warns the body of potential or actual injury. Whilst we may think that dull ache in our lower backs is merely an inconvenience, it’s a rather reliable indication that our office chair possibly doesn’t suit us. Pain occurs when a nociceptor fibre detects a painful stimulus on the skin or in an internal organ. This detection is picked up by other receptors in the spinal cord and brainstem and then transmitted to the various areas of the brain. This is done through the incredible work of neurotransmitters. There exists both inhibitory and excitatory neurotransmitters. Those that make things happen, and those that apply the brakes. Inhibitory neurotransmitters are involved in the modulation of pain; including enkephalins and endorphins, serotonin, noradrenalin, GABA, acetylcholine and oxytocin. Excitatory neurotransmitters acting without an inhibiting system results in pain. Which is why pain killers primarily prevent the release of some excitatory neurotransmitters (and can in fact make you or your dog drowsy). When we look at the neurotransmitters involved, it’s possible to see why our dogs may start licking an area that is painful to them. Through touch they can stimulate the release of oxytocin (a modulator of pain). Not only that but self-trauma (excessive licking) is thought to promote the release of endorphins, which are also pain modulators. Findings here This demonstrates how dogs can get into a vicious cycle, they want to lick to soothe, but the more they lick, the more trauma they cause, resulting in more licking. There is also the possibility, that what could have started as a pain response, could turn into irritation, or what started as irritation, could turn into pain and continue the cycle. 3) Itch Itch is a sensation felt on the skin, which causes the desire to scratch. Although initially it could be as simply as scratching something to remove it, itching can become stressful when excessive. When tissues are stimulated by allergens, histamine is released from mast cells. Histamine makes the blood vessels expand, driving blood to the area creating that common swelling among other responses. Specialised nerve fibres are stimulated; when these are processed, the scratching or rubbing reflex is stimulated. The main mediators for the itch
Help! My dog has a loose stool! Well, you wouldn’t be a true dog owner if you didn’t spend time assessing, talking or even sharing photos about your dog’s bowel movements. Here at My Pet Nutritionist, we’re not averse to a poop pic (we get quite a few in a day), but there are some common reasons why your dog may develop high scores on the Bristol Stool Chart. Technically that’s a chart for humans, but we can learn similar lessons. Here is our Ultimate Dog Stool Guide on colour and consistency. So, let us take a look at some of causes of runny poops in dogs. 1) Infection It goes without saying that a nasty gastro bug can result in runny stools. It can be all sorts of different colours, but more often that not it can be described as like turning a tap on! Infections can be a result of bacteria, parasites or virus and you may notice other symptoms like lethargy, vomiting or abdominal pain. In some cases, due to the irritation in the gastrointestinal tract, you may find specks of blood in the stool too. If nothing sinister, a fast followed by a bland diet will start to show improvements, but if there are other clinical signs or no improvements then its always best to get your dog checked out by your Vet. A vet call is always warranted for young puppies or elderly dogs. 2) Gut Dysbiosis Stool consistency strongly correlates with all known major microbiome markers. What this means is good poops are a sign of a healthy gut. But you knew that! Gut dysbiosis is when there is an imbalance between the good and bad bugs found in the gut. This can be for a number of reasons: Antibiotic use Steroid use Diet diversity Environment – exposure to toxins Birth method Use of flea and wormer treatments Vaccination When we are looking to heal the gut, we follow the 4 R’s. Remove (food antigens that could cause reactivity) Repair (the gut lining/endothelial, possibly known as leaky gut) Restore (the good bacteria in the gut) Replenish (with enzymes if necessary to reduce immediate inflammation) Signs of gut dysbiosis will usually manifest as regular sub-optimal bowel movements, if you think they may be an issue faced by your pet, we are more than happy to help! 3) Food Sensitivities/Allergies Allergies are in fact incredibly rare (at around 10%), but sensitivities are one of the most common issues discussed here at My Pet Nutritionist. An allergy is the result of an over-zealous immune system. It’s like going for the theory part of your driver’s test when you are told you are limited with how many clicks you can make on your hazard perception. Well, in cases of an allergy, the immune system didn’t get the limited clicks memo and gets a little trigger happy! The basic function of the immune system is to get rid of potential threats; it can do this by engulfing parasites, and you guessed it, causing a swift exit in the form of diarrhoea. But diarrhoea is also a sign of a food intolerance. Rather than an immune response per se, an intolerance involves the digestive system; in short, it struggles to process a particular food. This can be due to a lack of enzymes to digest a particular food, a sensitivity to chemicals found in certain foods or health issues like irritable bowel syndrome (which is often linked to bacterial overgrowth, stress, post-infection and genetics). In cases of food sensitivities, an elimination diet is the first port of call, to establish the key offender and we again follow the 4R’s in gut healing. 4) Stress Our pet’s stress response is much like ours as a human. Eustress or good stress can improve alertness and motivation and provide a helping hand in performance. But distress is the one we need to worry about, especially if it becomes chronic. Stress is generally known as the fight or flight response. The cascade of changes occurring in the body redistribute resources; blood is directed to the brain and limbs to figure out what to do, and whether to run away or stand and fight. Despite us making evolutionary progress, neither us or our dogs have yet evolved past this response and so even potentially minute stressors result in this redistribution of resources; taking ours and our dog’s ability to effectively digest food with it. Digestive function returns when the parasympathetic system kicks back in; once the stressor has passed (but incases of chronic stress, this doesn’t occur). In times of chronic stress, food is ingested, but not digested properly. This also explains why you may notice your dog has “adrenaline” poops on walks, or when they get particularly excited. As they are doing their zoomies, the body interprets it as stress and so directs resources where they are needed (not to the effective digestion of food). This is short lived and the dog’s next poop that evening has usually returned to its normal presentation but, under long term stress, this lack of digestion demonstrated by recurring loose stools, can result in a range of health issues thanks to the malabsorption of nutrients. If you consider your dog’s loose stools are generally associated with certain stressful events, the key is to remove the trigger where possible. Counter conditioning is often successful in supporting their future stress-responses. Stress does deplete essential nutrients, so opting for a fresh-food diet with excellent bioavailability is vital in supporting your dog during these times. 5) Underlying Malfunction Loose stools are the result of food being passed through the colon too quickly; with less fluid being absorbed by the body, the result being that puddle in your garden. As we mentioned earlier, a lack of digestive enzymes can be a reason for this. The digestive system comprises the GI tract, pancreas, liver, and gallbladder. If there is an underlying malfunction in any of these, you may find abnormal stools. The pancreas
You’re in the middle of your daily grooming session and you notice a thinning patch of hair on your canine companion. Without any obvious recent trauma to result in scar tissue and no replacement hair, your mind starts going to all the places it shouldn’t. A quick google search likely doesn’t help but well here at My Pet Nutritionist, we hope to give you possible solutions. There are in fact a number of reasons why your dog may start losing his hair, or having thinning areas, so let’s look at them in a little more detail. Hair growth occurs in stages: – Anagen – the growing phase – Catagen – the transition phase – Telogen – the resting phase – Exogen – the shedding phase An intact hair coat is maintained by the lifelong cycling of these phases. When a hair follicle has passed the telogen stage and shed it, if it remains empty for a period of time it is deemed kenogen. The anagen phase is restarted when epithelial stem cells are in good form. Stem cell activity is dependent on many complex interactions including: Immune cell function Nerve fibres Hormones Genetics Daylight Nutrition Circadian rhythm And stress 1. Hormones So much of a factor, there is a condition deemed hormonal alopecia in dogs. This can be linked to neutering with many owners reporting hair loss or thinning post neutering. But when we say hormones we are also considering thyroid hormones. The thyroid gland is in fact active in the initiation of hair growth and replacement. Located in the neck near the trachea or windpipe, this gland produces hormones which regulate metabolism. Both hyperthyroidism and hypothyroidism can result in hair loss in the dog although hypothyroidism is likely the more commonly occurring form of hormonal alopecia in dogs. Initially hair loss is patchy, the coat is dry, the hair is brittle and easily pulled out. Quite often hyper pigmentation occurs. In some cases, secondary pyoderma and seborrheic dermatitis may follow. The hair that remains is often stuck in the telogen or resting phase, hence it’s poor condition. Other signs of hypothyroidism includes: Weight gain Lethargy Increased susceptibility to infections Slow heart rate Abnormal nerve functioning which presents as non-painful lameness or lack of coordination Keratoconjunctivitis or dry eye Fat deposits in the corneas of the eyes Thyroid function is easily assessed through screening and if it isn’t running all on cylinders, then it can often be managed. 2. Nutrition It wouldn’t be a My Pet Nutritionist blog without mentioning nutrition now would it. Nutritional status affects hair growth and maintenance. Every cell in every body, including our dog’s, needs basic components to carry out their function. This includes immune cells, stem cells and hair follicles. The root of a hair is made up of protein cells and nourished by nearby blood vessels. As it grows, sebaceous glands near the hair follicles produce sebum which is made up of triglycerides, wax esters and cholesterol. Sebum lubricates the skin and hair to protect it from friction and therefore makes it impervious to moisture and/or pathogens. The hair moves through its phases, but new data is suggesting that even though telogen is defined as the resting phase, hair follicles aren’t doing that much resting. In fact, much cellular activity occurs during this phase so that tissues can regenerate and grow new hair. This means there is a demand for nutrients. Time and time again there has been a link made between nutritional status and hair health and growth. Low vitamin D status has been implicated in cases of alopecia Over-supplementation of Vitamin A is associated with alopecia In a Biotin deficiency signs include hair loss, Folate deficiency can result in hair, skin and nail changes Vitamin C is known to aid iron absorption, the latter being implicated in hair loss Hair loss is a common sign of zinc deficiency Hair loss can be seen in Iodine deficiency, also a mineral that aids thyroid function All things considered we would advocate afresh food diet which includes: Meat protein (haem iron is found in meat, chicken and fish and is more easily absorbed that non-haem iron found in plant foods). Oily fish (source of Vitamin D) Organ meats (good source of biotin) Leafy greens (folate came from the latin folium because it was first found in leaves!) Berries (source of Vitamin C) Meat and shellfish (source of zinc) Be mindful if you are tackling any other health concern which requires the elimination of any of these foods, we can always help you find alternative nutrient sources. 3. Stress Stress, we can confidently say is the bane of everyone’s life, including our pet’s. But what is particularly interesting is that in some cases, hair loss follows months after a traumatic event often making it difficult to connect the dots. As we have mentioned, hair cycles through different phases and all follicles can be at different stages at any onetime. Many will be in the growth phase or anagen phase before hitting telogen and ultimately shedding. But high levels of stress can cause a blanket shift in the phases and bump many of the follicles to telogen, all at the same time. The result? Bald patches or thinning. It makes sense evolutionarily. When facing a threat, what is more important? Brain and muscle function or hair growth? Stress triggers a sort of redistribution of resources, which in the short term is manageable. The issue is when faced with chronic stress. Hair loss as a result of trauma may not appear until the initial stressor has passed, the growth phase has been prematurely stopped, hitting telogen sooner, but then we still have to wait for the shedding to occur. We then need the growth phase to start again, which may or may not happen depending on the recovery from the stressor or in fact whether the host is still experiencing it. Stress also depletes nutritional resources along with impeding the digestion and absorption of them and as
Another one of the most common issues brought to us here at My Pet Nutritionist is Atopic Dermatitis. Most commonly seen in dogs, it can also occur in the cat. Atopic dermatitis is a multifactorial disease process, but it is defined as a genetically predisposed inflammatory and pruritic allergic skin disease often associated with IgE (immunoglobulin) against environmental allergies. The prevalence of AD is thought to be 10-15% of the canine population. Symptoms will include: Scratching Chewing Licking Recurrent skin, ear and anal gland inflammation and infections Hair loss Thickening of the skin It is thought that genetic abnormalities, along with an altered immune system and skin barrier defects all play a role. So, lets take a look at AD in a little more detail. Where it comes from and what, if anything, we can do about it. Genes Multiple gene expressions involved in skin barrier function and inflammation have been seen to go awry in canine atopic dermatitis. They have been both up and down regulated. Gene expression is like the instruction pamphlet that comes with your washing machine. Issues in gene expression is like you being sent an instruction manual in a different language and inadvertently using the 60-degree wash on your cold wash items! It’s not going to end well. Well, cheeky genes who aren’t doing what they’re supposed to, often doesn’t end well either. In dogs suffering with atopic dermatitis, data has shown: 361 genes that instruct inflammation, wound healing or immune response were up regulated. 226 genes that affect skin barrier function showed decreased mRNA. mRNA is a messenger; so low concentrations result in fewer messages. Findings here This is why certain breeds are known to suffer with AD, specifically, German Shepherds, Labradors, Boxers, West Highland White Terriers, French Bulldogs, Bull Terrier, Lhasa Apso, Springer Spaniel, Poodle, Dachshund, Miniature Schnauzer and Pugs. That said, these predispositions are also linked to geographical area, which also demonstrates how the environment can interact with genes. There is much attention being paid to the idea of epigenetics; how behaviour and the environment can affect how genes work. This is why, even if your dog is genetically predisposed, you shouldn’t throw in the towel, just yet. Skin Barrier Defects The skin is the first line of defence in our trusty immune system. This goes for our dogs too. If the skin isn’t as robust as it needs to be, then pesky allergens or irritants can get in and start to knock on doors of our second line of defence; inflammation. It is believed that part of the defects found in the skin barrier in AD cases is due to decreased concentrations of filaggrin. Not only can this be due to a genetic encoding error, but certain enzymes in the skin can breakdown filaggrin. The more enzymes, the more filaggrin gets broken down. Filaggrin is a protein found in the skin, and it binds to keratin filaments. This forms a structure within the skin cells. Filaggrin is essential to skill cell maturation, and in forming the outermost protective layer. It also forms part of the natural moisturising substance found in the skin; without it,cells dry out. This is why low levels of filaggrin result in dry, cracked skin. There is also evidence that filaggrin associated atopic eczema is more likely to lead to food sensitisation and inhalant allergens. Findings here Despite there being a genetic cause for filaggrin deficiency, the importance of maintaining a robust skin barrier is essential. Please take a look at our top tips for promoting skill health here. Altered Immune Response As we have mentioned, if pesky allergens or irritants get past the first line of defence, they soon feel the full wrath of the immune response. What starts with inflammation, will venture to a targeted attack in order to eradicate the invader. In the case of a defective skin barrier, the system will regularly be exposed to potential threats, of which the immune system must deal with. This constant state of firefighting ensures a steady level of inflammation throughout the body, which is why cases of dermatitis are often paired with food sensitivities. This is why tackling chronic inflammation is a key part of a dermatitis plan. As you have likely gathered, ensuring a robust skin barrier is essential in managing atopic dermatitis, but so is modulating the immune response and inflammation. Here are our top tips in tackling those three areas. Polyphenols Polyphenols are known to interfere with pro-inflammatory mechanisms. They have been seen to act upon keratinocytes which attenuate skin inflammation. Not only that but they have been seen to hamper toxicity of bacteria which regularly colonises the skin of atopic dermatitis affected patients. Polyphenols have been seen to inhibit the activation, proliferation, and function of Th2 cells which are key players in allergic reactions. Specifically, in the inflammatory response in allergic reactions. This has also been demonstrated during re-exposure to the allergen, suggesting that offending allergens may even be reintroduced at a later stage. Polyphenols are micronutrients found in certain plant foods; they are packed full of antioxidants. Their original role in the plant is to protect against UV radiation and of course aggression by pathogens. For that reason, they tend to contribute bitterness, astringency, colour, flavour, odour and oxidative stability. Under the umbrella of polyphenols, you will find phenolic acids, flavonoids, stilbenes and lignans (and a few more). Along with being anti-inflammatory and anti-microbial, the antioxidant capacity of phenolic compounds is also key to skin health. Oxidative stress is the imbalance between free radicals (the exhaust fumes of work) and antioxidants. Oxidative stress can damage the structure of the skin and negatively influence immune system function. Interesting, polyphenols have been seen to alter certain gene expression in the dog. Findings here So, all things considered, they are pretty nifty things to offer in your dog’s fresh food diet. Phenolic Compounds for The Dog Blackberries Raspberries Strawberries Blueberries Apple Pear Curly Kale Broccoli Green Tea (organic and decaffeinated) Parsley Chamomile Pomegranate Be mindful
