For athletes: 9 science based ways to lose weight

Recently I’ve come across an article that talks about 9 science-based ways for athletes to lose weight. When you think about it, it’s always more difficult to lose weight when you’re always training, always eating clean. Humans need a certain amount of bodyfat to maintain basic functions. Too much bodyfat – however – can negatively affect an athlete’s performance. So what can athletes do to ‘step up’ their weight loss to be in prime condition and shape?

  1.  The first point this article suggests is to lose weight off season. We are talking about b athletes in general. It does make sense to try and lose the excess bodyfat offseason because it’s very difficult to reach peak fitness while dieting. When you’re not eating enough calories, your athletic perfomance will suffer. Losing weight offseason will give you more time to lose the excess bodyfat as well, so that you don’t have to rush the fat loss and can stick to the healthy pace of 0.5 kg / week – minimising the muscle loss.
  2. Avoid crash diets. I think we don’t really need to prove this point, athletes know that they need a certain amount of calories to be able to perform at the training sessions. Also drastically reducing your caloric intake will affect your metabolism and hormonal balance. Athletes should only cut their calories by no more than 300-500 kcal a day.

  3. Eat less sugar and more fibre. Low carb diets are proven to be the best for fat loss. However restricting the carb intake too much will affect your athletic performance. To reduce the carb intake cut out added sugars, and avoid cane juice, dextrin, maltodextrin, barley malt, caramel, fruit juice concentrate, fruit juice crystals and any type of syrup. Instead increase your intake of vegetables high in fibre.

  4. Increase your protein intake. Protein promotes fat loss in several ways: high protein diets increase feelings of fullness and the number of calories burnt through digestion. High protein diets also prevent muscle loss during periods of weight loss. Therefore athletes restricting their calories to lose weight should eat between 1.7 – 2.8 gr protein / kg of bodyweight / day.

  5. Spread protein intake throughout the day. 20-30 gr protein per meal is sufficient to stimulate muscles to produce protein for the following 2-3 hrs. Eating a snack containing 40 gr protein before bed can increase muscle protein synthesis during night. This may help prevent some of the muscle loss expected during sleep.

  6. Refuel well after training. Eating the right foods after competing or training is very important for the athletes, especially when trying to lose bodyfat. Proper refuelling is very important especially on days when you have more than 1 events with less than 8 hours recovery time. Carbs with protein can speed up recovery time and promote protein production in your muscles.

  7. Strength training can also help holding on to the muscle when trying to lose bodyfat. Research shows that both protein intake and strength training stimulate muscle protein synthesis and combining the two can produce an even better effect.

  8. After your diet, increase your calories gradually. It may be tempting to start eating normally again after you’ve reached your desired body fat percentage, but that would lead you to gain bodyfat back. Gradually increasing your caloric intake can help restore your hormone levels and metabolism better, minimizing the weight gain.

  9. Here are some other ways you can achieve weight loss:

    • measuring your portions and keeping track of what you eat is scientifically proven to help you get better results.
    • drinking before consuming a meal can help you consume 22% less calories
    • eat slowly, aim to take at least 20 mins for a meal
    • avoid alcohol
    • get enough sleep, not enough sleep can increase hunger and appetite by 24%. Not getting enough sleep will also affect your athletic performance.
    • reduce your stress. Having high stress levels will increase cortisol levels which promotes food cravings and drive to eat. Mental and physical stress can also prevent proper recovery.

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About Creatine

Creatine is a protein that is naturally made of 3 amino acids: arginine, glycine and methionine. It can also be found in meat and fish, and can be taken as a supplement.

Creatine combines with phosphorus to form phosphocreatine (PC) in the muscle cells. This fuels your muscles during high intensity training, such as sprinting or lifting weights. Creatine raises PC levels around 2%, which means you can sustain all out effort for longer and recover faster between sets.

Protein promotes muscle hypertrophy and protein manufacture. Lot of studies show that short-term creatine supplementation increases body mass. Studies found that creatine supplements improved strength, the number of repetitions performed to fatigue, and the ability to perform repeated sprints.

How does creatine work?

The gains observed are partly due to the increase of cell volume and partly muscle synthesis.

Creatine cause water to move across cell membranes. When muscle cell creatine concentration goes up, water is drawn into the cell an effect that boosts the thickness of muscle fibres by about 15%. The water content of muscle fibres stretches the cell’s outer sheaths.

In aerobic sports there is less evidence for creatine use. This is probably due to the fact the PC energy system is less important during endurance training.

Who should use it?

If you train with weights, or do any sports that includes high-intensity movements (sprints, jumps or throws: rugby, football, hockey, gymnastics, tennis etc), creatine supplements may help increase your performance, strength and muscle mass.

Taking carbs with creatine can be beneficial, as carb intake increases insulin which helps creatine uptake by the muscle cells.

Creatine monohydrate is the most widely available form of creatine. It comprises a molecule of creatine with a molecule of water attached to it. It requires a loading phase. One way to do it is to take about 20-25 gr / day in 4-5 doses for 5 days. After the loading phase the dosage is 2 gr / day.

The side effects of Creatine:

The main side effect is weight gain. This is partly due to the extra water in the muscle cells, and party to increased muscle tissue. It could be disadvantageous in sports where there’s a critical ratio of bodyweight and speed (like running), or in sports where there are weight categories. 

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About L-Carnitine

L-Carnitine is one of the naturally occurring amino acids. It is often used as a weight loss supplement. It transports the fatty acids into the cells’ mitochondria where it gets burnt off to use as energy. Your body can produce L-Carnitine from the amino acids lysine and methionine. You can also obtain small amount of L-Carnitine from your diet by eating meat or fish.

L-Carnitine L-Tartrate is the most common form of L-Carnitine that is used in most sport supplements, because of its fast absorption and it may help with muscle soreness and recovery.

In human studies, taking acetyl-L-carnitine daily helped reverse the decline in brain function associated with Alzheimer’s and other brain diseases.

Some studies have demonstrated a potential benefit for reducing blood pressure and the inflammatory process associated with heart disease.

L-carnitine may benefit:

Recovery:It may improve exercise recovery.

Muscle oxygen supply: It may increase oxygen supply to the muscles

Stamina: It may increase blood flow and nitric oxide production, helping delay the “burn” and reduce fatigue

Muscle soreness: It may reduce muscle soreness after exercise

Red blood cell production: It may increase the production of red blood cells, which transport oxygen throughout your body and muscles.

L-carnitine has also been shown to reduce symptoms of type 2 diabetes and its associated risk factors.

The main foods high in L-Carnitine are:

  • – beef
  • – pork
  • – fish
  • – chicken
  • – milk

 L-Carnitine has a greater absorption rate from food than from supplements.

Doses of 2 grams or less per day seem to be well tolerated and safe for most people. Some people have reported nausea or other digestive side effects, but no serious issues have been found.

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About ephedrine

The main ingredient in fat burners or thermogenics is ephedrine, a synthetic version of a chinese herb ephedra, or also known as ma huang.

Ephedrine is a drug, rather than a nutrition supplement. It is also used in low concentrations in flu and cold remedies (pseudoephedrine).

Ephedrine is chemically similar to amphetamines, which act on the brain and the central nervous system.

There is some evidence that ephedrine helps fat loss: partly due to an increase in thermogenesis, partly because it suppresses your appetite and partly because it makes you more active.

When taken as an ECA stack (ephedrine – caffeine – aspirin) ephedrine has a greater effect in terms of weight loss and thermogenesis. However the fat burning effect of ephedrine seems to decrease over time.

Ephedrine is judged to be safe in doses between 18-25 mg, that’s the amount that’s used in cold remedies. Doses more than 32 mg a day may triple your risk of bleeding in the brain. Prolonged use and higher doses combined with heavy exercise increase your risk of side effects, like increased heart rate, increased blood pressure, palpitations, anxiety, nervousness, insomnia, headaches, nausea, vomiting and dizziness.

Ephedrine is addictive, and people can develop a tolerance to it, which means you will need to take more and more to get the same effects. 

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About caffeine

Caffeine was once classed as a banned substance but was removed from the World Anti-Doping Agency prohibited list in 2004. Caffeine is a stimulant and has pharmacological action on the body therefore is classed as a drug rather than a nutrient.
Caffeine is found in everyday drinks and foods, such as coffee, black tea, green tea, cola, herbs such as guarana, both dark and white chocolate and it is added to a number of energy drinks and sports drinks and gels. 
Caffeine acts on the central nervous system, increasing alertness and concentration. These effects reduce the perception of fatigue and allow exercise to be maintained at a higher intensity for a longer period. 
Large number of studies show that caffeine intake can enhance performance at doses of 1-3mg/kg. There appears to be little increase in performance above 3mg/kg. for a 70kg person, this would be 210mg = 2 cups of coffee or 2 cans of caffeinated energy drinks.
Performance benefits occur soon after consumption, so caffeine may be consumed just before exercise, spread throughout exercise or late in exercise as fatigue is beginning to occur.
Although caffeine is a diuretic, a daily intake of less than 300mg caffeine results in no larger urine output than water. Taking caffeine regularly builds up your caffeine tolerance so you experience smaller diuretic effects.
Caffeine consumption likely causes a short-term spike in blood pressure after consumption, with the spike being more pronounced in those who don’t normally ingest caffeine and in those with hypertension. However, the evidence concerning the long-term effects of caffeine and caffeinated beverages on blood pressure is mixed.
Caffeine may raise eye pressure, but only in those who have pre-existing eye conditions like glaucoma.
Coffee contains oily substances called diterpenes, and the 2 main types are cafestol and kahweol that increase the cholesterol levels. Coffee filters trap most of the cafestol and kahweol though, so instant or filter coffee don’t contain much of these, only boiled coffee. 

About BCAAs

BCAAs are the most popular amino acid supplements. They contain:

  • Valine
  • Leucine
  • Isoleucine

 These 3 amino acids make up to one third of muscle in the body. The body breaks down muscle to get energy, especially during strenuous exercise, to get these amino acids.

 BCAAs are converted into 2 other amino acids:

  • glutamine and
  • alanine,

which are released in large quantities during aerobic exercise. They can also be used directly for fuel, especially when muscle glycogen is depleted.

 Foods high in BCAAs:

  • Meats: red meat is the highest in BCAAs. Other meats (poultry etc) are high in BCAAs, too because they’re primarily protein. Choose lean cuts, chicken breast without the skin etc
  • Eggs: they are packed with nutrition and BCAAs, and easy to add to your diet.
  • Dairy products are high in BCAAs: low fat cheese, milk, cottage cheese, yogurt, frozen yogurt. Additional dairy options could be: cheese, cream and butter.
  • Liquid and powder protein: very popular source, easy to prepare, drink and digest. If you mix your whey protein with milk, you boost the BCAA content of your shake.

Taking BCAA supplements before and during exercise can reduce muscle breakdown. They may also help preserve muscle in athletes on a low carb diet. It will probably not boost your endurance, however taking 6 – 15 gr of BCAAs daily may help improve your recovery.

 Side effects: BCAAs are relatively safe because they are normally found in protein in the diet.

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About the hormones: Cortisol

Cortisol is one of the stress hormones that is produced by the adrenal glands in response to stress. Stress increases cortisol levels which can be a good or a bad thing. Cortisol is needed in the body to maintain certain physiological processes during time of stress. Without it the body would be unable to respond to stress effectively.
The functions of cortisol are also important to control mood and well-being, immune cells and inflammation, blood vessels and blood pressure, and to maintain connective tissues like bones, muscles and skin.
With effective cortisol metabolism during the ‘fight or flight’ mechanism we can either run away or fight, because cortisol secretion releases amino acids from the muscles, glucose from the liver and fatty acids from adipose tissue in the blood stream to use for energy. So cortisol is good.

Cortisol-like drugs help with inflammations and certain skin diseases because of its anti-inflammatory and immune-suppressing properties.

When we encounter a stressor, either in a physical or psychological senses, the endocrine system tries to set things right by the coordinated actions of the pituitary and hypothalamus in the brain and the two adrenal glands in the kidney. These hormonal signals involve the epinephrine (adrenaline), norepinephrine, cortisol and numerous intermediary hormones to interact to help regulate important aspects of physiology, like cardiovascular function, energy metabolism, immune-system activity and brain chemistry.

Generally speaking, cortisol turns ‘bad’ when you either have too much of it, or you’re exposed to it on a regular basis.

Unfortunately many people’s adrenal stress response overreacts by secreting too much cortisol. Cortisol stimulates certain metabolic processes that increase concentrations of glucose in the blood. These metabolic effects are:

  • stimulation of gluconeogenesis, that converts amino acids into glucose,
  • mobilization of amino acids from the muscle tissue, so that it can provide the ‘material’ for gluconeogenesis,
  • inhibition of glucose uptake in muscle and adipose tissue, which increases the blood glucose levels even more,
  • and stimulation of fat breakdown in adipose tissue.

Unfortunately the fatty acids that are released by the fat breakdown (lipolysis) reduces the cellular sensitivity to insulin.

Back in the caveman days when a stressor was a tiger or other predator, the stress response was a vital survival technique:

  • a brief increase of energy levels,
  • and hormone levels,
  • and the ability for forceful muscle contractions: the fight or flight mechanism.

Unfortunately nowadays, when we face a stressor, like a deadline at work, or a traffic jam, our bodies undergo the same metabolic stress changes, which leads us to increased disease risks.

Soy: good or bad?

Soy contains 26% protein. It has the highest protein content amongst the plants. It is also the highest quality protein amongst the legumes.
Grains are typically low in lysine, beans are typically low in sulfur, methionine and cysteine. However the level of sulfur amino acids is higher in soy than in other beans.
Soybeans are high in fats, too. Most legumes (except peanut) contains 2-14% of fat, soy contains 31% of fat. Most fats in soy is unsaturated.
A serving of soy provides about 8 gr of dietary fibre. However some soy foods are processed in a way that decreases the fibre content, like tofu or soy milk. Processing soy at a high temperature can denature some of the proteins and reduce their quality.
Soy provides important nutrients: calcium, vitamin B12, iron, magnesium and selenium.

Interestingly, whole soybeans are rarely consumed in Western countries. The majority of soy in the diet comes from the refined products that are processed from the soybeans.

The fatty acids in soybeans are mostly Omega-6 polyunsaturated fats. This can be problematic because too many Omega-6s in the diet can lead to inflammation and all sorts of health issues. For this reason, it is very important to avoid soybean oil (and other vegetable oils high in Omega-6) and processed foods that contain it.

The nutrition composition of soy products depends on the type of soy food. Refined soy products, like soy protein and soy bean oil might not be that nutritious at all.

There is some evidence that soy can lower cholesterol levels, although studies show conflicting results. Men who consume soy are at a lower risk of developing prostate cancer in old age.

Soy contains large amounts of biologically active compounds called isoflavones, which function as phytoestrogens… that is, plant-based compounds that can activate estrogen receptors in the human body. These isoflavones are classified as endocrine disruptors, chemicals that interfere with the normal function of hormones in the body. The key isoflavones in soy are genistein, daidzein and glycitein. This can cause reduced estrogen activity due to the isoflavones blocking the actual, more potent estrogen from binding, or it can lead to an increased estrogen activity due to the isoflavones activating the receptors.

Animal studies show that soy isoflavones can cause breast cancer. There are also human studies showing that soy isoflavones can stimulate the proliferation and activity of cells in the breasts.
This may indicate an increased risk of breast cancer, which is the most common cancer in women.

Even though men have some amount of estrogen, having significantly elevated levels is not normal. Therefore, it seems logical that increased estrogen activity from soy isoflavones could have some effects on men. Many believe that soy can reduce testosterone levels, but the effect appears to be weak and inconsistent.

The isoflavones in soy also function as goitrogens, which are substances that interfere with thyroid function. They can inhibit function of the enzyme thyroid peroxidase, which is essential for production of thyroid hormones.

It is important for women who are pregnant, plan on becoming pregnant, or are breastfeeding, to avoid soy and other sources of endocrine disrupting compounds.

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How to eat for weight loss

There are so many diets out there, no wonder people get confused which one would suit them better. Atkins diet, bloodtype diet, cabbage soup diet, grapefruit diet, slimming world, weight watchers, ketogenic diet, low fat diet, low GI diet….. and the list goes on. Is losing fat as simple as creating calorie deficit? Most diets say: if your calorie intake is less than what you burn off, you will lose weight. Well, that might be true – to a certain extent, but is it only fat that you will burn off?

A pound of fat equals 3500 calories. A pound of muscle renders 600 calories. So 500 calories deficit a day will give you 3500 calories over a week: 500 x 7 = 3500
However there are 2 ways it can go:
– you will either lose 1 pound of fat (3500 calories)
– or you can lose 6 pounds of muscle (6 x 600 = 3600 calories)
 Obviously you want to avoid losing muscle tissue. That’s why it is important that you pay attention to the correct calorie deficit based on your current bodyfat levels and activity level. If you have a higher % of bodyfat, you can get away with a larger deficit in the early stages of your diet. But if you have a low(er) % of bodyfat, the calorie deficit needs to be adjusted to avoid losing muscle tissue. In your cutting diet, the type of protein, carb and fat has to be considered as well as how the body processes them.

1 gr of protein = 4 calories,

1 gr of carbs = 4 calories and
1 gr of fat = 9 calories.
 In general, high glycemic carbs create a large, temporary rise in blood sugar because they’re quickly digested. Low GI carbs create a lower rise because they’re slower digested.

A rapid blood sugar rise means:

– more insulin is released. A high insulin level promotes quick storage of sugar in muscle and liver. It also inhibits the hormone glucagon which normally tells the body to burn stored fat. Obese people tend to be sugar burners, they mainly burn stored glycogen. Their forthcoming meals restore glycogen (especially if it’s high GI) and the circle goes on, therefore they never get to burn stored bodyfat, they just store more and more.
– Blood sugar levels drop quickly, leaving you feel hungry sooner, so your body needs fuel again. The glucagon is still in short supply, therefore the body does not tap into the stored fat for supply. You feel hungry and will eat again – needlessly, which will lead to increased fat gain over time.

 Moderate and high glycemic foods are recommended after exercise when the plasma glucose concentrations are elevated and it facilitates muscle glycogen replenishment.
For tailor made nutrition and training plans contact me on hello@tamaramakar.me, KIK: tamaramakar

Answering some common questions 1.

I have been receiving a few questions related to my previous posts and in general. I will answer them on here regularly, so keep them coming.

What are electrolytes:

Electrolytes are mineral salts dissolved in the body’s fluid. They include:

* sodium,
* chloride,
* potassium and
* magnesium,
and help to regulate the fluid balance between different body compartments (for example, the amount of fluid inside and outside a muscle cell), and the volume of fluid in the bloodstream.

The water movement is controlled by the concentration of electrolytes on either side of the cell membrane. For example, an increase in the concentration of sodium outside a cell will cause water to move to it from inside the cell. Similarly, a drop in sodium concentration will cause water to move from the outside to the inside of the cell. Potassium draws water across a membrane, so a high potassium concentration inside cells increases the cell’s water content.

 

What are glucose polymers and maltodextrins?
Between a sugar (1– 2 units) and a starch (several 100,000 units), although
closer to the former, are glucose polymers (maltodextrins). These are chains
of between 4 and 20 glucose molecules produced from boiling corn-starch
under controlled commercial conditions.
The advantage of using glucose polymers instead of glucose or sucrose in a
drink is that a higher concentration of carbohydrate can be achieved (usually
between 10 and 20 g/ 100 ml) at a lower osmolality.

 

What are multiple transportable carbohydrates?
This term refers to a mixture of carbohydrates (e.g. glucose and fructose;
maltodextrin and fructose) in sports drinks. These carbohydrates are
absorbed from the intestine by different transporters, and using a mixture
rather than a single type of carbohydrate in a sports drink overcomes the
usual limitation of gut uptake of carbohydrate.

 

I would like to bulk up, how can I do that?
As you probably know, putting on muscle (or shredding fat) lies in your diet/nutrition. If you’d like to put on muscle mass, first thing you need to do is to revise your protein intake. Do you know how much protein you take in? 100 gr of chicken breast contains 25-30 gr protein, 100 gr of white fish has about 24 gr, 100 gr of steak has about 25 gr of protein, 100 gr cottage cheese about 10 gr. Endurance athletes usually take about 1.2 – 1.7 gr protein/kg of bodyweight/day, and bodybuilders take a lot more than that to build muscle. Then you need to revise your carbohydrate intake as well. Carbohydrates/muscle glycogen is the primary energy source when training. If you don’t have enough muscle glycogen, your performance will suffer (less intensity, lighter weights = less muscle), and your body will use amino acids to convert to glycogen (less muscle building). The amount of carb you need to eat depends on a lot of factors: your insulin sensitivity and the rate of your metabolism. People with high metabolism can eat more carbs, and people with high insulin sensitivity (and low metabolism) have to watch their carb intake otherwise they will put on a lot of fat as well along with the muscle.

Keep the questions coming, I will reply to them regularly on here!
hello@tamaramakar.me

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