eazy
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- Aug 30, 2022
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Your body breaks down every carb you ingest into glucose, also known as blood sugar because it travels through your bloodstream. Glucose is a simple sugar — more precisely, a monosaccharide (mono meaning single and saccharide meaning sugar). To store glucose, your body combines the molecules into a polysaccharide (poly meaning several) called glycogen, which gets stored in your liver and muscles.
Insulin (a hormone produced by your pancreas) rises when blood glucose rises; it lowers blood sugar by telling various cells to absorb it — for storage in your liver or muscles or for immediate use — and your liver to stop producing new glucose.
The ability of cells to absorb glucose in response to insulin is called insulin sensitivity, and low insulin sensitivity is called insulin resistance. The more sensitive you are to insulin, the less resistant, and vice versa.
It is also possible to produce too little insulin. If you have type 1 diabetes or are in the late stages of type 2 diabetes, in which case you suffer from insulin deficiency, glucose can’t be removed efficiently from your blood, causing hyperglycemia (overly high glucose levels).
Insulin resistance paves the way for type 2 diabetes, which can cause your blood sugar levels to consistently remain too high for too long. If not managed, these high blood sugar levels can lead to serious health complications — mostly cardiovascular diseases, Cancer, Alzheimer’s, and Parkinson’s as well.
How are blood glucose levels assessed?
Glycemic control can be tested several ways, each with its own cutoff values indicating impaired glucose regulation. Of these tests, fasting blood glucose is the most common, followed by hemoglobin A1C (HbA1c).
Why insulin sensitivity matters:
In a bodybuilding context insulin sensitivity determines whether the food you eat is used to build muscle or stored as body fat. Insulin itself is not a bad hormone. It is a storage hormone that helps move nutrients from the bloodstream into cells. When you eat carbohydrates or protein insulin rises and signals the body to store those nutrients. The difference between gaining muscle or gaining fat depends on how sensitive your cells are to insulin.
When insulin sensitivity is high muscle cells respond efficiently to insulin. Glucose and amino acids are
rapidly pulled into muscle tissue where they are used to refill glycogen stores support recovery and
drive growth. Because the cells respond well only a small amount of insulin is needed to get this effect.
The result is fuller muscles stronger pumps faster recovery and the ability to eat more calories with
minimal fat gain. This is why lean well trained bodybuilders often handle high carbohydrate intakes
while staying relatively lean.
When insulin sensitivity is poor the opposite happens. Muscle cells do not respond properly so the body
releases more insulin to compensate. When insulin stays elevated nutrients are more likely to be
pushed into fat cells instead of muscle. In practice this looks like gaining fat quickly during a bulk
struggling to look full despite eating enough carbohydrates and feeling sluggish during training. Food is
consumed but not efficiently used for muscle growth.
Insulin sensitivity plays a major role in nutrient partitioning which refers to where calories end up in the body. With good insulin sensitivity carbohydrates are directed toward muscle glycogen and protein is used effectively for repair and growth. With poor sensitivity those same calories are more likely to be
stored as fat even if total calorie intake is the same. This explains why two people can eat identical
diets and see completely different physiques.
Bodybuilders often improve insulin sensitivity without explicitly talking about it. Resistance training
increases insulin sensitivity by making muscle cells more responsive to nutrients. Carrying more lean
muscle mass improves glucose uptake. Staying lean maintaining daily movement and timing
carbohydrates around training all enhance this process. Even advanced enhancement protocols rely
heavily on insulin sensitivity because without it additional nutrients and hormones simply increase fat
gain and stress the body.
During a mass gaining phase high insulin sensitivity allows more muscle to be built per calorie
consumed. Fat gain is slower and easier to control. When sensitivity is low bulks become sloppy and
excess body fat accumulates quickly. During a cutting phase good insulin sensitivity allows
carbohydrates to continue fueling workouts and filling muscles even in a calorie deficit. Poor sensitivity
makes dieting harder because carbohydrates are more likely to be stored as fat despite reduced intake.
Ultimately insulin sensitivity determines how efficiently the body uses food. Training provides the
stimulus and nutrition provides the raw materials but insulin sensitivity controls delivery. Improving it
allows bodybuilders to grow more muscle stay leaner train harder and recover faster using the same
calories others struggle to manage.
How to improve it:
The fastest ways bodybuilders improve insulin sensitivity all revolve around making muscle more demanding and fat tissue less competitive for nutrients.
Heavy resistance training is the most powerful driver. Hard training creates an immediate demand for glucose inside muscle cells and increases the number and efficiency of glucose transporters. This effect is strongest when large muscle groups are trained with sufficient volume and intensity. The harder and more consistently muscles are trained the more insulin sensitive they become because the body learns that incoming nutrients are needed for repair and glycogen replenishment.
Staying relatively lean is another major factor. As body fat increases insulin sensitivity almost always declines. Fat tissue releases inflammatory signals that interfere with insulin signaling. When bodybuilders keep body fat in check even during a bulk nutrients are far more likely to be directed toward muscle. This is why long uncontrolled bulks often lead to diminishing returns despite higher calorie intake.
Daily movement outside the gym plays a bigger role than most people realize. Walking and low intensity activity improve insulin sensitivity without adding recovery stress. Many bodybuilders rely on steps especially after meals to help shuttle glucose into muscle and keep insulin levels lower overall. This improves nutrient partitioning without interfering with strength or growth.
Carbohydrate timing is a fast acting lever. Placing most carbohydrates around training when muscles are already insulin sensitive ensures those carbs are stored as glycogen rather than fat. Post workout meals in particular take advantage of muscles being primed to absorb glucose with less insulin required. This allows higher carb intake without the usual fat gain.
Adequate sleep and stress control matter more than supplements. Poor sleep and chronic stress raise cortisol which directly reduces insulin sensitivity. Bodybuilders who prioritize sleep often see better pumps fuller muscles and easier fat control even with no diet changes. Recovery is not just about muscle repair but hormonal balance.
Cardio when used strategically can rapidly improve insulin sensitivity. Short sessions of moderate intensity cardio or brief high intensity work improve glucose uptake and mitochondrial function. When kept controlled it enhances nutrient use without compromising muscle mass.
Building more muscle itself improves insulin sensitivity over time. Muscle is the largest sink for glucose in the body. The more lean mass someone carries the more room there is for carbohydrates to go somewhere productive. This is why experienced lifters often handle carbs far better than beginners.
In simple terms the fastest improvements come from training hard staying lean moving daily timing carbs intelligently sleeping well and avoiding prolonged overeating. Insulin sensitivity improves when the body believes nutrients are needed for performance and survival not long term storage.
What can I take to improve insulin sensitivity:
Several drugs and peptides are known to improve insulin sensitivity by increasing how efficiently muscle cells absorb and use glucose. Bodybuilders tend to value these not because they directly build muscle but because they improve nutrient partitioning so food is more likely to support performance and recovery instead of fat gain.
Metformin is one of the most well known insulin sensitizers. It works primarily by reducing glucose production in the liver and improving peripheral insulin sensitivity. In a bodybuilding context this often results in better blood sugar control and less fat gain during higher calorie phases. The downside is that it can blunt appetite and in some people slightly reduce training performance if calories are not adjusted. It is not anabolic on its own but it can make bulks cleaner when diet control slips.
GLP one receptor agonists such as semaglutide tirzepatide and retatrutide improve insulin sensitivity indirectly by improving blood sugar regulation slowing gastric emptying and reducing excessive caloric intake. In physique sports they are more commonly used during cuts or recomp phases rather than aggressive bulks. Their primary benefit is improved glucose control and easier adherence to diet rather than direct muscle building effects.
Berberine is often compared to metformin due to its similar mechanism of activating AMPK and improving insulin signaling. While technically a supplement it behaves more like a mild pharmaceutical. Bodybuilders use it to blunt post meal glucose spikes and improve carb handling especially when diet quality is not perfect. Its effects are weaker than prescription drugs but noticeable over time.
MOTS c is a mitochondrial peptide that improves insulin sensitivity by activating AMPK and enhancing glucose uptake at the cellular level. Its appeal in bodybuilding comes from improving metabolic efficiency rather than suppressing appetite. It supports better use of carbohydrates and fats and is often discussed in the context of recomposition or health focused phases.
IGF one related peptides can influence insulin sensitivity indirectly by increasing muscle glucose uptake but they also carry a higher risk profile and are tightly tied to growth pathways. Their effects on insulin sensitivity depend heavily on diet body composition and overall metabolic health rather than acting as clean insulin sensitizers.
The most important thing to understand is that drugs and peptides only amplify existing habits. When insulin sensitivity is already poor from excessive fat gain poor sleep and uncontrolled eating these compounds act as damage control not solutions. When training volume body composition and recovery are already dialed in they can meaningfully improve how nutrients are used.
SOURCE
Insulin (a hormone produced by your pancreas) rises when blood glucose rises; it lowers blood sugar by telling various cells to absorb it — for storage in your liver or muscles or for immediate use — and your liver to stop producing new glucose.
The ability of cells to absorb glucose in response to insulin is called insulin sensitivity, and low insulin sensitivity is called insulin resistance. The more sensitive you are to insulin, the less resistant, and vice versa.
It is also possible to produce too little insulin. If you have type 1 diabetes or are in the late stages of type 2 diabetes, in which case you suffer from insulin deficiency, glucose can’t be removed efficiently from your blood, causing hyperglycemia (overly high glucose levels).
Insulin resistance paves the way for type 2 diabetes, which can cause your blood sugar levels to consistently remain too high for too long. If not managed, these high blood sugar levels can lead to serious health complications — mostly cardiovascular diseases, Cancer, Alzheimer’s, and Parkinson’s as well.
How are blood glucose levels assessed?
Glycemic control can be tested several ways, each with its own cutoff values indicating impaired glucose regulation. Of these tests, fasting blood glucose is the most common, followed by hemoglobin A1C (HbA1c).
Why insulin sensitivity matters:
In a bodybuilding context insulin sensitivity determines whether the food you eat is used to build muscle or stored as body fat. Insulin itself is not a bad hormone. It is a storage hormone that helps move nutrients from the bloodstream into cells. When you eat carbohydrates or protein insulin rises and signals the body to store those nutrients. The difference between gaining muscle or gaining fat depends on how sensitive your cells are to insulin.
When insulin sensitivity is high muscle cells respond efficiently to insulin. Glucose and amino acids are
rapidly pulled into muscle tissue where they are used to refill glycogen stores support recovery and
drive growth. Because the cells respond well only a small amount of insulin is needed to get this effect.
The result is fuller muscles stronger pumps faster recovery and the ability to eat more calories with
minimal fat gain. This is why lean well trained bodybuilders often handle high carbohydrate intakes
while staying relatively lean.
When insulin sensitivity is poor the opposite happens. Muscle cells do not respond properly so the body
releases more insulin to compensate. When insulin stays elevated nutrients are more likely to be
pushed into fat cells instead of muscle. In practice this looks like gaining fat quickly during a bulk
struggling to look full despite eating enough carbohydrates and feeling sluggish during training. Food is
consumed but not efficiently used for muscle growth.
Insulin sensitivity plays a major role in nutrient partitioning which refers to where calories end up in the body. With good insulin sensitivity carbohydrates are directed toward muscle glycogen and protein is used effectively for repair and growth. With poor sensitivity those same calories are more likely to be
stored as fat even if total calorie intake is the same. This explains why two people can eat identical
diets and see completely different physiques.
Bodybuilders often improve insulin sensitivity without explicitly talking about it. Resistance training
increases insulin sensitivity by making muscle cells more responsive to nutrients. Carrying more lean
muscle mass improves glucose uptake. Staying lean maintaining daily movement and timing
carbohydrates around training all enhance this process. Even advanced enhancement protocols rely
heavily on insulin sensitivity because without it additional nutrients and hormones simply increase fat
gain and stress the body.
During a mass gaining phase high insulin sensitivity allows more muscle to be built per calorie
consumed. Fat gain is slower and easier to control. When sensitivity is low bulks become sloppy and
excess body fat accumulates quickly. During a cutting phase good insulin sensitivity allows
carbohydrates to continue fueling workouts and filling muscles even in a calorie deficit. Poor sensitivity
makes dieting harder because carbohydrates are more likely to be stored as fat despite reduced intake.
Ultimately insulin sensitivity determines how efficiently the body uses food. Training provides the
stimulus and nutrition provides the raw materials but insulin sensitivity controls delivery. Improving it
allows bodybuilders to grow more muscle stay leaner train harder and recover faster using the same
calories others struggle to manage.
How to improve it:
The fastest ways bodybuilders improve insulin sensitivity all revolve around making muscle more demanding and fat tissue less competitive for nutrients.
Heavy resistance training is the most powerful driver. Hard training creates an immediate demand for glucose inside muscle cells and increases the number and efficiency of glucose transporters. This effect is strongest when large muscle groups are trained with sufficient volume and intensity. The harder and more consistently muscles are trained the more insulin sensitive they become because the body learns that incoming nutrients are needed for repair and glycogen replenishment.
Staying relatively lean is another major factor. As body fat increases insulin sensitivity almost always declines. Fat tissue releases inflammatory signals that interfere with insulin signaling. When bodybuilders keep body fat in check even during a bulk nutrients are far more likely to be directed toward muscle. This is why long uncontrolled bulks often lead to diminishing returns despite higher calorie intake.
Daily movement outside the gym plays a bigger role than most people realize. Walking and low intensity activity improve insulin sensitivity without adding recovery stress. Many bodybuilders rely on steps especially after meals to help shuttle glucose into muscle and keep insulin levels lower overall. This improves nutrient partitioning without interfering with strength or growth.
Carbohydrate timing is a fast acting lever. Placing most carbohydrates around training when muscles are already insulin sensitive ensures those carbs are stored as glycogen rather than fat. Post workout meals in particular take advantage of muscles being primed to absorb glucose with less insulin required. This allows higher carb intake without the usual fat gain.
Adequate sleep and stress control matter more than supplements. Poor sleep and chronic stress raise cortisol which directly reduces insulin sensitivity. Bodybuilders who prioritize sleep often see better pumps fuller muscles and easier fat control even with no diet changes. Recovery is not just about muscle repair but hormonal balance.
Cardio when used strategically can rapidly improve insulin sensitivity. Short sessions of moderate intensity cardio or brief high intensity work improve glucose uptake and mitochondrial function. When kept controlled it enhances nutrient use without compromising muscle mass.
Building more muscle itself improves insulin sensitivity over time. Muscle is the largest sink for glucose in the body. The more lean mass someone carries the more room there is for carbohydrates to go somewhere productive. This is why experienced lifters often handle carbs far better than beginners.
In simple terms the fastest improvements come from training hard staying lean moving daily timing carbs intelligently sleeping well and avoiding prolonged overeating. Insulin sensitivity improves when the body believes nutrients are needed for performance and survival not long term storage.
What can I take to improve insulin sensitivity:
Several drugs and peptides are known to improve insulin sensitivity by increasing how efficiently muscle cells absorb and use glucose. Bodybuilders tend to value these not because they directly build muscle but because they improve nutrient partitioning so food is more likely to support performance and recovery instead of fat gain.
Metformin is one of the most well known insulin sensitizers. It works primarily by reducing glucose production in the liver and improving peripheral insulin sensitivity. In a bodybuilding context this often results in better blood sugar control and less fat gain during higher calorie phases. The downside is that it can blunt appetite and in some people slightly reduce training performance if calories are not adjusted. It is not anabolic on its own but it can make bulks cleaner when diet control slips.
GLP one receptor agonists such as semaglutide tirzepatide and retatrutide improve insulin sensitivity indirectly by improving blood sugar regulation slowing gastric emptying and reducing excessive caloric intake. In physique sports they are more commonly used during cuts or recomp phases rather than aggressive bulks. Their primary benefit is improved glucose control and easier adherence to diet rather than direct muscle building effects.
Berberine is often compared to metformin due to its similar mechanism of activating AMPK and improving insulin signaling. While technically a supplement it behaves more like a mild pharmaceutical. Bodybuilders use it to blunt post meal glucose spikes and improve carb handling especially when diet quality is not perfect. Its effects are weaker than prescription drugs but noticeable over time.
MOTS c is a mitochondrial peptide that improves insulin sensitivity by activating AMPK and enhancing glucose uptake at the cellular level. Its appeal in bodybuilding comes from improving metabolic efficiency rather than suppressing appetite. It supports better use of carbohydrates and fats and is often discussed in the context of recomposition or health focused phases.
IGF one related peptides can influence insulin sensitivity indirectly by increasing muscle glucose uptake but they also carry a higher risk profile and are tightly tied to growth pathways. Their effects on insulin sensitivity depend heavily on diet body composition and overall metabolic health rather than acting as clean insulin sensitizers.
The most important thing to understand is that drugs and peptides only amplify existing habits. When insulin sensitivity is already poor from excessive fat gain poor sleep and uncontrolled eating these compounds act as damage control not solutions. When training volume body composition and recovery are already dialed in they can meaningfully improve how nutrients are used.
SOURCE
