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Article Abstract
The intracranial measurement of local cerebral tissue oxygen levels-PbtO-has become a useful tool for the critical care unit to investigate severe trauma and ischemia injury in patients. Our preliminary work in animal models supports the hypothesis that multi-site depth electrode recording of PbtO may give surgeons and critical care providers needed information about brain viability and the capacity for better recovery. Here, we present a surface morphology characterization and an electrochemical evaluation of the analytical properties toward oxygen detection of an FDA-approved, commercially available, clinical grade depth recording electrode comprising 12 Pt recording contacts. We found that the surface of the recording sites is composed of a thin film of smooth Pt and that the electrochemical behavior evaluated by cyclic voltammetry in acidic and neutral electrolyte is typical of polycrystalline Pt surface. The smoothness of the Pt surface was further corroborated by determination of the electrochemical active surface, confirming a roughness factor of 0.9. At an optimal working potential of -0.6 V vs. Ag/AgCl, the sensor displayed suitable values of sensitivity and limit of detection for PbtO measurements. Based on the reported catalytical properties of Pt toward the electroreduction reaction of O, we propose that these probes could be repurposed for multisite monitoring of PbtO in the human brain.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7407998 | PMC |
| http://dx.doi.org/10.3390/mi11070632 | DOI Listing |
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