Literature DB >> 6740320

Endogenous ionic currents traverse intact and damaged bone.

R B Borgens.   

Abstract

Living bone drives an electric current through itself and into sites of damage. Such "fracture currents" consist of two components: an intense, decaying current dependent on bone deformation and a stable, persistent current driven by a cellular battery. The latter is carried by chloride ions and, to a lesser extent, by sodium, magnesium, and calcium ions. Endogenous fracture currents are of the same polarity and similar magnitude as clinically applied currents that are successful in treating chronic nonunions in fractured bones. This suggests that the defect in biological nonunions may reside in the electrophysiology of repair.

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Year:  1984        PMID: 6740320     DOI: 10.1126/science.6740320

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  16 in total

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Authors:  Eric S McLamore; David Jaroch; M Rameez Chatni; D Marshall Porterfield
Journal:  Planta       Date:  2010-08-10       Impact factor: 4.116

2.  Intraosseous pressure and strain generated potential of cylindrical bone samples in the drained uniaxial condition for various loading rates.

Authors:  Junghwa Hong; Sang Ok Ko; Gon Khang; Mu Seong Mun
Journal:  J Mater Sci Mater Med       Date:  2007-10-04       Impact factor: 3.896

Review 3.  The Electrical Response to Injury: Molecular Mechanisms and Wound Healing.

Authors:  Brian Reid; Min Zhao
Journal:  Adv Wound Care (New Rochelle)       Date:  2014-02-01       Impact factor: 4.730

Review 4.  Ionic currents in morphogenesis.

Authors:  R Nuccitelli
Journal:  Experientia       Date:  1988-08-15

5.  Biomagnetic detection of injury currents in rabbit ischemic intestine.

Authors:  L Alan Bradshaw; Ornob P Roy; Gavin P O'Mahony; Andrew G Myers; James G McDowell; John P Wikswo; William O Richards
Journal:  Dig Dis Sci       Date:  2005-09       Impact factor: 3.199

6.  Airway epithelial wounds in rhesus monkey generate ionic currents that guide cell migration to promote healing.

Authors:  Yao-Hui Sun; Brian Reid; Justin H Fontaine; Lisa A Miller; Dallas M Hyde; Alex Mogilner; Min Zhao
Journal:  J Appl Physiol (1985)       Date:  2011-06-30

7.  Calcium fluxes at the bone/plasma interface: Acute effects of parathyroid hormone (PTH) and targeted deletion of PTH/PTH-related peptide (PTHrP) receptor in the osteocytes.

Authors:  Christopher Dedic; Tin Shing Hung; Alan M Shipley; Akira Maeda; Thomas Gardella; Andrew L Miller; Paola Divieti Pajevic; Joseph G Kunkel; Alessandro Rubinacci
Journal:  Bone       Date:  2018-07-24       Impact factor: 4.398

Review 8.  Hyponatremia and bone: an emerging relationship.

Authors:  Ewout J Hoorn; George Liamis; Robert Zietse; M Carola Zillikens
Journal:  Nat Rev Endocrinol       Date:  2011-10-25       Impact factor: 43.330

9.  Bicarbonate dependence of ion current in damaged bone.

Authors:  A Rubinacci; A De Ponti; A Shipley; M Samaja; E Karplus; L F Jaffe
Journal:  Calcif Tissue Int       Date:  1996-06       Impact factor: 4.333

10.  Bioelectric modulation of wound healing in a 3D in vitro model of tissue-engineered bone.

Authors:  Sarah Sundelacruz; Chunmei Li; Young Jun Choi; Michael Levin; David L Kaplan
Journal:  Biomaterials       Date:  2013-06-12       Impact factor: 12.479
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