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May 7, 2019 by admin 0 Comments

Post Cycle Therapy & well-Structured Testosterone Therapy

The Post Cycle Therapy (PCT), and Testosterone Injections Therapy goes hand on hand, Most men embarking on a testosterone injectable therapy replacement protocol are doing so as a result of medical reason or age-related issues that are affecting their life.

Now patients with problems and that face their low testosterone, the related concerns and do not allow fully experience the decline associated with maintaining extended periods of low hormones levels and will usually benefit from comprehensive testosterone therapy.

Note: that the specific drug and dose prescribed will depend on the particular information contained within each patient medical file and medical reason, as well as the individual goals patients.

Example:

  • Day 1. (50–250 mg) of testosterone injection.
  • Day 2. Two estrogen blocker or inhibitor.
  • Day 3. One injectable of an amino acid or vitamin B-vitamin.
  • Day 5. One estrogen blocker or inhibitor by mouth.
  • Day 6. One injection of a (250–800 units) of testosterone secretagogue.
  • Day 7. One estrogen blocker or inhibitor (sometimes two estrogen blockers a week is enough, But depending on the patient file).
  • Day 7. One injection of a (250–800 units) of testosterone secretagogue.

Example: This protocol for a man focused on muscle development (reversing lean muscle loss), Muscle development protocols, also work well in patients that may react to therapy with too much aromatization (estrogen accumulation).

Men are experiencing excessive aromatization and lean muscle depletion who are focused on rebuilding muscle, with Peptides.

Note: that the specific drug and dose prescribed will depend on the particular information contained within each patient medical file, as well as the individual patient goals.

Example:

  • Day 1. (50–150 mg) of a combination of testosterone esters,
    (15–30 units) Sermorelin Peptides before Bedtime.
  • Day 2. Two estrogen blocker or inhibitor,
    (15–30 units) Sermorelin Peptides before Bedtime.
  • Day 3. One injection of an amino acid or B-vitamin,
    (15–30 units) Sermorelin Peptides before Bedtime.
  • Day 4. Combination of (50–150 mg) testosterone esters,
    (15–30 units) Sermorelin Peptides before Bedtime.
  • Day 5. One estrogen blocker or inhibitor by mouth,
    (15–30 units) Sermorelin Peptides before Bedtime.
  • Day 6. One injection of a (250–800 units) of testosterone secretagogue.
  • Day 7. One estrogen blocker or inhibitor (sometimes two estrogen blockers a week is enough, But depending on the patient file).
  • Day 7. One injection of a (250–800 units) of testosterone secretagogue.

This weekly cycle would typically continue for 6–9 months, before a break period in which the body is allowed to normalize and reactivate your natural production.

What is Sermorelin?

Sermorelin is a peptide comprised of the first 29 amino acids of endogenous GH; the sequence is the same as endogenous GHRH. As we age, our body produces less and less of our vital hormones, including GH. Studies have revealed that sermorelin can restore GH RNA concentrations to youthful levels, which subsequently stimulates the production of insulin-like growth factor-1 (IGF-1).

Remember: When you are artificially manipulating your testosterone levels, some other functions of the body stop operating since endogenous testosterone production is shut down because of the presence of high levels of exogenous hormone. You will need Post Cycle Therapy on your break from testosterone therapy.

Break Period: Generally referred to as the Post Cycle Therapy (PCT), consists of medications that are formulated to reactivate the dormant systems that we have not used while your testosterone Injections therapy.

The essential functions that need to reactivate with your
Post Cycle Therapy:

  • FSH (follicle-stimulating hormone): This will stimulate sperm production in the testes.
  • LH (luteinizing hormone): This will stimulate testosterone production in the testes.

The reason why is because estrogen accumulation after extended periods of high testosterone levels, and water retention can cause, decreased libido, and other side effects associated with high estradiol levels from past testosterone therapy.

Well-structured Testosterone Injection Therapy

Following Results:

  • Week One: If you have never received testosterone injections before and are suffering from hypogonadism (clinically low testosterone), you should begin to experience invaluable changes just 3 or 4 days after your first administration. You should sleep better and have more energy.
  • Week Two: Morning erections make a significant comeback! In men with erectile dysfunction problems, morning erections help to determine if their problems stem from a psychological or a physiological problem.
  • Week Three: You will begin to notice a sense of clarity as your cognitive function improves. Your ability to recall information and your articulation will improve. You will suddenly realize that you feel more mentally sharp and able, which will allow you to better cope with stress and pressure.
  • The End of Month One: Your energy levels should be noticeably increased throughout the day.
  • Month Two: The same health manifestations that you were experiencing throughout your first month should continue to develop and improve. Your energy levels should still be increasing, and you should have a stronger “go-getter” attitude.
  • Month Three: There should now be a significant, noticeable difference in your energy level and output. Your workouts will require less effort and will yield quicker, more visible results. The time you need for muscle healing and recuperation after exercise should be reduced.
  • Month Four: By now, your endurance, stamina, exercise potential, and overall performance ability should supersede all your expectations. If you have never been on testosterone therapy before your first program and you have been eating well and exercising from the beginning, you will be surprised at the level of transformation you have experienced. Furthermore, it will be evident that these results and this amount of energy output would not be possible without restoring your testosterone levels to the numbers had in your youth.
  • Month Five: The changes and improvements in your physical performance, ability, and growth will be fantastic. If you were experiencing mental problems such as sadness, depression, anxiety, or even mental fatigue, by now you should notice substantial progress in your ability to deal with unpleasant or challenging scenarios and circumstances. Remember that all the other positive changes you have experienced will also contribute to a sense of self-improvement. This makes you naturally feel better about your progression and growth. More importantly, the physiological changes in brain chemical secretion add to your sense of fulfillment, happiness, and overall well-being.
  • Month Six: All individuals are receiving testosterone experience different effects by six months of therapy. What you experience will also depend on how many cycles of testosterone therapy you have participated in previously. Sometimes, a user’s sense of improvement begins to dwindle or remain stagnant. The body can become used to the type, or ester, of testosterone that is being used if the same therapy is continued for more than 1 or 2 years. Also, because other processes in the body cease to function when testosterone levels are manipulated using testosterone injections, the benefits of therapy begin to diminish and the “feel good” scenarios that were being experienced stopped.

Well-structured Sermorelin Therapy:

Month one:

  • Increased energy
  • Deeper, more restful sleep
  • Improved stamina
  • A more content state of mind

Month Two:

  • Reduced belly fat
  • Improved metabolism
  • The return of some muscle tone
  • Improved skin tone and fewer wrinkles
  • Stronger hair and nails

Month Three:

  • Increased mental focus
  • Improved flexibility and joint health
  • More feelings of drive and ambition
  • Enhanced sex drive and performance

Month Four:

  • Improved mental acuity
  • Better skin elasticity
  • Further improved appearance of the hair and nails
  • Continued weight loss
  • Increased lean muscle mass

Month Five:

  • Continued loss of belly fat
  • Improved skin tone with the reduced appearance of wrinkles
  • Noticeably fuller, healthier hair

Month Six:

  • A 5–10% reduction in body fat, without diet or exercise
  • A 10% increase in lean muscle mass
  • Significantly improved physique
  • Increased vitality dies to organ regrowth (vital organs, including the brain, shrink with age)

March 5, 2019 by Joseph Fermin 0 Comments

What is Follicle Stimulating Hormone (FSH)?

What is Follicle Stimulating Hormone

What is Follicle Stimulating Hormone (FSH), is one of the gonadotrophic hormones, and the other being a Luteinizing Hormone (LH). The pituitary gland releases both into the bloodstream and body, and Follicle Stimulating Hormone (FSH) is one of the hormones essential for the development function of women’s ovaries and men’s testes. In women, Follicle Stimulating Hormone (FSH) stimulates the growth in the ovary before the release of an egg from one follicle to the ovulation. It also increases estradiol production. In men, Stimulating Follicle Hormone (FSH) acts on the Sertoli cells of the testes to stimulate sperm production (spermatogenesis).

How is Follicle Stimulating Hormone (FSH) control?

The release of Follicle Stimulating Hormone (FSH) is regulated by the levels of some circulating hormones released by the ovaries and testes. This system is called the hypothalamic–pituitary–gonadal axis. The gonadotropin-releasing hormone is published in the hypothalamus and the receptors in the anterior pituitary gland to stimulate both the synthesis release of Follicle Stimulating Hormone (FSH) and Luteinizing Hormone (LH). The released Follicle Stimulating Hormone (FSH) is carried in the bloodstream, where it binds to receptors in the testes and the ovaries. Using this mechanism Follicle Stimulating Hormone (FSH), along with Luteinizing Hormone (LH), can control the functions of the ovaries and testes.

follicle stimulating hormone

In women, when hormone levels are deficient, and it has complication the menstrual cycle, this is sensed by nerve cells in the hypothalamus. These cells produce the more gonadotrophin-releasing hormone, which in turn stimulates the pituitary gland to produce more Follicle Stimulating Hormone (FSH) and Luteinizing Hormone (LH), and release these into the bloodstream. The rise in Follicle Stimulating Hormone (FSH) and stimulates the growth of the follicle in the ovary, and the cells of the follicles produce increasing amounts of estradiol. In turn, this production of these hormones is sensed by the hypothalamus, and pituitary gland and less gonadotrophin-releasing hormone and Follicle Stimulating Hormone (FSH) will be released, However, as the follicle grows, and more and more estrogen is produced from the follicles, it simulates a surge in luteinizing hormone (LH) and Follicle Stimulating Hormone (FSH), which stimulates the released egg from a mature follicle – ovary.

During women menstrual cycle, there is a rise the Follicle Stimulating Hormone (FSH) secretion in the first half of the period and stimulates follicular growth in the ovary, after ovulation, each month the ruptured follicle forms and Corpus luteum that produces high levels of progesterone. This inhibits the release of stimulating Follicle Stimulating Hormone (FSH), and towards the end of the cycle the Corpus luteum breaks down, and progesterone production decreases. The next menstrual period begins when Follicle Stimulating Hormone (FSH) starts the production again, and get back to normal…

follicle stimulating hormone

Now In men, the production of Follicle Stimulating Hormone (FSH) is regulated by levels of testosterone and inhibin, both produced by the testes. Follicle Stimulating Hormone (FSH) regulates testosterone levels and when this rise they are sensed by nerve cells in the hypothalamus so that gonadotropin-releasing hormone secretion and consequently Follicle Stimulating Hormone (FSH) is decreased. The opposite occurs when testosterone levels drop. This is known as a ‘Negative Feedback in the body’ control so that the production of testosterone remains steady. But the sensed by cells in the anterior pituitary gland rather than the hypothalamus.

What happens if you have too much Follicle Stimulating Hormone (FSH)?

Most often, and raised levels of Follicle Stimulating Hormone (FSH) are a sign of malfunction in the ovary or testis. If the gonads fail to create enough estrogen, testosterone and inhibit, the right feedback control of Follicle Stimulating Hormone (FSH) production from the pituitary gland is lost, and the levels of both Follicle Stimulating Hormone (FSH) will rise. This condition is called hypogonadotropic-hypogonadism and is associated with primary ovarian failure or testicular failure. This is seen in states such as Klinefelter’s syndrome in men and Turner syndrome in women.

In women, Follicle Stimulating Hormone (FSH) levels also start to rise naturally in women around the menopausal period, reflecting a reduction in the function of the ovaries and decline of estrogen and progesterone production.

There are rare pituitary conditions that can raise the levels of Follicle Stimulating Hormone (FSH) in the bloodstream. This overwhelms the regular negative feedback and can cause ovarian hyperstimulation syndrome in women ovaries.

Symptoms: This includes enlarging of the ovaries and potentially dangerous accumulation of fluid in the abdomen, and triggered the rise in ovarian steroid output. Which leads to pain and other problems in the pelvic area of the body.

What happens if don’t produce enough Follicle Stimulating Hormone (FSH)?

In women, lack of Follicle-Stimulating-Hormone (FSH) leads to incomplete development in puberty o poor ovarian function (ovarian failure), and In this situation ovarian follicles do not grow properly and do not release in the egg, thus leading to infertility. Since levels of Follicle-Stimulating-Hormone (FSH) in the bloodstream are low, this condition is called hypogonadotropic-hypogonadism. This condition is called Kallman’s syndrome, which is associated with a reduced sense of smell.

Sufficient Follicle-Stimulating-Hormone (FSH), this action is also needed for proper sperm production in men, in case of complete absence of Follicle Stimulating in men, and the lack of puberty and infertility due no production of sperm is called (azoospermia). Partial Follicle-Stimulating-Hormone (FSH) deficiency in young men, can also cause delayed puberty and low sperm production, called (oligozoospermia), but fathering a child may still be possible. Follicle-Stimulating-Hormone (FSH) occurs after puberty; there will be a similar loss of fertility…

March 4, 2019 by Joseph Fermin 0 Comments

What is Luteinizing Hormone (LH) and Testosterone

What is Luteinizing Hormone &
The Productions of Testosterone

If you google the word Luteinizing Hormone or (LH), most of the articles you will find talks about the role of luteinizing hormone in women. There is very no info about the part of Luteinizing Hormone in men. While it may seem like a female hormone due to its role in ovulation, a surge of Luteinizing Hormone is a trigger that causes the ovary to release the egg, in the body. If you’ve been trying to conceive or have a baby your wife, significant other may be monitoring her Luteinizing Hormone levels. If she has trouble with ovulation, your doctor may prescribe medications that help with ovulation.

Many of this medication help stimulate the body to produce more Luteinizing Hormone (LH) and its cousin hormone, Stimulating Follicle Hormone (FSH). If you are not trying to conceive, or get pregnant, she may be on hormonal birth control pills. These pills prevent ovulation by blocking Stimulating Follicle Hormone and Luteinizing Hormone. It is one of the manliest hormones in your body. You can think of Luteinizing Hormone as a tiny drill sergeant that commands the Leydig Cells in the testicle to produce testosterone. When Luteinizing Hormone is present, the Leydig Cells generate Testosterone, when it is not, they don’t. Luteinizing Hormone is commander and chief of your Testosterone and critically crucial for sperm production count, muscle building, and overall sexual health.

Male hormones have a clinical nature to them. Luteinizing Hormone (LH) signals the testicle to produce Testosterone. Testosterone seeps out of the testis and into the bloodstream, where it circulates the body and put to good use. Manly things like growing chest hair, increase muscle and your voice deep are some of the effects.

Luteinizing Hormone or (LH)

The brain monitors the blood testosterone levels;

  • If they drop too low, it will send a signal to the pituitary gland to send out more Luteinizing Hormone (LH) to kick start testosterone production.
  • If your testosterone is chronically low (as in the case with hypogonadism or Low Testosterone), the brain will respond by increasing the level of Luteinizing Hormone (LH).
  • If testosterone is chronically higher (as in the case with using testosterone therapy, other performance enhancers or steroids), the brain will shut down production of Luteinizing Hormone (LH). When testosterone therapy is stopped, without post-therapy, men can experience a “crash” as Testosterone levels plummet, but with a post-therapy, the brain lags in re-starting the machinery to generate Luteinizing Hormone.

Getting Tested:

To measure Luteinizing Hormone (LH) levels, you will need to get blood work in a hormone clinic done. Because, doctors will order blood to estimate a panel of hormones which usually includes Stimulating Follicle Hormone, Luteinizing Hormone, Testosterone, Estrogen and They may also add Estrodial, Prolactin which will provide additional information into the insight into your hormonal health and a physical to know your body composition.

In a typical day, Luteinizing Hormone (LH) and Testosterone levels cycle from high to low. When getting blood work done to measure hormone levels, it is important to note the time of day that the analysis was performed to understand the values better.

Testosterone naturally will peak first thing in the morning (partially responsible for morning “wood”). For this reason, doctors prefer to regulate hormones between 8-10am to get a snapshot of your hormone panel profile when Testosterone level is likely to be highest.

When preparing for a Luteinizing Hormone test and to sure your doctor is aware of a few things like:

  • Current Prescription Taking: Current or past use of testosterone therapy. (If you are using anything at the gym or in supplements stores and you aren’t quite sure), you should bring it with your doctor about the appointment.
  • The Use Of Marijuana or THC: It may decrease the number of hormones levels, including Luteinizing Hormone.
  • Medical Radioactive Tracer: This can interfere with the test
  • Normal levels Luteinizing Hormone Range For Adult Males: 1–10 mIU/mL.

They are different labs report different reference ranges, and based on the exact way that they perform the blood work test. From a review of various lab reports, Values lower than 1.0 or higher than 10.0 typically indicate some problem.

For average men, Luteinizing Hormone (LH) typically falls somewhere between 4-7mIU/mL with drops and surges (about 6) throughout the day. Values below 4 and above seven may be considered borderline, and are useful to look at when compared to other hormones, particularly Testosterone and Prolactin.

In the studies that we have reviewed and found that these types of conditions have shown, and can significant drops in testosterone levels and minimal effect in Luteinizing Hormone (LH). Occasionally, Luteinizing Hormone may show up a little low, but often it is entirely in the normal range.

Therefore, low testosterone levels accompanied with normal Luteinizing Hormone (LH) levels often indicate the cause of Low Testosterone can tremendously help to diagnose the condition and also help to create a game plan for treating the cause while managing symptoms of low Testosterone.untitled-design-16

Whats the Causes of high Luteinizing Hormone in Men?

If Luteinizing Hormone (LH) is high and testosterone is low. Then some damage is causing the testicle, or the pituitary gland is trying to compensate by going into overdrive and flooding the balls. With extra Luteinizing Hormone in hopes that it will encourage higher Testosterone production. In cases like this, Luteinizing Hormone levels are often off the charts high sometimes double or triple the average values.

Common causes for this include:

  • Chromosome Abnormalities: Such as Klinefelter’s syndrome
  • Childhood Problems: Such as testicle or testicular torsion, The injury that causes significant damage to testicular tissue
  • Viral Infection: (most commonly mumps) that damages the testis.
  • Radiation exposure or chemotherapy
  • Testicular cancer
  • Borderline High Luteinizing Hormone (LH) levels

Medications or untreated autoimmune disorders can cause slightly elevated Luteinizing Hormone (LH) levels (8.0 – 10.0 range). Some studies have linked Celiac’s Disease with elevated somewhat Luteinizing Hormone (LH). Men with the untreated disease can have moderately high Luteinizing Hormone levels, that usually return to normal upon starting a gluten-free diet.

What causes low Luteinizing Hormone in Men?

The most common reason for Luteinizing Hormone deficiency in men is the use of external androgens (testosterone, other performance enhancers or non-medication). External androgens can trick the brain into thinking the body is producing naturally high levels of testosterone which low down production of luteinizing hormone (LH) and consequently natural testosterone production.

The second most common cause of low Luteinizing Hormone (LH) levels is a health issue, and can directly impact the function of the pituitary in the brain, Most common causes of the pituitary malfunction can include genetic conditions, such as Prader-Willi Syndrome or Kallman’s Syndrome and can cause other problems like:

  • Pituitary tumors (cancerous and benign)
  • Hyperprolactinemia
  • Head trauma
  • Various Medications
  • Auto-immune disorders
  • Borderline low Luteinizing Hormone (LH) results

Luteinizing Hormone levels in the 1.0 – some things can cause 3.0 range. Like, reduce temporarily imbalance hormones: such as overtraining, endurance. They are significantly under or overweight Alcohol consumption spikes in insulin medications or other drugs. High-stress Chronic conditions: that can cause hormone imbalance: such as diabetes, insulin resistance, various auto-immune disorders and can create borderline or low levels of Luteinizing Hormone (LH).