Your search keyword '"gastric sensors"' showing total 2 results

1. Dynamic Monitoring of Systemic Biomarkers with Gastric Sensors.

Author

Steiger, Christoph, Phan, Nhi V., Huang, Hen‐Wei, Sun, Haoying, Chu, Jacqueline N., Reker, Daniel, Gwynne, Declan, Collins, Joy, Tamang, Siddartha, McManus, Rebecca, Lopes, Aaron, Hayward, Alison, Baron, Rebecca M., Kim, Edy Y., and Traverso, Giovanni

Subjects

*CRITICALLY ill patient care, *ACUTE kidney failure, *DETECTORS, *OXYGEN saturation, *BIOMARKERS

Abstract

Continuous monitoring in the intensive care setting has transformed the capacity to rapidly respond with interventions for patients in extremis. Noninvasive monitoring has generally been limited to transdermal or intravascular systems coupled to transducers including oxygen saturation or pressure. Here it is hypothesized that gastric fluid (GF) and gases, accessible through nasogastric (NG) tubes, commonly found in intensive care settings, can provide continuous access to a broad range of biomarkers. A broad characterization of biomarkers in swine GF coupled to time‐matched serum is conducted. The relationship and kinetics of GF‐derived analyte level dynamics is established by correlating these to serum levels in an acute renal failure and an inducible stress model performed in swine. The ability to monitor ketone levels and an inhaled anaesthetic agent (isoflurane) in vivo is demonstrated with novel NG‐compatible sensor systems in swine. Gastric access remains a main stay in the care of the critically ill patient, and here the potential is established to harness this establishes route for analyte evaluation for clinical management. [ABSTRACT FROM AUTHOR]

Published

2021

2. Dynamic Monitoring of Systemic Biomarkers with Gastric Sensors

Author

Christoph Steiger, Nhi V. Phan, Hen‐Wei Huang, Haoying Sun, Jacqueline N. Chu, Daniel Reker, Declan Gwynne, Joy Collins, Siddartha Tamang, Rebecca McManus, Aaron Lopes, Alison Hayward, Rebecca M. Baron, Edy Y. Kim, and Giovanni Traverso

Subjects

biomarker monitoring, continuous monitoring, gastric sensors, nasogastric tubes, Science

Abstract

Abstract Continuous monitoring in the intensive care setting has transformed the capacity to rapidly respond with interventions for patients in extremis. Noninvasive monitoring has generally been limited to transdermal or intravascular systems coupled to transducers including oxygen saturation or pressure. Here it is hypothesized that gastric fluid (GF) and gases, accessible through nasogastric (NG) tubes, commonly found in intensive care settings, can provide continuous access to a broad range of biomarkers. A broad characterization of biomarkers in swine GF coupled to time‐matched serum is conducted . The relationship and kinetics of GF‐derived analyte level dynamics is established by correlating these to serum levels in an acute renal failure and an inducible stress model performed in swine. The ability to monitor ketone levels and an inhaled anaesthetic agent (isoflurane) in vivo is demonstrated with novel NG‐compatible sensor systems in swine. Gastric access remains a main stay in the care of the critically ill patient, and here the potential is established to harness this establishes route for analyte evaluation for clinical management.

Published

2021