Active Life: 8-12 hours
Drug Class: Anabolic/Androgenic Steroid (Oral)
Average Dose: Men 20-50 mg/day......Women 5-15 mg/day
Acne: Only in higher doses
Water Retention: Rare
High Blood Pressure: Rare
Liver Toxic: Yes, c17-alfa-alkylated steroid. Due to low doses, toxicity
is low to medium
Aromatization: None
DHT Conversion: Low
Decrease HPTA function: Dose depandant
Anavar was the old U.S. brand name for the oral steroid oxandrolone,
first produced in 1964 by the drug manufacturer Searle. It was designed
as an extremely mild anabolic, one that could even be safely used
as a growth stimulant in children. One immediately thinks of the standard
worry, "steroids will stunt growth". But it is actually
the excess estrogen produced by most steroids that is the culprit,
just as it is the reason why women stop growing sooner and have a
shorter average stature than men. Oxandrolone will not aromatize,
and therefore the anabolic effect of the compound can actually promote
linear growth. Women usually tolerate this drug well at low doses,
and at one time it was prescribed for the treatment of osteoporosis.
As the opinions surrounding steroids began to change in the 1980's,
prescriptions for oxandrolone began to drop. Lagging sales probably
led Searle to discontinue manufacture in 1989, and it had vanished
from U.S. pharmacies until recently. Oxandrolone tablets are again
available inside the U.S. by BTG, bearing the new brand name Oxandrin.
BTG purchased rights to the drug from Searle and it is now manufactured
for the new purpose of treating HIV/AIDS related wasting syndrome.
Anavar is a mild anabolic with low androgenic activity. Its reduced
androgenic activity is due to the fact that it is a derivative of
dihydrotestosterone (DHT). Although one might think that this would
make it a more androgenic steroid, it in fact creates a steroid that
is less androgenic because it is already "5-alpha reduced".
In other words, it lacks the capacity to interact with the 5-alpha
reductase enzyme and convert to a more potent "dihydro° form.
It is a simple matter of where a steroid is capable of being potentiated
in the body, and with oxandrolone we do not have the same potential
as testosterone, which is several times more active in androgen responsive
tissues compared to muscle tissue due to its conversion to DHT. It
essence oxandrolone has a balanced level of potency in both muscle
and androgenic target tissues such as the scalp, skin and prostate.
This is a similar situation as is noted with Primobolan and Winstrol,
which are also derived from dihydrotestosterone yet not known to be
very androgenic substances.
This steroid works well for the promotion of strength and duality
muscle mass gains, although it's mild nature makes it less than ideal
for bulking purposes. Among bodybuilders it is most commonly used
during cutting phases of training when water retention is a concern.
The standard dosage for men is in the range of 20-50mg per day, a
level that should produce noticeable results. It can be further combined
with anabolics like Primobolan and Winstrol to elicit a harder, more
defined look without added water retention. Such combinations are
very popular and can dramatically enhance the show physique. One can
also add strong non-aromatizing androgens like Halotestin, Proviron
or trenbolone. In this case the androgen really helps to harden up
the muscles, while at the same time making conditions more favorable
for fat reduction. Some athletes do choose to incorporate oxandrolone
into bulking stacks, but usually with standard bulking drugs like
testosterone or Dianabol. The usual goal in this instance is an additional
gain of strength, as well as more quality look to the androgen bulk.
Women who fear the masculinizing effects of many steroids would be
quite comfortable using this drug, as this is very rarely seen with
low doses. Here a daily dosage of 5mg should illicit considerable
growth without the noticeable androgenic side effects of other drugs.
Eager females may wish to addition mild anabolics like Winstrol, Primobolan
or Durabolin. When combined with such anabolics, the user should notice
faster, more pronounced muscle-building effects, but may also increase
the likelihood of androgenic buildup.
Studies using low dosages of this compound note minimal interferences
with natural testosterone production. Likewise when it is used alone
in small amounts there is typically no need for ancillary drugs like
Clomid/Nolvadex or HCG. This has a lot to do with the fact that it
does not convert to estrogen, which we know has an extremely profound
effect on endogenous hormone production. Without estrogen to trigger
negative feedback, we seem to note a higher threshold before inhibition
is noted. But at higher dosages of course, a suppression of natural
testosterone levels will still occur with this drug as with any anabolic/androgenic
steroid and therefore require post cycle therapy to restore the HPTA.
Anavar is also a 17alpha alkylated oral steroid, carrying an alteration
that will put stress on the liver. It is important to point out however
that dispite this alteration oxandrolone is generally very well tolerated.
While liver enzyme tests will occasionally show elevated values, actual
damage due to this steroid is not usually a problem. Bio-Technology
General states that oxandrolone is not as extensively metabolized
by the liver as other l7aa orals are; evidenced by the fact that nearly
a third of the compound is still intact when excreted in the urine.
This may have to do with the understood milder nature of this agent
(compared to other l7aa orals) in terms of hepatotoxicity. One study
comparing the effects of oxandrolone to other agents including as
methyltestosterone, norethandrolone, fluoxymesterone and methAndriol
clearly supports this notion. Here it was demonstrated that oxandrolone
causes the lowest sulfobromophthalein (BSP; a marker of liver stress)
retention among all the alkylated orals tested. 20mg of oxandrolone
in fact produced 72% less BSP retention than an equal dosage of fluoxyrnesterone,
which is a considerable difference being that they possess the same
liver-toxic alteration. With such findings, combined with the fact
that athletes rarely report trouble with this drug, most feel comfortable
believing it to be much safer to use during longer cycles than most
of other orals with this distinction. Although this may very well
be true, the chance of liver damage still cannot be excluded, especially
with hogher dosages.
At one time oxandrolone was also looked at as a possible drug for
those suffering from disorders of high cholesterol or triglycerides.
Early studies showed it to be capable of lowering total cholesterol
and triglyceride values in certain types of hyperlipidemic patients,
which initially this was thought to signify potential for this drug
as a hypo-lipid (lipid lowering) agent. With further investigation
we find however that while use of this drug can be linked to a lowering
of total cholesterol values, it is such that a redistribution in the
ratio of good (HDL) to bad (LDL) cholesterol occurs, usually moving
values in an unfavorable direction. This would of course negate any
positive effect that the drug might have on triglycerides or total
cholesterol, and in fact make it a danger in terms of cardiac risk
when taken for prolonged periods of time. Today we understand that
as a group anabolic/androgenic steroids produce very unfavorable changes
in lipid profiles, and are really not useful in disorders of lipid
metabolism. As an oral c17 alpha alkylated steroid, oxandrolone is
probably even more risky to use than an injectable esterified injectable
such as a testosterone or nandrolone in this regard.
Steroid Profiles - Anavar (oxandrolone) - Steroidology.com