LCHF and IF for the female endurance athlete (IMHO).

Following on from the couple of blogs I wrote about Dan’s LCHF athlete lifestyle, I got a lot of messages from women regarding my opinion of it for the female endurance athlete. Great question, especially as – if you look at social media – there are nutritionists who warn against the danger of LCHF (and intermittent fasting) for women, to the point that the blanket statement is that it is harmful and not to be undertaken. Whilst it is hard to be objective in the nutrition space – all of us influenced to some degree by our own experiences – the low carbohydrate and fasting space seems to bring with it its own special degree of hysteria. The prevailing message is that both low carbohydrate diets and fasting is too stressful on the endocrine system of females (which regulates hormones) and causes a reduction in metabolism and reproductive potential. Thus, it is to be avoided at all costs. This point of view may be drawn from clinical experience of the practitioner and be dependent on the type of client they see. If their target audience are women who have struggled with maintaining a healthy weight and have problems with eating enough, then the opinion of the practitioner could well be influenced by this (and is entirely sensible!) Likewise, I see many women who’s hormones benefit from periods of intermittent fasting while utilising a LCHF protocol. What we see in clinic will dictate our points of view, regardless of how objective we try to be.

I have in the past written about the negative impact of fasting and calorie restriction on the expression of genes that regulate kisspeptin in the body, a hormone involved in our reproductive cycle. However I will point out that the effects seen in studies conducted in rodents may be more dramatic than if they were carried out as clinical trials in humans. Rodents have a much faster metabolism, thus a 24h fast for a mouse is equivalent to a 3 day fast in humans. Likewise, chronic caloric restriction over a week, where the mice lose close to a quarter of their body weight (and which is thought to be responsible for the downregulation of the kisspeptin receptors that result in negative effects) may be equivalent to 12 or more weeks. Rodent models in science are great for illustrating potential mechanisms, but can never be viewed as hard data as it pertains to humans.

Alongside any scientific data that exists, I think it’s important to step back and consider perspective here. What we should all be aware of is that there is no one right dietary approach for everyone, and often there is no one dietary approach to suit someone for the rest of their lives. As things change, so do our nutritional requirements. Low carbohydrate diet and intermittent fasting is not exempt from this – therefore to say that it is not suitable for any woman is, quite frankly, erroneous and misrepresents what we see in the literature and what we see clinically. While certainly a vast majority of the studies investigating lower carbohydrate diets have been conducted in males, there are studies showing a positive impact for overweight women with infertility. Further, it is accepted best practice to include periods of low glycogen availability in the training schedules of athletes. Even in the researchers who err on the side of pro-carbohydrate diets recommend cycling carbohydrate intake to be sometimes low, and sometimes high, to upregulate fat oxidation pathways that allow the athlete to become more efficient at burning fat. To state that no female athlete should start an exercise session in a fasted state goes against current best practice for endurance performance.

Possibly the negative impacts of fasting and low carbohdyrate diets are not about the fasting period or the carbohydrate content – it’s much more likely to represent chronic underfuelling – i.e. a lack of calories over an extended period of time, with no thought given to cycling of both energy intake and/or macronutrients. It’s just low, full stop. That’s why it is important to work with an experienced sports nutrition practitioner (like me, Kaytee Boyd, Caryn Zinn as some top picks) to ensure these training tactics are used to the advantage of the athlete in a training cycle, not to the detriment of them.

Don’t misread this as a recommendation to do all sessions in a fasted state, to undergo an intermittent fasting protocol that involves skipping breakfast every day of the week, or that everyone should adhere to a very low carbohydrate approach. If you’ve read any of my information (or followed anything I’ve suggested) then you’ll know this isn’t the case. The point of this blog is to remember that there is no one right dietary approach for everyone, and that if you’re successfully adhering to a lower carbohydrate diet with periods of intermittent fasting and feel it’s working well for you (ie no sleep, hormone, training or recovery problems), don’t be concerned with the rhetoric that exists regarding the harmful nature of this. You are your own best investigator when it comes to your nutrition, and your experience is the most important data when it comes to you.

Intermittent fasting

Post on IF, cue picture of empty plate with clock. #standard (PC http://www.stack.com)

The Plews on racing LCHF

Last week I detailed Kona Ironman age-group champion Dan Plews’ daily and training nutrition using a LCHF approach. How does this change in the lead up to an event, and what does he do on race day?

Like conventional sports nutrition principles, there is somewhat of a carbohydrate loading phase pre-race. This isn’t the 500-600g of carbohydrate that is recommended for most athletes in the three days before (which generally leaves an athlete feeling lethargic and bloated), however it is more than he would generally eat. Don’t forget that tapering for a race is, in effect, carbo loading, as the muscle glycogen stores are not depleted during training and it allows them the chance to be replenished and not in the deficit they normally are. Based on Rowlands paper which showed that a higher fat diet with a preload of carbohydrates, he’s dialled in his approach that Dan now feels works really well for him. He lifts his carbohydrate intake from the 80-100g he typically eats in the days prior. On the Wednesday (for a Saturday race), he will include additional potato or sweet potato in his evening meal, taking him to ~125g carbs per day. This increases to ~175g per day on Thursday and Friday (the two days before the race) – including fruit alongside the potato or sweet potato. In addition, he makes sure snacks etc on hand are low carbohydrate so  not to be caught out during the lead up period with having to rely on the petrol station or four square options. If you do have to rely on these, and are looking for lower carbohydrate, then biltong, cheese snacks, even lower carbohydrate protein bars can be good stop gaps. On race morning before Dan’s Kona race he opted for was porridge: oats with a bit of Super Starch added, which is a slow release carbohydrate to not inhibit fat burning, and is a higher molecular weight carbohydrate, so it is easier to digest.

During the race:

Despite research studies in this area using a ‘train low glycogen, race low glycogen’ model to determine the efficacy of a LCHF approach for sports performance, in practice Dan follows what practitioners advocate: a ‘train low, race high’ model. Ideally, the train low approach has enabled you to increase your efficiency to burn fat as a fuel source in addition to using carbohydrate that you have stored or take on board, thus maximising the amount of fuel you have available. Dan takes in around 50g carbohydrate per hour;  because he is very efficient at burning fat, he doesn’t need as much carbohydrate as he would otherwise. A real benefit of this is that it minimises the likelihood of gut issues many endurance athletes experience during a long event – the more carbohydrate fuel you have to take on board, the more opportunity there is to get the dose wrong. Importantly though, the more fatigued you become, the more your body will divert blood supply away from the gut to the muscles, and thus impacting on your ability to digest the fuel.  During Kona Dan used energy blocks with gels on the bike, and a couple of gels with some swigs of sports drink or coke during the run. His paper Different Horses on the Same Courses outlines how to take this individualistic approach to fuelling, as will his online course that you can sign up to by clicking here.

Finally, post-race, Dan gets back on board the LCHF approach fairly swiftly, as he has seen the impact that a higher carbohydrate fuelling day has on his blood glucose level across the course of the following week. It certainly doesn’t reduce down to normal levels the day after, and it’s likely that inflammation and muscle damage impacts on this too. Your best bet is to (as soon as possible) get back to your LCHF diet and help your recovery process.

LCHF for the top end:

Whilst LCHF is increasingly more accepted in the endurance space as part of the approach, what about at that top end – does it limit performance there? There is very little quality research on this, however Dan’s research group found that there was no detriment to perform high intensity intervals (as I blogged about here), but the jury is definitely out on this point and I wonder if, like many things, it is individual. A person’s ability to metabolise fat as a fuel source and use it at a higher intensity is trainable for sure (that’s what fat adaptation is all about), but there could be individuals who are less able to produce ketones to be used for energy – this is speculation though on my part. Yes, there is a down regulation in pyruvate dehydrogenase which helps turn stored carbohydrate into glucose for energy, however the importance of this is questionable given the increased availability of fat for fuel, and there may be other enzymes upregulated to counteract this change in the fuel use. A potential way around this issue (and to ensure glucose metabolism is continued on your LCHF approach) is to do higher intensity efforts in training that force liver to convert glycogen to glucose – thus keeping glucose oxidation pathways high. I’m also beginning to recommend that people take on a small amount of glucose pre-high intensity sessions if they are beginning the fat adaptation phase during a training cycle that incorporates higher intensity efforts. Ideally your fat adaptation phase will occur during base training when we can keep intensity low. But that isn’t always possible. Fifteen-20g glucose prior to training for these high intensity sessions can keep output high but is unlikely to be enough to “ruin” your adaptation process. Again, there is no research behind these numbers, but from a practice perspective I’ve seen this work well.

Finally, you know I’m an advocate of ketones to help support training whilst lower carbohydrate, and it certainly has helped me and many of my clients. We don’t at this point know enough about ketone utilisation in the body and whether taking exogenous ketones downregulates the body’s ability to produce them. This is an emerging field we are looking at with interest with regards to dosage, timing, type of ketone supplement etc. There has been decades of research into carbohydrate as a performance enhancer, and we can probably expect that it will take a few years of research for these questions to be answered in the science research space. Trying them yourself is likely the best approach to see how they impact your own performance (and I can help you with that).

1162_032201

Plews at Kona (PC http://www.trizone.com.au)

LCHF and the athlete: The Plews approach

Sfuels, a ketogenic fuel for endurance athletes recently had Dan Plews host a Facebook live event regarding his LCHF training and daily diet. Now those of you have listened to our Fitter Radio podcast will know Dan from the Plews and Prof segment. He’s an exercise physiologist who last year was the overall age group winner at Kona World Championships in a record time of 8:24. He’s been working in exercise physiology for the last 15 years and has a number of research papers both related to this, and in the ketogenic diet space (for athletes), one of which I posted about last year. Because I love Dan’s work (and this area in general) I wanted to outline for you what he spoke about in the Facebook live for those people, athlete or otherwise, that are interested. This week, due to length, I’ll cover the normal diet, and next week I’ll outline his pre-race and race-day strategy.

As a bit of background, Dan has been doing triathlon forever, however came into LCHF when he was at the Olympics as an exercise physiologist and came across work by Tim Noakes (who has heralded the latest Banting movement in South Africa). From 2012 he made a decision to give it a crack. Even now, though, six years after embarking on LCHF training and nutrition, Dan notes that adaptations are still occurring, and puts his incremental improvements in performance in the Ironman distance finishing times (in hours:minutes) being: 9:22, 9:11, 9:12, 8:54, 8:35 and 8.24 Kona 2018) down to not only the consistency of training , but the consistency of the dietary approach.

What is important in LCHF and endurance training? The end goal for performance is to conserve as much energy as possible – fuel availability is the limiting factor over such a long distance. We can’t store too much carbohydrate – around 2000 Calories compared to 40000 Calories of fat that is stored in even the leanest individuals. The problem, though, is that people can’t access their fat stores to exercise at a high intensity. Or even, for many endurance athletes, at a lower intensity (where we should be able to burn fat). The type of diet we eat influences our fuel preference when we exercise, and the modern diet (where carbohydrate is the predominant available nutrient) makes athletes much more reliant on carbohydrate which – like kindling on a fire – is likely to run out quickly.  We want to be metabolically flexible, that is, to burn more fat as a fuel source and only use carbohydrate when we really need it. Dan has tested his fuel utilisation in a laboratory and can burn fat at 1.3g/minute (the FASTER study reported around 1.6g/minute) – most people are around 0.6g/minute or thereabouts. However research such as that done by Volek and colleagues have shown it is possible to shift that if you go LCHF. From the testing that Dan has done, he knows that at his race intensity on the bike, an average 260 watts, his fuel utilisation is around 66% from fat stores. This allows him to preserve a lot of carbohydrate when working at this race pace intensity.

Ideally, that preservation of carbohydrate stores to use at the back end of a race when energy availability is limited should be the aim of the endurance athlete (and is extremely challenging if they are burning predominantly carbohydrate from the start). In addition, the lower LCHF diet means having lower blood glucose levels on a day-to-day basis,  important for overall health and body composition goals too. Higher sugars equals higher insulin, which is a nutrient delivery hormone – therefore there is more opportunity for fatty acids in the blood stream being stored in our fat tissue. Don’t go thinking we want rock bottom insulin levels all of the time, as insulin itself is critical for life! However ideally our levels would be low outside of the time period around meals, as elevated insulin is linked to a number of metabolic disease processes. In addition, when following a LCHF approach, we have lower stores of carbohydrate, which makes us more sensitive to the signalling for fat adaptation and upregulating of fat oxidation pathways.

So… the details?

Dan’s diet on a day-to-day basis:

  • Coffee with cream, collagen and MCT (medium chain triglyceride, our body can’t store this and is an easily used energy source)
  • SFuel bar (low carb snack)
  • Training – doesn’t eat during training, but if he does it may be a SFuel drink (MCT/branched chain amino acid (BCAA) drink mixed with some other compounds, but it is a higher fat option)
  • Breakfast is eggs, avocado, some vegetables
  • Lunch is tuna salad or similar. During heavier training load, he may add a bit of paleo bread (around 20g carbohydrate, similar to normal bread but this is made of better quality ingredients)
  • Dinner is salad with a steak
  • Snacks may be macadamias, almonds and pickles.
  • Fruit may come into it from time to time, particularly as the training load and intensity ramps up.

While not ketogenic in way that he eats, he will still likely be in ketosis during the day – by virtue of training and his normal diet is low carbohydrate – it’s around 80g – 100g carbs per day, thus naturally depleting his stored carbohydrate (glycogen). Ketogenesis is a is a physiological state, not a diet, thus it’s less important to stick rigidly to foods labelled as ketogenic and to think more globally about it. My athlete plan  is based around these dietary principles, and there are likely some nuances for the female athlete, but this general approach works well for most people I work with. It could be important for a carbohydrate refeed 1-2x per fortnight if following a very low carbohydrate diet, and that’s something I recommend to my athletes on the basis that hormonal responses will be favourable. This isn’t something I’ve seen a lot in the literature, but based more on clinical experience (and may be more important for the leaner athlete).

As I mentioned, I’ll cover off the race day side of things next week. However, if you’re keen to know more about what Dan recommends, then definitely check out his new site – he’s developing an online course that details specifics for coach and athlete alike, and is releasing it soon!

plewsOAP

Kona 2018. (PC: oxygenaddict.com)

Hungry?

One of the things that clients fear most is being hungry. When I talk to some of them about removing snacks and eating just three times a day (or 1-2 times, depending on their individual plan), there is a look of fear that comes into their eyes. For others, though, they almost relish the opportunity to feel hungry because it has been forever since they’ve felt the grumbling in their stomach that tells them they are ready for food. This doesn’t, however, mean that they never eat! But it does affect their enjoyment of food – and, let’s face it, food is not only fuel, but it is one of life’s pleasures. One that, for many, they’ve denied themselves the opportunity to experience.

Which camp do you fall into, why do you feel that way, and how do you change your mindset around hunger (if you need to?)

Why do you fear being hungry?

In my clinical experience there are two main reasons why people are scared to be hungry. Firstly, hunger is not actually just felt in your stomach, your entire being experiences it. If your hunger comes on suddenly and without warning (you go from feeling fine to being ravenous), if it changes your physical state (ie you start feeling light headed, lacking in energy, maybe even start sweating) and your emotional state (you feel irrationally angry, sad or conversely, on something of a high before a big energy crash), then our emotion around being hungry can be one of fear. No-one likes being shunted from one emotional state to another, particularly if it comes completely without warning, which is often the case in this type of scenario. The fear of over-eating in response to this physiological and emotional state is the second reason for being scared to be hungry. When they do finally get to eat, they don’t trust they will make good decisions around food, and thus starts a (sometimes perpetual) cycle of fear, eating, self-punishment, eating….

What gives? This kind of hunger isn’t hunger at all – it’s blood sugar. Whenever we eat too little, or too little of nutrients that regulate our appetite hormones (nutrients such as protein, fibre and fat) at a meal, it is going to cause our blood sugar to drop and – in some instances – drop too rapidly. This response from our blood sugar sends an alarm signal to our brain that we are in danger (or potential danger) of having no fuel on board. In evolutionary times, this could have meant almost certain death: we wouldn’t have fuel to either fight for our life or run for our life. There may be no sabre-tooth tigers lurking around in everyday life now, but our body’s genetic blueprint hasn’t changed in that regard. Those ringing alarm bells drive us to search for food and do it fast – hence the rapid change in our physical and emotional state. The type of food our brain tells us to seek out is that which is going to deliver quick energy – sweet or starchy food. That is what will bring our blood sugar back to within normal range and get us out of the state of emergency our brain was experiencing. The problem is, though, is that the type of food we go for is the same as what got us into the blood sugar position in the first place.

No wonder you are scared to be hungry, and you feel you can’t trust yourself around food. While one option is to eat frequently (thus, almost to prevent being hungry), this isn’t the best approach. Every time you eat, you send signals to your body that you’ve taken on board fuel, therefore causing changes in your blood sugar levels and creating a hormonal environment that is more favourable to fat gain. In addition, it’s likely the types of food you are snacking on are those which created this blood sugar problem in the first instance (this is not your fault! We’ll blame the 80s-early 2000s for that, and the message to eat ‘six small meals a day’*). They may not be high in free sugar (ie ‘junk’ foods), but they could well be low in fat, fibre or protein, all potent regulators of our blood sugar. Cue the creation of the same problem as if you had just eaten a high sugar snack. Your body doesn’t know the difference without a good amount of the aforementioned nutrients to go alongside it.

If not ‘eat more often’, then what? Eat more but eat less often. The main driver of this is fluctuating blood sugar levels, therefore to combat this we need to fill up more at our meal times (be it 1, 2 or 3 times per day) to avoid a dramatic drop in them. The approach to eating I advise takes care of that for you. As I said, this physiological response is because you’ve eaten too little (or too little of the right** foods) in the first place. Your blood sugars won’t rise to the same extent, will be buffered by the additional protein, fibre and fat, so will decrease at a far slower rate, thus there will be no alarm bells ringing, and no stress response. Hunger will come on gradually (perhaps 4 hours after a meal) and, if you were called into a meeting, you would be able to concentrate on the situation at hand, rather than be distracted, irritated or hangry.

And what if you fall into the other camp, when you are never hungry? The main reason for this is often due to the first scenario – you are pre-emptively eating, thus never allowing yourself the opportunity to digest food and wait for your body to send signals to your brain that you are hungry. More often than not, this is because you are scared to be hungry (so, back to the first reason then). However, there is also another factor I see that impacts on appetite – and it is stress. If you are in an elevated state of ‘doing’, and are constantly on the move, stress hormones can suppress your appetite – therefore eating is somewhat of a chore, something that you feel you should do and therefore you don’t enjoy it. Conversely, you don’t eat which leads you to overeating later in the day when you are finally able to relax. Interestingly, a lot of clients report that, in both scenarios I have described, they continue to eat after having a normal (or larger) size meal because they are not satisfied.  This is usually despite the fact that physically they feel full, but emotionally they are somewhat empty. If you don’t take the time to enjoy your food (and it’s something you derive pleasure from) then no amount of additional food at this time is going to make you feel better. In fact, most people report feeling worse. Taking the time to sit down and enjoy your food helps you to listen to your body and eat when you are truly hungry.

*like anyone knew what six small meals a day were – most examples were enough to feed a 110 kg body builder, not a person trying to maintain a size they felt comfortable at.

**foods higher in protein, fibre, with added fat for satiety.

 

very-hungry-caterpillar-teaching-plan-lesson-plan-16-9

This caterpillar was, in fact, very hungry. (PC: scholastic.com)

Overcoming stumbling blocks on a ketogenic diet: a case study

I had a client contact me for an email consultation this week. She was frustrated as, despite following a ketogenic diet (where carbs are restricted to 30g or below, over 70% of calories should come from fat, and protein is moderated), she was unable to get into ketosis.

I had a look at her food diary and could quite quickly see where I thought she could change things to help enhance her ketogenic approach. With her blessing, she’s allowed me to share this with a wider audience. Like many things, if one person is having challenges finding the right balance in their diet, there are likely many more people doing very similar things and potentially experiencing the same frustrations.  I focused on some of the main issues I saw.

You’ll notice there are foods that don’t align with ketogenic diets OR would be included in any diet for someone wanting to shed fat. We (the client and I) spoke on that in general, as clearly she knows this (i.e. cheesecake). The points I focused on were those that can trip people up that she might not be aware of. I’ve screenshot her food diary, and then my comments are below.

Her diet:

​​​​​​

Major points – unable to get into ketosis despite sticking to under 30g carbohydrate per day. This is measured by a blood ketone meter, and she wondered if she needed to add more fat to do this. Her overall goal is weight loss.

The thing with weight loss and the ketogenic diet, if you follow the advice from Phinney and Volek, pioneers of the ketogenic diet space, part of the energy your body needs to consume should come from your own fat stores, and not be provided for by diet. It’s a common misconception, as I see many people embark on a ketogenic diet for fat loss purposes but the opposite occurs – they gain weight. A common strategy at this point is to further reduce carbohydrate intake and bump up the fat. However, this will often further exacerbate weight gain (and frustration around the approach). Worst case scenario here is when the frustration leads to ‘to hell with it’ and that low carb diet is supplemented with all manner of processed refined carb junk food because ‘what’s the point? I can’t do this anyway, I’m useless and it’s not working for me.’ Clearly the end result of this self-punishment is further fat gain, some horrible carb cravings and a bad psychological state. Needless to say, I don’t think adding in more fat is the answer in this instance (and for this client), however I do think that tweaking what she is already doing is going to help.

It’s also good to remember that blood ketones aren’t the be all and end all – these indicate ketones in your bloodstream but sometimes, when these are low, this just means we are using them for energy – which is what you want! This is more likely to be the case in an athlete rather than anyone who is generally just active. In this case example,  I think the diet is the main reason for her not being in ketosis, rather than that the client is using ketones efficiently. However,  it is worth remembering that if you are following a ketogenic diet and are not seeing the expected results on the blood ketone meter.

Finally (and something I mentioned to the client) you don’t need a ketogenic diet to successfully lose weight, and sometimes focusing instead on the pointers I give at the end, regardless of ketosis, will give the same end result. Something like my online menu planner and individualised nutrition coaching. However, I would recommend in that instance to up the protein (double the recommendation I give you) and drop back the fat intake, as people often find that far more satisfying and easier to adhere to – which ultimately is THE most important thing with any dietary approach.

Key issues I picked up:

  • Too much protein in one sitting/in general
  • Processed foods
  • Dairy
  • Unintentional free sugar

1.Milk –  both the sugar in a cup of milk and the protein (whey) will raise insulin levels, thus put you out of ketosis. This is true of skim and standard milk.

2. Protein cookies: the type of sweetener/fibre used to make it a lower carb item can also spike insulin. For some people it is definitely a dose response thing going on – they can eat ½ cookie no problem, but a whole one will kick them out of ketosis. For any items like these, and if you do have blood glucose or blood ketone meters, it can be good to get a reading after a certain dose to see what effect they have for you. At any rate, highly processed goods can still negatively impact on blood sugar and appetite regulation in the absence of them being carb-based.

3. Coconut water – contains 3g sugar per 100ml or thereabouts. Any amount of free sugar in the diet is going to impact pretty quickly on your blood sugar levels if you haven’t just finished exercising, and kick you out of ketosis. The types of carbs you want to be having in your diet are specifically non-starchy carbohydrates -the majority of any carb sources coming from green leafy vegetables, other colour vegetables, perhaps some pumpkin/carrot depending on their effects on your blood sugar.

4. Grapes: any fruit is going to impact on your blood sugar levels, and particularly grapes – even if you stick within your limit of carbohydrate, the sugar from these are going to hit your bloodstream pretty quickly and cause an insulin response, thereby lowering ketones, especially if eaten outside of a meal that contains fat and/or protein (both of which slow down the glucose from hitting the blood stream). Fruit is typically best avoided on a ketogenic diet, aside from lemons, grapefruit, some berries.

5. Protein content of meals: for most, these need to be lower unless an individual is athletic. If struggling with getting into ketosis, it can be good to lower protein consistently to 1g/kg ideal body weight. For this particular client, this is 65g per day. Many days are consistently above this. In addition, the amount of protein in any one meal makes a difference – ideally, not more than 30g protein in any one sitting and, for you, likely 20g in a meal. This is obviously going to differ from person to person – as mentioned, athletes who have a greater energy output can generally get away with more protein (and more carbohdyrate) compared to a person who is sedentary or just lightly active.

6. Timing of food: eating within a restricted window (and not eating later in the evening) can help a ketogenic diet – our liver’s ability to metabolise carbohydrate is dictated in part by a ciracadian rhythm;  we are naturally more carbohydrate sensitive in the AM, less so in the PM, so carbs are likely to spike insulin more in the evening. In addition, fasting naturally upregulates ketone production and can help accelerated ketosis. Further, snacking can (for some) keep them from being out of ketosis, so 3 meals, or 2 meals plus a snack is recommended.

Key recommendations:

1. Drop protein down in each of the meals so you are averaging approximately 20-25g at meals.

2. Time any foods that have a greater amount of carbohydrate in them for after exercise (ie lower sugar fruit, or nuts that have a higher carb count such as cashews). The body doesn’t need to rely on just the action of insulin to deliver carbohydrates to cells in this instance, as we have receptors called GLUT-4 receptors in our muscles and in adipose tissue that can take up carbohydate and are activated post-exercise. Remember, an increase in insulin suppresses the production of free fatty acids, the precursors to ketone bodies.

3. Engage in exercise to help upregulate ketone production – aerobic/weight training.

4. Fasting for 14h at a time to help body produce ketones. Now for women, fasting can be a great tool, but can also backfire (read more about that here). Generally speaking, the fasting approach can be something that is incorporated 1-2 x per week if fat loss is a goal, and on other days, opt for a 12h window between dinner one night and breakfast the next day. The most important thing, though, is to be aware of negative changes to energy, how you feel, mood and sleep patterns – all underlying signs of a stress response that you might not be able to cope with.

5. Focus on diet quality – so the carbs, protein, fats are coming from whole foods and not processed or snack foods – ie protein cookies, fat bombs etc

6. Remove drinks / foods that contain easily digested carbs even if they fall within the carb count for the day. You’ll feel far more satisfied (and it is far more nutritious) to get your carbohydrates from green leafy vegetables which also contains a good amount of fibre.

7. Dairy – stick to hard cheeses and forgo the softer cheese/milk.

These are just some pointers from this client’s diet; another practitioner may pick up others. I will reiterate my point, however, in that a ketogenic diet, when done purely for weight loss, isn’t always the best approach and, for alot of people, unsustainable and too much like hard work. If you’re struggling to get the balance right and not seeing the results, then there are definitely other alternatives out there – one which will fit your lifestyle, eating behaviour, budget and allow you to lose weight with far less effort. It’s adherence that is key. Let me help you with that.

Selection of healthy fat sources

Delicious, nutritious food regardless of your dietary approach.

Jan’s story: a real food success story

When I met Jan, she had already lost 10kg through Jenny Craig but was super unhappy and hungry, experiencing bouts of hypoglycaemia (and used dates to help lift her blood sugars again, which would exacerbate the problem), had knee pain, was experiencing patterns of low mood and overall didn’t feel very good. Further, her HbA1c, measure of long-term blood sugar control, placed her in the pre-diabetic range (above 41 mmol/L). To my mind, this cut-off seems a little arbitrary. There really is nothing different between 40 and 42 mmol/L where one is ‘fine’ and healthy, and the other is ‘pre-diabetic’. Many GPs I talk to feel the same, but I digress.

We talked through her diet, which was a little like this:

  • Pre-breakfast: Cup of tea plus piece of fruit (off to do some work on the farm)
  • Breakfast: 2 eggs on toast with butter
  • Snacks: scroggin mix, fruit, rice crackers
  • Lunch: salad with greens with grated cheese and tomatoes
  • Dinner: standard kiwi dinner food, with some adjustments made thanks to Jenny Craig programme.

It certainly wasn’t a junk-food diet the way we understand ‘junk food’ to be, however it was low in protein with the balance of macronutrients geared towards higher carbohydrate choices: fruit, toast, dried fruit, rice crackers etc.

We talked through dietary changes and lifestyle changes, and I made several recommendations based on the information she provided and subsequent blood tests that she had conducted. The main shifts in her diet were to:

  • Anchor meals around protein, fibre and fat to stabilise blood sugar
  • Avoid snacking where possible
  • Removal of most carbohydrate (including fruit) to help lower her overall blood sugar level
  • Including raw apple cider vinegar around meals (to help with glycemic control)
  • Remove dairy (clinically I see many women in their late 40s and above benefit from removing dairy from their diet)
  • Supplementing with magnesium and chromium for blood sugar control, and supplements to help support her liver function
  • Slow cook meat wherever possible (to reduce the formation of advanced glycated end-products which are toxic, especially for someone with poor blood sugar control).

Over the course of the next 14 weeks, Jan has experienced the following:

  • Sleep has improved
  • Knees no longer sore when moving
  • Blood sugars have stabilised, no signs of hypoglycaemia
  • Mood has infinitely improved
  • Skin and hair are better
  • No cravings
  • Appetite is good, feels satisfied with food
  • Body composition changes: she has dropped 15 kg
  • HbA1c had dropped to 37 mmol/L (out of the ‘danger’ zone).

Importantly, her overall wellbeing is SO much better than it was. She sounds so much brighter on the phone, she feels so much better about herself and she has achieved so much. When we caught up two months ago at our previous appointment her weight had stabilised around 5 kg heavier than it is now, though she continued to notice body composition changes – her shape was changing but on the scales, it was the same. I see that frequently, and nothing is linear, of course. It can be weeks of plateauing on the scales before they shift. Is this a metabolic adaptation? Not sure. Usually it’s compliance to diet, though Jan had been consistent with her approach. Of course, there are things you can do to help move the needle a little bit if necessary, but sometimes it can just be a matter of waiting it out before the trend down continues. The key is to not be demotivated by this. Scales can be a good indicator of progress, but remember not to rely on them as the sole indicator. Luckily for Jan, she was experiencing the benefits of eating well every day, so even though the number on the scale hadn’t changed, she still felt good about her lifestyle change. Her husband has also benefited from her lifestyle change, dropping excess body fat by virtue of eating from the same food supply.

A typical day’s food intake for Jan now would be:

  • Breakfast: 2 eggs plus bacon and mushrooms
  • Lunch: salad, chicken, a boiled egg
  • Dinner: salmon, roast pumpkin and carrot and salad

OR

  • Breakfast: 3 scrambled eggs, tomatoes, spinach
  • Lunch: sushi (no rice), cabbage slaw
  • Dinner: butter chicken with cauliflower rice

If she feels like a sweet treat, she makes something like this Pete Evans nut bar, or mixes up some coconut yoghurt and frozen berries to make a sorbet-type dessert, and is completely satisfied. She was initially worried about my reaction to the nut bar, given it’s got some dried fruit in it, however she reiterated that she cut it into 30 pieces, froze it, and brings it out “not every day” to have with a coffee. Honestly, though, had she told me she ate it every day and got these physical and psychological benefits, then it is working for her regardless of what I think (in the context of an already stellar food intake). One food doesn’t make or break a diet.

She finds it is super easy for her to follow this way of eating and eating out or with other people is not an issue. She asks for dressings for salads, and sauces for steaks on the side to control how much of these she has, and to help avoid hidden added sugar or industrial seed oils that are commonly found in these foods. She is ‘busy’ but not overly active, and we are working on getting her resistance training up to help protect her bones AND increase muscle mass. These two things will help her overall health and prevent sarcopenia in later years. We are starting with home based activities for this. While she could have started this earlier, it’s sometimes easier to focus on one health behaviour and bring the others in – everyone is different though; so this needs to be considered on a case-by-case basis.

One thing she does find interesting is other people’s reaction to her weight loss, with some people asking when she will stop doing what she’s doing (as if it is a ‘diet’, which Jan isn’t on), or saying that she is getting ‘too thin.’ This regularly happens when someone loses weight and gains health; people are used to seeing a different version of them. To deviate from this can be unsettling. For others, they subconsciously take the actions of someone like Jan personally, like she (who is adopting the improved health behaviour) is doing it to highlight some failing of their own. While that might seem ego-centric of them, I don’t think it’s on purpose for most people! These people are often good friends and want to see you succeed. The important thing for Jan in this instance is to not take on board what others say and stay confident and strong in her approach.

So that’s Jan. Awesome, huh? She’s booked a holiday too – something she said she wouldn’t have contemplated previously. This has less to do with her weight (though certainly she can move around much more freely) but more about the increase in overall wellbeing that has occurred through adopting these changes. It makes me feel so privileged to work with people like Jan and share in their success. While I gave Jan the tools to guide her, the hard work was up to her. If you’re in a position to do the same, click here to set up an appointment, or check out my online nutrition coaching options here.

paleo-table

Delicious food! (PC: runningcompetitor.com)

Six things I think you should know about LDL cholesterol

Does bacon deserve the health halo it now seems to have in light of what is becoming common knowledge about saturated fat? Mm. Good question, and it probably comes down to context. If we were to position bacon against Flora Proactive, then that changes the question somewhat: which is better for your health? I mean, one is designed specifically to lower low density lipoprotein (LDL), aka ‘bad’ cholesterol (something we’ve been told for years to strive for) and is ridiculously expensive; the other is … well, bacon. Due to its saturated fat content (or perceived saturated fat, it contains less than 50% of its fat from saturated sources), it is always the second food which people think of when it comes to elevating cholesterol levels and causing heart disease – the first being butter.

Many clients come into my clinic with a total cholesterol above 5 mmol/L and are told by their GP that they should bring their cholesterol level down by way of eating low saturated fat, low total fat and reducing animal protein in their diet. OR (worse) go on cholesterol lowering medication (why is medication worse? Check out here and here). There are many things contributing to a higher cholesterol level, and the risk this poses to you is based on many factors. I’ve covered some of these (and what you can do about it) previously.

Here are 6 things I found useful to know about LDL cholesterol. I’m not talking about particle size, particle number, patterning of particles or Apo A or B, reverse transport cholesterol etc. Keeping it kind of simple. If you know more than your average Joe about cholesterol this will likely be a bit elementary. Otherwise:

  1. Most studies and media reports that report a reduction of risk of heart disease when taking cholesterol lowering medication focus on the relative risk. Relative risk – takes a small effect and it amplifies it. This makes the medication look far more effective than it actually is. Let’s explore what this means:

If you have a clinical trial whereby 100 people are given a placebo drug* and 100 people are given the experimental drug, you might find that 2 people in the placebo group go on to have a heart attack (2%), 98 have no adverse events. In the drug-treated group, 1 person has a heart attack (1%), and 99 people have no adverse events. The difference is 1%, however the relative risk reduction is 50% and a much more impressive number, don’t you think? Those reporting in the media certainly do.

  1. We need cholesterol to synthesise naturally occurring steroids in our system. It is necessary for life. It is the substrate for every sex steroid, for vitamin D, to make new neurons and new synapses to consolidate memories. Many people think cholesterol is in our body solely to clog arteries, and the lower the better. This is not the case. For example, in some populations a low total and LDL cholesterol are linked to higher incidence of depressive symptoms. A low cholesterol level may also result in less synthesising of vitamin D in the body, lower hormone production and an impaired immune system.
  2. LDL is an innate part of the immune system. When there is damage to the artery, you have susceptibility to infection, and there is evidence of pathogens present in plaques. When there is damage to the artery and artery wall, resulting in atrophy, there is an infusion of white blood cells as well as LDL cholesterol which work together to promote inflammation (for healing purposes). Blaming LDL for creating damage is like blaming the fireman for creating a fire.
  3. There is NO level of LDL that is unhealthy. There is an assumption that LDL cholesterol is inherently atherogenic and that above a defined level it is dangerous – there is something about the LDL packaging of cholesterol that causes heart disease. That’s not the case, and some experts in the field believe there is no level of LDL that should be treated with a statin. Researchers reviewing the literature have found people with high LDL with no heart disease. The cut-off of 4mmol/L or 5mmol/L depending on your reference point is an artificial distinction that has been created to suggest LDL is inherently toxic to the heart and cardiovascular system. Now there are people who have a genetic predisposition to storing cholesterol, so they have an increased risk? Actually research looking at the lifespan of people with familial hypercholesterolemia (FH, a mutation in the LDL receptor whereby the end result is elevated LDL cholesterol) have found that, aside from a subsection of the population, there is normal lifespan, with just a small number of these people going on to develop heart disease. There are people who have other genetic variants which do result in build up of LDL cholesterol, and we don’t know enough to say that a very high LDL level is NOT dangerous – however the likelihood of harm will be increased with the presence of other risk factors for cardiovascular disease, such as high blood pressure or smoking.
  4. It is not LDL that is causing heart disease. Blood cholesterol (including LDL) is high in people consuming a higher fat diet. However, research shows that other biomarkers are not only fine, but can be improved when transitioning to a higher fat diet from the standard western diet. A recent paper found that people 60 years and older who have the highest LDL live as long or even longer than those with low LDL. They have lower rates of cancer and lower rates of infectious disease.
  5. If it’s not LDL cholesterol, then what is causing a heart attack? A critical trigger factor is coagulation. We rely on the coagulation factors in our bloodstream to create a clot when we become wounded and begin to bleed. However, our blood can clot without there being a wound. High stress, tobacco smoke, high blood sugar all trigger clotting mechanisms. It looks like this:
    1. In our artery wall, there are tiny arteries which feed to the inside of the artery (called vasovasorum).
    2. Vasovasorum are easily blocked or clogged by clots.
    3. If these can’t feed our artery wall, the wall essentially becomes hypoxic and the tissue dies.
    4. When the tissue dies, the LDL cholesterol comes in to repair it, and this happens repeatedly, causing the artery wall to become thicker and thicker until it chokes the artery.
    5. When you combine this thickening of the artery wall with something that might trigger clotting of the blood (such as high blood sugar, smoking or a stressful or emotional event etc), a clot will pass through the narrowed artery,
    6. The clot will eventually block the artery entirely and the result is a heart attack.
    7. None of this is caused by LDL cholesterol.

What really matters is keeping your clotting factors inactive until they are needed. Most people (unless they are haemorrhaging) don’t need their clotting factors on high alert all the time.

So, which is better for your health? IMO – while bacon may not be a health food, I’d choose it over the Flora (preferably free range, minimal added preservatives, along with an abundance of vegetables). Flora doesn’t have a lot going for it, TBH, and while it may lower your cholesterol level, how important is that really? If your cholesterol levels are high and you’re not sure of your risk, get in contact with someone like me who can work with you to address the lifestyle factors that might be driving up your cholesterol levels and contributing to health risk.

IMG_3158

This bacon isn’t preservative free, however it’s the only one I could see that had less preservatives and was free-farmed, so using it as an illustration. Henderson’s is free of preservatives but only select supermarkets carry their free-farmed variety FYI

 

Diet and body composition: 11 key take home points

The International Society of Sports Nutrition just released a position stand that reviewed the literature available regarding diet and body composition. You can read it here.  For those who want it broken down into more simple terms, I’ve distilled it somewhat into 11 key take home points. While much of this draws on literature from strength and power athletes, it is definitely applicable to the general audience too, given that resistance-based training is one of the best things you can do to support your health and body composition goals.

  1. There is a vast multitude of diets and within these, several subtypes of diet. Low fat, low carb, higher protein, Mediterranean, low calorie… and these will all work work to reduce body fat given the right conditions. As a practitioner, we need to be familiar of the evidence supporting each diet type to make informed recommendations to the people we interact with, both at an individual and population level. As someone who is interested in losing body fat, know that no ONE diet is going to suit everyone, and if you’re trying to follow something because your mate is too, but you’re not seeing the results, then potentially it’s not the right plan for you. Seems simple when I write it down – but I think important to remind you.
  2. All body composition assessment methods have strengths and limitations. It’s good to bear in mind the limitations of using just scales as the only indicator, as this doesn’t account for fat mass loss. I’ve had numerous clients basically freak out that they have gained a kilogram overnight because they’ve eaten something high in carbs (causing your body to hold water) or they have done a hard training session (inflamed tissue). It is impossible to gain kilo of fat over a week, let alone a night, but the obsession with scales can make even the most rational person a little … less rational. Thus, if you use the scales, then think about how this makes you feel. And do it at the same time each week, on waking, after you go to the bathroom – etc. IE try to make it consistent. Ditto re: skinfolds – choose a practitioner who is skilled and stick to the same person so any errors are at least consistent errors.
  3. While it’s not about ‘calories in, calories out’, as that is far too simplistic, we do need to create a deficit in calories to drop body fat. Don’t freak out by the next bit of (evidence-backed, science-informed) information: The more fat you’ve got stored, the quicker you can lose this body fat without losing too much muscle mass by creating a large calorie deficit. The leaner an individual is, it is better if the caloric deficit isn’t as dramatic, to help preserve muscle mass. We can use calorie cycling to do this (ie higher calories for some days, lower for others across the course of 7-14 days, such as the 5:2 approach), or a consistently lower calorie approach, whatever fits in with the individual and their adherence. This study found that working on a weekly reduction of 0.7% of body weight better than 1.4% for preservation of lean muscle tissue.
  4. A wide range of dietary approaches (low-fat to low-carbohydrate/ketogenic, and all points between) can be similarly effective for improving body composition, and this allows flexibility with programme design, which is great – again, there is no one right approach for everyone. AND there is no one approach that will suit the same individual all the time – context, physical activity, stress, budget etc will all affect the suitability of an eating style that will improve body composition. This in part could explain why Weight Watchers, which helped you drop weight in the past, is not working now – regardless of how many points you are under at the end of the day/week. Being flexible rather than dogmatic will go a long way to finding a plan that suits you. I will also add, however, that something based on minimally processed food contains more nutrients – this will nourish your body and provide nutrients to ensure metabolism, brain and gut health are optimised while shifting excess body fat.
  5. When protein amounts are matched in the diet, there doesn’t appear to be an approach that reports a meaningful reduction of fat when we look at different macronutrient composition. All are as effective as each other – it’s sustainability which is the factor to consider. If an individual is insulin sensitive, research shows they are going to be able to lose weight on a moderate carbohydrate diet and potentially perform better on that than a lower carbohydrate diet. The reverse is also true. In addition, when adding resistance training to the mix, in some instances insulin sensitivity is improved. Therefore, knowing your metabolic health markers initially can help you determine what dietary approach might work for you.
  6. However, a ketogenic diet has been shown to have appetite-suppressing potential in part due to its effects on our appetite hormones (as explained in this review), resulting in a spontaneous caloric restriction. That said, for some this may only happen initially and clinically I have seen that this affect appears to wear off. (Note, this is my clinical observation).
  7. Increasing dietary protein to levels significantly beyond current recommendations for athletic populations (up to 2g/kg body weight) may improve body composition as in line with the ISSN’s position stand. It is also much more satiating for those of us who aren’t athletes, particularly in a restricted calorie state (as I’ve discussed here). There is also evidence that increasing protein in the diet beyond 3g/kg body weight and creating a calorie surplus can increase muscle mass and decrease fat mass simultaneously- I know! It’s like magic! Except very difficult to eat that much protein for a lot of people.
  8. Time-restricted feeding (which I’ve written about here) combined with resistance training is an emerging area of research that has thus far shown mixed results with respect to body composition (ie see here and here, however eating within that restricted window does allow for improvements in metabolic health. Much like cycling calories, the window of time that people choose to eat should be based on individual preference in a way that is easy to be sustained in everyday life. There is more to gain from having a good resistance-based training programme and adequate protein (in the context of an awesome diet) than worrying if your eating window is 8 hours a day or 9 hours a day.
  9. Do we starve our metabolism, thus slow it down and lead to fat gain if we restrict calories too much? Only in the context of a restrictive caloric diet and in the absence of resistance training where muscle mass has reduced, and energy expenditure has reduced. This can be mitigated when these are accounted for (see here and here).
  10. In addition to this, clinically what seems to work well is having a metabolic reset meal, where more fat/carb calories are consumed (which some might call a ‘treat’ or ‘cheat’ meal, particularly in the fitness industry) – this might be 1-2 meals every 7-14 days depending on the individual and their goals.
  11. There needs to be more research on women, older adults
  12. There needs to be more research on meal frequency and timing combined with different caloric loads, and with different training regimes.

Despite all of the above, a member of my online nutrition coaching system shared with me her experience with improving overall health (and metabolic markers – prior to embarking on her regime her HbA1c was in ‘pre-diabetic’ range). She found focusing on a higher fat approach, coupled with water fasting helps her control her insulin resistance and overall health much more than focusing on protein intake. While a few years ago this would have set alarm bells ringing in my head, the longer I’m in the game the more I understand that it is so individual as to how someone will respond to a dietary approach. Being willing to experiment with different protocols will help you figure out what works best for you regardless of the research papers.

 

Fuelling the fat-adapted athlete

On August 1st I’m releasing my athlete-specific meal plan, which is a long time coming given that I consult with many endurance athletes! It’s hard to be specific with a general plan, clearly, particularly when it comes to training nutrition, so when you sign up I encourage you to contact me to see if we need to tweak the elements of this plan to suit your training.

The goal of an athlete training plan is to provide fuel where required, be strategic about the type of fuel and when to have it. I want to help make you a more efficient athlete – so your training and recovery is optimised to enable you to get out there day in, day out in the best possible shape. This will allow you to show up to the start line (or game day) in the best position to do your best. Like recovery, nutrition is vital to enhancing fitness gains from your session – eating the wrong types of food increases oxidative stress and dampens down your immune system, leaving you susceptible to inflammation, illness and injury. If you don’t recover effectively from the previous training session, your ability to get out the next time and hit certain paces/power is compromised – therefore overall fitness gains aren’t realised and you may not reach your potential awesomeness. I’ve written about this previously in more detail here.

To be metabolically efficient, we want to be strategic about when and how we have our carbohydrate, how much we have and the quality of the carbohydrate source. That is why in the plans I focus on adding fruit, kumara or potato after training if the training requires additional carbohydrate to support recovery. By removing carbohydrate from the pre-training meal/snack, we don’t have an insulin response that will drive circulating glucose (what carbohydrate is broken into) in to your muscle cells, shutting down lipolysis (fat burning). The body will be forced to use alternative fuel sources such as fat which, as an endurance athlete, we should be primed to do. The reality is, though, the modern diet that a typical athlete follows has made sugar burning the default training state, even at low intensities. Even the leanest marathon runner has enough fat calories on board to go out and run back to back races – accessing this though is the problem! Fat as a fuel source creates a lot less oxidative damage and reactive oxidative species, thereby the inflammation you experience post-training is reduced, recovery is enhanced, and you’ll be able to hit the next session fighting fit. We need to adapt from a carb burner to a fat burner for you to go out and train and not risk bonking or running out of fuel. The switch over doesn’t happen overnight, and if you’re new to this approach then training can feel pretty sluggish to begin with – but hang in there as it does get easier!

There are different approaches to fuelling depending on your goal:

Pre-training

If body composition improvement is your goal, it is best to do fasted training sessions or use coffee/caffeine as an ergogenic aid and fuel afterwards. This doesn’t mean that you’ll lose MORE body fat than if you were just to reduce calories, but it will force your body to tap into its own reserves, which (when combined with this dietary approach) I’ve clinically seen helps accelerate fat loss in the context of this eating style. For extended, longer duration >3h+ then having some fuel (as suggested in plan) can be a good idea, or starting fasted and taking on board fuel after 45-90 minutes depending on session is optimal.

If you are happy with your body composition or do not want to drop any body fat, then you can choose to take on board some fat before training – such as cream in coffee, MCT oil powder in coffee, or ketones. By fueling before training, you will shut down your own fat oxidation, but be upregulating pathways for fat oxidation, however it will be burning the fat that you consumed. This option is also good for people who have higher cortisol levels – training in the absence of any fuel can further exacerbate the ‘stress’ response from your hypothalamus (brain). Taking on board some calories sends signals to your brain that there is no need to stress. Taking the ketone supplement has been found (compared to fasting) to upregulate fat oxidation at lower given intensities; once the intensity rises to a high intensity, the opposite may be true (potentially due to the ketones being used to spare glycogen at the higher intensities).

If you struggle to maintain your weight and need to work at keeping calories high, then adding in some additional protein alongside could also be a good option – this could be a couple of hardboiled eggs, some scrambled eggs, additional fat-based calories or a smoothie based on nuts, avocado, some protein powder, coconut milk, greens, with no fruit). Again, this will provide a minimal insulin response, meaning your body will be burning the fuel you provide it (fat calories) and therefore working towards improving metabolic efficiency.

In all instances above, 10g of branched chain amino acid powder can help fuel a longer session – just mix in water beforehand.

In a perfect world, the best type of training to do if you are new to this is low intensity training; this is because your body needs to relearn how to burn fat as its primary fuel source. The ultimate goal down the line is to become metabolically flexible (ie easily shift between both sugar burning and fat burning) – and that will happen! That means the natural switch over to burning sugar that occurs when training at higher intensities will not impact on your fat-burning capabilities at the lower intensities. Right now, though, if it’s all new to you, your default is to burn glucose at that high intensity. Any shift back into glucose burning at this stage will impact on your ability to burn fat and can leave you in no-mans land when it comes to training. What I mean is, you are following a lower carbohydrate approach to diet, so there is no glucose on board as a ready source of fuel, yet you are too high intensity for your body to use fat as a primary fuel source (at this stage). No mans land.

However, it rarely happens that an athlete is always training low intensity, even in their off season. Therefore supplementing with an exogenous ketone supplement (such as Pruvit) provides your body with fuel the way a carbohydrate gel provides glucose. Ketones are the byproduct of fat metabolism, and when you burn fat as a fuel source, your body generates these to support metabolism. At a high intensity if you’re new to this, taking exogenous ketones provide you the fuel to enhance fat oxidation before your body has the machinery in place to do it for you. Otherwise the intensity will force your body to switch back to glucose burning. Remember, in the initial phases of your fat-fuelled approach, your body has to upregulate the machinery required for fat adaptation – it isn’t the default fuelling response. Any opportunity to switch back to burning sugar, it will take it.

Taking the ketones (along with MCT oil powder) will provide the fuel you need for the training without the need to use glucose, and is recommended in this instance. Further, ketones aid in recovery from longer sessions, and most athletes I work with who use them experience reduced inflammation, less excessive hunger, and can go for longer at a higher given intensity without an increase in their heart rate or perceived effort. Most have also experienced improved body composition due to these reasons. My recommendation is to have ½ sachet of the ketones and you can include 10g of MCT oil powder with it prior to your session.

During training:

 Shorter training up to 2h, low-mod intensity

Nothing – perhaps water, or an electrolyte fluid (no carbohydrates required*)

 Medium length from 2-3h low-mod intensity

Evaluate how you feel, take some MCT mix (see below), Superstarch (30g/hour in 750 ml bottle), ketones as below (sachet in 750ml bottle, 1/3 bottle hour), otherwise just electrolyte fluid.

Longer training: over 3h

36g MCT oil powder + 20g BCAA + ¼ tsp salt in 750 ml bottle OR sachet ketones, 18g MCT oil powder + 20g BCAA in 750ml bottle – ¼ bottle per hour AND every 45 minutes have something small, solid, food based: ¼ – ½ Cliff bar, 30g cheese, hardboiled egg, small handful cashews, ½ UCAN superstarch bar, homemade bar (such as apple pie blondie).

If including high intensity intervals

Try carb rinsing: 5-10 minutes before starting effort, have a glucose tablet, thereby trickling in carbohydrate – this method tells your brain you’ve had carbohydrate onboard without taking anything on. OR have sachet ketones in drink bottle as above.

*may need something if getting into it for first time, and suggestion is the ketone supplement here to help aid the fat oxidation pathways.

 Post-training

If body composition improvements are a goal, train around your meals so you don’t need to eat in addition to them, also can create a ‘train low’ environment by withholding food for around 45-75 minutes to further enhance fat oxidation. If higher intensity effort, include 10g BCAA powder in water post-training to preserve muscle mass.

If happy with body composition, then you can do as above or add in a protein shake with around 25g protein, use unsweetened almond milk to help provide calories and preserve muscle mass. Having the other ½ of your ketone sachet here can enhance recovery. Include 10g BCAA in water post-training to preserve muscle mass.

If you struggle to maintain your weight (or you are training hard again in next 8 hour period), then adding in the protein shake as above, plus serve of good quality carbohydrate such as kumara, potato, a piece of fruit can provide calories plus easily digested fuel to support recovery. Including the other half of your ketone sachet here can enhance recovery and include 10g BCAA in water post-training to preserve muscle mass.

In all instances, if the training is long, then I think the benefits of post-workout fuel outweigh ‘train low’, especially if you have a heavy or longer session the next day as a lot of ultra runners or triathletes do.

This isn’t definitive, and someone else will have a different approach, however these are generally the guidelines I have used that work with clients and that may work with you.

Remember, though, the best way to get fat-adapted is to adopt a daily diet that supports fat metabolism – click here to sign up to my plans and use the above guidelines to support your training.

IMG_1740

The fuel I used pre-half marathon at the beginning of my marathon training program: 1/2 ketone sachet, MCT oil powder, coffee and PB.

Starving? Read this and you won’t be.

One of the biggest downfalls I see with diet is the lack of protein across the course of the day. A typical pattern I see when I talk to people about their food intake and their appetite is:

“I’m ‘good’ all day, but can’t control myself come 5pm”

OR

“I’m fine all day, but after dinner regardless of how full I feel, I’m not ‘satisfied’ ”

OR

“I’m ‘good’ till Wednesday then it’s all downhill from there”

Any of this ring true? The reason I bring this up is that many people report being absolutely starving, constantly thinking about their next meal and (more often than not) their frustration with being unable to lose body fat as they view their diet as being pretty good. When we delve further, I see quite clearly that when people are “good” it generally means they are undereating during the day, and this leads to almost a binge-like pattern later in the evening, or just an inability to stop snacking. A typical pattern might be:

  • Breakfast: cereal + fruit + trim milk (cos, you know, fat is bad)
  • MT piece of fruit/trim latte OR nothing
  • Lunch: chicken salad perhaps 50g chicken, no-fat dressing, no carbs (hey, we got rid of them back in the 90s!)
  • AT: nothing, or a carrot or similar
  • 5pm: a small handful of nuts, then a slightly larger one.
  • 13pm: a carrot. And hummus
  • 21pm: a few spoons of PB,
  • 47pm: cheese while making dinner
  • 10pm: leftovers off the kids plate,
  • 32pm: dinner (full!)
  • 20pm: piece dark chocolate
  • 35pm: bite of icecream *well I’ve blown it now*
  • 40pm: bowl of icecream *I’ll be better tomorrow*
  • 10pm: 3 rows of chocolate…..

Does this look familiar? While they may be low calorie/fat/carb during the day, people with this dietary pattern will generally consume more calories than they realise in that pre-post dinner window. This isn’t just about calories and fat loss though. Many people also suffer from anxiety around their food intake, gut or digestive issues from consuming more food than what is comfortable, sleep issues due to an excess of food close to bedtime, and unhelpful self-talk related to their perceived lack of control. This last point can be particularly damaging to long term success, as for some this can perpetuate feelings of failure and subsequent behaviours which make it difficult to change in the long term. Other long term consequences of a low protein and low dietary energy early in the day include reduced muscle mass, reduced metabolic rate, low mood and a greater propensity for fat gain in the long run.

How to prevent this?

Eat more protein at the start of the day – it is more satisfying and is digested a LOT slower than other nutrients, and will prevent overeating later in the day. What you eat at the start of the day really impacts how you feel and what you eat at the end of the day. Many experts in the field of protein research view 0.8-0.9g protein per kilogram of bodyweight, based on nitrogen balance studies, are likely underestimating overall protein requirements. This is especially true for those in the older age bracket and for people wanting to drop body fat where studies such as this have found that 2.4g protein per kg bodyweight can help maintain metabolic rate and protect muscle mass. Clinically (which, to my mind, is as important as what the literature says), very few of my clients thrive on a lower protein diet. Athletes (FYI) are recommended around 1.7-2.2g per kg bodyweight and in general a higher protein intake will benefit mood, sleep, blood sugar and appetite.

So what does 2.4g per kilogram look like for the myriad of people out there wanting to drop body fat? IE if you weigh 75kg, your protein intake should be around 180g. If we consider the standard protein sources available, then it might look a little like this (amount of protein in brackets):

  • Breakfast: 4 eggs (29.2g) – with vegetables, scrambled, cooked in butter, coconut oil or olive oil
  • Lunch: Medium chicken thigh 146g (34g), sliced up into salad with olive oil dressing and lemon
  • AT: ½ cup of cottage cheese (18g) with pesto mixed through
  • Dinner: Medium steak (186g) with roast vegetables 57.3g

Well, that is 139.4g of protein per day, around 1.86g per kilogram body weight, leaving an additional 40g of protein being derived from plant sources. You can see that you have to eat a lot of food to get your protein in – which is completely different from the ‘being good’ scenario above.

While the run down of foods to eat above may freak you out if you’re used to a cereal and salad diet – don’t be scared. If your dietary pattern looks much as I described above, allowing more protein earlier in the day will have a huge influence on your overall intake – the pattern of grazing late afternoon into the evening will change. I promise. I’ve written about the protein leverage theory before when discussing the National Heart Foundation’s food guidance system (click here for that post) – that the body has an innate requirement for protein and will drive appetite until this is requirement is met. If you eat a lower protein diet, research suggests you may eat more overall calories (and calories from refined carbohydrate) compared to people consuming a moderate protein diet. I know many people don’t like eating more food earlier as they don’t believe they have the willpower to stop. I recently wrote about the main physiological driver of ‘lack of willpower’, and eating more protein will kill this response pretty quick. You just have to try it. When combined with fibre, a bit of fat and carbohydrate that takes longer to digest, protein is (to my mind) the nutrient to focus on for controlling appetite, hunger levels and helping maintain an optimal body composition.

Protein quality definitely counts here too. This measure has been revised recently to reflect updated knowledge regarding the digestibility of protein, however regardless of technique used to establish bioavailability of protein source, animal protein consistently scores higher than plant protein in terms of protein quality (with 0.75 as a cut-off for good digestibility – see here for some food-based tables). This will have implications for their effect on appetite (i.e. ability to keep you satisfied). In part this is due to the presence of anti-nutritive factors in plant based proteins (such as lecthins, tannins, phytates etc) that prevent our absorption of them (see here for a comprehensive report on the digestibility of protein). This is not to say that plant protein doesn’t count. I have many clients who are vegetarian and, for them we ensure a good intake of eggs, cheese and protein powder (whey, pea or egg white protein powder for a good variety). People following a vegan diet are a little more challenged. While they will get protein from legumes, nuts, edamame beans, tempeh and seeds, I recommend (again) protein powders, and incorporating a variety of these (such as pea, hemp and sacha incha) in their daily diet. These are lower in overall protein compared to, say, whey (sacha incha has around 12g per 20g serve (60% protein), compared to whey protein (17-18g, or 85-90%). But if we are looking to increase protein across the course of the day, these will certainly be useful.

So…what about you?

If you’re a numbers person, think about your goals (weight loss, muscle maintenance etc) and shoot for the grams per protein I’ve mentioned above. Use Easy Diet Diary, My Net Diary, Fat Secret or Cronometer to find out how much protein is in the foods that you’re eating, and what the distribution of it is across the course of the day. Then use the information provided to plan for a higher protein intake and a more even distribution. At the very least, aim for around 25-30g of protein in your meals. If you’re not a numbers person, then use tables like these to give you an indication of where protein is in food. Aiming for:

  • 3-4 eggs at breakfast, or 120g protein-based food or 1-2 fist-sized worth; and
  • at least 120-150g of protein-based food at lunch (or 1-2 fist-sized); and closer to
  • 160-200g protein-based food at dinner (or 1-2 fist-sized); and

shooting for the higher numbers the more active or the bigger you are and THEN base the remainder of your macronutrient intake (carbohydrate and fat) around this – and don’t forget the abundance of non-starchy vegetables. If you want some help with this, get into contact with me or sign up for my online nutrition coaching – this is pretty much how I build my meals. While initially you may feel hungry, this will likely be habit rather than actual hunger (or a hormonal response, as your body’s appetite hormones work on a circadian rhythm and ghrelin may well be released as your body is used to eating at that time. Brushing your teeth is one of the best things to do to cut that hunger. If you wait it out, it will eventually pass and you’ll easily eradicate the feeling of hunger, the grazing later in the day and regain the feeling of control around your food (rather than letting the food control you).

protein_world_hunger_buster_thumb

Thankfully, it hasn’t come to this. There is an easier way to control your appetite… (PC healthycompare.com/diet-pills)