Category

Body Composition

Why body composition monitoring is important in people with disabilities?

By BIA, Body Composition, Body Composition Analysis, Case Studies, Press

The International Day of Persons with Disabilities is celebrated on December 3rd, with one of the goals being to promote support for the well-being of people with disabilities.

A body composition test is an important part of monitoring people with disabilities’ health and well-being. Due to the distinct health issues that many people with disabilities face, such as limb paralysis and restricted mobility. A consistent measurement of body composition changes such as lean mass, body fat, and body water is also critical for their health.

Caring people with disabilities' health is important

Why body composition of people with disabilities should be monitored consistently?

In comparison to the general population, people with disabilities often have lower levels of health awareness and have more difficulty managing their health.

According to a study, the prevalence of obesity among young people with intellectual disabilities (ID) was nearly twice as high as the general population.

People with ID are more prone to obesity, which can lead to a variety of metabolic, pulmonary, and cardiovascular diseases. This emphasises the significance of regular body composition tests for their health awareness and caregiver attention.

Some stroke survivors experience disabilities often have unhealthy lifestyle which is the main cause of stroke development. Body composition tests that raise their awareness is necessary for their post-stroke lifestyle modifications and ongoing well-being in the future.

Challenges in monitoring body composition for people with disabilities

Raising health awareness among people with mental and developmental disabilities may be challenging if complex explanations are made. Meanwhile, you may find it difficult to effectively communicate with patients using the complex results from sophisticated machines.

Particularly, it can be challenging to predict the total caloric need of people with disabilities because it may not be determined in the same manner as the general population. Understanding body composition readings like Fat-Free Mass is crucial to helping you determine a patient’s daily calorie requirements. This would make it easier to develop more personalized fat loss program that work for people with disabilities.

On the other hand, most body composition measurements using BIA devices are taken in standing posture. You’re likely worried that not all people with disabilities will find it convenient to stand for a few minute measurements. Meanwhile, some people with disabilities may have had limbs amputated, making it more difficult to monitor their body composition. Therefore, it can be challenging to find a body composition analyzer that can be perform accurately with different measurement postures and available for amputees.

Rapport Kamiooka measuring their patient body composition with InBody S10

Please consult your healthcare professional for the interpretation of result and diagnosis.

How InBody support the people with disabilities in Yokohama City, Japan ?

Yokohoma City’s Rapport Kamiooka provides a “health promotion programme” with the assistance of a qualified medical staff for people with disabilities. They had demonstrated the effectiveness of our body composition analyzer, InBody S10 in their program.

Planning a diet for a disabled person who has conditions like high blood pressure and diabetes is challenging. They discovered that our body composition analyzer offers some helpful readings in calorie intake calculation, which is crucial in ensuring the disabled person consumes the required nutrients. Therefore, they frequently use the reading of body weight and basal metabolic rate, and adjust the amount of diet by keeping an eye on disabled persons’ muscle and fat mass.

Rapport Kamiooka consulting their patient body composition with InBody result sheet printed

With the printed test results, the physician could communicate with patients who have severe intellectual disabilities (ID) more effectively. Meanwhile, the team’s physical instructor has noticed that people with ID primarily move their lower bodies through walks and do not consciously train their upper bodies. This reflects the fact that their upper bodies and trunks typically have less muscle mass in the result sheet. With this discovery, he intentionally adds upper body exercise to each patient’s training.

A delightful results is observed after 3 months of this programs. A total of 110 people with physical, intellectual, and mental disabilities had found with positive body composition changes. Their overall muscle mass was maintained, while the Body Weight, Body Fat Mass, and Percent Body Fat decreased by an average of 1.3kg, 1.4kg, and 1.2% respectively.

In summary, regular body composition tests are crucially important for people with disabilities. The changes in their body composition are strongly related to their well-being and the effectiveness of the care they receive. A quick and accurate body composition measurement of different postures could revolutionise the way health care professionals provide medical check up and give disabled people the chance to learn more about their own health.

As you know, InBody has been striving to develop a body composition analyzer that can be used by everyone—even people with disabilities! There’s a new version of body water analyzer, BWA 2.0 is able to provide the cell’s function evaluation by measuring the cell’s integrity and structure with enhanced body water measurement accuracy. This could provide you the insight of which patients with disability may requires extra medical attention based on their body composition results.

Click here to learn more.

BWA 2.0 Innovative Body Water Analyzer

 

 

How often should you test body composition?

By BIA, Blog, Body Composition, Fat mass, Nutrition, Press

When it comes to weight loss, most people often use a weighing scale to track their progress. However, for better progress tracking, you need to test body composition rather than just weight loss monitoring.

Let’s say you’ve just started a new workout routine recently. Every morning, you eagerly weigh yourself to monitor your progress. Unfortunately, the static number shown on the scale could be truly upsetting.

An upset man is holding a weighing scale.

Without a doubt, weight measurements are used frequently in to track weigh loss. However, even though the number on the scale has remained the same, you might not be aware that your body has undergone some changes.

The scale counts everything, including your bones, muscles, fat, and every sip of water and food you consume. In other words, weighing scales cannot differentiate what you’re gaining (which might just be water) or losing (which might be muscle or fat).

Here’s where the body composition measurement comes in. Simply put, your body’s composition is the sum of its amounts of body fat, muscle, bone, and water. Body composition analysis determines your body’s proportions of fat mass and lean mass by looking beyond your weight and the traditional Body Mass Index (BMI).

InBody used in body composition test

How to test your body composition?

There are many ways to test your body compositionSome are quick and simple but only offer basic information. Some tests need to be administered by a qualified technician and are time-consuming and expensive.

InBody devices measure your body composition using a technique known as Bioelectrical Impedance Analysis (BIA), which divides your weight into different components such as lean body mass, fat mass, body water and minerals to assess health and nutrition status.

InBody body composition test for company employees

How often should you test the body composition?

When deciding how often to test your body composition, take into account your goal, timeframe, and whether you are currently following to a new wellness or dietary program. 

A study observed body fat mass reductions of up to 2.5kg for 48 obese adults under a 2-week nutrition program with nutrition drink supplementation in conjunction with body composition monitoring using InBody.

Therefore, if you’re actively engaging in a new lifestyle change, it’s recommended that you take the InBody test every two to three weeks. Meanwhile, if you have been actively involved in a wellness or fitness program, you may notice a faster change within one to two weeks. Dedicated effort and precisely measured results can often inspire you to persevere to reach your fitness goal. If your fitness goal timeframe is longer, you may consider taking the test less frequently.

Meanwhile, it is recommended that you only use one measurement method and same machine for your body composition test on your fitness journey. You might be able to obtain the results more precisely in this mannerThis is because various types of body composition test machines may use varied measurement techniques.

Set your fitness goal

Set your goal using InBody now!

It’s important to know how long it will take your body to make the desired changes after beginning a new fitness and nutrition plan. The InBody test could be an effective way to keep track of changes in your body composition. With the right information, you can set realistic goals for your muscle gain and fat loss that can be accomplished in a reasonable amount of time.

Guidance to set your fat loss goal with InBody (1)

Sports Nutritionist and Athletes' performance

How does the athlete’s body composition impact their performance?

By BIA, Body Composition, Fitness, Muscle, Nutrition

When most people think of nutritionists, they think of “healthy eating” and weight loss. However, the importance of sports nutritionist to maximise the athlete performance is fundamentally linked to diet and body composition too.

See Min, a professional sports nutritionist who works at the National Sports Institute Malaysia, recently joined the Malaysian contingent to the Southeast Asian Games in Hanoi to support the national team, shared her experience with how she accurately tracks athletes’ body composition using Bbioelectrical Impedance Analysis (BIA).

How does the BIA application provide a better strategy to maximise athletes’ performance?

Bioelectrical impedance analysis, as See Min mentioned, is one of the convenient methods for monitoring body composition in the sports nutrition field. It is utilised to monitor segmental lean mass for sports in a mass group, such as team sports, especially when regular assessment is required at different training phases. This is highly useful when sports nutritionists want to monitor changes in athletes’ body composition as the sports seasons change and adjust the dietary plan to assist athletes in achieving body composition goals that allow for maximum performance during competition.

By referring to the result sheet printed out from the BIA devices, sports nutritionists are able to explain body composition changes to athletes and coaches with ease. This allows the athletes to understand how their dietary practice and training programme could affect their body composition and performance in competition.



Watch the video to learn more about how BIA can assist sports nutritionists in helping athletes to achieve optimum body compositions for optimum performance in each phase of their training.

Can women gain the same relative amount of muscle mass as men?

By Body Composition, Body Composition Analysis, Fitness, Health, Muscle

If you’re like most women, you’re curious about whether doing the same routine as the men in your CrossFit class will give you the same results. On average, baseline muscle mass in men is 36% greater than in women. In terms of muscle distribution, women tend to have less upper body muscle mass compared to men.

Men have a slight genetic advantage over women because of their higher baseline muscle mass, particularly in the upper body. However, that doesn’t mean that women will gain less muscle mass than men, despite lifting the same amount of weights.

When men and women exercise for the same amount of time, they can accomplish the same amount of gains in muscle mass. While the increase in size was similar between men and women in the study, the relative strength of women actually increased more than men because they were starting with a smaller overall body size.

In addition, it’s worth noting that muscle mass gain may be more affected by individual variations in terms of sensitivity of resistance training responses rather than gender differences.

Does Weightlifting Causes Women To “Look Bulky” ?

What This Means For Women:
It’s possible to gain as much muscle mass as men, but it may take more work on your end because of your slightly lower baseline muscle mass. However, if you’re worried about getting too big, it’s also unlikely to happen due to differences in testosterone (we’ll cover that later,) and how you train.

The first step toward achieving enough amount of muscle mass is to do a body composition analysis to determine how much you have. Click here to read more about the various types of BIA devices that analyse body composition.

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Does Weightlifting Causes Women To “Look Bulky” ?

By Body Composition, Body Composition Analysis, Health, Muscle

Many women believe that resistance exercise causes weight gain and a “bulky appearance”. Yes, strength training can lead to weight gain. You can almost certainly count on that. That is, nonetheless, totally acceptable.

If the gains you’re seeing are in Lean Body Mass, your weight may stay the same or even rise, but you’ll appear more lean and toned.

Women muscle from the back

Understanding How Muscle is Gained

To begin, let’s be clear about how muscle is gained. Muscle growth occurs when the rate of muscle protein synthesis exceeds the rate of muscle protein breakdown.

In other words, you can only gain muscle through a process in which resistance training breaks down muscle fibers and then repairs them with enough nutrients from diet and rest. As a result, the muscles will grow in size, resulting in [muscle hypertrophy](https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6950543/#:~:text=Muscle hypertrophy occurs when muscle,muscle protein breakdown [8].).

It is important to note, however, that muscle hypertrophy occurs at different rates for different people. Building “bulky” muscles take time and effort, and it is not a common result able to be achieved through weightlifting for the majority of women.

Women’s Muscle and Hormone

Women and men muscle difference

It’s understandable that seeing selfies of men in the gym with massive muscles while scrolling through social media can be frightening. And you might worry that working out in the gym will only lead to a bulky appearance.

Contrary to popular belief, women do not have the same level of testosterone as men, which is the primary hormone responsible for muscle hypertrophy. In general, women’s bodies only contain 10% to 20% as much testosterone as men’s bodies. As a result, women are much less likely to gain significant muscle mass from weightlifting.

Can women gain the same relative amount of muscle mass as men?

Have You Eaten and Lifted Enough?

Women cooking for her meals

You might have to eat more calories than you needed to in order to appear “bulky.” This is due to the fact that gaining muscle requires a calorie surplus.

Several studies have shown that women tend to have low-calorie diets and, worse, low protein intake. This dietary habit was strongly linked to sarcopenia or progressive muscle loss. Instead of being concerned about gaining too much muscle, the problem of muscle loss should be prioritized among women.

Aside from that, muscle building requires progressive overload in weightlifting. This is because muscle gain will adapt to the same weight carried during your exercise routine. To achieve greater muscle gain, you must gradually increase the weight lifted.

Learn how much muscle you can gain in a month

The Benefits of Weightlifting for Women

women having a rest after weightlifting

Not only does weightlifting not lead to significant increases in muscle size for women, but it also has numerous other benefits.

Weightlifting can improve bone density, which is particularly important for women as they are more prone to osteoporosis than men. It can also improve balance, coordination, and flexibility.

In addition, weightlifting can boost metabolism and help you burn fat. This is because muscle tissue burns more calories than fat tissue, even when you’re not exercising. As a result, incorporating weightlifting into your fitness routine can help you achieve your weight loss goals.

Think of weight training as an investment that pays serious dividends down the road. The more muscle you have, the more visceral fat in your body can burn over time.

How to Safely Incorporate Weightlifting into Your Fitness Routine

Women training with coach

Before starting a weightlifting routine, it is important to consult with a certified fitness professional. They could guide you with proper form and technique, which are also crucial to avoiding injury and getting the most out of your workouts.

It is also important to gradually increase weight and intensity and to incorporate rest and recovery time into your routine. This will keep you in good condition and allow you to perform weightlifting exercises safely.

The Importance of Tracking Progress

One of the keys to success in any fitness or nutrition journey is tracking your progress. This is where a body composition analyzer like the InBody machine can be incredibly useful.

Track muscle mass with InBody

By measuring your body composition, you can see how much muscle mass you have gained and how much fat you have lost. This information can help you fine-tune your nutrition and exercise plan so that you can keep making progress toward your goals.

Start tracking your progress with an InBody machine today and see the difference it can make. Find the nearest location for an InBody test here.

Summary

To summarise, weightlifting is a safe and effective form of exercise that will not make you “look bulky” in the majority of cases. Weightlifting is a valuable addition to your fitness routine because of its numerous benefits, including increased bone density, metabolism, physical strength, and mental health.

By incorporating weightlifting into your exercise routine and dispelling the myth of “bulky muscles,” you can meet your fitness goals while also improving your overall health and well-being.

So, jump off your treadmill and give the free weights a try! By doing so, you’ll not only dispel this myth but also reap the numerous benefits that weightlifting has to offer.

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Body Fat Percentage doesn’t always give a complete picture 

By Blog, Body Composition, Fat mass, Fitness, Muscle

If you’re using body composition tools like calipers to measure your body fat percentage to assess your health, then you’re already ahead of most (like those who are still using BMI).

But be aware that body fat percentage doesn’t always paint a complete picture when it comes to body composition. What’s more, decreases in your body fat percentage don’t always mean fat loss.  That’s because body fat percentage is a simple equation of your fat mass divided by your total weight.

Percentage Body Fat = Body Fat Mass / Total Body Weight

In some ways, body fat percentage is the most basic of all body composition results, because it only requires your Fat, Fat-Free Mass (or Lean Body Mass), and total weight.

While fat and fat-free mass are enough to give you a body fat percentage value, it isn’t always enough to explain changes in body fat percentages or give enough information to determine whether your body fat levels are healthy. You will get much more context about what your body fat percentage means if you look at it alongside things like Skeletal Muscle Mass. These are the muscles in your body that you can grow and develop through exercise.

Without assessing your amount of Skeletal Muscle Mass, your body composition assessments are going to be incomplete.  You won’t be able to fully understand the changes in your body fat percentage, and you may also be misled by what your body fat percentage means.  Here are a few examples:

1. You’re working out, but body fat percentage doesn’t change (or increases)

This situation can occur when you are working out to gain muscle in order to improve your physique, but you aren’t seeing the changes in the mirror that you hoped to see as quickly as you’d like. When you check your body fat percentage, you don’t see any change despite a month of hard workouts. What’s going on?

The first thing to check is to see if your weight has changed. It probably has. If your weight has increased but your body fat percentage remains unchanged, this likely means that your SMM is increasing at the same time as your Fat Mass. As you increase musculature, fat gain can occur due to the caloric surpluses required to increase SMM. This is a well-recognized phenomenon and is commonly referred to in gym-speak as “bulking.”

 

Additionally, situations can occur in which after initial drops in body fat percentage, the percentage rises right back where it used to be after a couple months.  Why?

This is because your body has entered what is referred to as an anabolic state – the condition in which your body increases muscle production.  Your body will require more calories than what you’re used to in order to build more muscle than it had before.

Not all of these calories, however, are going toward muscle development.  Being in a calorie surplus can lead to fat gain as well, which can cause an increase in body fat percentage.

2. You’re Losing Weight, But Your Body Fat % Doesn’t Change (or increases)

Similar to #1, this situation also involves little or no change in body fat percentage but instead of occurring due to anabolism, this time, catabolism is the driving force behind the change.

In catabolism, the body is focused on reducing tissue, not building it.  In order to lose weight, especially fat, the body should be in a catabolic state; in order to be in a catabolic state, the body needs to be in a caloric deficit (taking in fewer calories than needed).  In gym speak, this is referred to as “cutting.”

If you observe that you’re losing weight, but you don’t see the results in the mirror that you’d like to see and notice that your body fat percentage is unchanged, this is because your SMM and Fat Mass are actually decreasing together.

 

Why would Skeletal Muscle Mass decrease when you’re trying to target body fat only?  Although there isn’t a singular cause, the majority of the time this is caused by improper training and diet.

Most weight loss is a combination of body fat and skeletal muscle.  That much is unavoidable. For this reason, preserving or even increasing muscle becomes a priority when encouraging the body to enter a catabolic state.  This means ensuring your nutrient intake is balanced while engaging in some kind of resistance or weight training.

Many people neglect these important precautions and cause their body to metabolize muscle as well as fat.  Depending on how much muscle is lost, body fat percentages can drop extremely slowly, stay the same, or in extreme circumstances, increase.

3. Your Body Fat Percentage is Acceptable, But You’re Underweight

At first, this doesn’t seem like it makes sense – how can you be at a healthy body fat percentage, but not be healthy overall?  Simple: you’re underweight.

Underweight individuals may have enviable body fat percentages which can lead some people into believing that they are healthier than they actually are. However, if you are underweight, this means that you don’t have enough muscle mass.  Being underweight doesn’t get as much popular attention as being overweight does, but over time, being underweight can lead to the development of osteoporosis, which is diagnosed when a person has low bone density.

Not having enough muscle mass will also become problematic if you get sick.  When you become sick, the body’s need for amino acids to power its immune and recovery processes increases, and it will look to your muscle mass for those amino acids.  Essentially, your body will start to break down muscle in order to fight and recover from disease, and if you’re underweight with a healthy body fat percentage, you won’t have enough muscle to easily fight off illness.

4. Your Body Fat Percentage is Acceptable, But You Have Muscle Imbalances

Even if you are at a healthy weight and have an acceptable body fat percentage, only having Fat and Fat-Free Mass as results can hide potential issues. Because Fat-Free Mass is a catchall term for everything in your body that isn’t attributed to fat, an absolute value for Fat-Free Mass can’t describe how well developed this mass is in terms of your overall body composition.  In order to see that, you would need to take a closer look at how this mass is distributed segmentally.

Specifically, people can have well developed Lean Body Mass areas in some parts of their bodies but not in others.  Some people prefer developing upper body muscle while neglecting lower body muscle development. Others may have what’s referred to as a bilateral imbalance, which occurs when one side of the body is stronger than the other.  Here’s what that looks like from a body composition analysis viewpoint:

In this example, this person has almost one pound of muscle difference between their right and left arm.  Although this might seem more of an aesthetic problem, significant muscle imbalances such as the one shown above can also contribute towards injury.  Shoulder muscle imbalances in volleyball players, for example, have been shown to increase the onset of shoulder pain and injury.

It’s Just One Number

Although your body fat percentage is a very significant and useful number, relying on any one number, even an important number like body fat percentage, will never provide you with a complete picture about your overall health.  While body fat percentage is a very good way to assess your weight, it only takes Body Fat (and by extension Fat-Free) Mass and Weight into account.

In order to maintain your weight and understand the changes that your body experiences over time, including your change in body fat percentage, you will need more specific values than just Fat and Fat-Free Mass.  If you don’t compare your body fat percentage to Skeletal Muscle Mass, you won’t be able to:

  • Understand increases and decreases in body fat percentage
  • Maintain a healthy body fat percentage in respect to a healthy weight and muscle mass level
  • Determine if your muscles are balanced

Your body is a very complex system of many components all working together. That is why it is very important to get as much information as possible in order to understand your weight and your health properly. Calipers are a good a start, but in order to assess whether you have a healthy body composition try devices like a DSM-BIA device, that will go beyond body fat percentage and give you your muscle mass and body water results.

Cardio V.S Weights

Cardio vs Weights vs Concurrent: What’s better for body composition?

By Body Composition, Fitness, Muscle, Nutrition

Highlights

  • Aerobic Exercise- the ultimate exercise for increasing heart health, vascular health, and metabolic rate.
  • Resistance Training- the best training for gaining muscle strength and function. 
  • Concurrent Training- get the best of both aerobic and resistance training. 

When you think of exercise, what immediately comes to mind?

Going out for a jog? Loading up weights at the squat rack? Or maybe both?

All of those classify as exercise, but they serve different purposes. If you want to increase your squat 1-repetition maximum by 50 pounds, a daily cycling class won’t get you there.

It’s clear that your body adapts differently to different types of exercise, but how does that happen and what does it mean for your health?

This article will break down the benefits of different fitness regimens: aerobic, resistance, and concurrent training. In the process of reading this article, you will soon discover that your fitness goals can be achieved with some basic exercise physiology background!

What is Aerobic Training?

Aerobic exercise stimulates the heart and breathing rate to provide your muscles with oxygenated blood. The energy that powers such exercise is produced in muscle cells primarily via an oxidative pathway, meaning oxygen is required.

That explains all the heavy breathing when you go out for a run, doesn’t it?

That oxygen is delivered via blood being pumped from your heart, through your arteries, and returning to the heart through your veins.

So, it’s apparent that aerobic exercise primarily works two systems: energy production in your muscle cells and blood delivery in your cardiovascular system.

So how does this help you?

Does Aerobic Training Strengthen The Heart?

Aerobic exercise trains the heart to be stronger and more efficient at circulating blood. With aerobic exercise, the chamber of the heart (left ventricle) that pumps blood to the rest of the body literally gets larger and squeezes out more blood per pump, which means its stroke volume is increased. This results in an improved capacity for cardiac output, which is the quantity of blood pumped by the heart per minute.

If you’ve heard of hypertrophic cardiomyopathy (enlarged heart), it may seem counterintuitive that a large left ventricle muscle is a beneficial adaptation to aerobic exercise. But, important characteristics differentiate an enlarged left ventricle due to healthy aerobic exercise training and one resulting from disease.

strong, efficient heart is exactly what you want in order to live a long and healthy life.

If your heart is bigger and stronger, pumping more blood per beat, it doesn’t have to beat as rapidly. That’s why you often hear of elite endurance athletes with resting heart rates in the 30’s and 40’s. This is more important than it may seem: lower resting heart rate is associated with reduced risk of cardiovascular disease.

All these cardiac adaptations are aided by an increase in blood volume that occurs with aerobic exercise training. Without getting too technical, the expanded blood volume improves the heart’s contractility and filling capacity, allowing it to pump more blood per beat.

Although the heart is a different type of muscle than what’s in your arms or legs, it’s still subject to a related function. It contracts in order to move blood throughout the body. In addition to making it stronger and more efficient, you can also lighten the heart’s load by decreasing the resistance it faces.

How does aerobic training reduce arterial stiffness?

Each time the heart beats, arteries in the body provide resistance to the blood flowing.

The resistance provided by arteries is variable, though. Aerobic exercise training reduces the heart’s workload by reducing arterial stiffness.

When you perform aerobic exercise, your heart rate increases, pushing more blood through your arteries than at rest. The inner wall of your arteries feel the increased blood flow, and through a series of mechanisms, causes your arteries to widen.

As you train and your arteries experience this regularly, they become more effective at expanding. If you don’t regularly do aerobic exercise, your arteries never experience this stretch and they literally stiffen up (it is harder for your heart to pump blood through a stiff tube). Additionally, arterial stiffness is associated with coronary artery plaque development, the stuff that causes heart attacks.

Aerobic exercise also impacts your vascular system by promoting capillary growth. Capillaries are the microscopic vessels where oxygen diffuses from red blood cells to muscle (and other) cells.

Aerobic exercise requires increased oxygen delivery to the muscle to produce energy, so your body grows more capillaries to be able to better handle the energy demand.

How does aerobic exercise affect your metabolism?

Along with cardiovascular adaptation, aerobic exercise substantially impacts your muscles’ energy production system. Once blood delivers oxygen to the muscle cells, they still have to use it to produce energy that powers all the exercise you’re doing.

Aerobic exercise also relies to a great extent on breaking down fat molecules for energy, which can only happen within mitochondria.

Consequently, aerobic exercise training drastically improves your muscle cells’ ability to burn fat by generating more mitochondria and improving their functionality.

High-intensity aerobic exercise also increases your excess post-exercise oxygen consumption (EPOC), resulting in increased calorie burn after training sessions in addition to what you burned while exercising.  However, to maintain EPOC as you gain fitness, make sure to gradually progress your training intensity.

How Does Aerobic Training Impact Body Composition?

People who struggle with being overweight or obese have likely been told that aerobic exercise is a cornerstone of any weight loss routine.

The key to aerobic exercise is that it keeps the heart rate elevated for a continuous amount of time. While this will help to burn calories, it has specific impacts on body composition that people should keep in mind.

study published by the American Physiological Society took a look at the effects of regular exercise in adults. This study lasted eight months and placed adults on either aerobic training programs, resistance training programs, or a combined program. The researchers found that those in the aerobic training program lost more weight overall, including more fat mass than those in the resistance training program. On the other hand, those in the resistance training program gained more fat-free mass, including lean muscle.

To recap, aerobic training causes the cardiorespiratory system to adapt. It maintains heart function and health and keeps your energy metabolism system running.

Aerobic exercise is a jackpot for fitness and a key element of maintaining your health. But it may not get you big muscles or make your body much stronger…what will?

What Is Resistance Training?

 

Resistance exercise is training that progressively overloads your muscles. Some examples of resistance training would be traditional weightlifting, bodyweight exercises like pushups and pullups, and resistance band exercises. These types of exercises are meant to make your muscles bigger, stronger, more powerful, and more functional.

Specific adaptations to resistance training begin within the muscle cells. However, you’ll still get systemic benefits ranging from muscle growth to cardiovascular benefit.

To gain a deeper understanding of the whole-body performance and health effects of resistance training, read into how resistance exercise affects muscle at the microscopic level.

How does muscle adaptation work?

The point of resistance training is to make muscles function more effectively. This all starts with the contractile proteins that act to control muscle shortening and lengthening.

When you do resistance exercise, some of those proteins get yanked apart. That, along with the stress your muscle experienced, is the stimulus for your muscle to rebuild – this time bigger, stronger, or more powerful than before.

After resistance exercise, your muscle synthesizes proteins (this is aided by nutritional stimuli i.e. protein consumption). Special cells known as satellite cells also spring into action to help build up the broken down muscle. They normally lie quietly adjacent to muscle cells, but resistance exercise tells them to get to work.

Satellite cells combine with the muscle cells that were strained and damaged during your resistance training session. In doing so, they lend their molecular machinery to support protein synthesis that leads to muscle hypertrophy.

Resistance training with loads over 60% of your 1-repetition maximum results in hypertrophy of primarily type II fibers (‘fast-twitch’). These fibers are capable of rapid contraction with high force but tire more easily.

These micro-level adaptations matter to athletes and the general population alike. When you make measurable gains in muscle mass, strength, or power, you can thank the protein synthesis and fiber-specific adaptations that occurred within your muscle cells.

How does muscle hypertrophy occur? 

All those microscopic adaptations add up to cause changes that are easier to grasp. Resistance training at the proper intensity leads to measurable muscle hypertrophy. Strength improves in part due to changes to the neuromuscular system. Control over your muscles is typically a balance between competing neural signals. Some of those signals tell the muscle to contract, while others prevent contraction.

Regular resistance training can reduce neural inhibition that normally limits the strength and/or endurance of the muscle.

Muscle accounts for roughly 20% of resting energy expenditure, so it impacts on calorie burn and body composition is meaningful. Not only that, but you can’t increase the mass of most of the other organs that account for resting energy expenditure, like the liver, heart, brain, and kidney. Muscle is different because it hypertrophies, growing larger, and expending more calories.

By packing on muscle, not only do you increase strength, power, and function, but you also raise your basal metabolic rate. And by doing so, you’ll see an increase in your metabolism and an improvement in your health.

Does Weight Lifting Count as Cardio? 

If you’ve ever lifted weights or done resistance exercise, you’ve probably felt your heart pounding with the exertion.

Does that mean you’re getting cardiovascular and metabolic adaptations like you would with aerobic training?

Maybe not.

Resistance exercise does raise your energy expenditure. But it does so differently, and to a lesser extent, than aerobic exercise.

Resistance exercise trains your energy production systems but has less impact on the aerobic energy systems.

Is Resistance Training For Everyone?

Even if you’re not an athlete. Resistance training is important for functional fitness.

Functional strength training is defined as: “Training that attempts to mimic the specific physiological demands of real-life activities.” Unlike more traditional strength training (which focuses on specific muscle groups during each exercise), functional training focuses on whole muscle groups to train the body for daily demands.

A common misconception is that you may be too old for resistance training. But clinical data from a multitude of sources clearly shows the benefits of improving one’s functional fitness level, particularly for older adults.

Functional training such as resistance exercises and bodyweight movements can help you become stronger, more flexible, agiler and better equipped to handle day-to-day feats of strength and athleticism that are often overlooked. Plus, it can help you become less injury-prone.

study recruited seniors who were struggling with their physical abilities and placed them in a resistance-training exercise program. At the end, the researchers observed an increase in their fat-free mass, their muscle mass, their gait speed, and their overall physical capacity. This shows that resistance training not only improved body composition in the elderly but also helped to increase mobility to improve their ability to complete day to day activities.

How Does Resistance Training Impact Body Composition?

study found that regardless of the frequency of the resistance training program, participants increased overall muscle strength. The participants increased lean body composition.

Resistance training is a great way to increase lean muscle mass, and it improves the physical capacity of the elderly, leading to significant improvements in their quality of life. This evidence supports the positive capabilities resistance training has in both building lean body mass as well as maintaining lean mass in aging populations who are at risk of muscle loss.

These adaptations to resistance exercise impact your health and physical performance. Your muscles carry you through the day and increase performance if you’re an athlete.

Breaking down and building up muscle through resistance training is essential to maintaining function as you age. Loss of muscle mass even threatens some people’s capacity to live independently.

In terms of body composition, muscle mass is not only an important component to maintain, but it also contributes to your resting metabolism, helping you maintain a healthy energy balance.

Resistance training benefits the cardiovascular system, but its role is mainly for muscle gain and function.

But, how can you reap the benefits of both aerobic and resistance training? Do you just combine the two however you want?

What is Concurrent Training?

Concurrent training is the combination of both aerobic and resistance exercises within the same training session. Aerobic and resistance exercise impacts your body differently, so it follows that they each cause adaptations via different mechanisms.

How should I order my aerobic and resistance workouts?

In practice, aerobic/interval and resistance training don’t seem to interfere with each others’ adaptations all that much. But, understanding a few specifics about concurrent training will allow you to make good decisions about your exercise program.

The type of aerobic training determines how it interacts with resistance exercise adaptations. While strength and hypertrophy gains could be diminished by adding run training to a resistance program, cycling does not have the same effect.

Why? Researchers aren’t exactly sure. But it may have to do with two factors:

  • Cycling ergonomics are more similar to traditional lower-body resistance exercises
  • Eccentric muscle contractions in running result in muscle damage, while the concentric contractions in cycling do not (to the same extent).

The modality of aerobic exercise (running versus cycling) is important to understanding the effect of concurrent training, but so are frequency and duration. In some cases the more aerobic training you add to your program, the more you may impact muscular adaptation. So pair your training programs correctly; a running program in conjunction with an upper-body lifting exercise may benefit overall, but a running/leg press workout every day could interfere with one another.

And if you’re doing both aerobic and resistance exercise in the same session at the gym, or even on the same day, you’ll want to consider the order in which you do the exercises. It’s basically a matter of prioritization.

If your priority is on building aerobic fitness and performing well in a running race, do your aerobic exercise first in a session, followed by resistance exercise.

On the other hand, if your priority is building strength and muscle, you’ll want to do resistance exercise followed by aerobic.

However, the order probably doesn’t matter if you’re untrained.

The takeaway: if you’re untrained and haven’t set distinct fitness goals yet, don’t worry yet about the order of aerobic or resistance training. Do both and start exercising your way to health!

How do you develop a Concurrent Training program that’s right for you? 

If you’re just going to the gym to stay healthy, the benefit of gaining both aerobic and muscular fitness is well worth it.

To get the most benefit from your hard work at the gym, make sure to use these tips:

  • If your priority is muscle strength and growth, choose aerobic exercise like cycling rather than running to complement your lifting routine.
  • Consume enough protein and carbohydrates to stimulate muscle growth and recovery after workouts
  • If you alternate aerobic and resistance sessions, maximize recovery time between sessions (separate them by at least 6 hours)

Chances are that concurrent training is right for you, so go get started!

A Well-Rounded Exercise Program

As people continue to struggle with obesity and functional fitness as they age, exercise is more important than ever. It is vital to combine diet and exercise to not only lose weight but have a favorable impact on body composition and your lifespan.

Furthermore, it is important to have a well-rounded exercise routine that touches on all types of fitness. Aerobic exercise is effective at maintaining an elevated heart rate and losing fat-free mass. On the other hand, resistance training helps to build lean muscle mass. You can combine the two, with concurrent training, or jump into an explosive HIIT workout when you don’t have much time or need a motivation boost.

With this insight, you will be better equipped to understand why exercise is important for your health (a great motivator), how different types of exercise interact, and which ones are best suited for your needs.

Can Knowing Your Somatotype Help You Change Your Body Composition?

By Body Composition, Fitness

Are you one of those people who exercises regularly, but can’t understand why you don’t look like that person next to you at the gym? Do you get frustrated that your friend seems to be able to eat just about anything and never looks like they gain an ounce? Or how about those lucky individuals who have an outstanding athletic physique without even trying.

We are often quick to attribute these differences to the mysteries of different body shapes or somatotypes but rarely go beyond the basic body classifications to explore how our body types differ. What we should instead focus on are factors we can control instead of our genetics. How about we instead study how each different body types responds to factors like diet and exercise, and how we can work with our body type to effectively change or optimize our body composition.

Let’s examine each different somatotypes, see how you can use an understanding of your genetic predisposition to make better decisions to reach your specific body composition goal.

The Three Somatotypes

A somatotype is defined as a “quantitative overall appraisal of the present shape and composition of the human body.” Classifying different body types based on physique provides three generalized divisions of body typesendomorph, mesomorph, and ectomorph. As with anything, it’s rare for someone to fall entirely into one somatotype. You might show a combination of qualities from two somatotypes, such as an ectomorph-endomorph hybrid or an endomorph-ectomorph.

There are countless articles about how having a general idea of where you fit on the somatotype scale can help give you the knowledge you need to make informed decisions in your quest to change your body composition. However, before we examine these claims more closely, let’s take a quick look at the general structures of the 3 somatotypes:

The Shapes

Ectomorphs

That super skinny friend of yours that often gets called a “stick” falls primarily into the somatotype category of an ectomorph. Naturally lean with a tendency towards long limbs, ectomorphs typically possess that slender look no matter what type of diet they consume. A lot of endurance runners and swimmers are ectomorphs. Although ectomorphs may have a decent amount of muscle, due to their long limb-length, they may appear visually to have less muscle development. Similarly, body fat also seems to get hidden by their long, slender figure – meaning ectomorphs seem to get away with a few extra pounds of fat. Because of this, if ectomorphs aren’t taking care of their health, they can become  skinny fat.

Mesomorphs

Mesomorphs are the natural athletes out of the three somatotypes. They are the lucky few, that can achieve a muscular physique without really trying. The physiology of a mesomorph tends to include narrow hips, wide back, and larger frame that contributes to an often muscular appearance. Many professional fighters, wide receivers, and basketball players fall are mesomorphs.

Endomorphs

Endomorphs are the larger structured somatotypes with both wide hips and shoulders but shorter arms and legs. This type of body shape is great for activities that require a lot of strength. When you think of endomorphs, think of rugby props, strength athletes, and powerlifters. Endomorph body-types are even considered to be a contributing factor in race performance in Ironman athletes.

The Composition

Recall the definition of somatotypes as having both a shape and composition component. While your shape may be set from the start, your body composition is not set in stone. So what are the general body compositions for these different somatotypes?

Ectomorphs look lean and often they do tend to get placed into the category of endurance athletes. People with these body types seem to struggle with gaining weight and altering their body composition through lean muscle mass gain. Their efforts in the gym may seem to have little effect visually, even causing frustration when trying to initiate a change.

Mesomorphs, on the other hand, have a larger frame that lends to the appearance of a body composition with a high percentage of lean muscle mass and a lower body fat percentage. The result is a more athletic, muscular look.

Endomorphs tend to have shorter, rounder frames, with the appearance of a large amount of both muscle and fat mass. However, due to their stockier features, body fat stored by these individuals tend to be more readily noticeable compared to the other body structures.

Now that we have a better idea of what these three somatotypes look like, let’s see what this really means for your body composition goals and whether or not you can make a difference despite your genetics.

Nature vs. Nurture

Considering somatotypes and body composition often leads to the question: Is our body type predetermined by our genetics or can you impact the way your body looks with my lifestyle choices? Numerous studies have investigated the hereditary implications of body composition and the effect of genetics versus environmental factors. Let’s take a look at what they’ve found.

We know that we inherit our genes from our parents. Studies do show a genetic connection between parents and children (nature)-– also reflected in similarities amongst siblings– with the maternal genes having a more significant impact in many cases.

So somatotype is hereditary, but external factors have an effect as well.

Lifestyle choices, like diet and exercise, both affect your overall body composition and can contribute to that slender or stocky look. There’s certainly a link between diet and body composition, where a diet (or lack thereof) can either promote or hinder your health goals. Similarly, your appearance will also greatly depend on the type of training you engage in and whether your goal is to build strength, size, or muscular endurance.

What does this tell us?

In a nutshell, while your body shape and size may be somewhat set in stone, your body composition is not.

Breaking Out of the Mold

It’s important to remember that somatotypes describe different body types in order to provide general guidelines for health and fitness. Remember, somatotypes are defined as a “quantitative overall appraisal of the present shape and composition of the human body.” While you may be genetically predisposed to have a certain body structure, your lifestyle can impact your body composition and cause your somatotype to change.

Let’s look at the example of the ectomorph. Ectomorphs have been implicated to be better at aerobic exercises like running or swimming. Intuitively, this makes sense. Having longer limbs helps increase stride length and a lower overall body fat percentage helps reduce resistance caused by excess body fat. Races have actually introduced the concept of “Clydesdale or Athena” runners since lower weight has been attributed to better running performance in marathons. Mesomorphs and endomorphs, on the other hand, may possess shorter limb length that may allow them to engage in more power and strength building activities, contributing to the image of these body types having greater musculature.

Now, let’s say an ectomorph wanted to become a powerlifter and achieve a larger figure, breaking out of his ectomorph shell.  Would he be condemned to the life of an ectomorph or can he still achieve one of the other body types?

Think about it this way: If an ectomorph ate cheeseburgers and milkshakes all day and lifted weights like a powerlifter, would he always look like an ectomorph or would his body shape eventually become more of a mesomorph type shape, or even an endomorph type shape?

The point is, just because you fall into a certain somatotype, doesn’t always mean you’re stuck in what your body type ‘should’ excel at. Take volleyball for example: a study looking at somatotype in elite volleyball players found that players in various positions had different somatotypes.

Furthermore, your somatotype doesn’t limit what you can do to change your body. A study conducted on weightlifters found that there were athletes from all body types scattered throughout the participants. So even if your genetics play a large role in predicting your body frame, you can still engage in the types of activities you enjoy to ensure your genetics don’t decide your overall body composition.

How Can This Information Help You Change Your Body Composition?

Genetics can prevent you from changing your body structure, but your shape doesn’t tell you what body composition you have to have. Knowing your somatotype can allow you to work with your body to make adjustments to factors you can control, rather than working against it and being constantly frustrated by your lack of success.

For example, many NBA athletes start their career with an ectomorphic frame due to their long torso and limb lengths in conjunction with their slender figure. With years of full-body strength training and conditioning, they shift their somatotype to a hybrid ectomorph-mesomorphic body type that makes them ideal bodies for the sport of basketball.

So remember, your body shape can change. Which brings up another important point – monitoring those changes in the long run. As a mesomorph, you may be happy to show off your naturally athletic-looking body at the pool, or as an ectomorph, you may enjoy the way dresses drape your long, slender frame.

But beware: like anyone else, you have to maintain a healthy body composition through healthy lifestyle choices. Despite your current body shape or health, you’re still at risk of sarcopenia (age-related muscle degradation) or fat accumulation due to unhealthy lifestyle choices like a poor diet or lack of physical activity.

Relying on the perks of your somatotype isn’t a long-term strategy for health and longevity. Continued resistance training, even simply once or twice a week at moderate intensity, can help prevent muscle loss related to aging and maintain an optimal body composition.

The More You Know

Understanding your somatotype can be helpful if you’re someone who has struggled to find a form of exercise that complements your physiology. You may be able to develop an exercise routine that feels more natural and easier to commit to if you consider your body structure. However, don’t let your current body structure impact your decision to do something you’re interested in, just because it’s not a perfect fit. While certain somatotypes may correlate with athleticism, there’s no specific gene that determines whether or not someone will become an elite athlete.

In conclusion, having a general idea of your somatotype and understanding your body structure can help you make the changes required to alter your body composition, However, the most effective way to achieve your body composition goals is still testing your body composition and tracking your changes.

There is no one-size-fits-all solution when it comes to body composition. We come in all shapes and sizes, and discovering what works best with your somatotype will help you take the necessary steps to achieve your body composition goals.

***

Nikita Ross is a Precision Nutrition certified wellness coach and professional fitness writer. She believes that lifting both barbells and books is the key to self-improvement. Please consult to your doctor before you start any type of exercises, and get proper training program from certified personal trainers or coaches.

Editor’s Note: This post was updated on May 28, 2021for general public reference. It was originally published on November 21, 2018 in inbodyusa.com.

Your Body and You: A Guide to Body Water

By Body Composition

When it comes to your health, most of the focus is on body fat and muscle mass, which is important. But not to be overlooked is your body water. Water is a major part of your body: they make up 79% of your muscles , 73% of your brain, and even 31% of your bones. Overall your body weight can be 45-65% water.

Your body water percentage is influenced by your age, gender, and fitness level. Even though you are made up of mostly of water, how much do you really know about the effect this major element has on your body?

Body Water, Defined

Like discussed above, your body water can be found inside not only in your blood, but in your muscle tissue, your body fat, your organs, and inside every cell in your body.  To account for all this, your total body water (TBW) can be divided into two basic groups.

  • Extracellular Water (ECW)

Extracellular water is the water located outside your cells.  The water in your blood falls into this category. Roughly 1/3 of your fluid is attributed to ECW, and this water is found in your interstitial fluid, transcellular fluid, and blood plasma.

Extracellular water is important because it helps control the movement of electrolytes, allows oxygen delivery to the cells, and clears waste from metabolic processes.

  • Intracellular Water (ICW)

Intracellular water is the water located inside your cells.  It comprises 70% of the cytosol, which is a mix of water and other dissolved elements.  In healthy people, it makes up the other 2/3 of the water inside your body.

The intracellular water is the location of important cellular processes, and although it has many functions, a very important one is that it allows molecules to be transported to the different organelles inside the cell.  Essentially, the Intracellular water picks up where the Extracellular water left off by continuing the pathway for fuel to be transported to the cells.

Balance is the Key

When it comes to your body water and you, the most important thing to strive for is balance. Your Intracellular fluid:Extracellular fluid must remain at the same levels with respect to each other.

A healthy fluid distribution has been estimated at a 3:2 ratio of ICW:ECW. If your body water falls out of balance, this can signal changes in your health and body composition. Whether these changes are positive or negative depend on which type of water becomes unbalanced.

Increased  ICW

Having slightly more ICW than normal isn’t necessarily a bad thing. In fact, it can signal positive changes in your body composition. 

Increased muscle mass is due to the enlargement of the number and size of muscle cells.  When the muscle cells become enlarged, they are able to take in (and require) more ICW in order to power their cellular functions.  Research has shown that resistance exercise can lead to increased intracellular water in humans. Increased ICW as a result of exercise is a sign of increased Lean Body Mass, which is a very good thing and has positive health benefits, including:

  • Increased Energy Use

Your Basal Metabolic Rate (BMR) is the amount of calories you burn at rest.  It is the baseline for the calories you need every day in order for your body to operate and maintain daily functions.  With increased Lean Body Mass, your energy needs will increase as a result of a higher BMR. If you don’t increase your daily calorie intake, but increase your Lean Body Mass/BMR, you will create a calorie deficit – which can lead to body fat loss.

  • Increased Strength

Your Lean Body Mass is sometimes described as your fat free mass.  Your Lean Body Mass accounts for all your weight due to water, muscle mass, bone, and protein.  One of the easiest ways to influence the amount of Lean Body Mass you have is to increase your muscle mass.  Generally, increased muscle mass leads to increased strength.

  • Increased Immune System

Increased Lean Body Mass through exercise has been associated with increased immune system functionality.  This will help your body fight off illnesses more easily.

Excess ECW

If your ECW increases in relation to your ICW, this is something you should take special note of.  Unlike ICW, you do not want to see your ECW increasing beyond normal levels. Excess ECW can indicate health risks, including:

  • Inflammation

During inflammation, the body sends additional blood flow to the damaged area.  This causes an increase of extracellular water in a particular area. Inflammation occurs when part of the body gets damaged or bruised and is a normal bodily response to injury.  This is called acute inflammation, and is a temporary increase in ECW.

Chronic inflammation, however, is something more serious that isn’t always readily detected. It is marked by long-term swelling/ECW increases caused by cellular stress and dysfunction. Chronic inflammation can lead to serious diseases if allowed to persist over time, including renal failure, cancer, and heart disease. including renal failure, cancer, and heart disease.

  • Renal Disease (Kidney Failure)

One of the kidneys’ major functions is to filter your blood and remove toxins produce in the body.  One important substance that the kidneys filter out is sodium, an element that is found in salt.

When your diet includes more sodium than your kidneys can filter out, which occurs in people who have failing kidneys, your extracellular water levels will increase.  In some cases, this increased extracellular water shows in visible swelling throughout the body and is a condition known as edema. Edema can cause additional strain on the body by contributing to weight gain, blood pressure, and other complications.

  • Unhealthy Fat Mass Levels (Obesity)

Obese individuals are characterized by having too much body fat, which among other things, leads to body water disruption due to excess ECW.  This is because excess visceral fat can trigger production hormones that can lead to the disruption of a bodily system called RAAS.  This excess ECW causes stress in the body due to its effects on the internal organs, which can exacerbate obesity and cause a dangerous cyclic effect.

Determining Balance

Since it’s so important to keep an eye on your fluid balance, you’ll need to know how you can determine yours. There are two major methods to measure and determine your fluid levels.  These are the dilution method and the BIA method.

The dilution method involves drinking a known dose of heavy water (deuterium oxide) and allowing it to distribute around the body.  Once the water has had time to settle, the amount of heavy water is compared with the amount of normal water. The proportion will reflect the amount of total body water.  To determine ECW, sodium bromide is used instead of heavy water.

The dilution method is recognized as a gold standard for measuring total body water; however, these tests would need to be done at a hospital under the guidance of a trained physician.  This test takes several hours to complete during which any fluid of any type going in or out of the body has to be carefully recorded.

For these reasons, you’re unlikely to have this test performed unless your doctor needs to know your total body water with absolute certainty because of a serious health complication.

The second, more accessible method to determine body water content is bioelectrical impedance analysis (BIA).  For most people who do not have serious medical issues, this method is much more practical than the dilution method.

A small electrical current is applied to the body, and the opposition that current experiences (impedance), is measured.  From that impedance result, a BIA device can report your body water percentage. Advanced BIA devices are able to reflect the difference in Intracellular and Extracellular water as well, which can reveal the ICW:ECW balance.

Bringing Yourself Back Into Balance

Maintaining a balanced ratio of approximately 3:2 is ideal for optimal health.  If you find that this ratio is beginning to fall out of balance, there are some things you can do.  Fortunately, these tips aren’t anything you already haven’t heard before: maintaining a healthy diet, staying hydrated by drinking enough water, and exercising regularly.

Avoiding excess ECW is ideal.  From a dietary standpoint, one simple change that can work to reduce excess ECW is reducing the amount of sodium (salt) in your diet. Sodium is located primarily in your ECW, and when excess sodium is introduced into the body, the body’s natural response is to draw water out of your cells at the expense of your ICW.  Reducing your sodium intake has a number of positive health benefits, so this tip can be considered simply a best practice for optimal health in addition to being a tactic for reducing high ECW.

On the flip side, increasing your ICW can be achieved by increasing your Lean Body Mass/increasing muscle mass through exercising.  As the muscle cells increase in size, they will require more water to maintain their function. Exercise has the additional benefit of combating obesity, and as fat mass is reduced, ECW increases due to obesity will decline over time.

As you can see, body water can be an important indicator of your overall health.  Without a healthy ICW:ECW ratio your body will begin to have problems.

The best thing you can do for proper body water balance is to maintain a healthy lifestyle. If you can achieve a healthy lifestyle, your body water will fall into balance naturally.  The first step would be to find out where your body water levels are today, so you can start planning for a healthier life now.

 

How to Stop Overeating Once and For All

By Body Composition, Diet, Nutrition

At dinner last night, one slice of chocolate cake somehow turned into half a cake…

Today, you stuffed yourself with five buttery rolls at the office potluck. That wouldn’t have been so bad if you didn’t eat three plates of food.

We’ve all been there, and we all know how those post-binge episodes go — from guilt to frustration to promising yourself that it’s going to be the last time you stuff yourself with unhealthy food! (Not to mention the dreaded food coma…)

You thought you’ve overcome overeating for good, yet it turns out that you’re back to square one when it comes to getting your cravings under control.

Why is it so hard to break out of this cycle?

Is there a way to kick this ceaseless habit for good?

Does it have to do with self-control and having an endless supply of willpower?

Or is there some otherworldly, mystical force that you need to tap on in order to break free from binge-eating episodes?

To help us figure out if it’s sorcery or science, this article is divided into two parts.

First, you’ll learn about the possible reasons why it’s so tempting to finish a large box of pizza all by yourself. Second, you’ll discover how to put an end to compulsive overeating and finally take your body composition goals seriously.

With obesity affecting more than one-third of the U.S. adult population, getting out of the binge-diet cycle remains a puzzle to many.

To have a greater understanding as to how overeating happens, it makes sense to initially get a grasp of how our appetite, or the desire to eat, works.

Understanding Overeating

How Appetite Works

It’s worth noting that appetite is a tad different from hunger. Think of hunger as a need to eat while appetite is more like a desire to snack mindlessly even after you had lunch.

At a fundamental level, hunger and appetite are both influenced by a network of pathways involving the neuroendocrine system. Appetite regulation, satiety, and energy balance involve the following:

The smart folks over at ASAPscience simplified the science of hunger and cravings in a two-minute video below. It talks about the body’s hunger-regulation system and why we’re tempted to go for second helpings.

In essence, high-calorie foods rich in fat and sugar were extremely desirable to our hunter-gatherer ancestors for survival because they were scarce. However, this instinct for fatty and sugary meals still remain even though these types of food are now available 24/7.

Eventually, the continual intake of high-calorie fat and sugar-laden food overrides the human body’s natural hunger regulation system, leading to habitual overeating.

In a nutshell, the more you gorge on food laced with too much fat and sugar, the more likely that you’re going to get addicted to it.

On Homeostatic and Hedonic Hunger

portion control

Another way of understanding appetite is to look at it from the perspective of eating for two main reasons— as a response to hunger (homeostatic) and for pleasure (hedonic).

In a review of studies differentiating the two, the researchers described that homeostatic hunger is the result of the prolonged absence of energy intake or the food itself, while hedonic hunger is strongly influenced by the availability and palatability of food in your environment. Furthermore, a 2016 study found out that intense feelings of pleasure derived from palatable foods (hedonic hunger) predicts the likelihood of losing control when eating among female college freshmen.

 

Why You Really Overeat and Binge

indulgence in ice cream

At first thought, it seems like putting an end to overeating is simply a matter of telling your brain to stop consuming food. Yet we all know that it’s not that easy, right?

Your brain may be the main driving force behind your cravings, but it’s not acting alone.

The frequency and the amount of food you finish is also influenced by a complex interaction of the following factors:

1. Genetic Influences

Your gut, hormones, and brain may be working together to control appetite, but your genetic makeup also has a say as if you’re the type to overindulge.

For instance, a London study on children revealed that genetic influences on weight and abdominal fat accumulation are high in children who are born since the onset of the childhood obesity epidemic. Furthermore, there is evidence indicating that specific genes can possibly impact your likelihood of frequent LOC (loss of control) eating episodes.

2. Environmental Influences

Environmental factors also contribute to the rise of food cravings. These factors include the atmosphere of the room and the presence/absence of distractions during meals. This also applies to social and cultural cues. Remember a time when you overindulged because everyone seems to be in the mood for feasting?

Finally, child feeding practices by parents during the first years of childhood tend to impact one’s eating behavior later in life. A review of studies on the parental influence on eating behavior revealed the following interesting findings:

  • Restrictive feeding practices by caregivers are associated with overeating and poorer self-regulation of food intake among preschool-age children.
  • Restricting access to palatable snacks and desserts like cookies in children may be counterproductive because it will eventually promote their intake.
  • Higher levels of parental control and pressure to eat healthily were associated with lower fruit and vegetable intakes and higher intake of dietary fat among young girls.

3. Psychological Influences

Did you know that not sleeping enough or getting stressed over finals week could lead to you reaching out for the cookie jar 5x a day when we’re not actually hungry?

It turns out that your appetite and hunger regulation is also influenced by these behavioral factors.

In fact, evidence from longitudinal studies suggests that chronic life stress may be linked to weight gain, with a greater effect seen in men.  Furthermore, your work schedule can also impact how much you eat. A study revealed that shift workers may be particularly vulnerable to the tendency to eat the largest meals in the evening as they remain awake longer during the times when you naturally feel hungry for high calorie sweet, salty, and starchy foods.

 

Your Action Plan to Curb Overeating (Without Depriving Yourself)

Whether it’s stress or social pressure that’s driving you to overeat, we all know how frustrating it is to realize that you gave in to your cravings (again!). The good news is you can do something the next time you’re about to open your third bag of chips.

For a start, consider the following easy yet sustainable solutions to put an end to overeating, minus the horrible feeling of self-deprivation.

1. Learn to recognize the difference between homeostatic and hedonistic hunger.

As mentioned earlier, you can eat because you’re hungry but you can also eat for pleasure.

It can be a struggle to figure out the difference between the two because it requires you to be more mindful and listen to your body. As a result, misinterpreting these signals can lead to overeating.

While these cues will differ from one person to another (as well as depend on the time of day), you can learn to recognize your motivation for eating and adjust your eating habits by asking the following question:

Am I eating as a response to a physical cue (e.g. growling stomach, headache) or am I eating because I am feeling stressed, anxious, or overjoyed?

Whether you’re stressed about deadlines or bummed about your annual employee performance review, talking to a friend or journaling may be more helpful than emotional eating.

2. Be mindful of your “food environment”.

food environment

Your “food environment” may be divided into two parts:

  1. Your social interaction and the overall atmosphere of your environment
  2. How your food is served

To help promote a positive food environment, consider the following best practices:

  • Keep an eye on your portions.

Before eating two bagels in one sitting, savor one piece instead. Furthermore, you might also want to use smaller plates and bowls to avoid taking in too much when you’re in a buffet. Research reveals that larger plates can make a serving of food appear smaller, and smaller plates can lead people to misjudge the same serving size of food as being significantly larger.

  • Press pause (whether on your TV or phone) until you’re done with lunch or dinner.

When you’re distracted, you tend to eat mindlessly. As a result, you’ll be less sensitive to satiety cues because your brain is paying more attention to other things.

  • Be like the Okinawans in Japan by only eating until your 80 percent full.

Known for having one of the longest life expectancies in the world,  Okinawans call this practice as “Hara Hachi Bu”, and this can be a useful guideline to help stop overeating.

  • Eat slowly.

A Greek study found that eating at a slower pace tended to increased fullness and reduce hungry feelings in overweight and obese participants.

Surround yourself with people who are taking steps to eat more mindfully.

Whether it’s your co-worker who’s into calorie counting or your brother who’s a geek when it comes to meal planning, being around others who eat mindfully will help reinforce your own good habits and perhaps teach you some new tips and tricks as well.

3. Make tiny adjustments to your daily habits that may impact your eating behavior.

Curbing overeating is not about making massive changes in your life but rather making tiny adjustments to your daily habits.

Going on a “healthy” detox diet or juice cleanse right after binging may help your weight loss temporarily, but it’s not sustainable in the long run. Instead, you’ll likely end up going through the same cycle of overeating, feeling guilty, restricting yourself, and giving in again to cravings. That’s why making smaller healthy changes is more effective for changing your lifestyle permanently.

These are three examples of tiny adjustments you can make to your daily habits.

  • Stop skimping on sleep, pronto.

As mentioned earlier, lack of sleep can lead to eating more and sabotage your weight loss efforts. Are you struggling to get a good night’s sleep? Establishing a consistent bedtime routine may be a good start. An irregular bedtime schedule is linked to poor sleep quality.

  • Eat breakfast when you can.

There may be some exceptions (like when you’re doing intermittent fasting), but skipping your morning meal usually leads to overeating because you end up feeling famished throughout the day. On the other hand, a healthy high protein breakfast has been shown to stabilize blood sugar levels, increased satiety, and reduced hunger cues.

  • Do whole food swaps instead of cutting out certain foods entirely or adopting crazy diets.

Remember how high-calorie food that’s loaded with salt and sugar tends to encourage overeating? That why food choices are important. By opting for whole food alternatives, you will eventually reduce your cravings for unhealthy sweets and salty treats.

Don’t just adopt the latest trending diet and toss all the junk food residing in your fridge right away. A good rule of thumb is to have at least 80 percent of your daily meals from whole food sources and devote the rest to the not-so-healthy food items. And when the craving hits reach for a healthy snack like fruit or nuts. By doing so, you won’t feel deprived, which in turn can lead to another binging episode.

Special Note on Food Addiction

A lot of people can relate to overeating (because it happens to the best of us too!) but food addiction is a different story. If you feel that your binging episodes has turned into more than just a bad habit that you can change, seek professional help.

The Takeaway: Mindful Eating Can Go a Long Way for Your Body Composition

mindfulness with food

If you’ve noticed, the majority of the points discussed in the action plan has something to do with mindfulness.

Recognizing if you’re truly hungry or simply eating as a response to stress or other environmental factors requires constant practice and a heightened sense of self-awareness.

The idea of mindfulness may sound like a meditation fad or just another self-help woo-woo. However, mindfulness-based interventions in addressing compulsive overeating and other obesity-related eating behaviors have gained popularity recently. In fact, a systematic review of related studies on the topic supports its efficacy.

Overall, beating overeating and taking your body composition seriously begins with this single step—uncover the reason behind your binging habit. Keep in mind that you need to know the “why” first before diving into the “how” of putting an end to your tendency to overeat. Once you figure out your “why” the benefits are tremendous: a healthier relationship with food, weight loss, and a better sense of control. Good luck and here’s to a happier more mindful life.

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Kyjean Tomboc is a nurse turned freelance healthcare copywriter and UX researcher.  After experimenting with going paleo and vegetarian, she realized that it all boils down to eating real food.

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