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Hexarelin is a secretogogue peptide that is considered to be a hexipeptide.  What this means is, its structure is comprised of a chain of six amino acids.  It has a molecular mass of 1024.2, and its molecular structure is C₅₀H₆₉N₁₅O₉.  It is sometimes known by the name Hex.

Hexarelin and the Brain

According to scientific study that has been based on animal test subjects, Hexarelin is known that it does act in conjunction with two key segments of the brain.  The first segment of the brain is the pituitary gland.  This pea-sized gland that is located at the bottom of the hypothalamus at the base of the brain is responsible for the overall regulation and control of several endocrine system-based processes, from growth and metabolism to pain relief and temperature regulation.  The second segment of the brain is the hypothalamus itself.  This part of the brain serves to link the endocrine system with the nervous system via the pituitary gland.

Hexarelin and the Liver

What’s more, it has been determined that Hexarelin’s presence has been shown to deliver an uptick in the secretion of the liver-based protein known as IGF-1.  Also known as Insulin-like Growth Factor-1 or Somatomedin C, this peptide has been shown to play a vital role in the growth and repair in the muscles and tissues of animal test subjects.

Unknown Operational Mechanics

Even though it has been determined through scientific study based on animal test subjects that Hexarelin does work in conjunction with the pituitary gland, hypothalamus, and the liver, it has yet to be determined how exactly the peptide can derive at creating such a working relationship.

That said, this unknown quantity has not prevented scientific study from deriving a few hypothetical benefits in relation to the way in which the peptide can function.  Because of the relationship that it fosters, it has been determined that the presence of Hexarelin is theoretically capable of producing the following boosted processes:

• An improved level of muscle strength
• An accelerated rate of fat loss
• A strengthening of connective tissue
• A boost in bone mineral density
• Improved elasticity
• A heightened level of mitosis and meiosis

What’s more, the studies have determined that the end results of its presence can last over a long period of time, primarily because it is thought that the peptide itself can function over a long period of time.

Hexarelin and the Heart

One of the key levels of focus in terms of scientific study that has been based on animal test subjects relates to the correlation that seems to exist between the Hexarelin and the heart.  The research suggests that it could very well contain properties that could contain certain protective cardio-based effects.

• The impetus of this study was based on research in which lab rats with growth hormone deficiencies were compared to lab rats that did not have such an affliction.  The reason for this was to essentially determined if the peptide could be used to lower the risk of cardiac dysfunction; a condition that has been known to be a side effect of certain growth-hormone deficiencies.
• In the study, lab rats that had their pituitary glands removed were given Hexarelin for a week via subcutaneous injection.  Over the course of the study, the injections that were administered to the rats were shown to halt the increase of left ventricular or diastolic pressure in the heart.  Furthermore, it was also shown that the injection cut down on reactivity of the coronary vasculature to angiotensin II and coronary perfusion pressure.  Plus, it was determined that it could inhibit the release levels of prostacyclin whie the heart was in the process of contraction.

Ultimately, these conclusions indicated that Hexarelin exhibited an elevated capacity to cut down the damage that could happen to the cardiovascular system when it stems from growth hormone efficiency.  This has led to the thought that the peptide could play a vital role in the preventative care for growth-hormone issues that relate to various cardiovascular-based concerns, up to and including serious issues such as recovery in the wake of a heart attack.

The peptide is only intended for the use of scientific study at this point in time.  Therefore, any findings or observations that relate to Hexarelin’s overall functionality, mechanics, or theoretical benefits, should only be contained to the strict confines of a controlled environment such as a medical research facility or a laboratory.

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GHRP – 2 is a non-glycosylated secretogogue peptide that is occasionally known by the names KP-102 or GHRP.  It contains a molecular mass of 817.9 and its molecular formula is C₄₅H₅₅N₉O₆.  Its structure is comprised of six amino acids, thus enabling it to have the classification of a hexipeptide.

GHRP – 2 and the Pituitary Gland

It has been determined through scientific study on animal test subjects that GHRP – 2’s functional mechanics can be linked to the pituitary gland; the pea-shaped gland that is located at the bottom of the hypothalamus at the base of the brain.  In essence, this gland acts as the primary base of regulation and control of a host of endocrine system-related processes, ranging from growth and metabolism to pain relief and temperature regulation.

In essence, GHRP – 2’s functionality enables a boosted level of pituitary gland secretions to occur, thus leading an animal test subject to experience a greater level of homeostasis.  The reason that it can accomplish this feat is because it can prevent the secretion of a peptide known as somatostatin; a secretion that essentially regulates the endocrine system and all of its regulatory functions.  Further studies have also demonstrated that it can also increase the levels of calcium ion influx, which can in turn stimulate an increased level of growth-related secretions.

GHRP – 2 and the Stomach

Additional scientific study that has been conducted on animal test subjects has also determined that GHRP – 2’s overall functional process has a definitive link to the liver.  Specifically, it has a link to the secretion of an enzyme called ghrelin.  In essence, gherlin is expressed by the stomach as a means to create the sensation of hunger in an animal test subject.  Its expression also acts to counter the effects of leptin; a secretion whose expression triggers the sensation of feeling full.  Studies have shown that GHRP – 2 contains the ability to elevate the production of ghrelin, thus causing an animal test subject to experience the sensation of feeling hungry for a longer interval of time.  This then creates a desire to consume a larger intake of food.  This boosted level of food can in turn be converted to the fuel that is needed for the elevated effects that are linked to the boosted stimulation of the pituitary gland.

GHRP – 2 and the Liver

Further studies that have been based on animal test subjects have determined that GHRP – 2 also has a link to functions relating to the liver.  Specifically, it has been shown to boost the production of a peptide known as Insulin-like Growth Factor-1, also known as IGF-1.

How these Functions Tie Together

GHRP – 2’s functionality as it relates to the pituitary gland, stomach, and liver has caused scientific study based on animal test subjects to determine that these interactions can combine to create various endocrine system-related process elevations.  Some of these elevations include:

• An enhanced experience in muscle growth – Because GHRP – 2 has been shown to create a boosted level of pituitary gland stimulation and an increased amount of IGF-1 secretion, scientific study based on animal test subjects has determined that it has the ability to allow an animal test subject to experience a more efficient means of experiencing a boost in muscle size and muscle mass.
• A more efficient means of weight loss – Even though GHRP – 2 has been shown to increase levels of ghrelin and therefore boost the desire to consume more food in animal test subjects, the other processes that have been related to it enable the subject to experience a significantly increased level of liposyis; that is, the process in which fatty acids can get broken down.  This elevated process eventually means that the animal test subject can burn through body fat at a much faster rate.
• Improved anti-inflammatory processes – Scientific study conducted on animal test subjects has determined that GHRP – 2’ functionality with the pituitary gland can potentially lessen instances of negative reaction that a subject may have to damaged cells, irritants, and other assorted pathogens.

It needs to be noted that all of the research that has been conducted relating to GHRP – 2 has been solely built around the scientific study based on animal test subjects.  Therefore, any findings or observations that relate to GHRP – 2’s overall functionality, mechanics, or theoretical benefits, should only be contained to the strict confines of a controlled environment such as a medical research facility or a laboratory.

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