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Biomedical Engineering and Bioengineering Commons™
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Articles 1 - 3 of 3
Full-Text Articles in Biomedical Engineering and Bioengineering
Cellular Model Of Hydrogen Peroxide Release: In Preparation For On-Chip Sensor Measurements, Sarah M. Libring, Hannah R. Kriscovich, James K. Nolan, Siddarth V. Sridharan, Jose F. Rivera, David B. Janes, Jenna L. Rickus
Cellular Model Of Hydrogen Peroxide Release: In Preparation For On-Chip Sensor Measurements, Sarah M. Libring, Hannah R. Kriscovich, James K. Nolan, Siddarth V. Sridharan, Jose F. Rivera, David B. Janes, Jenna L. Rickus
The Summer Undergraduate Research Fellowship (SURF) Symposium
Hydrogen peroxide is traditionally associated with cellular damage; however, recent studies show that low levels of H2O2 are released by cells as part of normal intercellular communication. The mechanisms of hydrogen peroxide transport, uptake and release, and biological effects are not yet well known but have important implications for cancer, stem cells, and aging. Standard H2O2 assays cannot make spatially or temporally resolved quantitative measurements at a cellular scale. Previously we developed a microelectrode array (MEA) and calibration methods for quantifying H2O2 gradients in space and time. The sensor was validated …
Towards In Situ Measurements Of Platinum Dissolution Using Metallothionein-Based Biosensor, Stephanie Cernera, Hyowon Lee
Towards In Situ Measurements Of Platinum Dissolution Using Metallothionein-Based Biosensor, Stephanie Cernera, Hyowon Lee
The Summer Undergraduate Research Fellowship (SURF) Symposium
Platinum-based (Pt) electrodes are used ubiquitously in neurostimulation for their high charge capacity and safety. However, Pt electrodes are known to dissolve during stimulation in the presence of chloride (Cl) to form Pt-Cl byproducts. These byproducts may have deleterious effects on surrounding tissue by preventing cell division and causing apoptosis. Several studies have quantified the amount of neurostimulation-induced Pt dissolution in vivo using various analytical methods; however, these approaches require disruptive sampling of tissue. Periodic measurements from a stimulating electrode using an in situ sensor may provide additional insights into Pt dissolution process. To create the sensor for detecting Pt …
The Role Of Metal Oxide Layers In The Sensitivity Of Lactate Biosensors Subjected To Oxygen-Limited Conditions, Elizabeth Andreasen, Lia Stanciu, Aytekin Uzunoglu
The Role Of Metal Oxide Layers In The Sensitivity Of Lactate Biosensors Subjected To Oxygen-Limited Conditions, Elizabeth Andreasen, Lia Stanciu, Aytekin Uzunoglu
The Summer Undergraduate Research Fellowship (SURF) Symposium
Amperometric lactate biosensors are used to detect lactate concentration in blood and tissues, which is integral in identifying cyanide poisoning, septic shock, and athletic condition. The construction of lactate biosensors with high sensitivity, selectivity, and stability is imperative to diagnose and determine these medical conditions. Lactate detection is currently limited to oxygen-rich environments due to the fact that oxygen is a limiting factor in the lactate reaction. To circumvent this problem, researchers have developed mediators or alternate, oxygen-free enzymes to improve sensitivity. In our study, ceria (CeO2) with high oxygen storage capacity (OSC) was introduced to the enzyme …