Physiological sensing through tissue with femto-second laser radiation

Author

Parigger, Christian G. ; Johnson, Jacqueline A. ; Splinter, Robert

Author_Institution

Center for Laser Applic., Univ. of Tennessee, Tullahoma, TN, USA

fYear

2012

fDate

12-14 Dec. 2012

Firstpage

197

Lastpage

201

Abstract

Application of femtosecond radiation for optical diagnostics through biological media offers opportunities for minimally invasive therapeutic applications. Interrogation of soft tissue behind hard tissue (e.g. bone) becomes feasible. The optical interaction for a femto second laser pulse is investigated with a hydroxyapatite fixture in representation of bone. Photo-acoustic spectroscopy is preferably applied for the identification and determination of location of optical anomalies in an otherwise homogeneous medium. Application of opto acoustic imaging presents an advantageous mechanism-of-action for imaging through, for instance bone, specifically applied to brain tumors. Furthermore, increase in irradiance levels allows us to use femto second laser radiation for therapy.

Keywords

biomedical optical imaging; high-speed optical techniques; laser applications in medicine; photoacoustic spectroscopy; radiation therapy; tumours; biological media; biological tissue; brain tumor; femtosecond laser radiation therapy; hard tissue; hydroxyapatite fixture; minimally invasive therapeutic application; optical diagnostics; opto acoustic imaging; photo-acoustic spectroscopy; physiological sensing; soft tissue; Biomedical optical imaging; Image resolution; Iron; Particle beam optics; Size measurement; Ultrafast optics; Volume measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

High Capacity Optical Networks and Enabling Technologies (HONET), 2012 9th International Conference on

Conference_Location

Istanbul

Print_ISBN

978-1-4673-2891-3

Type

conf

DOI

10.1109/HONET.2012.6421463

Filename

6421463