Title :
Development of a 2D laser scanning system for blood perfusion imaging through curved sections of human forearm
Author :
Ambika, S. ; Archana, H.
Author_Institution :
Dept. of Biomed. Eng., Vel Tech MultTech Dr. R.R. Dr. S.R. Eng. Coll., Chennai, India
Abstract :
Blood flow in microcirculation has found vital role in maintenance of body temperature. Its measurement is vital in the field of skin-vessel reactivity, ageing of skin, micro vascular repair of the ulnar artery and wound healing in association with total elbow replacement. The existing techniques for blood flow measurements like Electromagnetic blood flow measurement, Thermal convection method, Dual radiographie method, Ultrasonic Blood flow measurement and NMR method are not found suitable for measurement of blood flow in microcirculation due to their large size, complexity, invasive nature of measuring element and possibility of radiation exposure to the patient. Hence, a new technology is developed for micro vascular blood flow or velocity measurement using He-Ne laser of wavelength 632.8nm.
Keywords :
blood; blood flow measurement; haemorheology; laser applications in medicine; velocity measurement; 2D laser scanning system development; He-Ne laser; NMR method; blood perfusion imaging; body temperature maintenance; dual radiographie method; electromagnetic blood flow measurement; human forearm curved section; microcirculation; microvascular blood flow; radiation exposure; skin ageing; skin-vessel reactivity; thermal convection method; total elbow replacement; ulnar artery microvascular repair; ultrasonic blood flow measurement; velocity measurement; wavelength 632.8 nm; wound healing; Blood; Blood flow; Doppler effect; Lasers; Measurement by laser beam; Permanent magnet motors; Probes; Interpolation; Laser Doppler Effect; Occlusion; Perfusion Values; Rubber phantom;
Conference_Titel :
Science Engineering and Management Research (ICSEMR), 2014 International Conference on
Print_ISBN :
978-1-4799-7614-0
DOI :
10.1109/ICSEMR.2014.7043577
