Controlled-Potential Electromechanical Reshaping of Cartilage.
Bryan M HunterJeremy KallickJessica KisselMaya HerzigCyrus ManuelDmitri ProtsenkoBrian J F WongMichael G HillPublished in: Angewandte Chemie (International ed. in English) (2016)
An alternative to conventional "cut-and-sew" cartilage surgery, electromechanical reshaping (EMR) is a molecular-based modality in which an array of needle electrodes is inserted into cartilage held under mechanical deformation by a jig. Brief (ca. 2 min) application of an electrochemical potential at the water-oxidation limit results in permanent reshaping of the specimen. Highly sulfated glycosaminoglycans within the cartilage matrix provide structural rigidity to the tissue through extensive ionic-bonding networks; this matrix is highly permselective for cations. Our studies indicate that EMR results from electrochemical generation of localized, low-pH gradients within the tissue: fixed negative charges in the proteoglycan matrix are protonated, resulting in chemically induced stress relaxation of the tissue. Re-equilibration to physiological pH restores the fixed negative charges, and yields remodeled cartilage that retains a new shape approximated by the geometry of the reshaping jig.
Keyphrases
- extracellular matrix
- ionic liquid
- gold nanoparticles
- minimally invasive
- single molecule
- risk assessment
- human health
- ultrasound guided
- high resolution
- coronary artery bypass
- acute coronary syndrome
- label free
- stress induced
- diabetic rats
- mass spectrometry
- solid state
- electron transfer
- climate change
- percutaneous coronary intervention
- single cell
- surgical site infection