PEG MGF, PEG Mechano Growth Facto or Igf1 ec is a new and innovative form of MGF that outperforms natural MGF many times over.
MGF is a splice variant of the IGF gene which increases stem cell count in the muscle and allows for muscle fibers to fuse and mature.
Quick Details :
Purity (HPLC): 98.0%
Appearance: White powder
Single Impurity(HPLC): ≤0.5%
Amino Acid Composition: ±10% of theoretical
Peptide Content(N%): ≥80.0%
Water Content(Karl Fischer): ≤8.0%
Specific Rotation: (20/D) -55.0~-65.0°(c=1 1%HAc)
Mass Balance: 95.0~105.0%
Bacterial Endotoxins: ≤5 EU/mg
Peg MGF --- Muscle Growth & and Muscle Repair
Scientific study that has been built around animal test subjects has determined that Peg MGF’s functional processes has enabled it to possibly be key in elevating several rudimentary processes that are linked to muscle and tissue growth and repair. Some of these processes include:
|1.mproved regeneration of skeletal muscle||
- Because Peg MGF has been shown to extend the half-life of mechano growth factor by ways of initiating PEGylation, scientific study based on animal test subjects has determined that the presence of the peptide can increase the animal test subject’s ability to build and repair muscular and skeletal tissue in a significantly more efficient manner.
|2.mprovement of bone density||
- Scientific study that has been based on animal test subjects has determined that the Peg MGF’s ability to promote skeletal tissue growth and repair ties to an ability to induce an enhanced amount of bone mineral to be produced. Because of this, it is thought that the peptide’s presence can enable an animal test subject to experience a boost in overall bone density. This elevated process can lead to bones that are sturdier, more durable, and less vulnerable to breaks and fractures.
|3. faster, more efficient means of injury recovery||
- Scientific study that has been built on animal test subjects has determined that the overall functionality of Peg MGF causes a boost in the amount of time in which the materials that are needed in order to repair muscle fiber and skeletal tissue can be expressed. Because of this boost in functionality, it has been determined that this elevated interval can enable an animal test subject’s body to heal more efficiently.