Description
Oxandrolone (Anavar) product
Anavar was originally produced in 1962 and has been used for over 30 years to treat catabolic diseases. Anavar is unusual in that it has a high oral bioavailability and is resistant to liver metabolism. Anavar, unlike testosterone, does not aromatize into estrogen. Anavar is used to prevent aging-related muscle loss (sarcopenia) and other catabolic clinical diseases including HIV-related muscle loss, severe burn injuries, post-operative trauma, and hepatitis.
Anavar is known to:
- Reduce visceral and body fat
- Boost skeletal muscle protein production
- Eat more protein and energy
- Boost nitrogen storage
- Boost muscular development, strength, and activity
- Replace the loss of androgen and estrogen hormones
What is Oxandrolone (Anavar)?
Synergistic effects of anavar on muscle
- Boosting the body’s protein production
- Increased androgen receptor in skeletal muscle
- Boosting IGF-1 (insulin-like growth factor)
Anavar has been proven to enhance protein synthesis and improve the benefits of resistance exercise in healthy males.
What are the uses of Anavar (Oxandrolone)?
Anabolic Androgenic Steroids are used to avoid frailty in individuals with chronic wasting diseases. Sarcopenia, AIDS-related muscular wasting, severe burns, post-operative trauma, and other catabolic diseases are examples. Anavar has been used to increase weight growth following major surgery, persistent infectious conditions, or severe trauma.
Oxandrolone (Anavar) absorption
Anavar is an oral medicine taken via the GI system. Anavar serum concentrations peak 1 hour after intake. Anavar is 95% protein bound, which may contribute to its stability and resistance to hepatic breakdown.
The metabolization of Oxandrolone (Anavar).
Anavar, unlike other anabolic steroids, resists liver biotransformation. Anavar is unaltered in the urine in around 28%.
How do Testosterone and Oxandrolone (Anavar) differ?
Anavar has a significantly greater anabolic potential than testosterone, increasing muscle growth, strength, nitrogen retention, decreasing fat deposition, and increasing protein synthesis. Contrary to testosterone, Anavar is intended to reduce undesirable androgenic effects while increasing anabolic characteristics.
Anavar is considerably more anabolic than testosterone. Anavar has a 10:1 anabolic:androgenic ratio and a 2.8 SPAI. Conversely, testosterone has a 1:1 anabolic:androgenic ration and an SPAI of 1.
How does Oxandrolone (Anavar) affect Testosterone levels?
Anavar reduces the natural pituitary axis required for testosterone production. Anavar reduces LH, FSH, SHBG, total and free testosterone in men. Anavar is most frequently used with testosterone in males with persistent muscle wasting diseases.
Anavar use reduces sex hormone binding globulin (SHBG). Reduced SHBG raises free testosterone (active) in the body.