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MGF (Mechano Growth Factor), also known as IGF-1Ec or IGF-1Eb, is a peptide that is expressed on a cellular level from the liver of animal test subjects. Its molecular mass is 2888.16, and its molecular formula is C121H200N42O39.
MGF (Mechano Growth Factor) and Cellular Function
According to scientific study based on animal test subjects, it has been shown that MGF (Mechano Growth Factor)’s mechanics enable it to do the following processes:
Terminal Differentiation Inhibition – MGF (Mechano Growth Factor) slows down the final stage of cell differentiation, which is the part of the cellular cycle in which the cell loses its sense of functionality. This enables the cells of an animal test subject to perform longer.
Myoblast Proliferation Enhancement – MGF (Mechano Growth Factor) has been shown to boost the instance of the creation and building of muscular tissue. In essence, this means that the tissue enables an animal test subject the ability to experience muscle growth and repair on a more efficient manner.
Extension of Half-Life in Secretions – Specifically, scientific study conducted on animal test subject has shown that the presence of MGF (Mechano Growth Factor) allows for an extension of half-life toward secretions geared toward the growth and repair of muscular and skeletal tissue. This leads to a boost in an animal test subject’s cellular life cycle in terms of overall functionality, thus providing the animal test subject with a more efficient means of achieving homeostasis.
Additionally, scientific study based on animal test subjects has shown that MGF (Mechano Growth Factor) is primarily expressed in different tissues or in response to various stimuli. The peptide has also been shown to display some preferences regarding the signal transduction pathways they activate.
Benefits Behind MGF (Mechano Growth Factor)
Scientific study based on animal test subjects related to MGF (Mechano Growth Factor) and its overall functionality has been able to derive several theoretical benefits in relation to the peptide. Several of these benefits are linked directly by how MGF (Mechano Growth Factor) is able to extend the half-life of secretions relating to muscle and tissue cells as well as its ability to inhibit terminal differentiation.
For example, it has been theorized that MGF (Mechano Growth Factor)’s ability to extend the half-life of cellular secretions allows the presence of the peptide to allow for a more efficient process of building and repair of muscles and tissues for an animal test subject. These same principles have also led studies to derive that MGF (Mechano Growth Factor) can enable a longer interval of time in which damage done to muscle fibers and skeletal tissue can be attended to internally, thus enabling a faster, more efficient rate of injury recovery. Additionally, it has been determined that MGF (Mechano Growth Factor)’s overall functionality in conjunction with skeletal tissue enables a more efficient production of bone minerals to occur. This in turn would allow the bones in animal test subjects to increase its overall density quicker.
Another theorized benefit that has been derived through scientific study of animal test subjects relates to MGF (Mechano Growth Factor)’s ability to in essence choose the signal transduction pathways that the activate. It has been thought that this aspect of the peptide’s operational mechanics could enable it to be an aid in stabilizing certain functions within an animal test subjects’ body in the wake of an ischemic episode. These kinds of episodes include stroke, cardiac arrest due to a heart attack, angina pectoris, or a lack of oxygen delivered to an effected area after a traumatic injury.
MGF (Mechano Growth Factor) and Negative Side Effects
While scientific study based on animal test subjects has been able to derive a host of theorized benefits in relation to MGF (Mechano Growth Factor), it has also been determined that the presence of the peptide can be linked to several negative side effects.
The primary negative side effect that has been associated with the presence of MGF (Mechano Growth Factor) is hypoglycemia, more commonly known as low blood sugar. The reason behind this hypothesis ties to the way in which the presence of the peptide can increase the efficiency of cellular functionality. That being said, it has been determined that this negative side effect can be countered by the animal test subject increasing its glucose intake.
Other potential negative side effects that have been linked to the presence of the peptide include the swelling of extremities, a drop in blood pressure, and various cardiovascular irregularities including cardiac arrest.
The polypeptide Ipamorelin is a pentipeptide, meaning that its structure is comprised of five amino acids. It contains a molecular mass of 711.85296, and its molecular formula is C38H49N9O5. It can sometimes go by the alternate names Ipamorelin Acetate, IPAM, and NNC-26-0161. It is a secretogogue, and is considered to be an agonist, meaning that it possesses the ability to bind certain receptors of a cell and provokes a cellular response.
How Ipamorelin Works
According to scientific study that has been built around animal test subjects, it has been determined that Ipamorelin’s primary functionality is associate with the stimulation of the pituitary gland. This is the pea-sized gland that is located in the bottom of the hypothalamus at the base of the brain and is responsible for the regulation and control of a host of functions that relate to the endocrine system. Some of these functions include:
Growth
Functionality of the thyroid gland
Regulation of temperature
Regulation of blood pressure
Functionality of sex organs
Pain relief
Specifically, Ipamorelin’s operational mechanics enables the peptide to stimulate the production of pituitary gland-based expression of secretions related to growth amongst animal test subjects. At the same time, the presence of the peptide has been shown to inhibit the production of a secretion known as somatostatin. In essence, this peptide is primarily responsible for inhibiting the production of growth secretions. Additionally, it has been determined that Ipamorelin has the ability to boost the production of IGF-1, or Insulin-like Growth Factor 1. This particular peptide, which is secreted by the liver, has been shown to be highly anabolic in its nature. What this means is, its presence plays a key role in the overall growth and repair of muscular and skeletal tissue.
Furthermore, scientific study on animal test subjects has concluded that Ipamorelin works to bind to major control points of gastric, appetite, and growth motility. Because of this particular point of functionality, it has been determined that the presence of the peptide does not cause an elevation in the levels of hunger within animal test subjects; a response that does occur in relation to some peptides that have a similar sense of functionality in relation to Ipamorelin.
Also, scientific study on animal test subjects has also shown that Ipamorelin does not significantly boost the production levels of cortisol. This is the hormone found within animal test subject that is responsible for raising blood sugar via the process of gluconeogenesis. It also does not significantly raise the production of prolactin; the hormones that play a key role in the regulation of immune system within an animal test subject, primarily as it relates to lactation in female animal test subjects.
Theoretical Benefits and Side Effects of Ipamorelin
The extensive study that has been conducted on animal test subjects has caused several benefits that relate to the presence of Ipamorelin to be hypothesized. Some of these theoretical benefits include the rejuvenation and strengthening of joints, the strengthening of connective tissue, a boost in the burning of adipose tissue (that is, body fat), skin tone improvement, and the strengthening of bone mass. These kinds of theorized positive benefits have led some of the scientific studies conducted on animal test subjects to determine that the peptide could play a fundamental role in the slowing down of the aging process.
Conversely, scientific study on animal test subjects has also been able to derive a handful of potentially negative side effects in relation to Ipamorelin’s presence. These side effects are thought to be mild in nature, and have primarily been known to consist of headaches and head rushes (that is, a feeling of light-headedness). That said, it has been determined that the presence of these negative side effects appear to be minimal, especially in relation to the number of theoretical benefits that have been linked to the presence of the peptide. Furthermore, it has been determined that the list of negative side effects are significantly shorter than the list of negative side effects that have been typically associated with other peptides that share similar operational mechanics and functionality, such as the peptide GHRP – 6.