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Literature DB >> 14565756

Use of physical forces in bone healing.

Fred R T Nelson¹, Carl T Brighton, James Ryaby, Bruce J Simon, Jason H Nielson, Dean G Lorich, Mark Bolander, John Seelig.

Abstract

During the past two decades, a number of physical modalities have been approved for the management of nonunions and delayed unions. Implantable direct current stimulation is effective in managing established nonunions of the extremities and as an adjuvant in achieving spinal fusion. Pulsed electromagnetic fields and capacitive coupling induce fields through the soft tissue, resulting in low-magnitude voltage and currents at the fracture site. Pulsed electromagnetic fields may be as effective as surgery in managing extremity nonunions. Capacitive coupling appears to be effective both in extremity nonunions and lumbar fusions. Low-intensity ultrasound has been used to speed normal fracture healing and manage delayed unions. It has recently been approved for the management of nonunions. Despite the different mechanisms for stimulating bone healing, all signals result in increased intracellular calcium, thereby leading to bone formation.

Entities: Chemical Disease

Mesh：

Year: 2003 PMID： 14565756 DOI： 10.5435/00124635-200309000-00007

Source DB: PubMed Journal: J Am Acad Orthop Surg ISSN： 1067-151X Impact factor: 3.020

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Cited

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Use of physical forces in bone healing.

1. Adjunctive therapies in the treatment of osteomyelitis.

2. Effects of ultra-wideband electromagnetic pulses on pre-neoplastic mammary epithelial cell proliferation.

Review 3. Engineering approaches for the detection and control of orthopaedic biofilm infections.

4. MiR-142-5p promotes bone repair by maintaining osteoblast activity.

5. Non-invasive electromagnetic field therapy produces rapid and substantial pain reduction in early knee osteoarthritis: a randomized double-blind pilot study.

6. Pulsed electromagnetic fields and low intensity pulsed ultrasound in bone tissue.

7. Does exposure to extremely low frequency magnetic fields produce functional changes in human brain?

8. Osteogenic protein-1 for long bone nonunion: an evidence-based analysis.

9. Updates in biological therapies for knee injuries: bone.

10. The science of electrical stimulation therapy for fracture healing.