Title :
Optoacoustic Imaging of Subcutaneous Microvasculature With a Class one Laser
Author :
Bost, Wolfgang ; Lemor, Robert ; Fournelle, M.
Author_Institution :
Biomed. Ultrasound Res., Fraunhofer Inst. for Biomed. Eng. (IBMT), St. Ingbert, Germany
Abstract :
We developed a combined imaging platform allowing optoacoustic and ultrasound imaging based on a low energy laser and a handheld probe. The device is based on a sensitive single element 35-MHz focused transducer, a 2-D piezoscanner and a dual-wavelength switchable Nd:YAG laser. Acoustical detection and optical illumination are confocal for optimization of optoacoustic signal-to-noise ratio. The system allows to scan over a range up to 12 mm ×12 mm in xy-direction with an isotropic lateral resolution of about 90 μm. Although the device is a class 1 laser product having pulse energies in the range, in vivo images of subcutaneous microvasculature could be obtained from human skin with signal-to-noise levels as good as 20 dB.
Keywords :
biomedical optical imaging; biomedical transducers; biomedical ultrasonics; blood vessels; laser applications in medicine; photoacoustic effect; piezoelectric devices; skin; ultrasonic transducers; 2D piezoscanner; YAG:Nd; acoustical detection; class one laser; combined imaging platform development; dual-wavelength switchable Nd:YAG laser; frequency 35 MHz; handheld probe; human skin; in vivo images; isotropic lateral resolution; low energy laser; optical illumination; optoacoustic imaging; optoacoustic signal-to-noise ratio optimization; pulse energy range; sensitive single element focused transducer; signal-to-noise levels; size 12 mm; subcutaneous microvasculature; ultrasound imaging; Acoustics; Lasers; Optical fibers; Optical imaging; Skin; Transducers; Low pulse energy; microvascular imaging; optoacoustic techniques; photoacoustic techniques;
Journal_Title :
Medical Imaging, IEEE Transactions on
DOI :
10.1109/TMI.2014.2326552
