Type 2 diabetics! - Keeping your blood sugar in balance!
What causes Diabetes Type 2?
The first point everybody are concerned with as DiabetesType2 sufferer is: Why am I hit by this disease, how did I acquire it and what is there to do about it?
The more you read, the more you realize how common it is for diabetics to be in serious troubles.
So it's worthwhile to take a closer look at the details of DiabetesType2.
Let's start with a description of the fine tuned process: How your body handles glucose and burns it for energy.
1. Glucagon
Glucagon is a hormone that raises the level of glucose (a type of sugar) in the blood. The pancreas produces glucagon and releases it when the body needs more sugar in the blood for delivery to the cells. When someone with diabetes has a very low blood glucose level, a glucagon shot (injection) can help raise the blood glucose quickly.
2. Glycogen
Glycogen is the storage form of glucose. Glycogen is synthesized and stored mainly in the liver and the muscles. The glucose that is not used immediately is converted in the liver and muscles into glycogen for storage by the process of glycogenesis. Any glucose in excess of the needs for energy and storage as glycogen is converted to fat.
The brain and other tissues require a constant supply of blood glucose for survival. Glucose from the diet, though, arrives irregularly. Some tissues, particularly the liver and skeletal muscle, store glucose in a form that can be rapidly mobilized, glycogen. Liver glycogen is used to buffer the overall blood glucose level; glycogen is synthesized when blood glucose is high, and glycogen is degraded (with the resulting glucose released into the blood stream) when blood glucose is low, such as during the early stages of a fast. Muscle uses its glycogen stores for energy during strenuous exercise.
3. Insulin
Insulin is a hormone central to regulating carbohydrate and fat metabolism in the body. Insulin causes cells in the liver, muscle, and fat tissue to take up glucose from the blood, storing it as glycogen in the liver and muscle.
Insulin stops the use of fat as an energy source by inhibiting the release of glucagon. With the exception of the metabolic disorder diabetes mellitus and Metabolic syndrome, insulin is provided within the body in a constant proportion to remove excess glucose from the blood, which otherwise would be toxic. When blood glucose levels fall below a certain level the body begins to use fat as an energy source or gluconeogenesis; for example, by transfer of lipids from adipose tissue to the liver for mobilization as an energy source. As its level is a central metabolic control mechanism, its status is also used as a control signal to other body systems (such as amino acid uptake by body cells). In addition, it has several other anabolic effects throughout the body.
When control of insulin levels fails, diabetes mellitus will result. As a consequence, insulin is used medically to treat some forms of diabetes mellitus. Patients with type 1 diabetes depend on external insulin (most commonly injected subcutaneously) for their survival because the hormone is no longer produced internally. Patients with type 2 diabetes are often insulin resistant, and because of such resistance, may suffer from a "relative" insulin deficiency. Some patients with type 2 diabetes may eventually require insulin if other medications fail to control blood glucose levels adequately. Over 40% of those with Type 2 diabetes require insulin as part of their diabetes management plan.
Insulin also influences other body functions, such as vascular compliance and cognition. Once insulin enters the human brain, it enhances learning and memory and benefits verbal memory in particular. Enhancing brain insulin signaling by means of intranasal insulin administration also enhances the acute thermoregulatory and glucoregulatory response to food intake, suggesting central nervous insulin contributes to the control of whole-body energy homeostasis in humans.
Insulin is a peptide hormone composed of 51 amino acids and has a molecular weight of 5808 Da. It is produced in the islets of Langerhans in the pancreas. The name comes from the Latin insula for "island". Insulin's structure varies slightly between species of animals. Insulin from animal sources differs somewhat in "strength" (in carbohydrate metabolism control effects) in humans because of those variations. Porcine insulin is especially close to the human version.
The World Health Organization has reported the fact that around 150 million people globally have got DiabetesType2, and the number is expected to twice as many by the year 2025. In North America, having DiabetesType2 affects around 20 million adults and children, seven % of the population. An estimated 14 million Us citizens have already been diagnosed, leaving behind 6 million Us citizens not aware they've already the disease. Furthermore, 41 million Us citizens are assumed of having pre-diabetes, or increased blood sugar levels that place them at risk for developing DiabetesType2.
The genes you inherited (It is an event in the past and there is nothing you can do about it)
Let's look at what really causes DiabetesType2. Disturbances to the fine tuned process described above.
The Simple Explanation:
There are three primary causes of diabetesType2:
• The genes you inherited (It is an event in the past and there is nothing you can do about it)
• A long-term diet that has been high in carbohydrates (uncontrolled release of glucose into the blood) and
• Nutritional deficiencies (caused by excess release of insulin into the blood)
There are interdependencies between point 2) and point 3) and you got to concentrate your efforts on these 2 points.
The best way to manage your diabetic condition is to address the actual cause. Doesn't that make more sense?
When neglected or perhaps poorly treated, DiabetesType2 can result in blindness, kidney disease, heart stroke, nerve damage and blood circulation problems that could lead to limb amputations.
Furthermore, many medications given to people with DiabetesType2 are compounding problems instead of getting to the root cause.
Recent diabetes medicines are extremely efficient at decreasing sugar blood levels. Nevertheless, their negative effects may seriously impact your health. Seriously means that in extreme cases, they may even result in death. Although everyone knows that every medication has its negative effects, since it is a toxin in reality.
This brings us to the only solution - for people who want to live with-out taking drugs - Nutritional Enhancement.
Conclusion:
If you want to live a normal life despite having DiabetesType2, you need to treat your body the right way!
The first point everybody are concerned with as DiabetesType2 sufferer is: Why am I hit by this disease, how did I acquire it and what is there to do about it?
The more you read, the more you realize how common it is for diabetics to be in serious troubles.
So it's worthwhile to take a closer look at the details of DiabetesType2.
Let's start with a description of the fine tuned process: How your body handles glucose and burns it for energy.
1. Glucagon
Glucagon is a hormone that raises the level of glucose (a type of sugar) in the blood. The pancreas produces glucagon and releases it when the body needs more sugar in the blood for delivery to the cells. When someone with diabetes has a very low blood glucose level, a glucagon shot (injection) can help raise the blood glucose quickly.
2. Glycogen
Glycogen is the storage form of glucose. Glycogen is synthesized and stored mainly in the liver and the muscles. The glucose that is not used immediately is converted in the liver and muscles into glycogen for storage by the process of glycogenesis. Any glucose in excess of the needs for energy and storage as glycogen is converted to fat.
The brain and other tissues require a constant supply of blood glucose for survival. Glucose from the diet, though, arrives irregularly. Some tissues, particularly the liver and skeletal muscle, store glucose in a form that can be rapidly mobilized, glycogen. Liver glycogen is used to buffer the overall blood glucose level; glycogen is synthesized when blood glucose is high, and glycogen is degraded (with the resulting glucose released into the blood stream) when blood glucose is low, such as during the early stages of a fast. Muscle uses its glycogen stores for energy during strenuous exercise.
3. Insulin
Insulin is a hormone central to regulating carbohydrate and fat metabolism in the body. Insulin causes cells in the liver, muscle, and fat tissue to take up glucose from the blood, storing it as glycogen in the liver and muscle.
Insulin stops the use of fat as an energy source by inhibiting the release of glucagon. With the exception of the metabolic disorder diabetes mellitus and Metabolic syndrome, insulin is provided within the body in a constant proportion to remove excess glucose from the blood, which otherwise would be toxic. When blood glucose levels fall below a certain level the body begins to use fat as an energy source or gluconeogenesis; for example, by transfer of lipids from adipose tissue to the liver for mobilization as an energy source. As its level is a central metabolic control mechanism, its status is also used as a control signal to other body systems (such as amino acid uptake by body cells). In addition, it has several other anabolic effects throughout the body.
When control of insulin levels fails, diabetes mellitus will result. As a consequence, insulin is used medically to treat some forms of diabetes mellitus. Patients with type 1 diabetes depend on external insulin (most commonly injected subcutaneously) for their survival because the hormone is no longer produced internally. Patients with type 2 diabetes are often insulin resistant, and because of such resistance, may suffer from a "relative" insulin deficiency. Some patients with type 2 diabetes may eventually require insulin if other medications fail to control blood glucose levels adequately. Over 40% of those with Type 2 diabetes require insulin as part of their diabetes management plan.
Insulin also influences other body functions, such as vascular compliance and cognition. Once insulin enters the human brain, it enhances learning and memory and benefits verbal memory in particular. Enhancing brain insulin signaling by means of intranasal insulin administration also enhances the acute thermoregulatory and glucoregulatory response to food intake, suggesting central nervous insulin contributes to the control of whole-body energy homeostasis in humans.
Insulin is a peptide hormone composed of 51 amino acids and has a molecular weight of 5808 Da. It is produced in the islets of Langerhans in the pancreas. The name comes from the Latin insula for "island". Insulin's structure varies slightly between species of animals. Insulin from animal sources differs somewhat in "strength" (in carbohydrate metabolism control effects) in humans because of those variations. Porcine insulin is especially close to the human version.
The World Health Organization has reported the fact that around 150 million people globally have got DiabetesType2, and the number is expected to twice as many by the year 2025. In North America, having DiabetesType2 affects around 20 million adults and children, seven % of the population. An estimated 14 million Us citizens have already been diagnosed, leaving behind 6 million Us citizens not aware they've already the disease. Furthermore, 41 million Us citizens are assumed of having pre-diabetes, or increased blood sugar levels that place them at risk for developing DiabetesType2.
The genes you inherited (It is an event in the past and there is nothing you can do about it)
Let's look at what really causes DiabetesType2. Disturbances to the fine tuned process described above.
The Simple Explanation:
There are three primary causes of diabetesType2:
• The genes you inherited (It is an event in the past and there is nothing you can do about it)
• A long-term diet that has been high in carbohydrates (uncontrolled release of glucose into the blood) and
• Nutritional deficiencies (caused by excess release of insulin into the blood)
There are interdependencies between point 2) and point 3) and you got to concentrate your efforts on these 2 points.
The best way to manage your diabetic condition is to address the actual cause. Doesn't that make more sense?
When neglected or perhaps poorly treated, DiabetesType2 can result in blindness, kidney disease, heart stroke, nerve damage and blood circulation problems that could lead to limb amputations.
Furthermore, many medications given to people with DiabetesType2 are compounding problems instead of getting to the root cause.
Recent diabetes medicines are extremely efficient at decreasing sugar blood levels. Nevertheless, their negative effects may seriously impact your health. Seriously means that in extreme cases, they may even result in death. Although everyone knows that every medication has its negative effects, since it is a toxin in reality.
This brings us to the only solution - for people who want to live with-out taking drugs - Nutritional Enhancement.
Conclusion:
If you want to live a normal life despite having DiabetesType2, you need to treat your body the right way!
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