Pulsed-electromagnetic-field induced osteoblast differentiation requires activation of genes downstream of adenosine receptors A2A and A3

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Our Summary

Previous studies showed the enhancement of cellular differentiation preosteoblast to an osteoblast phenotype. This study now investigates the effects of PEMF therapy on osteoblast differentiation in gene activation of adenosine receptors A2A and A3. Results show that PEMF induced osteoblast differentiation complemented and positively affected adenosine receptor A2A and A3.

Pubmed Study Link

PDF Study Link

Study Categories

bone healing

Authors

[‘Niladri S. Kar’, ‘Daniel Ferguson’, ‘Nianli Zhang’, ‘Erik I. Waldorff’, ‘James T. Ryaby’, ‘Joseph A. DiDonato’]

PMID

33630907

PMCID

PMC7906300

Published Date

more study details

Frequency (Hz)

3850

Frequency Range

High

Intensity (G)

Intensity Range

Waveform

unknown

PEMF/EMF/RF/LT

PEMF

Study Subject Types

human

Keywords Listed

Added Descriptive Keywords

new bone, bone marrow, osteoblast, bone healing, bone formation, human

Disclaimer

All intellectual property and copyright of this research study sourced from PubMed, is the property of the authors and associates and is not the property of HealthMatReview.com. This research study has been included in our custom PEMF research database for the educational purposes of our readers. The on page summary, added descriptive keywords and other study details are copyright of HealthMatReview.com and were added to improve the search function of this custom research database.

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