A short video for those of you who contacted me on social media asking me questions about how to lose weight or get bigger.
Tag Archives: Bodybuilding
Why too much sugar is bad in your diet
Added sugars, like high fructose corn syrup and sucrose, contains a lot of calories with no essential nutrients. That’s why they’re called empty calories.
There are no proteins, essential fats, vitamins or minerals in sugar – only calories.
Sugar is the leading contributor to obesity in both adults and children. People who consume a lot of sugars are more likely to become obese, and this applies to all age groups.
Sugar is very easy to overeat. Some nutrients make us feel fuller for longer, therefore we eat less within a 24 hr period. Protein and fiber are known for their satiating properties, but sugar isn’t. In fact, foods and drinks high in added sugar are extremely easy to over-consume. Sugar-sweetened beverages are the worst because even though they’re high in calories, your brain doesn’t register them like solid food. So you won’t eat less food to compensate for those calories.
Sugar can contribute to insulin resistance, that can cause serious metabolic problems. Insulin is a very important hormone when it comes to weight loss. It allows blood glucose (blood sugar) to enter cells to be utilized for energy. Too much glucose left in the blood can cause complications, like diabetes, kidney damage or blindness.
Insulin resistance is when cells become resistant to insulin which means it stops working as it should. Insulin resistance is believed to be the major cause for metabolic diseases.
Sugar also causes tooth decay. When we eat sugar, the harmful bacteria in the mouth can use it for energy. This allows them to grow, multiply and secrete acids that erode the protective enamel of the teeth. Sugar alcohols are popular alternatives that may help protect the teeth.
What you can do if you would like to lose weight is to cut back on added sugars in your drinks and foods. If you miss the sweet taste, you can use certain natural sweeteners to cure your cravings.
About refined carbs
Not all carbs are created equal. There are lots of whole foods that are high in carbs but still incredibly healthy and nutritious.
And there are refined or simple carbs, that have most of their nutrients and fibers removed. Eating refined carbs can lead to many illnesses including obesity, heart disease and type 2 diabetes.
So what are refined carbs?
There are 2 types of refined carbs:
- Sugars, like high fructose corn syrup and table sugar
- Refined grains: grains that have their nutritious and fibrous part removed. The biggest source is white flour made from refined wheat.
Refined carbs have been stripped off most of their fiber and vitamin content therefore they are considered empty calories. They also absorb quickly in the bloodstream, therefore they have a high glycemic index (GI).
Sugars and refined carbs are a very large part of the total carb intake in many countries.
The main sources of refined carbs are: white pasta, white rice, white flour, white bread, pastries, sodas, snacks, sweets, breakfast cereals and added sugars.
Because refined carbs are low in fiber and digested quickly they cause major swings in blood sugar levels. Foods with high GI promote short term fullness, lasting for about an hour. Low GI foods promote long term fullness, lasting for 2-3 hours. Blood sugar levels drop after about 1-2 hrs eating refined carbs. This promotes hunger and stimulates cravings. When you crave food, you’re prone to overeating.
Refined carbs can cause inflammation in the body which could be the primary cause of obesity and leptin resistance.
Studies show that a high consumption of refined carbs is linked with insulin resistance and high blood sugar levels. These are the main symptoms of type 2 diabetes. Refined carbs also increase blood triglyceride levels which is a risk factor for both heart disease and type 2 diabetes.
However not all carb foods are bad. There are many foods that contain healthy carbs because they’re great sources of fiber, vitamins and minerals. These include:
- oats
- buckwheat
- quinoa
- bananas
- sweet potatoes
- beetroot
- oranges
- blueberries
- grapefruits
- apples
How to boost the immune system?
The immune system is an interactive network of organs, cells and proteins that protect the body from viruses and bacteria or any foreign substances. The immune system works to neutralize and remove pathogens like bacteria, viruses, parasites or fungi that enter the body, recognize and neutralize harmful substances from the environment, and fight against the body’s own cells that have changes due to an illness.
The cells of the immune system originate in the bone marrow, then migrate to guard the peripheral tissues, circulating in the blood and in the specialized system of vessels called the lymphatic system.
When our immune system is working properly, we don’t even notice it. It’s when the performance of our immune system is compromised that we face illness. Underactivity of the immune system results in severe infections and tumors of immunodeficiency, while overactivity results in allergic and autoimmune diseases.
Give your immune system a boost with these tips:
- Supplement with echinacea: Research shows that one of the most significant echinacea benefits is its effects when used on recurring infections.
- Supplement with probiotics: Probiotics are good bacteria that help you digest nutrients that boost the detoxification of your colon and support your immune system.
- Eat more ginger: It’s believed that ginger helps to break down the accumulation of toxins in our organs due to its warming effects. It’s also known to cleanse the lymphatic system,our network of tissues and organs that help rid the body of toxins, waste and other unwanted materials.
- Eat more berries: berries are full with antioxidants, that are excellent for promoting healthy immune response.
- Get more rest: restful sleep is absolutely essential for health and recovery. When you sleep certain protective cytokines in your body increase in levels, and inflammatory cells decline, which means that less sleep could result in a deprived immune system.
- Have some garlic: it is great to avoid any cold, flu or other viruses. If you don’t like the taste of it, try capsules.
- Aerobic exercise boosts immune system: people who are fit and active are less likely to suffer from illnesses and the symptoms are less severe.
Tips on how to avoid putting on fat during Xmas
Xmas is coming fast and when the family and friends gather together it’s always accompanied by food and drinks. It’s a celebration, isn’t it? More often than not the food is not a healthy one and you might start panicking what to do to not to put on weight this season. Here are a few tips that might help you:
Stay active! Just because it’s Xmas it doesn’t mean everything stops – apart from your metabolism, that might stop if you are not active and overeat. Some of the gyms are open during xmas time, and even if yours is not, you can always go for a walk – slow or fast – after your meal or in the evening.
Get more Vitamin D3: If there’s no direct sunshine where you live – especially here in the UK, get some Vitamin D3 supplements. Vitamin D3 contributes to the normal function of the immune system and healthy inflammatory response and to the maintenance of normal muscle function.
Eat more protein and veggies: meat and vegetables/fibre help keep blood glucose and insulin levels down, help you burn fat and keep you from getting sick. Not to mention that they will make you feel full, too so you might eat less carbs.
Lower your sugar and carb intake: with the plates full with processed food and sugars/simple carbs, the single most effective thing you can do is watch your portion size of these foods. Don’t have a whole slice of cake, try only a bite. Don’t have a whole plate of pasta or other high carb food, try just a spoonful. If you watch your portion sizes you can probably try most of the xmas foods without being sick afterwards or feeling guilty for eating too much of them.
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?
- 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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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.
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.
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.
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?