Litcius/Paper detail

The role of biophysical stimulation with pemfs in fracture healing: from bench to bedside.

Giovanni Vicenti, Davide Bizzoca, Giuseppe Solarino, Francesco Moretti, Guglielmo Ottaviani, F Simone, Giacomo Zavattini, Giuseppe Maccagnano, G. Noia, Biagio Moretti

2021PubMed21 citations

Abstract

Clinical biophysics investigates the relationship between non-ionizing physical energy and the human body. This narrative review aims to summarize the current evidence on the efficacy of PEMF-therapy in the promotion of fracture healing. The effectiveness of PEMFs has been deeply investigated in preclinical in vitro ed in vivo studies and level-I clinical studies. All these studies depicted only PEMF-devices with specific physical wave features - i.e. pulse shape, frequency and amplitude- could significantly promote bone repair. Moreover, the dose-response relationship was also defined in preclinical studies, thus providing the minimum exposure time needed in PEMF-therapy. PEMFs are currently employed in the management several bone injuries, including acute fractures at non-union risk, non-unions, osteotomies, stress fractures and osteonecrosis. Moreover, several ongoing studies are investigating the effectiveness of PEMFs on emerging clinical conditions, thus the indications to PEMF-therapy could potentially raise in future years.

Topics & Concepts

MedicineBone healingStimulationBone formationNarrative reviewIntensive care medicineBioinformaticsSurgeryInternal medicineBiologyBone fractures and treatmentsMedical and Biological Ozone ResearchLaser Applications in Dentistry and Medicine