Development of a Wireless Sensor for the Measurement of Chicken Blood Flow Using the Laser Doppler Blood Flow Meter Technique

被引:18
|
作者
Nishihara, Kei [1 ]
Iwasaki, Wataru [1 ]
Nakamura, Masaki [1 ]
Higurashi, Eiji [2 ]
Soh, Tomoki [3 ]
Itoh, Toshihiro [4 ]
Okada, Hironao [4 ]
Maeda, Ryutaro [4 ]
Sawada, Renshi [1 ,5 ]
机构
[1] Kyushu Univ, Grad Sch Syst Life Sci, Fukuoka 8128581, Japan
[2] Univ Tokyo, Res Ctr Adv Sci & Technol, Tokyo 1130033, Japan
[3] Kyushu Univ, Grad Sch Bioresource & Bioenvironm Sci, Fukuoka 8128581, Japan
[4] Adv Ind Sci & Technol, Ibaraki 3058566, Japan
[5] Kyushu Univ, Dept Intelligent Machinery & Syst, Fukuoka 8128581, Japan
来源
IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING | 2013年 / 60卷 / 06期
基金
日本科学技术振兴机构;
关键词
Avian influenza; blood flow; laser Doppler; low power consumption; microsensor; wireless; INFLUENZA-A H5N1; VIRUSES;
D O I
10.1109/TBME.2013.2241062
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Here, we report the development of an integrated laser Doppler blood flow micrometer for chickens. This sensor weighs only 18 g and is one of the smallest-sized blood flow meters, with no wired line, these are features necessary for attaching the sensor to the chicken. The structure of the sensor chip consists of two silicon cavities with a photo diode and a laser diode, which was achieved using the microelectromechanical systems technique, resulting in its small size and significantly low power consumption. In addition, we introduced an intermittent measuring arrangement in the measuring system to reduce power consumption and to enable the sensor to work longer. We were successfully able to measure chicken blood flow for five consecutive days, and discovered that chicken blood flow shows daily fluctuations.
引用
收藏
页码:1645 / 1653
页数:9
相关论文
共 50 条
  • [21] Repeatability of Doppler ultrasonographic measurement of equine digital blood flow
    Menzies-Gow, Nicola J.
    Marr, Celia M.
    VETERINARY RADIOLOGY & ULTRASOUND, 2007, 48 (03) : 281 - 285
  • [22] Comparison of red and green laser Doppler imaging of blood flow
    Murray, AK
    Gorodkin, RE
    Moore, TL
    Gush, RJ
    Herrick, AL
    King, TA
    LASERS IN SURGERY AND MEDICINE, 2004, 35 (03) : 191 - 200
  • [23] LASER DOPPLER MEASUREMENTS OF CUTANEOUS BLOOD-FLOW IN AGING MICE AND RATS
    MONTEIRORIVIERE, NA
    BANKS, YB
    BIRNBAUM, LS
    TOXICOLOGY LETTERS, 1991, 57 (03) : 329 - 338
  • [24] A LASER DOPPLER SCANNER FOR IMAGING BLOOD-FLOW IN SKIN
    ESSEX, TJH
    BYRNE, PO
    JOURNAL OF BIOMEDICAL ENGINEERING, 1991, 13 (03): : 189 - 194
  • [25] High-speed laser Doppler imaging of blood flow in biological tissue
    Serov, Alexandre
    Lasser, Theo
    SARATOV FALL MEETING 2005: OPTICAL TECHNOLOGIES IN BIOPHYSICS AND MEDICINE VII, 2006, 6163
  • [26] 32x32 pixel array complementary metal-oxide semiconductor imaging sensor for laser Doppler blood-flow measurement
    He, Diwei
    Kongsavatsak, Chayut
    Hayes-Gill, Barrie R.
    Crowe, John A.
    Morgan, Stephen P.
    OPTICAL ENGINEERING, 2011, 50 (05)
  • [27] SIGNAL-PROCESSING FOR A LASER-DOPPLER BLOOD PERFUSION METER
    KOELINK, MH
    DEMUL, FFM
    LEERKOTTE, B
    GREVE, J
    JENTINK, HW
    GRAAFF, R
    DASSEL, ACM
    AARNOUDSE, JG
    SIGNAL PROCESSING, 1994, 38 (02) : 239 - 252
  • [28] Laser speckle technique for monitoring of blood and lymph flow
    Fedosov, IV
    Tuchin, VV
    ALT'03 INTERNATIONAL CONFERENCE ON ADVANCED LASER TECHNOLOGIES: BIOMEDICAL OPTICS, 2003, 5486 : 148 - 153
  • [29] LASER DOPPLER VELOCIMETRY OF TRACHEAL BLOOD-FLOW IN SHEEP
    LIN, VW
    KRAMER, GC
    PARSONS, GH
    CROSS, CE
    RESPIRATION PHYSIOLOGY, 1991, 85 (03): : 341 - 354
  • [30] A Circularly Polarised Antenna for a Wireless Blood-Flow Sensor
    El Atrash, Mohamed
    Wang, Yi
    2014 IEEE MTT-S INTERNATIONAL MICROWAVE WORKSHOP SERIES ON RF AND WIRELESS TECHNOLOGIES FOR BIOMEDICAL AND HEALTHCARE APPLICATIONS (IMWS-BIO), 2014,
12345