Non-invasive Electroarthrography Measures Load-Induced Cartilage Streaming Potentials via Electrodes Placed on Skin Surrounding an Articular Joint
| Autor: | Karen D. Gordon, Pierre Savard, Adele Changoor, M. Garon, E. Quenneville, Shelley B. Bull, Mark Hurtig, Michael D. Buschmann |
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| Rok vydání: | 2020 |
| Předmět: |
Cartilage
Articular Materials science Biomedical Engineering Physical Therapy Sports Therapy and Rehabilitation Streaming current Load bearing Weight-Bearing Extracellular matrix 03 medical and health sciences 0302 clinical medicine medicine Animals Immunology and Allergy Horses Electrodes Cartilage degeneration Clinical Research papers 030203 arthritis & rheumatology Cartilage Osmolar Concentration Non invasive Biomechanics 030229 sport sciences medicine.anatomical_structure Proteoglycans Early osteoarthritis Biomedical engineering |
| Zdroj: | Cartilage |
| ISSN: | 1947-6043 1947-6035 |
| Popis: | Objective We aimed to demonstrate that electroarthrography (EAG) measures streaming potentials originating in the cartilage extracellular matrix during load bearing through electrodes adhered to skin surrounding an articular joint. Design Equine metacarpophalangeal joints were subjected to simulated physiological loads while (1) replacing synovial fluid with immersion buffers of different electrolyte concentrations and (2) directly degrading cartilage with trypsin. Results An inverse relationship between ionic strength and EAG coefficient was detected. Compared to native synovial fluid, EAG coefficients increased ( P < 0.05) for 5 of 6 electrodes immersed in 0.1X phosphate-buffered saline (PBS) (0.014 M NaCl), decreased ( P < 0.05) for 4 of 6 electrodes in 1X PBS (0.14 M NaCl), and decreased ( P < 0.05) for all 6 electrodes in 10X PBS (1.4 M NaCl). This relationship corresponds to similar studies where streaming potentials were directly measured on cartilage. EAG coefficients, obtained after trypsin degradation, were reduced ( P < 0.05) in 6 of 8, and 7 of 8 electrodes, during simulated standing and walking, respectively. Trypsin degradation was confirmed by direct cartilage assessments. Streaming potentials, measured by directly contacting cartilage, indicated lower cartilage stiffness ( P < 10−5). Unconfined compression data revealed reduced Em, representing proteoglycan matrix stiffness ( P = 0.005), no change in Ef, representing collagen network stiffness ( P = 0.15), and no change in permeability ( P = 0.24). Trypsin depleted proteoglycan as observed by both dimethylmethylene blue assay ( P = 0.0005) and safranin-O stained histological sections. Conclusion These data show that non-invasive EAG detects streaming potentials produced by cartilage during joint compression and has potential to become a diagnostic tool capable of detecting early cartilage degeneration. |
| Databáze: | OpenAIRE |
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