Intermittent Fasting 101

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Intermittent Fasting (IF) is more of a dietary pattern than a diet. Simply put it is an eating pattern that cycles between feeding and fasting. Sounds simple?

There is no real specificity to which foods are to be eaten and which are to be avoided, with the focus being on when you eat your food. In this respect, it is more accurately described as an eating pattern.

Common methods of IF involve daily 16-hour fasts or fasting for 24 hours, once or twice per week.

Fasting has been a practice throughout human evolution. Our ancestors didn’t have access to supermarkets or fast food outlets, and at times food wasn’t even available for them to hunt or gather.

As a result, the human body was able to adapt to be able to function optimally bothe physically and cognitatively without food for extended periods of time.

In fact, sporadic periods of fasting is more natural than eating 3 or 4 meals per day.

Common methods of Intermittent Fasting
There are many ways to conduct a fast, all of which contain a period of eating and a period of fasting. During a period of a fast, you eat very little or nothing at all.

However, Paul Jaminet, the author of the Perfect Health Diet has a valid argument for the consumption of coconut oil and bone broth during a fast.

Here is a list of the most popular methods

  • The 16/8: Also known as the Leansgains protocol. It involves skipping breakfast and restricting your caloric intake to 8 hours, such as 12-8pm, then fast for 16 hours.
  • Eat. Stop. Eat: This involves fasting for 24 hours, once or twice per week.
  • The 5:2 diet: This method, you can consume up to 500 calories on two, non-consecutive days, then eat normally the other five days.

By reducing the total caloric intake over a period of time, all of these methods should lead to weight loss, so long as you’re not over compensating by overeating during your eating periods.

This can be avoided by eating natural whole foods such as, meat, seafood, eggs, vegetables, with some fruits and nuts.

Most people find the 16/8 method the easiest, most sustainable method to adopt. It is also the most popular.

How intermittent fasting affects your cells and hormones
During periods of fasting, several things happen to your body on a cellular level. For example, your body adjusts hormone levels to make stored body fat more accessible as an energy source.

At the cellular level, certain cells initiate important repair processes and change the expression of some genes.

Here are just some of the changes that occur in your body when you fast:

  • Human Growth Hormone (HGH): HGH levels increase up to 5 times, this provides benefits to both muscle growth and fat loss.
  • Insulin: Insulin sensitivity improves and levels of insulin drop dramatically. Lower insulin levels allow stored body fat to be more readily accessible.
  • Cell repair: When in a fasted state, cells initiate cellular repair processes. This includes autophagy, where cells digest and remove old dysfunctional proteins that build up inside cells.
  • Gene expression: Certain changes occur in the function of genes in relation to longevity and protection against disease.

These changes in hormone levels, cell function and gene expression are responsible for many of the health benefits of intermittent fasting.

Health benefits
There is a lot of science backed evidence showing the health benefits related to optimising weight control, the health of your body and brain. There are even some studies that suggest it may help you live longer.

Intermittent fasting and weight loss
Conventional wisdom discourages skipping meals, which is often associated with eating disorders and unsustainable crash diets. However, deliberately practiced IF, can be a powerful tool for weight loss.

Fasting involves caloric restriction. Sometimes, it easier to fast than to count calories.

Hormonal changes involved in fasting also promote weight loss, even if you don’t restrict calories. Fasting lowers the body’s levels of insulin, a hormone that prevents the release of stored body fat. With lower insulin levels, your body turns to stored fat for energy.

Here are some of the health benefits to intermittent fasting:

  • Weight loss: As mentioned above, when performed correctly, it can be a healthy weight loss tool.
  • Insulin resistance: This study showed that IF can reduce insulin resistance,  which could prevent type 2 diabetes.
  • Reduced inflammation: A key driver of many chronic diseases.
  • Heart health: IF may reduce LDL cholesterol, blood triglycerides, inflammatory markers, blood sugar and insulin resistance. All risk factors for heart disease.
  • Brain health: IF may protect against neurodegenerative diseases, such as Alzheimer’s.
  • Cancer. Animal studies suggest that IF may prevent certain cancers.
  • Anti-aging. Animal studies suggest that IF may extend lifespan.

Intermittent fasting and athletic performance
Initially, training in a fasted state might seem a bit contradictory. How can the body perform with fuel? Provided you’re not fasting for too great a period, IF can actually improve your athletic performance.

For endurance athletes, the benefits of fasting come from a two-pronged approach: training in the fasted state, and competing in the fed state. Fasted training can improve performance by forcing your body to adapt to lower glycogen stores and use glycogen more efficiently. Essentially, training in the fasted state adds another stressor, forcing your body to compensate and become stronger. This sets you up to get a huge boost from competing in the fed state.

Short-term fasting is also useful for power athletes. While fasting for several days at a time will hurt your progress, intermittent fasts less than 24 hours will not cause muscle loss or send your body into “starvation mode,” as long as you consume adequate calories and protein when you do eat.

On the contrary, when you lift in a fasted state, your body uses protein more efficiently afterwards, boosting muscle growth.

Weightlifters seeking to gain lean mass without also gaining fat should look into Martin Berkhan’s Leangains program, which specifies an eight-hour “feeding window” and a sixteen-hour fast every day.

Is intermittent fasting for everybody?
Like just about everything else in human nutrition, there is no one size fits all. This certainly applies to intermittent fasting.

For example, if you’re already underweight, pregnant, under heavy stress or have a history of eating disorders, a medical or health professional should be consulted prior to commencing a fast. In these scenarios, IF could actually have disastrous implications rather than be a benefit.

Some people just love food. There is nothing wrong with that. Enjoying traditional dishes from around the world can be a great experience. Bonus points if you’re sharing that experience with family and friends.

If you’re already eating a whole food diet, are generally more fat adapted, exercise moderately, have good sleep patterns, limit chronic stressors and are generally doing the things that make you happy then you’re probably in a good place to start playing with some fasts.

The bottom line
Basically, if you’re hungry, eat. Starving yourself only will cause additional stress.

If you’re already stressed, don’t IF. You don’t need another stressor.

If you’re completing high intensity training everyday, don’t IF. Unless you’re genetically gifted, you will need plenty of fuel to prevent overtraining.

If you’re not hungry, don’t eat.

Listen to your body. Try not to eat just because it’s midday and it is generally lunch time. At the same time, don’t feel guilty if you’re supposed to be in the middle of a fast and you’re reaching for a handful of macadamia nuts or some beef jerky. Try it out, skip a morning meal, sneak in a workout or go for a walk and see how you feel.

If you’re not ready, your body will tell you pretty quickly. Feeling lightheaded, reduced performance in workouts, cognitive decline or a general reduction in energy are all makers that you might need to fix a few things (food, sleep, stress, etc.) for a few weeks and try again.

In a perfect world, we’d all have an excellent metabolism, with a job we love and plenty of time to spend with friends and family. But unfortunately, it’s not and we don’t. We can, however, make the most of the world that we live in today.

Eat real food. Be active. Enjoy life.

The Turkish Get-Up

The one-arm get-up is general test of strength which had considerable appeal to most strongmen from yesteryear…

It has always made a hit with the theatrical public, for it was obvious to them that magnificent strength was being displayed when an athlete did a one-arm get-up with a heavy bell.

– Siegmund Klein (an American strength legend)

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The Turkish Get-up (TGU) is an outstanding exercise that develops strength, conditioning, mobility and stability throughout the entire body. It is both an excellent injury prevention and rehabilitation exercise for the shoulders. In fact, the TGU will give you shoulders that can take punishment, and dish it out.

It is a highly dynamic movement with enormous carryover to lifting heavy things. It does this by combining a series of movements from lying down to standing up with a heavy kettlebell overhead.

Many strong athletes have been humbled by the functional strength required to perform this movement, but mastering the TGU will make all overhead exercises safer and easier to perform.

A bit of history
The TGU was a staple exercise for the old-time strongmen and wrestlers. It has been said that this was the first and only exercise taught to many aspiring weightlifters to practice. The young athletes would have to master the TGU and be able to perform a TGU with 100 pound (45kg) weight with each hand.

When this goal had been achieved, the athlete was able to progress to the other lifts. There is some real wisdom behind that old-time methodology.

It takes tenacity and commitment to conquer this feat of strength. Secondly, it builds a solid foundation of strength that practically “injury proofs” the body, making it ready for more demanding training. It also significantly strengthens the major muscle groups, smaller stabilising muscles and the connective tissues.

Benefits of the Turkish Get-up

  • Promotes cross lateralization (getting the right brain to work with the left side, and vice versa);
  • Promotes upper body stability;
  • Promotes lower body stability;
  • Promotes reflexive stability of the trunk and extremities;
  • Ties the right arm to the left leg, and the left arm to the right leg;
  • Gets the upper extremities working reciprocally;
  • Stimulates the senses that contribute to balance;
  • Promotes spatial awareness;
  • Develops anterior/posterior weight shift;
  • Develops upper body strength, trunk strength, and hip strength.

How to perform a Turkish Get-Up
To keep it simple. The TGU can be broken down into three parts.

  • The half get-up;
  • The transition; and
  • The full get-up.

TGU: The starting position
Lying on your back, extend the arm holding the kettlebell in front of the chest with the arm locked out. If necessary, you can use your supporting arm to assist the initial lift or spot the weight. The goal is to get the weight into the locked-out position and not to build a big chest by pressing.

Post your left foot flat on the ground, with your heel close to your backside. This is the starting position. Remember to keep your eyes on the kettlebell throughout the exercise.

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TGU: The half get-up
From the starting position, with your supporting hand flat on the ground, roll slightly to your right side and sit up. Allowing the weight to drift forward slightly, then push off your posted foot to help you sit up.

It is acceptable to allow your free arm to assist slightly against the floor in sitting up. Finish with the left arm and kettlebell vertical (above your head), making sure the wrist is tight and elbow locked.

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TGU: The transition
In the transition, the athlete will move from the sitting to the kneeling position.

Begin by pressing the shoulder of your supporting hand (the one on the ground) away from your ear. This is important, but often overlooked step. It puts the shoulder into a strong position. It keeps the shoulder “active”, by keeping it in the socket.

Simultaneously press off your hand and posted foot, lifting your hips off the floor, forming a glute bridge. This will create the space necessary to swing your (right) leg underneath you as you slowly move into a three-point kneeling position.

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TGU: The full get-up
Slowly straighten your torso and pull your right arm up off the ground so that you are in a two-point kneeling position. Keeping your eyes on the kettlebell, and actively pressing the kettlebell straight up toward the ceiling.

Keeping your leg vertical, load your weight onto the heel, contract the outer glute and stand up, pushing the kettlebell up overhead as you straighten.

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From here, pause for a few moments, then reverse the steps under control to lower yourself on to the floor and back into the starting position.

Remember, there is no rush in completing this movement, and at times speed will destroy the movement quality, leading to an even more challenging or even dangerous practice. You will benefit from time under tension. So take your time and get it right.

Finally, always keep your eye on the kettlebell whilst conducting the movement.

 

Final thoughts
Mastering the TGU is an excellent investment of your time and effort. The TGU can compliment a variety of workout programs giving you many transferable benefits. It is versatile enough to be used as an injury prevention or rehabilitation activity, to a warm-up or even the main lift of your workout.

Personally, it is one of my favourite exercises (in and out of the gym), and has been a staple movement in many of my strength and conditioning programs over the years.

All about Resistant Starch

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What is resistant starch?
Resistant starch (RS) is a type of starch that is not digested in the stomach or small intestine, reaching the colon intact.  Simply put, it “resists” digestion. This explains why we do not see spikes in either blood glucose or insulin after eating resistant starch, and why we do not obtain significant calories from resistant starch.

There are four types of resistant starch:

  • RS Type 1 – Is found in grains, seeds and legumes and resists digestion because it’s bound within the fibrous cell walls;
  • RS Type 2 – Is found in some starchy foods, including raw potatoes and green (unripe) bananas;
  • RS Type 3 – Is formed when certain starchy foods, including potatoes and rice, are cooked and then cooled. The cooling turns some of the digestible starches into resistant starches via retrogradation;
  • RS Type 4 – Is man-made and formed via a chemical process.

However, this classification is not so simple, as several different types of resistant starch can co-exist in the same food.

Depending on how foods are prepared, the amount of resistant starch changes. For example, allowing a banana to ripen (turn yellow) will degrade the resistant starches and turn them into regular starches.

Where to find resistant starch
Resistant starch occurs in a number of natural foods. Some legumes, many tubers such as potatoes, and many fruits, especially unripe bananas and plantains.

There are several supplementary sources such as raw potato starch, plantain flour and tapioca starch. Raw (not sprouted) mung beans are also a good source of resistant starch, so mung bean starch (found often in asian grocery stores) can also work.

Food for your gut
Just like anything other living organism, your gut bacteria requires a food source. They need to eat to survive, and certain food sources are better than others. Simply put, resistant starch is a high quality food for your gut bacteria. This is the very basic, but most important function of resistant starch.

How does it work?

A healthy human gut has hundreds of bacterial species, outnumbering all other cells approximately 10 to 1. The overall balance of these bacteria has an important effect on health and wellbeing. Resistant starch resists digestion until it reaches the colon where it feeds your good bacteria.

The good bacteria feeds on resistant starch and produce short chain fatty acids, with butyrate being the most significant due its beneficial effects on the colon and overall health.  Butyrate is the prefered energy source for the cells lining the colon, it also has a role in increasing metabolism and decreasing overall inflammation.

Below are just some of the health related benefits backed by science to consuming resistant starch.

Improve gut integrity and overall gut function
As mentioned earlier, resistant starch improves the overall quality and functionality of your gut bacteria. It also inhibits endotoxins from getting into circulation and can reduce leaky gut, which could have a positive effect with regards to allergies and autoimmune conditions.

Improved insulin sensitivity
Consuming Resistant starch improves insulin sensitivity, even in people with metabolic syndrome.

Lowers the blood glucose response to food
A popular reason people avoid even minimal amounts of  dietary carbohydrate is the blood glucose response. It’s too high. Resistant starch lowers blood glucose spike after meals. This reduction may carry over to subsequent meals.

Reduces fasting blood sugar
This is one of the most commonly mentioned benefits of resistant starch. With a reduction in blood sugar levels, resistant starch may help you avoid chronic disease and improve your quality of life.

Increases satiety
In a recent human study, a large dose of resistant starch increased satiety and decreased subsequent food intake.

Enhanced magnesium absorption
Most likely because resistant starch improves overall gut function and integrity, resistant starch increases dietary magnesium absorption.

Consuming resistant starch may also have the following benefits:

  • Improved body composition;
  • Improved thyroid function;
  • Improved sleep.

Adding resistant starch to your diet

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In a modern diet a person may only consume about 5g of resistant starch daily, compared to many traditional diets where 20g or 30g was consumed per day. You can add resistant starch to your diet by either consuming it from a food source or through supplementation.

Several commonly consumed foods are high in resistant starch. These foods include, raw potatoes, cooked and then cooled potatoes, yams, green bananas, various legumes, lentils and raw oats.

These foods are commonly high-carbohydrate foods, making them out of the question if you are following a low-carbohydrate nutrition plan. However, even if you are eating a low-carbohydrate diet, you can still see some benefit from consuming some resistant starch.

You can add resistant starch to your diet without adding any dietary carbohydrates. This is where our supplements, such as raw potato starch come in to the equation.

Raw potato starch contains approximately 8g of resistant starch per tablespoon and almost zero digestible carbohydrate.

It is cheap. It does have a fairly bland flavour, but it can be added into your diet in a variety of ways, such as by adding to foods, smoothies or mixing it with water.

Four tablespoons will give you about 32g of resistant starch. Like most supplements, it is important to build up, as too much too soon may have disastrous results.

There doesn’t seem to be any reason to consume much more than that anyway, as excess amounts seem to pass through your body when you reach about 50g per day.

The benefits of Magnesium

Magnesium (Chemical Element)

Magnesium is the fourth most abundant mineral in the human body and the second most common intracellular cation (positively charged ion) after potassium, magnesium is required for the healthy function of most cells in your body, especially your heart, kidneys and muscles.

Magnesium’s benefits can include reduced symptoms from conditions such as chronic pain, fatigue and insomnia. Magnesium may also provide protection from a number of chronic diseases, especially those associated with aging and stress.

Essential to life, necessary for good health, and a vital component within our cells, magnesium’s benefits help our bodies maintain balance, avoid illness, perform well under stress, and maintain a general state of good health.

What conditions can benefit from Magnesium?
Magnesium is known to reduce muscle tension, lessen pain associated with migraine headaches, improve sleep, and address neurological disorders such as anxiety and depression.

Conditions linked to magnesium levels include:

Pain:

  • Headaches;
  • Muscle cramps and spasms.

Mental health and sleep:

  • Anxiety;
  • Depression;
  • Autism and ADHD;
  • Restless Leg Syndrome;
  • Insomnia.

Other conditions:

  • Psoriasis, Acne and Eczema;
  • Asthma;
  • Hypertension (elevated blood pressure);
  • Diabetes;
  • Osteoporosis.

Magnesium works within our cells. The powerhouses, factories and regulators of the body’s systems.

Because it is a necessary part of hundreds of biochemical reactions occurring constantly inside our cells, magnesium’s presence or absence affects the brain, the muscles, and the heart and blood vessels.

The importance of Magnesium?
There are fifteen essential minerals required by our bodies to function properly. These can be divided into trace minerals, those required in very small amounts, and major minerals, those required in larger amounts.

The six major minerals required in excess of 250 mg per day include:

  • Calcium;
  • Magnesium;
  • Potassium;
  • Phosphorus;
  • Sodium;
  • Chloride.

Magnesium impacts nearly all of systems of the body due to its cellular and molecular function. It has vital role as a co-factor to over 300 enzyme functions.

Not only one of the most vital and essential enzyme co-factors, regulating more reactions than any other mineral, but magnesium is also responsible for two of the most important cellular functions: energy production and cellular reproduction.

Magnesium and heart health
Insufficient magnesium tends to trigger muscle spasms, and this has consequences for your heart in particular. This is especially true if you also have excessive calcium, as calcium causes muscle contractions.

Magnesium also functions as an electrolyte, which is crucial for all electrical activity in your body. Without electrolytes such as magnesium, potassium and sodium, electrical signals cannot be sent or received, and without these signals, your heart cannot pump blood and your brain cannot function properly.

The heart has the highest magnesium requirement of any organ, specifically your left ventricle. With insufficient amounts of magnesium, the heart simply cannot function properly. Elevated blood pressure, cardiac arrhythmia, cardiovascular disease (CVD) and sudden cardiac death are all potential effects of magnesium deficiency and/or a lopsided magnesium to calcium ratio.

This systematic review and meta-analysis published in 2013,  concluded that circulating and dietary magnesium are inversely associated with CVD risk. Simply put, this means the lower your magnesium intake (and the lower the circulating magnesium in your body), the higher your risk for CVD.

Other notable effects include:

  • Is an important factor in muscle relaxation and heart health;
  • Creating energy in your body by activating adenosine triphosphate (ATP);
  • Allows nerves to send messages in the brain and nervous system;
  • Aids and regulates the body’s use of calcium and other minerals;
  • Assists in bone and teeth formation;
  • Regulates the metabolism of nutrients such as protein, nucleic acids, fats and carbohydrates;
  • Regulates cholesterol production and helps modulate insulin sensitivity;
  • Assists in energy production, DNA transcription and protein synthesis;
  • Maintains the structural health of cell membranes throughout the body.

Foods high in Magnesium
Magnesium in food sources were once commonly consumed, but have diminished in the last century due to industrialized agriculture and a shifting to more modern westernized diets. Below is a list of foods that are high in dietary magnesium:

  • Pumpkin Seeds;
  • Spinach;
  • Swiss Chard;
  • Dark Cocoa Powder;
  • Almonds;
  • Coffee.

Who should supplement with Magnesium?
Magnesium has been linked to reduced incidence of common conditions such as high blood pressure, diabetes, and metabolic syndrome in large peer-reviewed, long-term studies.

Studies today focus on whether active magnesium supplementation may be one of the missing links to preventing these diseases, as well as several disorders affecting the brain, muscles and skin.

The good news is that magnesium supplementation is a safe and effective way for most people to ensure they are getting enough magnesium to stay healthy, before deficiencies arise.

How much Magnesium to supplement
While the RDI for magnesium is around 310 to 420 mg per day depending on your age and sex, many experts believe you may need around 600 to 900 mg per day.

The 10,000 swing workout

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In a nutshell

  • Challenge yourself with four weeks or five of intensive kettlebell swinging to test your grit and improve body composition;
  • At the completion of the program, you will have done 10,000 kettlebell swings dispersed throughout 20 workouts. You’ll do 500 swings per workout;
  • Between sets of kettlebell swings, do one of the following: chin-ups, goblet squats, dips, or overhead presses;
  • Master your kettlebell swing pattern. It’s not a squat. It’s a hip hinge and a hip snap. Your arms should not travel above your shoulders.

Making progress with training
As humans, we thrive when we push our boundaries, reach goals, and beat our personal records. If we’re performing faster, fitter and stronger, we tend to feel more alive.

So, if you want to improve, you have to seek out new challenges, struggle, adapt and overcome.

The 10,000 kettlebell swing workout is a challenge that will rapidly transform your overall body composition in just four or five weeks.

 

The Program
In four or five weeks, the athlete is going to perform 10,000 proper kettlebell swings. These will be split over 20 workouts. That is 500 swings per workout.

Between sets of swings, the athlete performs a low volume, strength movement. Training either four or five days per week. Training two days on, one day off, then repeat.

  • Men should use a 24kg kettlebell;
  • Women should use a 16kg kettlebell.

Breaking it down. Swing clusters, sets and repetitions
Following this repetition scheme to reach 500 total swings per workout:

  • Set 1: 10 swings;
  • Set 2: 15 swings;
  • Set 3: 25 swings;
  • Set 4: 50 swings.

That is 100 swings completed, or one cluster. Repeat the cluster another four times and you will have completed you’re daily total of 500 swings. Between sets is where more conditioned or experience athletes can add a low volume strength movement.

The strength movements
Use a strength movement with low volume between sets of swings. Some of the best movements are:

  • Overhead Press;
  • Dips;
  • Goblet Squat;
  • Chin-up.

Other movements to consider could be a front squat, weighted pull-ups or even muscle-ups. This is where you can really personalise your program. I would stay with presses or pulls. It is fair to say that after 500 swings per day, you probably won’t feel like adding any extra hip hinge work.

Use a 1-2-3 repetition scheme for most movements. Here is an example using the overhead press:

  • 10 swings
  • 1 press
  • 15 swings
  • 2 press
  • 25 swings
  • 3 press
  • 50 swings
  • Rest for 60 sec.

For the strength movements, use your five repetition max weight. If you’re conducting dips, use a 2-3-5 repetition scheme.

If you choose to lift five days in a week, conduct strength movement on four of the days and pick a day where you will only conduct the swings.

You can use a different strength movement each workout, rotating through the movements mentioned earlier. My preference is to use two days of both overhead presses and pull-ups.

Only use a single strength movement each workout.

Rest
After each set of 10, 15 and 25 repetitions, rest for 60 seconds. After each set of 50 repetitions, extend your rest to three minutes. During this longer rest period, perform some corrective work. Conduct stretches as required, such as in the hips, or lower back. Add in some mobility movements to keep your body loose.

Here is what a sample week could look like:

Day 1

  • 10 Swings
  • Press 1 rep
  • 15 Swings
  • Press 2 reps
  • 25 Swings
  • Press 3 reps
  • 50 Swings
  • Rest 30-60 seconds; repeat 4 more times.

By the end of the workout, you’ll have completed 500 swings and 30 presses.

Day 2

  • 10 Swings
  • Chin-up 1 rep
  • 15 Swings
  • Chin-up 2 reps
  • 25 Swings
  • Chin-up 3 reps
  • 50 Swings
  • Rest 30-60 seconds; repeat 4 more times.

By the end of the workout, you’ll have completed 500 swings and 30 chin-ups.

Day 3 – Rest

Day 4

  • 10 Swings
  • Press 1 rep
  • 15 Swings
  • Press 2 reps
  • 25 Swings
  • Press 3 reps
  • 50 Swings
  • Rest 30-60 seconds; repeat 4 more times.

By the end of the workout, you’ll have completed 500 swings and 30 presses.

Day 5

  • 10 Swings
  • Chin-up 1 rep
  • 15 Swings
  • Chin-up 2 reps
  • 25 Swings
  • Chin-up 3 reps
  • 50 Swings
  • Rest 30-60 seconds; repeat 4 more times.

By the end of the workout, you’ll have completed 500 swings and 30 chin-ups.

Day 6 – Rest

Day 7 – Rest, or begin the cycle again

Swing Technique
There are several variations to complete the kettlebell swing. The two main variations being the American Swing, as seen in Crossfit workouts, and the Russian Swing.

The major difference between the two variations is that the Russian Swing is primarily a hip hinge movement with the kettlebell reaching to roughly chest height, and that the American Swing there is a secondary movement where the kettlebell is pulled overhead.

While there are uses for both variations of kettlebell swings, we will focus on the Russian Swing for this program.

The condition:

Swing the kettlebell between your legs and then in front of you up to chest level for repetitions.

The swing standard:

  • Maintain the box-squat alignment during swings and when picking up or setting down the kettlebell:
    • Keep your head up;
    • Keep a straight – not to be confused with “upright” – back;
    • Sit back, rather than dip down.
  • Extend the hips and knees fully on the top: the body must form a straight line;
  • The kettlebell must form an extension of the straight and loose arm(s) on the top of the swing.

What is next?
Firstly, congratulate yourself for completing this program. If done correctly, it can be  quite the challenge. Well done.

You’ll most likely be in much better shape than you were four or five weeks ago and you should be ready for the next challenge.

Keep swinging.

Why you should be eating bananas

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Why it’s a superfood?

  • High in vitamins B6 and C, fiber, potassium, mangansese;
  • Good source of riboflavin, folate, magnesium, copper;
  • Contains antioxidant phenols.

Healthy evidence
One of the reasons eating bananas is beneficial is because bananas are high in potassium. Potassium is an electrolyte and we require it to help our bodies function optimally. One banana contains more than 300mg of potassium. The recommended daily intake according to the National Health and Medical Research Council is 3,800mg per day for males and 2,800mg per day for females.

Bananas are high in potassium, a mineral that promotes heart health and normal blood pressure. This meta-analysis published in 2011, found that a daily consumption of 1,300-1,400mg of potassium is linked to 26% lower risk of heart disease.

In addition, bananas contain antioxidant flavonoids that have also been associated with a significant decrease in the risk of heart disease.

Making the most of Bananas
The high content of heat-sensitive and water soluble vitamins B6 and C means that fresh bananas are the best choice (vitamin B6 may decrease by as much as 50% if heated). For added nutrients, combine bananas with fruit high in vitamin A, such as mango or peach and mix with cottage cheese to add slow digesting protein.

Bananas and athletic performance
The unique mix of vitamins, minerals, and low glycemic carbohydrates in bananas has made them a favorite fruit among endurance athletes.

Bananas have long been valued by athletes for prevention of muscle cramps. Since bananas are a good source of potassium, and since low potassium levels are known to contribute to risk of muscle cramps, it is logical to think that the potassium content of bananas as being a contributing factor for a reduction in muscle cramps whilst conducting physical activities.

When is the best time to eat bananas
Generally, the taste and nutritional value of bananas change as they ripen.

Pre-ripened bananas tend to have greener skins and are less sweet than well-ripened bananas because the starch hasn’t fully broken down into simple sugars. The upside to eating pre-ripened bananas is that you stay full for longer and enjoy the benefits of the resistant starch.

On the other hand, a well-ripened banana with some dark patches on the skin is easier to digest and may give you the energy boost you require before playing sports.

The benefits of bone broth

As we enter the cooler months of winter, the need to take good care of our health becomes more of a priority, as colds come and go quite often. Most people try very hard not to end up with the sniffles each year, without much luck. Regularly adding a cup of bone broth to your diet just might be the solution?

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What is bone broth?
Bone broth, which is nothing new to home cooks around the world, is the strained stock that results from boiling animal bones, usually with attached meat, herbs, and vegetables to add flavour.

Bone broth is an ingredient than can be used to create or flavour all kinds of dishes. It contains parts of the animal we typically like to discard (like cartilage and bone marrow), all nicely broken down so we get the full dose of nutrients.

The importance of Collagen
Collagen is a group of amino acids making up 25-35% of our body. It’s found in our bones, skin, joints, tendons, and ligaments. As we age, we lose collagen. This contributes to age-related joint issues, not to mention the loss of skin elasticity.

Glycine is the primary amino acid found in collagen. And it’s a pretty significant amino acid in terms of what it does for the body.

The human body requires about 10 grams per day for basic metabolic processes, so we have a pretty significant daily requirement that we need to get through dietary or supplemental means. Most of us these days aren’t eating ligaments and tendons and rougher cuts of meat containing glycine.

Bone broth contains approximately 27 grams of glycine per 100 grams of protein. Therefore, it makes for a great source of this amino acid. Rather than taking an isolated glycine supplement, bone broth contains glycine with other amino acids and minerals, which act synergistically with each other. 

Some other benefits include:

  • Improve overall gut health;
  • Improves immune system;
  • Improves joint health;
  • Keeps the skin supple;
  • Restores Glutathione levels;
  • Improves sleep quality;
  • May improve cognitive function.

How to make bone broth
Here is a simple recipe on how to make a bone broth at home using beef bones.

Basic ingredients:

  • 1 to 1.5 kg beef bones. Any type of bones will do, but for the richest, most gelatinous beef broth, add some collagen-rich knuckles, tails, feet, or neck bones;
  • 2 carrots, chopped;
  • 2 celery ribs, chopped;
  • 1 onion, peeled and quartered;
  • 6 garlic cloves, peeled and halved;
  • 2 bay leaves;
  • 1/2 cup of apple cider vinegar;
  • Water (about 4 to 6 quarts/4 to 6 L).

Cooking instructions:

Browning the bones before simmering gives the broth a deeper, richer flavor, but this is optional. Preheat oven to 375 °F / 190 °C. Spread the bones out on a large roasting pan. Roast for about 30 minutes, until nicely browned.

Place the bones in a large stockpot or slow cooker. Add the vinegar, carrots, celery, onion, garlic, bay leaves. Add enough water to cover the bones by an inch or two.

If you’re using a stockpot, simmer on very low heat, with a lid, for a minimum of 8 hours, or up to 24 hours to extract the most nutrients and flavor, occasionally skimming foam and fat from surface.

In a slow cooker, cook on low for at least 8 hours and up to 24 hours.

The broth is done when it has a rich, savory flavor and deep reddish-brown color.

Pour broth through a strainer to remove any solid ingredients, and you’re done. Enjoy.

What is Overtraining?

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Recovery is one of the key components to high performance in sports but is rarely appreciated by most athletes ranging from the weekend shuffler to the elite level endurance athlete. Conventional wisdom would suggest that the road to success is hard workouts, and the more the better.

A highly motivated athlete, no matter how elite, who has placed recovery on the back burner, will soon enough experience total fatigue. Waking up in the morning tired, unable to complete the easiest of training sessions. This can go on for days, weeks or even months. You’re overtrained.

How Overtraining can occur
Below is a list of just some of the reasons an athlete could become overtrained:

  • Inadequate recovery between training sessions;
  • Too much high intensity training, typically for too long;
  • Sudden drastic increases in distance, length, or intensity of exercise routine;
  • Daily intense weightlifting;
  • High volumes of endurance training;
  • No vacations, breaks, or off-seasons;
  • For athletes, excessive competition at high levels (i.e. trying to win every race);
  • Inadequate nutrition, typically in the form of caloric and carbohydrate/fat restriction;
  • Insufficient sleep;
  • High amounts of stress and anxiety.

Common Symptoms of Overtraining
There are many symptoms of overtraining, ranging from physiological to biochemical or even a compromised immune system. Here are some of the more common signs and symptoms of overtraining.

Physiological and Psychological

  • Decreased performance;
  • Decreased strength;
  • Decreased work capacity;
  • Changes in heart rate at rest, exercise and recovery;
  • Increased frequency of breathing;
  • Insomnia;
  • Loss of appetite;
  • Increased aches and pains;
  • Chronic fatigue;
  • Depression;
  • Apathy;
  • Decreased self-esteem;
  • Difficulty concentrating;
  • Irritability.

Immunological

  • Susceptibility to illness;
  • Slow healing of minor scratches;
  • Swollen lymph nodes.

Biochemical

  • Negative nitrogen balance;
  • Flat glucose tolerance curves;
  • Reduced muscle glycogen concentration;
  • Decreased hemoglobin;
  • Decreased iron serum;
  • Mineral depletion;
  • Elevated cortisol levels;
  • Low free testosterone.

Overcoming Overtraining
The only way to overcome overtraining is adequate rest along with sound nutrition. Overtraining usually results from training mistakes, most commonly is an imbalance between stress and rest. This usually occurs as an athlete suddenly increases their training workload in either volume or intensity, sometimes both.

Overtraining can be avoided by following a long-term, structured training program that has scheduled rest and recovery days. A reduction in workload for a single training week, every 6-8 weeks is also very beneficial. Taking the time out to reduce both mental and physical stressors of the modern world can help with recovery.

Training programs should be unique to the individual athlete, taking into consideration, age, experience, susceptibility to illness and injury, along with any personal goals.

Iliotibial Band (ITB) Syndrome – Is your ITB killing you?

If you’re an active person, and especially if you’re a runner, Iliotibial Band (ITB) Syndrome is one of the most common overuse injuries that can sideline you. Though many people suffer from ITB Syndrome, few understand what it is and how to treat it.

If you’ve ever had ITB Syndrome, then you know how much it can hurt, and how it feels like it’s never going to go away.

It’s one of those pains in your knee or the outside of your leg where you go out for a run or a ride, and have to limp home. Many suffer with this injury for months. It’s like a knife digging into the side of your leg or knee. The ITB is an extension of a short muscle on the side of your hip called the Tensor Fascia Lata (TFL) as well as your gluteus maximus (glute max) muscle, (that’s your behind). The ITB extends from the TFL and glut max down to the outside of your knee.

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Symptoms
Pain occurs anywhere along the ITB, usually at the insertion (by the knee) or somewhere in the middle. You’ll have pain running, riding or walking [usually down] stairs, and anytime you try to bend your leg, especially after keeping it straight for a while.

Sometimes, even waking up in the morning will be like an ice-pick in your leg. If you’ve ever had an ITB problem, you probably went through a whole slew of treatments and still had it for 3-6 months; that is very common and no fun.

Causes
ITB Syndrome occurs typically from the following reasons:

  • Often there is an actual weakness of the TFL or glute max itself. 75% of the ITB is made up of  the glute max – the major muscle you use to jump, climb, squat, run, ride your bike, and even just to get out of a chair;
  • A muscular imbalance between the inside and the outside of the leg;
  • One or both of those muscles could have fatigued from wearing the wrong type of shoes or orthotics;
  • An old injury that is still haunting you, but you don’t know it because the pain is gone, but your body has compensated;
  • An insulin issue from eating too many carbohydrates creating a gait disturbance, or even from a digestive problem, (gut inflammation can inflame the ITB);
  • Overtraining.

Treatment
Once you notice ITB pain, the best way to get rid of it is to rest immediately. That means fewer miles, or no running at all. While you’re backing off on your mileage, you can cross-train. Swimming, pool running, cycling, and rowing are all fine. If you diagnose an ITB problem early enough treatment can be as simple as rest, massage and stretching.

Medical treatment is cortisone shots and NSAIDs (Non-steroidal anti-inflammatory drugs) for inflammation and if that doesn’t help, then surgery can be recommended to cut and release the band (in severe cases).

Other keys to treating ITB and speeding a healthy return to the track are as follows:

  • Stop running. It’s simple – if it hurts to run, don’t run.
  • Increase strength. Simple exercises to strengthen the glutes, quadriceps, hamstrings and core muscles can aid a speedy return to the track.
  • Massage the injured area. Using a foam roller and/or a tennis ball to work out tightness in my glutes, quadriceps, ITB, hamstrings and hips.
  • Better quality sleep. Most recovery and healing happens when you’re asleep. Aim for 8 or 9 hours minimum of quality, unbroken sleep.

My training at 36-ish

Goals
Fitter. Faster. Stronger.
Always learning.

Context: 36-year-old. 180cm. Soldier. Student.

My aim is to live as long as possible and as healthy and productive as possible. I’m not a father yet, but I would like to be a parent one day and see those children grow up.

Basically, I want live well and avoid chronic disease (for as long as possible). My grandfather lived to 84 years old, although his last decade was hampered by heart disease, elevated blood pressure, cholesterol, and type 2 diabetes.

So, I plan to use some evolutionary wisdom and apply it to modern society. Simply put, keep my metabolism as healthy as possible (eat whole foods), keep enough muscle mass and remain as mobile (be active) as I can so that I can actually get around and do everything I want to do for as long as possible… and hopefully help a few people out along the way.

Caveat: This is what has worked for me so far…

Food
For those who don’t know me, I have been following Paleo or Primal type nutrition for about six years now. For the most part it’s just eating whole foods as often as possible. I do like my full fat dairy (like cheeses and some yogurt) and they don’t really affect me in a negative way unless I eat them in excess so with a bit of discipline I’m all good.

I’ve been trying to get about 125-150g of protein per day, with a lot of cooked veggies (for nutrient density) and some healthier fats like avocado and oils such as coconut, macadamia and olive. I must admit, I been fairly liberal with my use of butter and sea salt with my cooking. Not only are they a good source of vitamins and nutrients, but they taste really good.

I would usually split this over two or three meals depending on the day and what was going on during that day or week. The last two or three months I have been fairly low in dietary carbohydrate and have felt pretty good. I do have days where I really lift my carbohydrate intake but they have been fairly random and are usually after some intense training periods where I need a bit of a boost to aid in recovery.

I do a bit of intermittent fasting here and there. I am metabolically flexible, meaning I am well adapted to using fats or ketones as an energy source. Occasionally on a low tempo day, I would dabble in a longer fast of up to 24 hours This wasn’t very regular, maybe once every 6-8 weeks.

These days I don’t count calories or worry too much about when I’m eating or not eating. Basically, I eat when I’m hungry and try to avoid processed foods when practicable.

Most weeks I eat out with friends one night which would usually lead me to the local Vietnamese Pho or Grill’d restaurants.

Supplements
I’ve been supplementing with Nordic Naturals Fish Oil. I think omega-3 supplementation is important for overall health and Nordic Naturals is basically the gold standard of omega-3 supplements.

Magnesium. This is probably one of the most important supplements for me. I generally take it post workout (especially in the warmer months) or in the evenings prior to sleep. Magnesium is vitally important to so many biological functions in the body and these days it’s not that easy to get enough from diet alone. Add in some intense training or workloads, and your requirement increases.

At the moment most of my work days are spent indoors so during the winter months I add 10g L-glutamine daily (in the morning) and about a 10ml of Nordic Naturals Cod Liver Oil every other day. The L-glutamine is got for overall health and recovery while the Cod Liver Oil is a good source of both Vitamins A and D. 

Training
There are several coaches that I go to for inspiration when it comes to my program design. They are Dan John, Pavel Tsatsoline and Ross Enimait. When it comes to strength, conditioning, combative and kettlebell training these guys have you covered. 

Over the last 12 months or so I have been playing with some basic strength and conditioning programs consisting of mostly compound movements such as deadlifts, squats, rows, bench and overhead presses. Most of the time being spent around the 3-6 repetition range.

Heavy Turkish getups (up to 50kg), kettlebell swings and farmers carries have also featured consistently in my programing. 

I had a good three or four month period where I added some decent metabolic conditioning (metcon) circuits a couple of times per week. I felt this was working quite well but I had to really ramp up my caloric intake as the metcon work really depletes the energy levels.

Running. It’s been mostly interval work and 5km racing. The days of running 10km to 21km are behind me. I just found them too taxing on the body as a whole. My preference lately has been to run 200m and 400m intervals and every now and then I just get out and run around for 4km or 6km.

I missed out on the usual Run for the Kids in 2017, but I did compete in the Run Melbourne (26:50 for 5.7km) and Melbourne Marathon (26:03 for 5.7km). This year I have run in the Sole Motive Zoo Run (25:25 for 5km), Run for the Kids (23:20 for 5.2km) and the Mother’s Day Classic (17:41 for 4km).

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Right now my training consists of three days of strength and conditioning, two days of running (easy run and some sprint work) and maybe a single boxing workout. Each workout lasts about 30-35 minutes with the exception of the boxing which usually lasts 60 minutes. This gives me a total of about three to four hours of dedicated training per week which allows me to have more free time in my week.

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Lifestyle
I’m back in Melbourne. Where I grew up. Around family and friends definitely makes life a little easier. The importance of good social connections is often overlooked when it comes to optimising health and performance.

The last twelve months have been kind of interesting for me. A lot has happened on a personal level. Some good, some not so good, but I believe overall that I have had a net win which is great.

This year will mark 15 years as a soldier. That’s basically a lifetime. Soldiering has taken me to some pretty interesting places around the world and it has given me the opportunity to learn and work alongside some professional people.

I mentioned earlier that I am once again a student. I am finally completing my studies in nutrition which I am excited about. I am doing this via correspondence which will take about two years to complete, then I’ll make a decision on where I go from there.