Hormonal Imbalance In Men

FacebookTwitterGoogle+TumblrDiggStumbleUponPinterestRedditLinkedInShare

While it is a common problem in women, can effect male hormone imbalances. Fortunately, there are ways to balance hormones and alleviate symptoms

The hypothalamus and pituitary or pituitary gland in men also produce all kinds of hormones. Both glands are found in the brain. Hormonal balance disorder may also be the cause of reduced fertility in man. The pituitary gland is a small gland located at the base of the brain, which, like the woman produces hormones FSH and LH. FSH stimulates the testes in men. An imbalance of this hormone can also cause reduced sperm quality. In addition, excessive production of the hormone prolactin, or poor thyroid gland can disrupt hormonal balance and thereby affect fertility. However, male fertility problems rarely occur due to hormonal causes.

HormoneImbalanceSymptoms

Causes:

It usually appears between 30 and 50 years old, the specialist said. The modern lifestyle brings high levels of stress and nutrition habits and poor physical activity; above with an expectation of higher life it causes considerable effects on the human body.

When the glands that produce hormones are forced to work harder for longer, we should worry because eventually suffer an imbalance of hormones. In humans, this hormone imbalance often has a stronger impact on testosterone and cortisol (the stress hormone). Because testosterone and cortisol are outside the normal range, men experience a variety of symptoms of andropause.

men-hormone

Symptoms

Depending on the severity and type of hormone, hormonal imbalances in men also may produce less specific symptoms such as impotence, eye problems, loss or sudden weight gain, mood swings or depression.

Some of the symptoms of andropause are erectile dysfunction, night sweats,

loss of muscle mass, decreased virility drive, urinary problems, gynecomastia (breasts in men), hair loss, sleep apnea, fatigue and irritability lot. However, usually only this imbalance is discovered if a blood test as a result of the poor spermatic test is performed.

For a consultation visit this link

schedule-appointment

 

Phenomenal Effects Of Peptides By Top Peptides

Peptides are hormones which are naturally produced in all living microorganisms to control body functions. It’s hormonal agents and neuro-peptides manage most processes in the human physical body:

Peptides deal with recovery as well as cell growth, enhances the immune system, physical body Metabolism, Sleep, produces other hormones, and so on.

 

Peptides affect several physical elements:

  1. Muscle development
  2. Efficiency endurance
  3. General fitness,
  4. Effectively burning body’s fat tissue
  5. Re-growing all cells and organs
  6. Aging rate (peptides can considerably reduce the growing old process),
  7. Injury healing,
  8. Regeneration of joints and ligaments,
  9. The overall sensation of the quality of life,
  10. Increased energy as well as vitality,
  11. Healthier skin and hair

Peptides Also Improve Brain’s Capability

  • Memory,
  • Behavior,
  • Concentration (attention),
  • Awareness
  • Mood.

Peptides as Safeguard

Peptides also functions as a firewall against serious ailments and illness, such as:

  • Coronary,
  • Cardiovascular disease,
  • Weight problems,
  • Diabetes
  • Metabolic conditions,
  • Lumps,
  • Muscle dystrophy,
  • bone loss,
  • Psychological problems,
  • Adverse effects of stress
  • Depression

Peptides are protective neurologically

They may prevent skin illnesses and infections, reduce swellings, fight hormonal and sex-related problems, & more.

Peptides, guard against skin cancer making it a rich, deep dark tan.

Peptides can eliminate as well as take out severe visual problems: creases are taken out completely making skin look soft and also renewed. It boosts hair development.

 

A Magic Formula

Peptides have the remarkable possibility to provide great physical and mental regeneration, quality, vigor, youthfulness, longevity, excellent overall wellness and an extremely high-quality life.

 

Ipamorelin Analysis

American Made Ipamorelin

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.  What this means is, it possesses the ability to bind certain receptors of a cell and provokes a cellular response.

Ipamorelin at a Glance

Ipamorelin’s overall functionality, according to scientific study that has been based in animal test subjects, can be traced to the pituitary gland and the liver.  The first organ is the pea-sized gland located at the bottom of the hypothalamus at the base of the brain is responsible for the control and regulation of a host of bodily functions relating the endocrine system, including growth and metabolism to internal water regulation and pain relief.  The second organ is the vital organ that is charged with providing an animal test subject with accurate functionality as it pertains to detoxification, protein synthesis, and digestion.

Ipamorelin’s relationship with the pituitary gland has been determined to boost the expression of secretions as they relate to growth.  Simultaneously, it has been shown to allow for the blockage of somatostain; a secretion whose expression inhibits the release of growth hormone within an animal test subject.

Ipamorelin’s relationship with the liver, on the other hand, is that it has been shown to boost the production of IGF-1, a secretion that is sometimes referred to as Insulin-like Growth Factor-1 or Somatomedin C.  Scientific studies based on animal test subjects have determined that the secretion is highly anabolic in its nature.  What this means is, it has been shown to play a key role in controlling the growth and repair of muscular and skeletal tissues within an animal test subject.  Because Ipamorelin’s functionality enables a boost in the production of this particular secretion, it is thought that the anabolic properties of IGF-1 can also be extended.

When all of these operational functions are combined, it has been determined that the result of such function is an animal test subject that can experience an increased measure of repair and growth.  Such aspects of functionality enable the peptide to be comparable to the functionality of other secretogogues such as GHRP-6.

Ipamorelin and the Production of Ghrelin

One chief way that Ipamorelin differs from other secretogogues such as GHRP-6 is that it does not boost the production of ghrelin.  Produced primarily by the stomach in animal test subjects, ghrelin is a 28-amino acid enzyme whose overall functionality is to produce the sensation of feeling hungry; a functionality that counteracts the production of the secretion leptin, whose expression stimulates the sensation of feeling full.  Because Ipamorelin does not increase the production of ghrelin, the animal test subject can experience a more consistent level of homeostasis in terms of food consumption even when the peptide is introduced.

Ipamorelin and Other Boosts

Further scientific study based on animal test subjects has determined that Ipamorelin does not cause a significant increase in the levels of cortisol; the hormone that has been shown to raise blood sugar via the process of glucogenesis in animal test subjects.  It has also been determined that Ipamorelin does not create an elevation in the level of prolactin, the hormone that plays a key role in the regulation and control of the immune system of animal test subjects, mainly as they relate to lactation.

Ipamorelin Benefits

Scientific study that has been based on animal test subjects has determined that Ipamorelin’s operational mechanics can be linked to a host of several hypothetical boosted processes.  Some of these process include:

  • A strengthening of bone mass
  • A boost in the burning of body fat
  • An improvement of skin tone
  • A strengthening of connective tissue
  • A rejuvenation and strengthening of joints

Additionally, scientific study based on animal test subjects has determined that the beneficial processes that have been derived from the presence of the peptide could play a vital role in potentially slowing down the overall aging process.  These studies have also determined that the side effects that are associated with Ipamorelin are sparse in their manifestation and are relatively mild in their nature.

Set Aside for Scientific Research

It should be emphasized that despite the extensive amount of research and study that has been conducted in order to pinpoint the functionality and mechanics of Ipamorelin, it is only intended for the sole use of scientific study at this time.  All of the research and findings that have been determined and discussed are completely built around the scientific study on animal test subjects.  Because of this, any findings or observations that can be tied to Ipamorelin’s overall functionality, mechanics, or theoretical benefits should exclusively be contained to a laboratory, a medical research facility, or another strictly controlled environment in this vein.

Melanotan 2 Scientific Research

American Made Melanotan II

Melanotan II, also known as Melanotan 2 or MT-2 but different from Melanotan I, is a peptide that has a molecular mass of 1024.180 and a molecular formula of C50H69N15O9.  It has been shown through scientific study on animal test subjects to have an ability to enhance the protection against harmful ultraviolet, or UV, rays.

Melanotan II’s Functionality on a Glandular Level

The essential base of functionality according to scientific study that has been based on animal test subjects is constructed about a relationship Melanotan II has with the pituitary gland.  This pea-sized gland that is located at the bottom of the hypothalamus at the base of the brain is chiefly charged with the regulation and control of a host of processes linked to the endocrine system.  Some of these processes have been shown to include:

  • The regulation of metabolism
  • The regulation of growth
  • The control of internal temperature
  • The functionality of the thyroid gland

Melanotan II on a Level of Secretion

Specifically, the relationship that Melanotan II has with the pituitary gland is tied to secreted hormones that are known as melanocortins.  These particular hormones are responsible for the regulation of control of skin and hair pigmentation by way of a secretion known as melanin.  This expression of this secretion is initiated by the exposure of UV, or ultraviolet, rays.  When exposure to the rays happen, the secreted melanin manifests itself on the skin of the animal test subject; a process that is known as melanogenesis.  This process not only results in the darkening of the skin’s pigment, but it also leads to providing the skin with a measure of protection against the exposure to the harmful rays themselves.  A such, the process of melanogenesis plays a key role in protecting the skin against a host of various skin-based ailments that have been shown to result from extensive exposure to UV rays, up to and including certain types of skin cancers.

The main issue regarding melanogenesis is that the melanocortins that have been shown to produce melanin have an extremely short half-life that only lasts for a few minutes, thus rendering their overall effectiveness as a safeguarding agent to be limited.  However, scientific study that has been based on animal test subjects has been able to determine that the presence of Melanotan II can extend the half-life of melanocortins.  Thus, the peptide can also extend the secretion’s presence as a protective agent against harmful UV rays and the skin-related ailments that such exposure has been determined to create.  What’s more these studies have indicated that this act of Melanotan II’s functionality can be brought about even without the exposure to UV rays that would otherwise initiate the defense mechanism.  That being said, the studies have indicated that the presence of Melanotan II has shown to be more effective when UV rays are introduced as part of the research process.

Melanotan II vs. Melanotan I

Scientific study that has been based on animal test subjects has shown that Melanotan II’s overall functionality has enabled it to hold a similar resemblance to the operational mechanics of Melanotan I, which is why the two peptides sometimes have a tendency to be confused with each other.  However, comparative studies between the two peptides have noted that the overall effectiveness of Melanotan II has been shown to be significantly more efficient than its counterpart.

Melanotan II and Cancer

Scientific study that has been based on animal test subjects has been able to derive that the peptide’s ability to promote actions of melanogenesis without ultraviolet rays being present could conceptually enable it to play a vital role in lowering the likely onset of most skin cancers.  That being said, it should be noted that it has been determined that the presence of the peptide does not act as a possible deterrent against the deadliest form of skin cancer, malignant melanoma.  The reason for this is due to the fact that malignant melanoma has been shown to be caused by indirect DNA damage, and not by the presence of ultraviolet rays.

For Scientific Research Only

Although there has been an extensive amount of research and study conducted in relation to Melanotan II and its overall functionality, operational mechanics, and theorized benefits, it needs to be noted that all of the research that has been conducted and the subsequent results from such research has been solely built around the scientific study based on animal test subjects.  The peptide is only intended for the use of scientific study at this point in time.  As a result of this, any findings or observations that relate to Melanotan II’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.

CJC 1295 with DAC Studies

What is CJC 1295 with DAC?

CJC 1295 with DAC is a peptide comprised of 30 amino acids.  It is tetrasubstituted in nature, which means that its structural integrity consists of four hydrogen atoms that have been swapped out by another atom or group.  It has a molecular mass of 3368.7, and its molecular formula is C152H252N44O42.

CJC 1295 with DAC Basics

According to scientific study based on animal test subjects, it has been determined that CJC 1295 with DAC functions by boosting the half-life and bioavailablity of the active agent within the peptide chain GHRH1-29.  Under normal circumstances, the agent has a limited level of functionality due to it having a rapid half-life of less than seven minutes.  However, scientific study has shown that CJC 1295 with DAC contains the ability to boost this half-life dramatically, extending it to a length of over seven days.

The reason that this functional increase is important can be tied back to what the expression of GHRH1-29 represents.  In essence, its discharge is caused because of the negative feedback loop that is part of an animal test subject’s growth hormone axis.  This axis is responsible for the regulation and control of several processes that relate to the endocrine system of an animal test subject, from growth and metabolism to temperature regulation and pain relief.  However, the rapid half-life limits the effectiveness of these processes.

However, CJC 1295 with DAC’s interaction with GHRH1-29 allows for a greater range of time for the growth hormone axis to operate.  This in turn enables an animal test subject to experience a boosted level of homeostasis.  Further scientific study on animal test subjects has also determined that its presence can be linked to the following processes:

  • The blockage of methionine oxidation – this process is the prevention of this particular amino acid from being expressed. This is important because its presence has been associated with the aging process.
  • The decrease in asparagines rearrangement to amide hydrolysis to asparatic acid – this process represents a decreased level of deconstructon tied to the amino acid asparagine.

What This Process Means

According to scientific study that has been conducted on animal test subjects, it has been determined that CJC 1295 with DAC’s functionality and its association with GHRH1-29 could be hypothetically responsible for a host of different beneficial processes.

One of the primary benefits that have been put forth involves the concept of muscle growth.  Because it has ultimately has the ability to extend GHRH1-29’s half-life and therefore extend the effectiveness of an animal test subject’s growth hormone axis, it has been thought that it is responsible for enabling a greater proliferation of muscle cells to occur.  This then has led to the test subjects experiencing a more amplified amount of muscle size and mass.

A second benefit that has been suggested involves the process of deep sleep.  The rationale behind this theory is based on the notion that functions that relate to muscle growth have a tendency to peak when an animal test subject is experiencing a level of deep sleep.  Because of this, it has been thought that it can enable an animal test subject to undergo an expanded interval of deep sleep as a means to allow the elevated occurrence of cellular proliferation relating to muscle growth to occur.  That being said, scientific studies devoted to this aspect of CJC 1295 with DAC’s functionality has noted that this particular benefit has shown a tendency to wane over time.

A third benefit that has been theoretically linked to the peptide relates to improved bone strength and durability.  Scientific study that has been based on animal test subjects has determined that it can increase the generation of a bone’s material matter per square inch over the course of a set period of time.  This process enables bones to be stronger, which in turn enables them to be less vulnerable to breakages, fractures, and other bone-related ailments.

Other benefits that have been potentially linked to CJC 1295 with DAC include an improved skin tone, a expedited rate of recovery from injury, a boosted level of endurance, and a more efficient rate of burning body fat.  Ultimately, these functions are all connected by the peptide’s ability to boost protein synthesis; a process that can be traced back to the extension of GHRH1-29’s half-life and bioavailablity.

Set Aside for Scientific Research

It should be emphasized that all study CJC 1295 with DAC is only intended for the sole use of scientific study at this time.  All of the research and findings that have been determined and discussed are completely built around the scientific study on animal test subjects.  Any findings or observations that can be tied to CJC 1295 with DAC’s overall functionality, mechanics, or theoretical benefits should exclusively be contained to a laboratory, a medical research facility, or another strictly controlled environment in this milieu.

CJC-1295 No DAC Research

What is CJC-1295 No DAC?

CJC-1295 No DAC is a 30 amino acid polypeptide that contains a molecular mass of 3367.2 and a molecular formula of C152H252N44O42.  It has been shown to contain the ability to bioconjugate, meaning that it can join a pair of molecules together in order to form a single chemical bond.

CJC-1295 No DAC’s Active Agent

According to scientific study that has been conducted on animal test subjects, CJC-1295 No DAC’s functionality is tied to an active agent that is located within the peptide chain GHRH1-29.  Specifically, it works in conjunction with the peptide’s discharge, which is related to negative feedback loop that is connected to the growth hormone axis found in animal test subjects.  In essence, this axis is in charge of the regulation of the production of growth hormone, which in turn provides the animal test subject with a certain level of homeostasis.

CJC-1295 No DAC and Half-Life

The primary function behind CJC-1295 No DAC’s operational mechanics is to extend the half-life of GHRH1-29.  On its own, GHRH1-29 has a rapid half-life of less than seven minutes.  This quick half-life makes its ability to function rather limited.  However, CJC-1295 No DAC’s presence has the capacity to dramatically expand the half-life of GHRH1-29, to a period of over seven days.  This extension allows for a significantly greater level of processes tied to the growth hormone axis to happen, thus enabling an animal test subject to experience a level of homeostasis at an easier rate.

In addition to extending the half-life of its active agent, scientific study based on animal test subjects has also determined that CJC-1295 No DAC enhances bioactivity, inhibits methionine oxidation, and reduces asparagines rearrangement or amide hydrolysis to asparatic acid.

All of these different mechanics in essence cause the growth hormone axis within an animal test subject to stay active for a significantly longer period of time.  This extension, in turn, allows it to conduct various regulatory functions such as muscle tissue repair, muscle growth, and fat burning at a significantly more efficient basis.

The Effects of CJC-1295 No DAC

According to scientific study that has been based on animal test subjects, it has been determined that CJC-1295 No DAC’s overall functionality and its relationship with GHRH1-29 and the growth hormone axis allows it to elevate several of the test subject’s regulatory functions.  Some of these increased regulatory functions include:

  • An improved protein synthesis – In essence, this is the process in which an animal test subject’s cells can generate new proteins. These proteins are ultimately responsible for regulating some of the important functions in the subjects’ bodies.  Typically, this is a process that is balanced out by the loss of cellular proteins via the processes of export or degradation.  However, CJC-1295 No DAC is thought to be able to boost the production of this synthesized process; this then will result in an elevated level of proteins that are made.
  • A more efficient means of muscle tissue growth – The proliferation of proteins that CJC-1295 No DAC is purported to enable leads to a greater influx of muscle cells. This proliferation translates to a greater instance in increasing the size and mass an animal test subject’s muscles.
  • A more efficient means of body fat reduction – The mechanics of CJC-1295 No DAC and how they relate to creating a more efficient means of protein synthesis enables it to promote the degradation of lipids; a process that is known as lipolysis. This advanced level of degradation allows for an animal test subject’s adipose tissue (that is, body fat) to be burned at a significantly quicker rate.
  • A boost in bone density – Scientific study that has been conducted on animal test subjects has determined that CJC-1295 No DAC’s functionality in relation to protein synthesis enables it to increase the production of a bone’s mineral matter per square inch. This enables the bones of an animal test subject to become thicker and stronger, and thus less vulnerable to breaks, fractures, and other bone-related ailments.
  • An expedited recovery from injury – The boost in proteins that are relates because of CJC-1295 No DAC’s functionality has been shown to allow animal test subjects to heal from an injury at a much more efficient rate. This elevated process also ties into the notion that the peptide can also elevate an animal test subjects’ ability to fend off illnesses.

Strictly for Controlled Environments

It should be noted that any findings or observations that relate to CJC-1295 No DAC and its overall functionality should exclusively be done within a strictly controlled environment, such as a medical research facility or a laboratory.  The reason for this is due to the fact that the peptide and the study its operational is currently just fit for scientific study on animal test subjects.  As such, it should be noted that research that has been derived regarding CJC-1295 No DAC is due to scientific tests conducted in a controlled environment only.

MGF (Mechano Growth Factor)

The peptide MGF (Mechano Growth Factor), also known as IGF-1Ec or IGF-1Eb, is a peptide with a molecular formula of C121H200N42O39.  It also carries a molecular mass of 2888.16.

The Process of MGF (Mechano Growth Factor)

According to scientific study that has been conducted on animal test subjects, it has been shown that MGF (Mechano Growth Factor) has a distinctive domain that inhibits terminal differentiation.  This means is that the peptide slows the last stage of cellular differentiation in which a cell is no longer functional.  Additionally, MGF (Mechano Growth Factor) has been shown to enhanced myoblast proliferation, meaning that boosts the process in which muscular tissue is created and built.  Additionally, it has been determined that MGF (Mechano Growth Factor) has the ability to extend the half-life of secretions as they relate to the growth and repair of muscular and skeletal tissue, which then enables a boosted level of cellular activity and ultimately a more efficient means of enabling an animal test subject to achieve homeostasis.

Results of MGF (Mechano Growth Factor)’ Functionality

Because of the way in which MGF (Mechano Growth Factor) has been shown to function, scientific study based on animal test subjects has been able to derive a host of theoretical benefits from its presence.  Some of these benefits include:

  • A boost in the regeneration of skeletal muscle – Because of the ability that MGF (Mechano Growth Factor) has in relation to extending the half-life of cellular secretion tied to an animal test subject’s muscular and skeletal growth, it is thought that the presence of the peptide has allowed for a more efficient build and repair process as it relates to muscle and tissues.
  • A more efficient means of injury recovery – Scientific study based on animal test subjects has pinpointed MGF (Mechano Growth Factor)’s ability to extend cellular secretion as a means of enabling a longer period of time in which damage that has been done to an animal test subject’s muscle fibers or skeletal tissue can be repaired. Because of this process, it is thought that the presence of the peptide can enable an animal test subject to heal from an injury in a more efficient manner.
  • An improvement in bone density – Because MGF (Mechano Growth Factor) has the capacity to enable a more efficient means of bone mineral production, it has been theorized that the bones of an animal test subject can experience a boost in its overall density at a quicker rate.

MGF (Mechano Growth Factor) and Signal Transduction

Further scientific study based on animal test subjects has determined that MGF (Mechano Growth Factor) has been shown to primarily express in different tissues or as a response to various stimuli.  It has also shown some preferences in regards to the signal transduction pathways that they activate.

Because of this process, it has been theorized that the presence of MGF (Mechano Growth Factor) could play a key role in the stabilization of certain functions within an animal test subject’s body in the wake of an ischemic injury.  This type of injury is defined as an episode in which a restriction of blood supply to tissues occurs, causing a shortage of the oxygen and glucose that is needed for proper cellular metabolism as a means to keep tissue alive.  Some of these episodes that MGF (Mechano Growth Factor) and its functionality can theoretically aid include stroke, angina pectoris, cardiac arrest due to a heart attack, or a lack of oxygen delivered to an effected area after a traumatic injury.

A Few Negative Side Effects

Even though scientific study based on animal test subjects has been able to derive several theoretical benefits in relation to MGF (Mechano Growth Factor)’s overall functionality, it has also been determined that the presence of the peptide could be responsible for a few negative side effects, as well.

The primary negative side effect that has been derived relates to the condition known as hypoglycemia, also known as low blood sugar.  Scientific study shows that the condition could be brought about due to the peptide’s capacity to boost the efficiency of cellular functionality.  That being said, these studies have also determined that this condition can be remedied by an increase in glucose intake on the part of the animal test subject.

Other negative side effects that have been theorized include the swelling of extremities, a drop in blood pressure, and an increase in cardiovascular irregularities up to and including a heart attack.

For Scientific Research Only

Although there has been an extensive amount of research and study conducted in relation to MGF (Mechano Growth Factor) and its overall functionality, operational mechanics, theorized benefits, an negative side effects, it needs to be noted that all of the research that has been conducted has been exclusively built around the scientific study based on animal test subjects.  The peptide is only intended for the use of scientific study at this point in time.  Therefore, any findings or observations that relate to MGF (Mechano Growth Factor)’s overall functionality, mechanics, theoretical benefits, or negative side effects should only be contained to the strict confines of a controlled environment such as a medical research facility or a laboratory.

Epithalon Examined

Epithalon

Epithalon is a peptide that contains a molecular weight of 390.3459, and its molecular formula is C14H22N4O9.  Its structural integrity consists of four amino acids.  It occasionally goes by the following names:

  • CID2192042
  • LS-72251
  • Epitalon
  • Epithalone

It is derived from the pineal gland; a gland of the endocrine system that is typically linked to the regulation and control of several processes relating to the growth and development of animal test subjects.

Epithalon and Telomeres

According to scientific study that has been conducted on animal test subjects, it has been determined that Epithalon’s functionality can be directly tied to the part of a cell that is responsible for maintaining the integrity of the genetic code.  This part, known as telomeres, essentially acts as a binding agent of a DNA sequence found within the animal test subject’s cell for purposes of maintaining genetic homeostasis.  This binding can be accomplished because of the secretion of an enzyme known as telomerase, which serves to keep the length of the telomeres consistent through the process of cellular division.  Over time, however, the secretion of the enzyme ceases, thus causing the binding of the DNA code to lose strength and length with each subsequent cell division.  Eventually, they become too weak to contain the DNA and it unravels, inadvertently causing the DNA to become scattered.  When this scattering happens, the information held within becomes disrupted in the sense that the animal test subject cannot decode it properly.  When this happens, the body reacts by enabling the aging process to kick in.

Scientific study that has been conducted on animal test subjects has determined that Epithalon has the ability to increase the production of telomerase.   By extension, it has been shown a faculty to boost the overall length and strength of telomeres, which enables for a stronger sense of integrity within an animal test subjects’ DNA sequencing to take place.  Ultimately, this functionality would enable the aging process and the subsequent effects of said process to be delayed.

Beneficial Properties

Due to the way in which Epithalon has been shown to operate, scientific study based on animal test subjects has determined that it can hold a host of properties that can be deemed as beneficial.

The most prominent of these benefits ties into its link to an animal test subject’s biological age.  Because of the way in which it can promote a boost in the integrity of telomeres, it is thought that its presence can slow down the physicological properties and internal processes that could degrade at a slower rate than its chronological age.  In other words, an older animal test subject could conceivably display tendencies and behaviors that are more consistent with an animal test subject that is younger.

In turn, this theorized benefit could be linked to Epithalon being instrumental in prohibiting the onset of a host of potentially deadly diseases that is at least partially associated with the overall process of aging.  These diseases would include issues like cancer, stroke, heart failure, or a lessening of mental function such as dementia.  Additionally, its abilities have also led to the notion that its functionality could make it easier for scientific study to pinpoint the triggers that signify the onset of such issues.

Further scientific study that has been conducted on animal test subjects has determined that Epithalon could be linked to the act of lipolysis; that is, the act in which fatty acids are broken down  Because its processes ultimately lead to an elevated sense of homeostasis within an animal test subject’s body, it is thought to be able to boost a host of regulatory processes that have shown a tendency to degrade over time.  One of these processes that it has been linked to is the allowance of an aging animal test subject the ability to break down body fat at a rate that would normally be seen for a younger animal test subject.  Other age-degraded processes that it could conceivably help with include flexibility, reaction time, libido, and the ability to fight off minor illnesses that are not considered to be life threatening.

For Scientific Research Only

Even though there has been an extensive amount of research and study conducted in relation to Epithalon and its overall functionality, operational mechanics, and theorized benefits, it needs to be noted that all of the research that has been conducted and the subsequent results from such research has been solely built around the scientific study based on animal test subjects.  The peptide is only intended for the use of scientific study at this point in time.  Therefore, any findings or observations that relate to Epithalon’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.

How Fragment 176-191 Works

What is Fragment 176-191?

Fragment 176-191, also known as neuron cytoplasmic protein 9.5, Frag 176-191, or gracile axonal dystrophy, is a peptide that is a modified version of amino acids 176-191.  Its molecular formula is C78H125N23O23S2, and it has a molecular weight of 1817.12.  According to scientific study on animal test subjects, the peptide has been known to exhibit antibiotic tendencies, and has also demonstrated abilities that are consistent with antigen binders.

How Fragment 176-191 Works

According to scientific study that has been conducted on animal test subjects, it has been determined that Fragment 176-191 primarily works in two overarching functions:

  • The stimulation of lipolysis – Lipolysis is the process that can be basically defined as the breakdown of fats. Studies have indicated that the peptide promotes a greater instance of this process to occur.
  • The slowing down of lipogenesis – Lipogenesis is the process in which fatty acids that make up adipose tissue (also known as body fat) are formed. Studies have shown that Fragment 176-191 works to inhibit this process from occurring.

Scientific study based on animal test subjects has shown that the peptide can carry out these functions by essentially mimicking the process in which the regulation of fat metabolism is achieved.  Further scientific study has indicated that Fragment 176-191 accomplishes this task without promoting any inadvertent negative effects on blood sugar or cellular proliferation.  It can do this act of mimicry, in part, because its functionality enables it to engage the animal test subject on a deeply cellular level.  Specifically, a level that chiefly involves two components of the cell:  The cytoplasm and the endoplasmic reticulum membrane.  These are in essence the parts of the cell that regulates cellular function and protein synthesis.  Fragment 176-191 is able to replicate these functions, and this ultimately works to provide animal test subjects with a greater sense of homeostasis.

The result of this overarching process essentially allows an animal test subject to experience a more efficient means of weight loss.  Studies have indicated that the presence of Fragment 176-191 allows for fat burning in the test subjects to occur at a rate that is 12.5 faster than it would otherwise occur.  Additionally, these studies have determined that the presence of Fragment 176-191 can enable an animal test subject to experience an elevated level of fat oxidation, an increased measure of energy expenditure, and a boosted measure of muscle and tissue mass.

Fragment 176-191 and Brain Activity

Because of the way in which Fragment 176-191 functions – specifically, the way it has been shown to interact with the endoplasmic reticulum membrane – scientific study based on animal test subjects has determined that the preence of the peptide could play a key role in the concept of mental preservation.  Specifically, it is thought that Fragment 176-191 could be considered a possible aid in brains that are afflicted with Parkinson’s disease and Alzheimer’s disease.  The base of this theory is rooted in the fact that it has been demonstrated that brains suffering from either one of the diseases feature a down-regulated level of the peptide within their associated neuroendocrine systems.

Thus far, scientific study based on animal test subjects has determined that the presence of Fragment 176-191 may theoretically work to prevent the type of basal lesions that have been shown to be a key feature in the onset of Parkinson’s disease.  Additionally, these studies have shown that Fragment 176-191’s functionality could work to offset the levels of toxicity and protein malfunction that play a prime role in the beginning stages of Alzheimer’s disease.

Fragment 176-191 and Insulin

Further scientific study based on animal test subjects has determined that the presence of Fragment 176-191 could play a vital role in insulin regulation.  These studies indicated that the peptide has the faculty to boost the blood glucose levels within an animal test subject over a finite interval of time.  These studies also show that the peptide can achieve a heightened level of insulin levels within plasma for a longer period of time.  The reasoning behind this theory can be found within Fragment 176-191’s 15 amino acid structure, as it is thought that this particular sequence and the way in which it’s structured can shuttle insulin throughout an animal test subject’s body on a more regulated and more consistent basis.

Purely for Scientific Research

Despite the fact that there has been plenty of research on Fragment 176-191 in relation to how it functions and the benefits that can be derived from such functionality, it should be emphasized that the peptide is still just intended for scientific study at this point in time.  All matters of research relating to the way in which Fragment 176-191 operates has been derived from scientific study on animal test subjects.  Because of this, any findings or observations relating to Fragment 176-191’s overall functionality, mechanics, benefits, should exclusively be the product of study performed in a strictly contained environment such as a medical research facility or a laboratory.

GnRH (Triptorelin) Data

What is GnRH (Triptorelin)?

GnRH (Triptorelin) is a decapeptide.  What this means, is that it is a peptide that consists of a chain of 10 amino acids.  It has a molecular formula is C64H82N18O13, and it contains a molecular weight of 1311.5.  It is occasionally known by different names, such as:

  • Decapeptyl
  • Gonapeptyl
  • Variopeptyl
  • Diphereline

How GnRH (Triptorelin) Works

According to scientific study that has been conducted on animal test subjects, GnRH (Triptorelin) has been shown to primarily function with the pituitary gland.  This is the pea-sized gland that is chiefly responsible for the regulation and control of a host of essential functions related to an animal test subject’s endocrine system.  Some of the more noteworthy functions include the regulation of growth, the functionality of the thyroid gland, the control of metabolism, the regulation of temperature, and the functionality of sex organs.

GnRH (Triptorelin)’s overall operational mechanics are such that it causes a constant stimulation of the pituitary gland, thus enabling an increased expression on some of its secretions.  However, as the peptide performs this task, it simultaneously lowers the production of luteinizing hormone.  This particular secretion regulates and controls the production of estrogen in female animal test subjects and it controls the production of testosterone in male animal test subjects.  GnRH (Triptorelin) has also been shown to lessen the expression of follicle-stimulating hormone.  This particular secretion is responsible for the regulation and control of the development, growth, and pubertal maturation within an animal test subject.  Both of these secretions have been noted to play a key role in the overall regulation and control of an animal test subject’s reproductive process.

The Results of GnRH (Triptorelin)’s Functionality

Because of the way in which GnRH (Triptorelin) has been shown to function in relation to the pituitary gland and these particular hormones has led scientific study based on animal test subjects to determine that it can hypothetically yield several benefits.

The most prominent of these benefits is in relation to the treatment of various hormone-responsive cancers.  This is due to the fact that there are certain types of cancers that have at least a partial link to the secretion of luteinizing hormone and its association with the levels of estrogen in female animal test subjects and testosterone in male animal test subjects.  As one may suspect, the most prominent of these cancers that have been associated with the secretion of this hormone are breast cancer and prostate cancer.  Because GnRH (Triptorelin) has been shown to have the capability for lessening the level of luteinizing hormones that are produced, scientific study has thought that the peptide could be used in order to slow down or even cease the effects of the these types of cancers that have ties to the hormone.

GnRH (Triptorelin)’s ability to inhibit the production of luteinizing hormone has enabled scientific study based on animal test subjects to determine that it could play a vital role in possibly treating several conditions whose proliferation is tied to estrogen dependency.  Some of these particular conditions include uterine fibroid and endometriosis.  Uterine fibroid is a condition in which a benign tumor originating from smooth muscle tissue clusters within the uterus of a female animal test subject, which could make the processes of menstruation and sexual intercourse painful.  Endometriosis, on the other hand, is a condition where cells from the lining of the uterus appear and thrive outside a female animal test subject’s uterine cavity, which could cause severe pain and even infertility.

Scientific study that has been based on animal test subjects has also shown that the presence of GnRH (Triptorelin) could play a vital role in the treatment of precocious puberty.  This particular condition refers to the onset of pubertal maturation occurring within an animal test subject at an unusually early age.  Because GnRH (Triptorelin) has exhibited a faculty to stem the release of follicle-stimulating hormone, and therefore its ability to regulate the development and pubertal maturation of an animal test subject, it is thought that it can help a test subject that is suffering from this condition a more consistent sense of proper homeostasis in terms of pubertal maturation.

Set Aside for Scientific Research

It should be emphasized that even though the extensive amount of research and study that has been conducted in order to pinpoint the functionality, mechanics, and hypothetical benefits of GnRH (Triptorelin), it is only intended for the sole use of scientific study at this time.  All of the research and findings that have been determined and discussed are completely built around the scientific study on animal test subjects.  Because of this, any findings or observations that can be tied to GnRH (Triptorelin)’s overall functionality, mechanics, or hypothetical benefits should exclusively be contained to a laboratory, a medical research facility, or another strictly controlled environment in this vein.