Geoffrey S. F. Ling M.D.,1 Ronald G. Riechers Sr.,2 Krishna M. Pasala,3 Seth M. Zeidman,4 Peter Rhee,4 William P. Wiesmann5
1Uniformed Services Univ. of the Health Sciences (United States) 2Spectra Research, Inc. (United States) 3Univ. of Dayton (United States) 4Uniformed Services Univ. of Health Sciences (United States) 5BioSTAR, Inc. (United States)
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A novel method for identifying and localizing brain hemorrhage is presented. This method uses electromagnetic waves in the microwave and RF region and a modified algorithm previously used for the estimation of the angle of arrival of radar signals. Results are presented applying this device for detecting epidural and intracerebroventricular hemorrhages in anesthetized pig.
Geoffrey S. F. Ling M.D.,Ronald G. Riechers Sr.,Krishna M. Pasala,Seth M. Zeidman,Peter Rhee, andWilliam P. Wiesmann
"In-vivo validation of a novel intracranial hemorrhage detector using microwaves", Proc. SPIE 3712, Battlefield Biomedical Technologies, (13 July 1999); https://doi.org/10.1117/12.353019
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Geoffrey S. F. Ling M.D., Ronald G. Riechers Sr., Krishna M. Pasala, Seth M. Zeidman, Peter Rhee, William P. Wiesmann, "In-vivo validation of a novel intracranial hemorrhage detector using microwaves," Proc. SPIE 3712, Battlefield Biomedical Technologies, (13 July 1999); https://doi.org/10.1117/12.353019