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Erythropoietin (EPO) is a naturally occurring protein hormone. EPO is produced in the body
by the kidneys and is used to regulate red blood cell production.
Patients suffering from anemia or chronic renal failure are legally
allowed to use this form medically, it is proven that this product
effectively stimulates and maintains erythropoiesis in a large
percentage of patients treated. The efficiency of this drug quickly made it a ready replacement for older and less effective therapies such as
Anadrol (oxymetholone) 50 or Nandrolone Decanoate. The biological
activity or rHuEPO is indistinguishable from that of human
erythropoietin. Some athletes have decided to take advantage of this
substance as well.
Nowadays, all EPO on the market is Recombinant human erythropoietin (rHuEPO). There are five erythropoiesis-stimulating agents currently available: epoetin-alpha, epoetin-beta, epoetin-omega, epoetin-delta, and darbepoetin-alpha. Both, endogenous and recombinant EPO makes body producing more red blood cells, thus increasing oxygen transmission from lungs to all systems of the body, including muscles, which results in increased stamina in performance sports. In the medicine it cures symptoms of anemia including cancer-caused.
EPO in the SPORT
EPO has put a whole new spin on blood doping. No need for messy transfusions, just shoot up with EPO to increase your circulating erythrocyte mass.
EPO is actually not that dangerous a product to use if it is used PROPERLY, and one`s blood is monitored. With proper blood work, and boosting to a safe level (typically max of 53-54% for elite level endurance athlete, while it`s around 40% for "normal" people) there shouldn`t be major complications. But do not cross that line.
Endurance athletes are highly attracted to EPO for the effect it has on red blood cell production. It is no secret that the practice of "blood doping" is popular with endurance sports. This procedure involves removing and storing a quantity of blood from your body, to be later replaced. By adding this stored blood before an event (by then the body has restored the lost blood volume), the athlete has a much greater number of red blood cells. The blood can therefore transport oxygen more efficiently, and the athlete is given a noticeable endurance boost. This has no doubt been the difference between winning and losing for many individuals. This procedure, however, carries with it a great number of risks. Blood is a difficult thing to store and administer, not to mention the problems that can occur with the extra cell volume. Part of these risks (besides cells volume problem) are reduced with EPO, a drug that basically equates to "chemical blood doping". Some studies have shown that athletes have had an 9% increase in VO2 max, 7% increase in power output, and a 5% decrease in max heart rate.
While the benefits of using erythropoietin are
unquestionable, there are serious side affects that an athlete needs to
consider. After injection, the blood has a higher concentration of red
blood cells and a thicker viscosity. This may lead to thromboembolic
events that could be fatal. I.e. if you dope
more than necessary, thrombs may stop the bloodstream during the
exercises and sportsmen dies. There are serious suspicions against EPO
for the deaths of some top cyclists during 80s and 90s. Seizures and
hypertension are also demonstrated in those athletes who are blood
doping. Most athletic federations have banned this practice and a
hemoglobin limit of 18.5 g/dL has been implemented.
The injection of EPO in the body is a practice that would be very beneficial to any athletes involved in endurance activities. It would allow them to carry more oxygen per unit of blood than before thus improving their performance. Who can use it? All long-distance runners (800+meters), cyclists, etc., i.e. anywhere you need high aerobic stamina. EPO also increases performance and durability of all fighters and players (football, hockey players, etc.)
In a study done by Audran, nine well-trained athletes (seven males, two females) received a 50U/kg dosage of rhEPO daily for 26 days. Tested were four triathletes, two cyclists, one rower, one swimmer, and one handball player, averaging an age of 24 years old and weight of 73kg. During treatment, significant increases in reticulocyte, EPO and sTfr concentrations and sTfr/serum protein ratios were seen by day ten, whereas hemoglobin and hematocrit levels did not clearly increase until day 14. From the results after the last rhEPO injection, reticulocyte, hemoglobin and sTfr concentrations remained above baseline values for seven days; and hematocrit levels remained above baseline up to 14 days; and EPO levels stayed above baseline for two days, as was expected due to its short half-life. Physiological tests were also done to measure the effect of rhEPO. On average, VO2max increased by 5ml/min/kg, and maximum heart rate lowered by 9 beats/min after the treatment period. In simple words - athlete can take advantage on the EPO injections effect for up to two weeks, but peak level is reached just after the last injection.
EPO Dosage and Usage
Weekly dosage varies 50-300 IU per kilogram of body weight. By this guideline a 176 lb (80 kgs) athlete would take a maximum of 4000 U per injection. This would be done in the days/weeks prior to a competition, the peak effect hopefully reached near the day of the event. Sportsmen starts feeling results after two weeks of usage (hematocrit level increases 3-4%). Most of specialists agree that one should not use erythropoietin for more than six weeks!
We find it optimal to use following schedule: Loading phase 4500-12000 IU for week 1-3 (6000 IU in average), then keep supportive dosage 3000-4000 IU for weeks 4-6. Weekly dosage is to be split on three equal shots.
Also one can use this formula: 20-30 IU per kg for every shot (three shots a week). Conservative approach is 4500 IU / week (3 shots x 1500 IU) with 3000 IU supportive dosage (3 shots x 1000 IU).The higher dosage is - the more effect and more risks you gain. Anyway, it depends on the personal characteristics, base levels, target goals desired. Blood tests recommended if you`re toying with higher doses.
Take one tab of aspirin two times a day after meal or along with milk to prevent stomach damages (milk neutralizes aspirin acids). Aspirin will decrease blood viscosity thus decreasing risks of thrombosis which could be fatal during the long race due to sweating and extreme dehydration.
In general, greater
dosages of rhEPO induce a quicker response of increased erythropoiesis
than lower dosages, however, they are more likely to be detectable by
doping tests. If athlete is not in a rush, it`s better to make three
shots a week - peak form will be achieved anyway.
EPO is sold in recombinant form (rhEPO) for injection. It usually is packaged as a lyophilized (freeze dried) powder that is reconstituted with sterile water before injection. Injections preferably to be made by thin needle with insulin syringes. Erythropoietin is to be given subcutaneously (between the skin and muscle - into the body fat) or intravenously. These two paths of administration have greatly different effects on the blood level of the drug. When given as an IV injection, peak blood levels of the drug are reached very quickly. The half-life is also short, approximately 4 or 5 hours long. When administered "SubQ", the drug will take 12 to 18 hours to reach a peak level. Given an equal dose, this concentration will also be much lower than the intravenous method. The half-life also greatly extended, estimated to now be approximately 24 hours.
SubQ injections are to be made in the outer upper arms, front of thighs, or abdomen. If you are injecting in the abdomen, just be sure to not be too close to the umbilicus. If you`re doing some anticoagulant as well, you could still give EPO in the abdo, just not in the same site. EPO injections often burns because you inject it cold. If you can roll it between your hands a couple of minutes or let it get to room temperature, it is painless as an insulin injection.
Be extremely careful if you are going to use Erythropoietin (EPO) along with anabolic steroids, this can be a dangerous chem to mess with, especially with erythropoetesis-stimulating drugs like Anadrol.
Some endurance athletes may use both, EPO and winstrol during preparation for the contest, however, we have no information on the possible synergetic effects, and, most important, side effects. If anyone emails us his own winstrol + Erythropoietin (EPO) experience - this would be appreciated.
With high dosages anticoagulant therapy such as Lovenox is indicated to help reducing the risk of developing DVT, or deep vein thrombosis. For regular dosages aspirin is enough.
In practice, it is common for rhEPO injections to be accompanied with intravenous injections or oral supplementation of iron (orals are more effective). However, Iron overload may occur and lead to symptoms similar to those of genetic hemochromatosis. Folic asid and Vitamins also advisable.
Here`s possible EPO stack (weekly dosage!): 100 IU/kg of rhEPO; 25mg of iron, 25mg of folic acid; 2500mcg of Vitamin B12, lenght of treatment 10-20 days, 2-3 shots per week.
Doping control and EPO
Until recently, accurate testing has been difficult because the recombinant
human EPO made in the lab is virtually identical to the naturally
occurring form and there are no firmly established normal ranges for EPO in the body. The only previously available route to curtail cheating
for sports governing bodies was to ban an athlete if the hematocrit
level was too high (e.g., above 50%). Thus, in the past many athletes
chose to cheat because, as long as they kept their hematocrit levels
below 50%, there seemed little risk of getting caught. Of course, the
other way to get caught was highlighted in the disastrous 1998 Tour de
France. Several team doctors and personnel from several teams were
caught red-handed with thousands of doses of EPO and other banned
substances. Ultimately about 50% of the teams withdrew from the race –
either for cheating or in protest.
Unfortunately, testing technology has now notably improved. There are now accurate urine and blood tests that can detect the differences between normal and synthetic EPO. This test became the standard one and was the sole means to detect for EPO use in the 2004 Athens Olympic Games. The reliability of this test helps explain the cascade of athletes who have been caught. Therefore, at the present, athlete must consider "window" - just like with steroid use - when chances to detect falls down, but effect is still considerable. I.e. at the moment of competition, EPO should move out of the system but red blood cells should be still in.
There are short-acting and long-acting types of EPO (we offer short-acting version). It`s better to take smaller doses on regular basis than single big injection. This reduces the possibility of detection by the urine test by lowering the percent of basic isoforms in the urine. A smaller dose means a drug tester might only have 12 hours to detect the last injection, and given the fact that drug tests aren`t usually carried out in the middle of the night, this leaves only a very small window open for being tested "positive". Taking small, regular doses also simulates the body`s natural physiology more closely than a super-sized dose, which means that it could even get under the radar for the longer term blood testing. So 2000 IU three times a week is better than 6000 IU once a week.
Detection time varies 12-48 hours according to different sources (in fact you might be in danger even longer with high dosages). Most likely it also highly depends on the dosage and cycle schedule. Fortunately, rhEPO has a short half-life and is similar in structure to endogenous EPO. These two factors make blood and urine detection difficult since electrophoretic techniques must be done within a limited time frame in order to be able to distinguish between the two forms of erythropoietin.
So, what is this test? It is possible to detect rhEPO in urine and blood serum as was done by Wide. He tested 15 healthy, moderately-trained men between the ages of 19 to 40 years old. At a fairly low dosage, 20U/kg three times a week for eight weeks, rhEPO was accurately detected in blood up to two days after the last injection; and in urine one day after the last injection. From the data, sensitivity of the test decreases to fifty percent in detecting rhEPO in blood or urine after three days from the last injection
In order to gain the physiological effects of rhEPO, athletes need to continue its use until a late stage of preparation for an event. A test for increased erythropoiesis in the two to six weeks before competition would have a high likelihood of detecting rhEPO abuse - they can catch you during preparation.
Risks and side effects with EPO
Just like with steroids - you should use it wisely. Inappropriate usage might be dangerous if not fatal, but proper one eliminates all the risks or decreases it to the affordable level. Nowadays, we gained enough experience and stats to know how to avoid the problems.
The reason that EPO, and transfusion blood doping, might be dangerous is because
of increased blood viscosity. Basically, whole blood consists of red
blood cells and plasma (water, proteins, etc.). The percentage of whole
blood that is occupied by the red blood cells is referred to as, the
hematocrit. A low hematocrit means dilute (thin) blood, and a high
hematocrit mean concentrated (thick) blood. Above a certain hematocrit
level whole blood can sludge and clog capillaries. If this happens in
the brain it results in a stroke. In the heart, a heart attack.
Unfortunately, this has happened to several elite athletes who have used EPO in 80es.
EPO use is especially dangerous to athletes who exercise over prolonged periods. A well-conditioned endurance athlete is more dehydration resistant than a sedentary individual. The body accomplishes this by several methods, but one key component is to “hold on” to more water at rest. Circulating whole blood is one location in which this occurs and, thus, can function as a water reservoir. During demanding exercise, as fluid losses mount, water is shifted out of the blood stream (hematocrit rises). If one is already starting with an artificially elevated hematocrit then you can begin to see the problem - it is a short trip to the critical “sludge zone” (so drink enough liquids and don`t forget about aspirin!).
Additional dangers of EPO include sudden death during sleep, which has killed approximately 18 pro cyclists in the past fifteen years, and the development of antibodies directed against EPO. In this later circumstance the individual develops anemia as a result of the body’s reaction against repeated EPO injections (so do not use for longer than 6 weeks! and do not use through the whole year, do it 1-2 times before the most important competitions).
There are also a number of side effects
associated with general use of this substance. Most notable, blood
pressure can begin to rise as cell volume changes. This can reach the
point of headaches and high blood pressure, obviously an unwanted
effect. Additionally, flu-like symptoms, aching bones, chills and
injection site irritations are also possible. Since athletes are not
using this product for a medical condition, a strong incidence of side
effects should be an indicator to discontinue using the drug. Clearly
one should not wish to compromise their health for an athletic push.
|Package||10 vials = 30000IU|