Easy GFC

What is GFC?

Growth Factor concentrate,often known as GFCis a focused growth factor preparation made from an individual's blood cells that are highly safe,dedicated, and offer superior natural results. Numerous growth agents have been added to blood platelets. The gathered GFC is then provided at the location for teatment with specialized equipment and tools. The entire procedure is non-pyrogenous, secure, and spontaneously regenerates damaged tissues without any platelet loss.
Since the treatment is made from the patient's blood without any contamination, it has no adverse effects, it is completely safe, pure, and effective.

Types of Growth Factors

Blood platelets hold a variety of growth factors that support stem cell growth, migration, and differentiation as well as tissue regeneration and repair. As a result, each GFC has a different function. These are as follows:

  • Platelet-derived Growth Factor (PDGF):PDGF stimulates angiogenesis and vascularization while also promoting hair growth. Additionally, it aids in the proliferation and chemotaxis of fibroblasts and the mitogenesis of endothelium and mesenchymal stem cells.
  • Epidermal Growth Factor (EGF): EGF increases mesenchymal and epithelial cellmitogenesis and promotes hair cell proliferation and regeneration. Furthermore, it simultaneously induces angiogenesis.
  • Vascular Endothelial Growth Factor (VEGF): VEGF promotes perifollicularangiogenesis in hair and is expressed in DP cells during the anagen phase of hair growth. In order to speed up the process, it also increases the size of the perifollicular vessels even during the anagen growth stage
  • Insulin-like Growth Factor-1 (IGF-1):IGF-1 stimulates angiogenesis, promotes total hair growth, and sustains HF growth.

How to prepare GFC?

1.Gathering of Blood: Peripheral blood from the patient is drawn, and 4 GFC tubes are equally divided to hold 20 to 24 ml of it.
2.Activation of Platelet and Release of Growth Factors or GFs: The blood is mixed gently in this phaseby the tube being inverted 6-10 times, and then they are left to stand for around 30 minutes. By releasing PDGF, VEGF, EGF, and IGF-1 from the platelets, the GFC treatment tube helps activate platelets.
3.Separation of GFC: Following that, the four tubes are centrifuged for 10 minutes at 3400 RPM to help with counterbalancing.
4.Gathering of GFC: GFC and Autologous growth factor concentrations are gathered in the tubes. GFC is collected at the tube cap and is subsequently collected using a collecting syringe. The needle's tip is inserted just beneath the tube's cover. Maximum GFC recovery is achievable.
5.Application of GFC: The GFC that was gathered is now prepared for implementation. GFC output can be a variety of colors, notably yellow, yellowish brown, orange, and reddish.

Difference Between PRP & GFC