A non-invasive, real-time, in vivo imaging procedure has been developed for directly determining the spatial distributions of blood flow, by measuring the infrared (IR) emission from the skin of an individual. The procedure does not require direct contact between the instrument and the patient. The imaging system utilizes an IR imaging camera, and a computer to store the stream of two-dimensional images and analyze data for calculating the distribution of low frequency oscillations of temperature. Patients were adapted to room temperature over 20 min and, after that, remained immobile for one min (to obtain the blood flow distribution image) and/or 5-20 min minutes during data acquisition for assessment of low frequency vasomotion. Data analyses were performed later using computer software developed in the laboratory. Measurements were made from the palmar surface of the hand or forearm. IR demonstrated dose-response patterns of spatial and temporal distribution of blood flow during acetylcholine, sodium nitroprusside and L-arginine infusions in real time. Preliminary data showed that IR- and plethysmography-derived hyperemia indexes were significantly correlated. These noninvasive tests require no special illumination, and can be used to assess microvascular recruitment and vascular tone in the periphery vascular bed.

Project Start
Project End
Budget Start
Budget End
Support Year
3
Fiscal Year
2010
Total Cost
$142,261
Indirect Cost
Name
National Institute of Biomedical Imaging and Bioengineering
Department
Type
DUNS #
City
State
Country
Zip Code
Chang, Ken; Yoon, Stephen; Sheth, Niral et al. (2015) Rapid vs. delayed infrared responses after ischemia reveal recruitment of different vascular beds. Quant Infrared Thermogr J 12:173-183
Rowley, Carol A; Ikeda, Allison K; Seidel, Miles et al. (2014) Microvascular oxygen consumption during sickle cell pain crisis. Blood 123:3101-4
Gorbach, Alexander M; Ackerman, Hans C; Liu, Wei-Min et al. (2012) Infrared imaging of nitric oxide-mediated blood flow in human sickle cell disease. Microvasc Res 84:262-9