Author: Hiles LA1, Donoviel DB, Bershad EM.
Affiliation: 1*Department of Pharmacology, Baylor College of Medicine †Center for Space Medicine ‡Department of Neurology and Center for Space Medicine, Baylor College of Medicine, Houston, TX.
Conference/Journal: J Neurosurg Anesthesiol.
Date published: 2015 Mar 24
Other:
Word Count: 187
Our ability to monitor the brain physiology is advancing; however, most of the technology is bulky, expensive, and designed for traditional clinical settings. With long-duration space exploration, there is a need for developing medical technologies that are reliable, low energy, portable, and semiautonomous. Our aim was to review the state of the art for noninvasive technologies capable of monitoring brain physiology in diverse settings. A literature review of PubMed and the Texas Medical Center library sites was performed using prespecified search criteria to identify portable technologies for monitoring physiological aspects of the brain physiology. Most brain-monitoring technologies require a moderate to high degree of operator skill. Some are low energy, but many require a constant external power supply. Most of the technologies lack the accuracy seen in gold standard measures, due to the need for calibration, but may be useful for screening or monitoring relative changes in a parameter. Most of the technologies use ultrasound or electromagnetic radiation as energy sources. There is an important need for further development of portable technologies that can be operated in a variety of extreme environments to monitor brain health.
PMID: 25811362