Some patients who experience bone injuries and spinal fusion surgery have difficulty healing. In many of these cases, there are certain health factors that may have impaired the natural healing process of the bones.
When this occurs in patients with fractures, doctors may diagnose the condition as a nonunion, meaning the fracture has failed to show evidence of healing. Similarly, when this occurs in patients who have undergone spinal fusion surgery, doctors may determine that additional treatment options are necessary to get the vertebrae of the spine to properly fuse.
The devices stimulate the natural healing process of bone by sending low‑level pulses of electromagnetic energy to the injury or fusion site.
To help overcome these healing challenges, doctors commonly prescribe a treatment called bone growth therapy.
When bone is broken or bent, it generates an electrical field. This low-level electrical field is part of the body’s natural process that stimulates bone healing. When this healing process fails to occur naturally, bone growth therapy can be used to help the process.1-3
Orthofix Bone Growth Therapy devices provide a safe, noninvasive treatment that helps promote healing in fractured bones and spinal fusions that have not healed or have difficulty healing. The devices stimulate the bone's natural healing process by sending low-level pulses of electromagnetic energy to the injury or fusion site.4-9
Orthofix Bone Growth Therapy devices create a low-level pulsed electromagnetic field (PEMF), which helps activate the body’s natural healing process.1-3
Published pre-clinical research shows that PEMF affects bone healing processes at the molecular, cellular and tissue levels.*7-9,15,16 At the cellular level, the PEMF signal activates bone growth signaling pathways, which enhances bone formation by
The PEMF signal is produced from a coil built into a fabric garment that is worn over the fracture or fusion site. The garment can be worn over clothing, casts, or braces.
The result of these molecular, cellular and tissue processes is improved healing rates of a nonunion fracture or fusion.