Laminine testimony on Femoral Head Decompression, Fracture and Bone Disease

Laminine testimony on Femoral Head Decompression, Fracture & Bone Disease

Although no formal research has been done to determine Laminine’s effect on bone repair, our team has had several direct testimonies.

A male patient who was 50 years old at that time suffered bone degeneration. His femur head (thigh bone) degenerated. It only retained about 30 percent bone composition. As a result, he can no longer walk.

After taking two capsules of Laminine and Laminine Omega, he was able to steadily rebuild the thigh bone from three weeks to about six months.

How Laminine works in bone reconstruction

The well-orchestrated process in which crystals of calcium phosphate are produced by bone-forming cells was signaled by Laminine’s Fibroblast Growth Factor.

Laminine, with its complete chain of 22 amino acids, provided the ‘materials’ to repair the bone, coupled with FGF’s cell signaling abilities. His dramatic recovery also saved them from further medical expenses.

FGF-2 and FGF-18 for bone marrow health

A study published in NCBI on FGF-2 and FGF-18 for bone marrow health promoted cellular proliferation (repair). These growth factors have regenerative effects that affect bone health in general.

Critical research on growth factors and bone health

• Previous studies have demonstrated that fibroblast growth factor-2 (FGF2, also known as basic FGF or bFGF) is a bone anabolic agent able to promote bone formation by stimulating proliferation and differentiation mesenchymal stem cells.
• Systemic administration of recombinant FGF2 protein increases bone formation and promotes fracture repair ^[1].
• Mesenchymal stem cells, or MSCs, are multipotent stromal cells that can differentiate into a variety of cell types, including osteoblasts (bone cells), chondrocytes (cartilage cells), myocytes (muscle cells), and adipocytes (fat cells) ^[2]
• Clinical studies also have shown that FGF2 expression leads to more significant bone formation ^[1]

Reference:
[1] FGF2 Expression Leads to Enhanced Endosteal Bone Formation
[2] Wikipedia on Mesenchymal stem cell