Announcement

Collapse
No announcement yet.

IGF-1 Pt.1

Collapse
X
 
  • Filter
  • Time
  • Show
Clear All
new posts

  • IGF-1 Pt.1

    Section 1: IGF-1 - The Science - by MuscleTalk Moderator mad_cereal_lover

    IGF-I and its actions in the body
    IGF stands for Insulin-like Growth Factor, named so due to its structure being very similar to the hormone insulin, and is one of a group of hormones call somatomedins. Growth hormone (GH) and IGF-1 share many similarities in their modes of action, and this is in part due to the fact that binding of GH to certain GH receptors results in a signalling cascade that leads to the generation of IGF-1. It is through this route that GH exerts its proliferative (proliferation of cells basically means cell growth) effects1. Like GH, IGF-I enhances protein anabolism. Individuals who are normally fed and are administered both IGF-I and GH see no enhanced protein anabolic effect over either compound alone, however in calorie-deprived subjects, GH and IGF-1 appear to work synergistically to enhance a more positive protein balance2. The current trend of thought and research suggests that IGF-1 mediates the protein-anabolic actions of GH in humans3. IGF-1 also has properties including the transport of amino acids into cells and inhibition of protein degradation.

    IGF-1 has been shown both in vitro and in vivo that it does not possess the lipolytic (fat mobilising) effects that GH exhibits, probably because there are no functional type-1 IGF-1 receptors found in adipocytes4. This may come as a surprise to many bodybuilders who seem to swear by the fat-loss properties of IGF-1 use; however it is highly unlikely that this arises through direct IGF-1 mediated lipolysis5.

    With regards to carbohydrate metabolism, IGF-1 acts much like insulin (no surprise there), and administration of IGF-1 tends towards a hypoglycaemic (low blood sugar) state. Surprisingly though, this does not appear to be completely via the insulin receptor, but probably in addition by way of its own IGF-1 receptor6. IGF-1 is thought to be extremely important in the overall action of insulin on skeletal muscle7. IGF-1 results in improved insulin sensitivity, which is an important point to bear in mind for the bodybuilder who may already use or wish to use insulin. In other words, if you do use IGF-1 and you have not previously used insulin, don't start using it. If you are experienced with insulin and start to take IGF-1, insulin dosages may wish to be lowered as well as increased carbohydrate intake especially after insulin administration.

    Use of IGF-1
    IGF-1 is not a substance that inexperienced bodybuilders should consider using. Several years of anabolic steroid use is recommended before starting a course of IGF-1, and of course one must be aware of the hypoglycaemic effects of IGF-1. There are other serious risks that can occur with the use of IGF-I, such as increased risk of cancer, accelerated growth of tumours and enlargement of intestinal organs8, 9. For these reasons, it should be re-emphasised that for the inexperienced and novice bodybuilder, IGF-1 should not be taken lightly.

    Due to the very short half-life of normal IGF-1 (<10mins) and its highly sensitive and unstable properties, plain (wild-type) IGF-1 is rarely used. Rather, an analogue of IGF-1 referred to as Long R3IGF-1 (LONG?R3IGF-1) is the preferred substance of choice. This analogue has had a substitution for the amino acid arginine (R) at position 3 (hence 'R3') for glutamine, and has been increased in length (hence 'long') by 13 amino acids. Basically these modifications to IGF-1 result in a peptide with lowered binding affinities for proteins that regulate IGF-1, thus increasing the potency of the IGF-1. The other advantage of Long R3IGF-I is its half-life being increased from minutes to several hours. Thus the user can get away using a much smaller amount of Long R3IGF-1 and administration does not have to be as frequent.

    Dosages of Long R3IGF-1
    Dosages of Long R3IGF-1 range from 20mcg up to 120mcg, although I would never recommend over 80mcg. A good starting point is 20-40mcg, however most start at 40mcg. Unlike GH, users report that the effects of Long R3IGF-1 are seen in a much shorter space of time, and a typical course length would be 4 weeks on, but some users go up to 50days on, 50days off. Many people use Long R3IGF-1 in combination with the end of a steroid cycle/beginning of and throughout post cycle therapy (PCT), and see increases in LBM as well as decreases in fat throughout this time. 1-2lbs of clean LBM every 2 weeks is not uncommon.

    Long R3IGF-1 should be injected ideally post workout (PWO) on training days, although a morning/PWO split is also a good option. Long R3IGF-1 is best injected intramuscularly, and users often do this in a bilateral sense PWO in the muscle group just used, e.g. after training biceps one might inject 20mcg into one bicep and 20mcgs into the other. Injecting 5 days on, 2 days off is another common method employed. Although there is no direct scientific evidence of localised muscle growth, it has been suggested that IGF-1 receptors are upregulated specifically to the surface of cells that have undergone strenuous exercise, thus the reasoning for site-specific injections. Many users claim to see site-specific growth, however this as of yet cannot be validated as Long R3IGF-1's mode of action.

    Side effects of Long R3 IGF-1 include in some cases severe headaches, nausea, possible hypoglycaemia and accelerated growth of existing tumours. For this reason I would discourage usage to anyone with a personal (or family) history of tumour growth/cancer.

    Long R3IGF-1 is usually sold in either the lyophilised powder form, or already reconstituted form. There is much confusion as to how stable Long R3IGF-1 is once reconstituted, however unlike wild-type IGF-1, Long R3IGF-1 should be stable for several months once reconstituted even at room temperature, but ideally kept at 4oC, if not -20oC (manufacturers of Long R3IGF-1 recommend reconstitution in 100mM acetic acid to 1mg/ml and stored at -20oC for up to 3 months). This stability is dependent upon correct reconstitution with 100mM acetic acid. The concentration of Long R3IGF-1 is usually at 1mg/ml, thus 0.04ml would be required for 40mcg (4IU on an insulin needle). I know people who have used IGF-1 after having kept it reconstituted in acetic acid in the freezer for 1 year and still got great results. If this is a concern though, one can purchase the lyophilised form of Long R3IGF-1, which can be stored at 2-8oC, and reconstitute themselves, however bear in mind this reconstitution must be done with a sterile solvent and using sterile techniques. Finding the actual studies for this has proven to be somewhat troublesome, as they don't exist publicly, but rather we have to rely on the information given by GroPep on their website. NB: GroPep are the company that produce LongR3 IGF-1, and also own the patent (see www.gropep.com.au for more information):

    How long is the stock solution stable for under these storage conditions?
    Liquid stability data shows that Long R3IGF-1 is stable for 3 years (-20?C to 37?C). Therefore, the stock solution should be stable at 4?C for 3 years.

    Is Long R3IGF-1 stable?
    Re-test date for freeze-dried peptide is 3 years. Liquid formulation stability studies have recently been completed. It is stable for 3 years (-20?C to +37?C). We have data indicating stability in media at 4?C for 1 year.

    Please note, that when GroPep state 'liquid stability' they are referring to LongR3 IGF-1 that has been reconstituted by their recommended techniques, i.e. 100mM acetic acid to a stock concentration of 1mg/ml. Some websites sell media grade Long R3 IGF-1 in both lyophilised and reconstituted form, with the latter being reconstituted according to GroPep's recommendations (100mM acetic acid). If you state in your order from some reputable companies that you would like some extra acetic acid, they usually include an extra 5ml or so for free, so you can dilute your solution further if desired.
Working...
X