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 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. 

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 train for weight loss

In my previous article I outlined a few points for a diet plan for weight loss. As you probably have heard this phrase a million times by now: abs are made in the kitchen. About 80% of your weight loss efforts will come down to your diet.You can estimate how much energy you burn during exercise, but the rule of thumb is that the more intense the exercise, the more calories are burnt.

For eg for a 150 lb person (69 kg) 30 mins of:

  • walking at 3 miles/hr burns 150 kcal
  • walking at 4.5 miles/hr burns 233 kcal
  • martial arts burn 401 kcal.

More often than not you see people in the gym, plodding away on the treadmill, crosstrainer or bike at a speed that allows them to play on their phones or talk to their friends.
Just to compare the calories and how much it takes to burn them off:
 A Krispy Kreme chocolate ice donut with Kreme filling is 360 Kcal. That equals to =

  • 94 mins walking
  • 41 mins jogging or
  • 48 mins cycling

A double cheese burger at McDonald’s is 440 Kcal. That equals to =

  • 115 mins walking
  • 50 mins jogging or
  • 59 mins cycling

And usually when people go to McDonald’s or Krispy Kreme they don’t just have 1 donut or 1 burger.
So my point is: with a balanced diet it’s easier to ‘keep in shape’ than doing a yo-yo diet.

If you want to maximise the exercise component in order to shed body fat, choose exercise modes that are physically demanding as they use more energy. So instead of walking on the treadmill at 3-4 mph for 45 mins, do a HIIT training for 20-25 mins. With this type of training – even though you’re out of your ‘fat burning zone’, but you deplete your muscle glycogen stores and your body will be forced to tap into the adipose tissue for fuel. We have an almost unlimited supply of energy in the form of stored fat. Marathon runners fatigue due to glycogen depletion, not fat.
You will also burn more fat post workout, during your recovery, if you engage in high intensity training.
 And last but not least: strength train! Girls, boys, everyone. The more muscle you have the higher your metabolism is. Building muscle and strength is intense. Intense training depletes glycogen therefore more stored fat is used for energy. Makes sense, doesn’t it?

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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Psychology of Supplements

What is a dietary supplement?

A dietary supplement is a product intended for ingestion that contains a “dietary ingredient” intended to add further nutritional value to (supplement) the diet. A “dietary ingredient” may be one, or any combination, of the following substances:

  • a vitamin
  • a mineral
  • an herb or other botanical
  • an amino acid
  • a dietary substance for use by people to supplement the diet by increasing the total dietary intake
  • a concentrate, metabolite, constituent, or extract

Dietary supplements may be found in many forms such as tablets, capsules, softgels, gelcaps, liquids, or powders. Some dietary supplements can help ensure that you get an adequate dietary intake of essential nutrients; others may help you reduce your risk of disease.

It should be noted that any claims a manufacturer or individual makes about a supplement might change its classification.

Researchers have also differentiated “nonvitamin, nonmineral supplements” (NVNM) as those primarily consisting of herbal, botanical, protein/amino acid, brewer’s yeast, and shark cartilage and a variety of other plant-based and nonplant dietary supplements such as enzymes and fish oil.

In competitive sports specifically, there are both “accepted” and “illegal/banned” substances, including some supplements.

In an interesting quandary for the field of performance enhancement, many supplements marketed to athletes contain banned substances – either overtly or because of impurities in these supplements. Researchers bought supplements from 215 suppliers in 13 countries testing 634 nonhormonal supplements. A meaningful % of the supplements (14.8%) contained substances that would lead to a positive drug test.

Problems also abound for individuals who use supplements to achieve added weight loss and/or muscle gain (or improved recovery after workouts) from their exercise programs.

Considering a worldwide ongoing obesity epidemic, it is not surprising that many individuals are seeking new ways to lose weight. Supplements promise, though probably seldom deliver, a magic bullet of sorts: easy, hassle-free weight loss with little in the way of dietary sacrifice.

Athletes undoubtedly account for a large portion of those who use dietary supplements, and there are a variety of products that are marketed directly at competitive athletes. Elite athletes tend to take supplements more commonly than college or high school athletes, and women used supplements more often than men.

Considering elite Canadian athletes participating at the Atlanta and Sydney Olympics, respectively, prevalence rates of 69% and 74% were reported. Vitamin use was most common (58-66%), whereas nutritional supplements were used commonly (Atlanta: 35% men, 43% women, Sydney: 43% men, 51% women) often consisting of creatine, and/or amino acid supplementation. Based on results overal, it appears that supplementation increases with the competitive level of the sport and is somewhat higher for female athletes.

There are 3 specific categories: supplement use to build muscle for aesthetic purposes or body image concerns, and supplement use to lose weight for aesthetic purposes, body image concerns, or health.

There is a behaviouristic explanation possible for the use of supplements in that athletes’ use may lead to reward contingencies (eg: more prize money), thereby driving future behaviour. Similarly, supplements that build muscle or promote weight loss could produce rewarding results. Also, there are undoubtedly social influences at work considering that coaches, parents, athletic trainers, and peers have been reported to be influential regarding the decision to take supplements.

Operant conditioning: focuses on the manner in which our behaviour and action are influenced by the outcomes that follow them. Derived from the behaviouristic research tradition, the sum of findings in this area dictate that some outcomes/stimuli strengthen the behaviour that preceded them, and others weaken the likelihood of the behaviour that preceded them. Outcomes that increase the likelihood of behaviour are known as reinforcers, and those that decrease the likelihood of behaviour are known as punishment. In the present context, prize money, praise from others, or rewards due to improved performance are reinforcers of the behaviour to take supplements. Because most legal supplements likely would not produce dramatic sport performance gains, muscle mass gains, or weight loss results, perhaps the best explanation for use is found in other theories. Behaviouralistic explanations, however, might be highly applicable considering the use of illegal substance such as steroid use.

When trying to change attitudes about whether supplements are good or bad, it is likely that some individuals are more persuasive than others. Individuals are more persuasive if they are seen as trustworthy or having pertinent expertise. The supplement industry often uses exactly such a strategy to help market their products. University research and “expert” sport and exercise nutritionists are increasingly being used to support the efficacy of performance enhancing, muscle building, or weight loss supplements. Consumers should consider, however, that a company may contract with 3 universities to test their products and report only the results of the positive outcomes in their advertisements.

Achievement Goal theory: within this theory, it is assumed that there are differences in the manners by which athletes judge their competence or success. Individuals who are task-oriented tent to judge their success on the basis of personal improvement, whereas those who are ego-oriented tent to judge their success on the basis of social comparison with others. Task-oriented individuals typically view personal ability as changeable and exhibit strong motivation regardless of their perceptions of competence. Those who are ego-oriented, tend to view ability as more static and are thus more likely to engage in questionable strategies to ensure winning and would be expected to engage in more frequent doping activities and perhaps a greater willingness to use supplementation strategies.

Body image and eating disorders: Obesity rates have dramatically increased over the past few decades, a similar increase in the ideal body size has not occurred in the female population. In fact, the “ideal” waist size for females may have become unhealthily small. Because of these 2 contradictory trends, it is no surprise that the use of supplements targeted at weight loss has increased dramatically during this same time period. The nation is getting heavier and feeling worse about it, especially the female segment. In one survey, research showed that among women at risk for eating disorders approximately 65% engage in frequent use of “diet pills”.

Adonis complex: There is an opposing set of preoccupation afflicting males termed the Adonis complex, which seems to be afflicting boys and men more specifically during the last few decades. These individuals may compulsively lift weights or exercise, engage in steroid abuse, elect to undergo plastic surgery, or suffer from eating disorders or body dysmorphic disorders, all in attempts to gain muscle mass, change fat distribution, or otherwise alter their appearance to some ideal.

In one of the seminal works in this area, Pop and colleagues interview 108 bodybuilders (55 steroid users and 53 non-steroid users) and found a higher than normal incidence of anorexia nervosa (2.8%) and a surprising incidence of ‘reverse anorexia’ (8.3%), with some of the respondents believing that they appeared small and weak despite their large, muscular appearance. The latter finding indicated that some of these bodybuilders exhibited unusual preoccupations with their appearance. Such pathological preoccupation with muscularity has been termed muscle dysmorphia. As an important link to potential supplement use or abuse, in Pope and colleagues’ research all of the bodybuilders indicating muscle dysmorphia (then termed ‘reverse anorexia’) were in the sample of steroid users, and many reported that the symptoms of muscle dysmorphia were a factor that led to steroid use. As an indication of the degree of this obsession, individuals with this affliction have reported lifting weights for hours a day while sacrificing other areas of their lives. For example, some of these individuals reported earning degrees in business, law or medicine but did not pursue a career or gave up a career in these areas because they needed more time to lift weights. Recent research indicates that bodybuilders suffering from higher levels of muscle dysmorphia are more likely to experience body dissatisfaction, social physique anxiety, and use muscle-building or fat-reducing targeted supplements. At present there is some evidence that supplement use is greater among individuals with muscle dissatisfaction or muscle dysmorphia. It also appears that illegal supplement use may accompany muscle dysmorphia as data indicate that 1 million or more US males have used these substances primarily to promote muscle growth as opposed to performance enhancement purposes. Finally, it should also be noted that research find that some men have become preoccupied with fat, as opposed to muscle, and, in contrast to attempting to gain weight, may develop eating disorders. This suggests that body image concerns among males may drive some to attempt obsessively to build muscle mass whereas others may obsessively work to lose fat. In both cases it is likely that legal or illegal supplementation is a common means to achieve such goals. 

An abstract from “Psychology of Supplements in Sport and Exercise – Motivational Antecedents and Biobehavioral Outcomes” by Rafer Lutz and Shawn Arent

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Superfoods

Superfoods have the ability to tremendously increase the vital force and energy of one’s body. They are an optimal choice to improve overall health:

  • boost the immune system,
  • elevate ‘feel good’ hormones, such as serotonin,
  • enhance stamina,
  • cleanse and fight free radicals,
  • lower bloating and inflammation.

Cacao – raw chocolate:

Is the highest antioxidant food on the planet. Number 1 source of antioxidants, magnesium, iron, manganese, and chromium. It is also high in theobromin (cardiovascular support) and anandamide (‘feel good’ chemical). Raw chocolate improves cardiovascular health, builds strong bones, is a natural aphrodisiac, elevates your mood and energy, and increases longevity.

Goji berries (wolfberries):

It contains 18 kinds of amino acids, up to 21 trace minerals, high amounts of antioxidants, iron, B and E vitamins, and many other nutrients.

Maca:

Increases energy, endurance, strength and libido.

Hemp seeds (eaten raw):

Contains 33% pure protein, and is rich in iron, amino acids, Vitamin E as well as Omega 3 and GLA.

Spirulina:

Provides a wast array of minerals, trace elements, phytonutrients and enzymes.

Bee products (pollen and honey):

Bee pollen contains nearly all Vitamin Bs, especially Vitamin B9 (folate), and all essential amino acids.

Honey in its raw, unfiltered and organic state, is rich in minerals, antioxidants, probiotics, and enzymes.

Camu berry:

It is the highest Vitamin C source on the planet. Great for rebuilding tissue, purifying blood, and enhancing immunity and energy. It is one of the best anti-depressants, immune building and eye-nourishing superfoods in the world.

Sea vegetables:

Rich in life-giving nutrients drawn in from the ocean and sun, sea vegetables help remove heavy metals, detoxify the body of radioactive iodine, provide numerous trace minerals, regulate immunity and decrease the risk of cancer.

Seaweeds are excellent for thyroid, immune system, adrenals and hormone function.

Medicinal mushrooms:

High in polysaccharides and immune-enhancing components, medicinal mushrooms like Shiitake and Reishi, are one of the most intelligent adaptogenic superfoods on the planet.

Cruciferous vegetables:

Such as broccoli, brussels sprouts, cabbage and cauliflower are high in antioxidants, and sulphur, which enhances the body’s production of glutathione.

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How much calories do I need?

Constant question from athletes that how much calories they need, especially when they start cutting for a competition.

Usually my first question is: how much are you eating now? Simple question, but not everyone can answer. My experience – especially here in Egypt – that people don’t know how much they’re eating. Food is not measured, it’s all just guessing. 

First of all you need to know how much you’re eating. You should know your macros: how much protein, carbs and fats you’re taking on a daily basis. If you’re offseason, at least a ballpark number. If you’re in contest prep, then it should be more accurate. 

During contest prep the main aim is to get rid of the fat while maintaining the muscle. That means your protein intake has to be high enough to keep the muscle and your carb intake low enough to lose the fat. 

The caloric intake is different for everyone. It depends on several factors: how much lean mass you have, how much you weight, how often you work out, what lifestyle you live (sedentary or active), even what job you do! Therefore a generic nutrition plan will not work for everyone. 

General rule is that if you want to maintain muscle you need to eat 1 gr of protein for every 1 lb of lean mass you have. Meaning: if your competition weight is 70 kg (154 lbs) then you need to eat at least 154 gr of protein a day. 

In regards to carbs it depends on the factors I’ve mentioned above, plus your body type, your insulin sensitivity and therefore your metabolism. If you have high metabolism, chances are you have low insulin sensitivity therefore you need more carbs. If your metabolism is slower, you need less carbs.

How you can increase your metabolism while dieting: eating small portions of food on a regular basis is one way to increase metabolism. The other way is to increase your physical activity by doing cardio. When doing cardio make sure you always have enough protein in your body to prevent fat loss. Supplementation of amino acids and BCAAs is essential when cutting.

The fat intake depends on your carb intake. Generally speaking if you are low on carbs, you need higher fats, if you’re relatively high on carbs, you need to be on low fat. Fats should be healthy fats, definitely not trans fats. Healthy fats include: fish, salmon, nuts and seeds to name a few. Transfats come from mostly fried foods and a lot of other ‘snacks’ from the shelves of a supermarket (crisps, or any junk food really).

So be careful with what and how much you eat when your main aim is to lean out. 

Personalized nutrition and training plans and online coaching are available: hello@tamaramakar.me

Soon: private coaching is coming in Cairo. Contact me for details!