Bio-electrochemical Sensor for Real-time, In Vivo Clinical Tests
- 技術優勢
- Monitors continuously and in real-time for over 5 hours with no significant signal degradationMinimally invasive, sub-millimeter-diameter probe Membrane technology prevents fouling by blood cells
- 技術應用
- In vivo and in vitro clinical testingStudy of patient-dependent pharmacokinetics Study of neuromodulation dynamics
- 詳細技術說明
- UC Santa Barbara researchers have developed a minimally invasive, bio-electrochemical sensor for in vivo clinical tests that selectively measure specific target molecules in blood and tissues in real-time for many hours. The use of membrane technology prevents contact between blood cells and the surface of the sensor, therefore stopping blood clotting and blood or tissue-associated signal degradation over time. The sensor relies on E-AB (electrochemical aptamer-based) sensing, uses flexible and biocompatible materials, and is designed for both short-term and long-term clinical testing.
- *Abstract
-
A minimally invasive, bio-electrochemical sensor for in vivo clinical tests that selectively measures specific target molecules in blood and tissues in real-time for many hours.
- *Principal Investigation
-
Name: Netzahualcoyotl Arroyo Curras
Department:
Name: Jacob Somerson
Department:
Name: Kevin Plaxco
Department:
- 其他
-
Background
The continuous, real-time measurement of specific small molecules in the blood or tissues would be of significant value to researchers and clinicians alike. To achieve improved understanding of neuronal transmission, for example, will require technologies that can measure neurotransmitters and drugs directly in the central nervous system continuously and with good temporal and concentration resolution. Continuous, real-time, highly resolved monitoring of specific molecules in vivo, however, remains a great challenge.
Additional Technologies by these Inventors
- Fluorescent and Electrochemical DNA-Based Switches for Antibody Detection
- Dual-Labeled E-AB Platform for Continuous, Real-Time Monitoring of Small Molecules
- Drift-Free, Self-Calibrated Interrogation Method For Electrochemical Sensors Based On Electron Transfer Kinetics
- Drift-Free and Calibration-Free Measurement of Analytes
Tech ID/UC Case
25593/2016-135-0
Related Cases
2016-135-0
- 國家/地區
- 美國
欲了解更多信息,請點擊 這裡
