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Insulin-Like Growth Factor 1
Pharmaceutical Name: Insulin-Like Growth Factor 1
Drug Classification: Polypeptide Hormone
Active Life: huIGF-1: approximately 10 minutes, Long R3 IGF-1: 2-5 hours
Insulin-Like Growth Factor-1 (IGF1) is a polypeptide protein hormone that is one of the primary substances that is responsible for tissue growth in humans, including muscle growth (1). IGF1 is primarily secreted by the liver, with a small minority of the circulating amount of the hormone being produced and delivered by other tissues. The basic function of the hormone is to induce cellular activities. For bodybuilders and strength athletes this compound could produce good results when used due to the ability of the compound to potentially enhance muscle hyperplasia, the actual increase in number of muscle cells in the body or particular muscle.
This effect of muscle hyperplasia that IGF1 can help promote is the primary reason why it has become so popular among bodybuilders. It is believed that IGF1 may be able to produce localized growth in the muscles that the IGF1 is administered into post-workout. However this effect of the hormone remains more theoretical in nature because of the lack of research available on the subject using human subjects. Despite this many users still claim that they have seen results from IGF1 when using it for this explicit purpose and it remains within the realm of possibilities. However simply because science can not discount the result as implausible does not mean that it is a given either.
Among the other anabolic effects that IGF1 can produce in the body are things such as increasing protein synthesis, increasing nitrogen retention, as well as inducing the growth of more muscle fibers. When an appropriate amount of amino acids (protein) is available, all of these actions within the body are able to be completed. It has been demonstrated that IGF1 can help to improve collagen production as well as the reproduction of cartilage in joints (2). The hormone has also been shown to exhibit the ability to act as a neuro-protector and promoter (3) mainly because IGF1 receptors are located in the tissue of the brain (4). It has been demonstrated that there is a potential for when supplemented with IGF1 a decrease in the progress of some brain diseases can be brought about as well as slowing the deterioration of brain function in some elderly subjects. However similar findings or any evidence of improved brain function or capacity has not been demonstrated in young, healthy individuals.
Obviously by helping to promote these anabolic mechanisms for growth IGF1 also acts as an anti-catabolic. This would be beneficial to those users in a calorie deficit or in other circumstances that place them at risk of losing muscle mass. IGF1 also has the ability to positively affect lipolysis in users if other necessary conditions are met, namely proper diet and training protocols. When combined with the ability to preserve muscle mass, IGF1 appears to be an attractive choice for those that are attempting to decrease their body fat while maintaining as much of their muscle mass as possible.
IGF1 is composed of seventy amino acids, the same number as insulin. As stated earlier, it is primarily secreted by the liver. The stimulus that is responsible for this secretion is the presence of growth hormone. In fact IGF1 is primarily the causal connection between growth hormone and its anabolic and anti-catabolic capabilities. This is not to say that effects caused by growth hormone could be produced with only IGF1, but rather that the two compounds are very much related to one another and both are needed for optimal tissue growth.
In some animal studies there have been significant findings that support the idea that IGF1 administration can help to induce large increases in both strength and muscle size. While these results have not been reproduced in humans they do suggest that the gains experienced by users are connected to the administration of IGF1 and related to the anabolic mechanisms that are caused by the hormone. However to say that the findings of some of these studies could be replicated in humans would be incorrect. For example, a twenty-seven percent increase in muscle strength was produced in mice advanced in age when administered moderate dosages of IGF1 (5). Of course it would be dubious to claim that similar gains could be made by a trained athlete that chose to use IGF1 but it does suggest that the hormone will promote at least some of the mechanisms responsible for muscle growth.
As stated, the IGF1 produced by the human body is seventy amino acids in length. However a different IGF1 composition is available. Called Long R3 Insulin-Like Growth Factor-1 (LR3 IGF1), it has the original seventy amino acids of regular IGF1 with a substitution of Arginine in place of Glutamic Acid at position three in the sequence. Additionally thirteen more amino acids have been added to the sequence. This extension peptide is located at the N-terminus in the sequence. These alterations were made so that the hormone would be more likely to remain active and potent when it encounters Insulin-Like Growth Factor-1 binding proteins in the body (6). All of this adds up to LR3 IGF1 being potentially three times as potent as the regular version of IGF1, or human IGF1 (huIGF1). Obviously this makes LR3 IGF1 more attractive for strength athletes and bodybuilders. For this reason it is now the most widely available version for purchase due to the compound having all of the benefits of regular IGF1, and being potentially three times as potent, while having no additional risks or side effects to that of regular IGF1.
Pharmaceutical Name: Insulin-Like Growth Factor 1
Drug Classification: Polypeptide Hormone
Active Life: huIGF-1: approximately 10 minutes, Long R3 IGF-1: 2-5 hours
Insulin-Like Growth Factor-1 (IGF1) is a polypeptide protein hormone that is one of the primary substances that is responsible for tissue growth in humans, including muscle growth (1). IGF1 is primarily secreted by the liver, with a small minority of the circulating amount of the hormone being produced and delivered by other tissues. The basic function of the hormone is to induce cellular activities. For bodybuilders and strength athletes this compound could produce good results when used due to the ability of the compound to potentially enhance muscle hyperplasia, the actual increase in number of muscle cells in the body or particular muscle.
This effect of muscle hyperplasia that IGF1 can help promote is the primary reason why it has become so popular among bodybuilders. It is believed that IGF1 may be able to produce localized growth in the muscles that the IGF1 is administered into post-workout. However this effect of the hormone remains more theoretical in nature because of the lack of research available on the subject using human subjects. Despite this many users still claim that they have seen results from IGF1 when using it for this explicit purpose and it remains within the realm of possibilities. However simply because science can not discount the result as implausible does not mean that it is a given either.
Among the other anabolic effects that IGF1 can produce in the body are things such as increasing protein synthesis, increasing nitrogen retention, as well as inducing the growth of more muscle fibers. When an appropriate amount of amino acids (protein) is available, all of these actions within the body are able to be completed. It has been demonstrated that IGF1 can help to improve collagen production as well as the reproduction of cartilage in joints (2). The hormone has also been shown to exhibit the ability to act as a neuro-protector and promoter (3) mainly because IGF1 receptors are located in the tissue of the brain (4). It has been demonstrated that there is a potential for when supplemented with IGF1 a decrease in the progress of some brain diseases can be brought about as well as slowing the deterioration of brain function in some elderly subjects. However similar findings or any evidence of improved brain function or capacity has not been demonstrated in young, healthy individuals.
Obviously by helping to promote these anabolic mechanisms for growth IGF1 also acts as an anti-catabolic. This would be beneficial to those users in a calorie deficit or in other circumstances that place them at risk of losing muscle mass. IGF1 also has the ability to positively affect lipolysis in users if other necessary conditions are met, namely proper diet and training protocols. When combined with the ability to preserve muscle mass, IGF1 appears to be an attractive choice for those that are attempting to decrease their body fat while maintaining as much of their muscle mass as possible.
IGF1 is composed of seventy amino acids, the same number as insulin. As stated earlier, it is primarily secreted by the liver. The stimulus that is responsible for this secretion is the presence of growth hormone. In fact IGF1 is primarily the causal connection between growth hormone and its anabolic and anti-catabolic capabilities. This is not to say that effects caused by growth hormone could be produced with only IGF1, but rather that the two compounds are very much related to one another and both are needed for optimal tissue growth.
In some animal studies there have been significant findings that support the idea that IGF1 administration can help to induce large increases in both strength and muscle size. While these results have not been reproduced in humans they do suggest that the gains experienced by users are connected to the administration of IGF1 and related to the anabolic mechanisms that are caused by the hormone. However to say that the findings of some of these studies could be replicated in humans would be incorrect. For example, a twenty-seven percent increase in muscle strength was produced in mice advanced in age when administered moderate dosages of IGF1 (5). Of course it would be dubious to claim that similar gains could be made by a trained athlete that chose to use IGF1 but it does suggest that the hormone will promote at least some of the mechanisms responsible for muscle growth.
As stated, the IGF1 produced by the human body is seventy amino acids in length. However a different IGF1 composition is available. Called Long R3 Insulin-Like Growth Factor-1 (LR3 IGF1), it has the original seventy amino acids of regular IGF1 with a substitution of Arginine in place of Glutamic Acid at position three in the sequence. Additionally thirteen more amino acids have been added to the sequence. This extension peptide is located at the N-terminus in the sequence. These alterations were made so that the hormone would be more likely to remain active and potent when it encounters Insulin-Like Growth Factor-1 binding proteins in the body (6). All of this adds up to LR3 IGF1 being potentially three times as potent as the regular version of IGF1, or human IGF1 (huIGF1). Obviously this makes LR3 IGF1 more attractive for strength athletes and bodybuilders. For this reason it is now the most widely available version for purchase due to the compound having all of the benefits of regular IGF1, and being potentially three times as potent, while having no additional risks or side effects to that of regular IGF1.
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