Wound Healing...Title: Effect of PEMF on Human Tenocyte Cultures from Supraspinatus and Quadriceps Tendons Location in PEMF Global Library: Wound healing folder Published: October 2010 Applied Frequencies: 50 Hz Available in: iMRS Prime Trial Abstract: To investigate the effects of pulsed electromagnetic fields (PEMFs) on human tenocyte cultures and to assess whether PEMFs could represent a viable therapeutic option in tendon pathologies. Conclusion: PEMFs comparable with the ones used for the management of pseudoarthrosis stimulate closure of an in vitro laceration of a tenocyte monolayer. Our results provide the preliminary in vitro work and the basis to support the study of the in vivo effects of PEMFs on tendinopathies. Title: EMF as First Messenger in Biological Signaling - Application to Calmodulin-dependent Signalling in Tissue Repair Location in PEMF Global Library: Wound healing folder Published: 2011 Applied Frequencies: 27.12 Hz Available in: Omnium1, iMRS Prime Trial Abstract: This study proposes that an EMF can act as a first messenger in the calmodulin-dependent signaling pathways that orchestrate the release of cytokines and growth factors in normal cellular responses to physical and/or chemical insults. Conclusion: The predictions of the proposed model open a host of significant possibilities for configuration of non-thermal EMF signals for clinical and wellness applications that can reach far beyond fracture repair and wound healing. Title: PEMF promotes collagen fibre deposition through myofibroblast proliferation in diabetic wound healing Location in PEMF Global Library: Wound healing folder Published: October 2015 Applied Frequencies: 25 Hz Available in: Omnium1, iMRS Prime Trial Abstract: The present study evaluated the effects of PEMF on collagen fibre deposition, collagen fibril alignment and collagen fibre orientation. The potential relationships between collagen fibre deposition and myofibroblast population in diabetic wound healing were also examined. Conclusion: PEMF can significantly increase collagen fibre in the early phase of diabetic wound healing, which is associated with the enhancement of myofibroblast population. Title: PEMF: Effective adjuvant therapy in venous and vasculitic leg ulcers Location in PEMF Global Library: Wound healing folder Published: 2008 Applied Frequencies: 4 Hz Available in: Omnium1, iMRS Prime Trial Abstract: Many modalities have been used for conservative treatment of leg ulcers and pulsed electromagnetic field (PEMF) was used for wound healing as it has a number of well documented physiological effects on cells and tissues. Conclusion: PEMF therapy improves the rate and degree of healing and reduces pain in resistant venous and vasculitic leg ulcers, this suggests that it could be a useful addition as an effective adjuvant treatment to non-surgical therapy of leg ulcers. There is need for further studies in a larger population to determine the optimal treatment dose, timing and duration of electromagnetic therapy and applicability of using it in resistant ulcers of other aetiologies. Want complete access to the library?
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